SlideShare ist ein Scribd-Unternehmen logo

biology of cancer

Als PPT, PDF herunterladen
KAUSHAL SAHU
KAUSHAL SAHU

Introduction Tumours Types of Tumours Formation of Tumours How cancer cell differ from normal cells Classification of cancer The causes of cancer Viruses and Cancer Cancer and Gene: A. Oncogene B. Tumours suppressor gene Detection and Diagnosis Therapy of cancer How can cancer are prevented Conclusion References

Wissenschaft
1 von 38
By KAUSHAL KUMAR SAHU Assistant Professor (Ad Hoc) Department of Biotechnology Govt. Digvijay Autonomous P. G. College Raj-Nandgaon ( C. G. )
 Synopsis:- • Introduction •Tumours •Types of Tumours •Formation of Tumours •How cancer cell differ from normal cells •Classification of cancer •The causes of cancer •Viruses and Cancer • Cancer and Gene: A. Oncogene B. Tumours suppressor gene •Detection and Diagnosis • Therapy of cancer •How can cancer are prevented •Conclusion •References
• The term cancer, which means “crab” in Latin, was coined by Hippocrates in the fifth century B.C.to describe diseases in which tissues grow and spread unrestrained throughout the body eventually choking off life. • Cancer can originate in almost any tissue of the body. • Somatic cell of higher eukaryote has limited life span and their growth and division and growth and an ability to grow in appropriate location. This are said to be cancerous or tumorigenic cell and they produce cancer. • Cancer results from a breakdown of the regulatory mechanism that governs the division,differentiation and survival of individual cells. As a result of the loss of regulation, cancer cells grow and divide in an uncontrolled manner. Introduction:-
• The cells which undergo rapid, abnormal and uncontrolled growth at the cost of remaining cells are called neoplastic cells. These proliferating cells form a mass of undifferentiated cells.This cell mass is called tumour or neoplasm or cancerous growth. OR • Cancer is actually a group of diseases that involve uncontrolled division of cells.These cells also lose their attachments to other cells and are capable of moving around. These properties permit the spread of cancerous cells throughout the body. Definition:-
Tumours:- Types of Tumours:-
• Benign tumours have slow growing cells contained within layer of connective tissue. • Benign tumours can be removed effectively by surgery. They usually don’t reappear. • Benign tumours remain localized in a specific area at the site of origin forming a single mass enclosed in a capsule. Usually these are not fatal. a. Benign Tumours:-
• Malignant tumours are cancerous. • Their cells are poorly differentiated with high rate of mitosis, nuclear polymorphism and abnormal mitosis. • Malignant tumors are a more serious problem because they can invade surrounding tissues and enter into the circulatory system allowing them to spread to distant parts of the body by the process of metastasis. • The movement of malignant cells form their original site to other body areas is called metastasis. b. Malignant Tumours:-
Fig:- Diagram showing non malignant(benign) and malignant [www.google.com]
Generally cancer cells are produced due to following 3 types of changes:- a. Immortalization : Acquisition of property of indefinite growth by animal cell is terme immortalization. b. Transformation : conversion of normal mammalian cell into a cell with cancer like properties usually by a virus or other cancer causing agents. c. Metastasis : When the tumours become malignant its cell detach and migrate to other part of body where they produce secondary tumour this phenomena is called metastasis.
Fig. Steps in the process of metastasis [Cell and molecular biology -Lewis J.Kleinsmith ]
• Tumor formations is multi stage process, and require several steps, which is then followed by further changes to strengthen the tumorigenic state. 1. Tumor initiation (Due to genetic alteration & cell proliferation) 2. Tumor progression (Tumor progresses with mutation) 3. Clonal selection (Selection of rapid growing cell & they become dominant within tumor, producing mutated cells)  Formation of Tumor:- o STEPS ARE:-
Fig.Cancer cell formation[www.wikipedia.co m]
Fig- Showing tumor formation[Gene 9- Benjamin Lewin]
Signs and symptoms:- Symptoms of cancer metastasis depend on the location of the tumor. o Cancer symptoms can be divided into three groups:- • Local symptoms : unusual lumps or swelling (tumor), hemorrhage (bleeding), pain • Symptoms of metastasis(spreading) : enlarged lymph nodes and hemoptysis, hepatomegaly(enlarged liver),bone pain, fracture of affected bones and neurological symptoms. •Systemic symptoms : weight loss, poor appetite, excessive sweating (night sweats), anemia and specific paraneoplastic phenomena, i.e. specific conditions that are due to an active cancer, such as thrombosis or hormonal changes.
 How cancer cell differ from normal cells:- • The nucleus of cancer cells are usually enlarged and have irregularly distributed chromatin. The interchromatin and perichromatin granules which are formed of RNA and proteins are more abundant in the nucleus of cancer cells. The nucleolus of cancer cells displays hypertrophy. It becomes more irregular and enlarged. Sometimes several nucleoli may be present in the nucleus of cancer cells. • The ergsatoplasm and ribosomes are more abundant in cancer cell. • The normal cells have a cytoskeleton of microtubules and microfilaments arranged in some regular fashion and help in coordinated cell movement. In cancer cells, the cytoskeleton undergoes depolymerization and disintegration, thus cells become independent and their movements uncoordinated.
[www.google.com]
Classification of Cancer:- • Cancers can be classified on the basis of the original tissue from where they arose:- o Carcinoma: which are the most common types of cancer, arise form the epithelial cells that cover external and internal body surfaces. • Lung, breast, prostate, and colon cancer are the most frequent cancers of this type. o Sarcoma: Origin in supporting connective tissues of mesoderm origin, such as bone, cartilage, fat, connective tissue and muscle. o Lymphoma and leukemia’s : arise from cells of blood and lymphate origin. • These are tumours of the haematopoeitic cells.
THE CAUSES OF CANCER:- • Cancer is ultimately the result of cells that uncontrollably grow and do not die. • Normal cells in the body follow an orderly path of growth, division, and death.Programmed cell death is called apoptosis, and when this process breaks down,cancer begins to form. A. Heredity:- • Most forms of cancer are sporadic, meaning that there is no inherited cause of the cancer. • There are, however, a number of recognised syndromes where there is an inherited predisposition to cancer, often due to a defect in a gene that protects against tumor formation. • Examples:-Familial adenomatous polyposis an inherited mutation of the APC gene that leads to early onset of colon carcinoma. •Retinoblastoma, when occurring in young children, is due to a hereditary mutation in the retinoblastoma gene.
• Chromosomal aberration occurring in somatic cell, non-reproductive cells, results somatic mutation. • The abnormal chromosome helps the somatic cells to get transformed into cancer. C. Chromosomal Aberrations:- •. Chromosomes are observed best at the metaphase stage of cell division because the chromosomes are most condensed at this stage. • .In human chromosomal abnormalities of tumours include both number and structure. • During anaphase of mitosis , one/many chromosome fail to migrate at distant places resulting in production of daughter cells which may be trisomic(containing both of the chromosomes of a pair i.e.2n+1)or monosomic (devoid of a pair of chromosome i.e.2n-1) B. Somatic and Multiple mutations:-
• The environmental factors that are the probable cause of cancer include ionizing radiations,diets, personal habits, occupation, smoking, etc. All the agents that cause cancer are known as carcinogens. • UV light and IFR break chromosomes and delete the genetic material resulting in Changes in genes. Occasionally; the damaged cells are also killed. This results in cancer. D. Environmental factors:-
Fig. Effects of ionizing radiation on (A) Normal cells(B)cancer cells[www.wikipedia.com]
E. Chemicals:- • The incidence of lung cancer is highly correlated with smoking. • Cancer pathogenesis is traceable back to DNA mutations that impact cell growth and metastasis.Substances that cause DNA mutations are known as mutagens, and mutagens that cause cancers are known as carcinogens. Viruses and Cancer:- • Certain families of viruses can infect vertebrate cells and transform them into cancer cells. • The transforming viruses have been divided into two groups :- a. DNA tumour viruses b. RNA tumour viruses • On the basis of their genomic nucleic acid.
• Transformation by a virus may be defined as:-Changes in the biologic function of a cell that result from regulation of the cell by viral genes and that confer on the infected cell certain properties characteristic of neoplasia. These changes often (but not always) result from integration of the viral genome into the host cell genome. • DNA tumour viruses :- The viruses that contain DNA as their genetic material and induce tumour are called DNA tumour viruses. • For example :- Papova viruses (SV 40, polyoma and papilloma-viruses), Adenoviruses, Herpes viruses, Poxviruses and hepatitis B virus. • RNA tumour viruses (Retroviruses):-All RNA tumour viruses belong to the retrovirus family. • They cause adult T-cell leukemia in humans.
Cancer and gene:- • Cancer are the result of a disruption of the normal restraints on cellular proliferation. • It is apparent that the number of way in which such disruption can occur is strictly limited and there may be as few as forty cellular genes in which mutation or some other disruption of their expression leads to unrestrained cell growth. • There are two classes of these genes in which altered expression can lead to loss of growth control:- (A)Oncogene (B)Tumour suppressor gene
(A) Oncogene:- • Those genes that are stimulatory for growth and which cause cancer when hyperactive.mulations in these genes will be dominant.These genes are called oncogens. • The name is derived from the Greek word oncos, meaning bulk or mass, because of the ability to cause tumor growth. • The oncogene was discovered in 1970 and was termed src (sarcoma). Src was first disease as an oncogene in a chicken virus. • When proto-oncogene mutated [changes] into one oncogene, it become permanently “Turned on” or activated when it is not supposed to be. When this occurs, the cell divides so quickly, this can lead to cancer • Activation of proto-oncogenes by point mutation,amplification or dysregulation converts the proto- oncogenes into oncogenes(tumour-causing genes)
Fig- Showing ‘turning on’ of oncogene.[www.oncogene.com]
(B)Tumour suppressor gene:- • Those genes that inhibit cell growth and which cause cancer when they are turned off.Mutations in these will be recessive.These are the anti-oncogenes or tumour suppressor gene. • When tumor suppressor genes don’t work properly, cells can grow out of control, which can lead to cancer or malignancy.  EXAMPLES OF TUMOR SUPPRESSOR GENES:- 1) RB-the Retinoblastoma gene:- Retinoblastoma is a cancerous tumor of the retina i.e. a childhood disease in which tumor form at retina.
Also, two gene homologous to RB have their protein products, p107 & p130 (based on mass), and they also play key roles in cell-cycle regulation. Fig:-A child with retinoblastoma.[www.oncogene.com] It occurs in two forms:- •Familial Retinoblastoma •Sporadic Retinoblastoma
[fig.showing pathognesis of retinoblastomawww.kbiotech.com]
2) p53 (guardian of the Genome) • Another major tumour suppressor gene is called p53 a gene that is more frequently mutated in human cancer that any other known gene. • The product of this gene is a cell cycle inhibitor.
Detection and Diagnosis:- • Cancer diagnosis is based on the characteristic histological features of malignant cells. Blood tests for abnormal WBCs and bone marrow biopsy are also used. • Non -invasive techniques like X-rays (using injected dyes),CT scans and MRI scans can be used to detect cancers of internal organs like kidneys and pancreas. • Modern techniques monitor and detect the molecular changes that occur in cancer cells.Monoclonal antibodies against cancer specific antigens are coupled to appropriate radioistopes.These antibodies are then used for detection of cancer.
Therapy of cancer: - • Treatments usually fall into one of the following categories: surgery, radiation, chemotherapy, immunotherapy, hormone therapy, or gene therapy. A. Surgery:- • Surgery is the oldest known treatment for cancer. • If a cancer has not metastasized, it is possible to completely cure a patient by surgically removing the cancer from the body.
• Radiation treatment, also known as radiotherapy, destroys cancer by focusing high-energy rays on the cancer cells. • Radiotherapy utilizes high-energy gamma-rays that are emitted from metals such as radium or high-energy x-rays that are created in a special machine. B. Radiation:-
C. Chemotherapy:- • Chemotherapy utilizes chemicals that interfere with the cell division process-damaging proteins or DNA -so that cancer cells will commit suicide. D. Immunotherapy:- • Immunotherapy aims to get the body's immune system to fight the tumor. • Systemic immunotherapy treats the whole body by administering an agent such as the protein interferon alpha that can shrink tumors.
• Hormone therapy is designed to alter hormone production in the body so that cancer cells stop growing or are killed completely. • Breast cancer hormone therapies often focus on reducing estrogen levels and prostate cancer hormone therapies often focus on reducing testosterone levels. • Gene therapy is to replace damaged genes with ones that work to address a root cause of cancer: damage to DNA. E. Hormone therapy:- F. Gene therapy:-
• Cancers that are closely linked to certain behaviors are the easiest to prevent. • For example, choosing not to smoke tobacco or drink alcohol significantly lower the risk of several types of cancer – most notably lung, throat, mouth, and liver cancer. • Skin cancer can be prevented by staying in the shade, protecting yourself with a hat and shirt when in the sun, and using sunscreen. • Certain vaccinations have been associated with the prevention of some cancers. • For example, Hepatitis B vaccines prevent the hepatitis B virus, which can cause liver cancer. How can cancer be prevented:-
• Cancer is a collection of disease in which cell growth and division are unregulated. • Cancer is a lethal disease; it is caused due to various agents or by cellular or viral oncogene conversion. • Cancer cell loss the regulatory function and start to proliferate uncontrollably. • Through various mechanisms a proto-oncogene can be converted into infections ‘oncogene’ which leads to cause cancer. Failure of ‘tumor suppressor gene’ also causes cancer. Conclusion:-
S. NO BOOKS AUTHORS 1 Gene IX Benjamin Lewin 2 The cell –A Molecular Approach- 4th edition Geoffery M. Cooper Robert E. Hausmen. 3 Molecular genetics of cancer 2nd edition C. B powar 4 Principle of cell and molecular biology Lewis J. kleinsmith Valerie M. 5 Molecular biology 4th edition Gerald karp •References :- www.google.com www.wikipedia.com www.kbotech.com www.oncogene.com •INTERNET

Empfohlen

Biology of cancer
Biology of cancer Biology of cancer
Biology of cancer AnishaMukherjee5
 
biology of cancer
biology of cancerbiology of cancer
biology of cancerPrashantSharma807
 
Cancer biology
Cancer biologyCancer biology
Cancer biologyRAJENDRA SINGH
 
Oncogenes
Oncogenes Oncogenes
Oncogenes VISHAKHA UPADHYAY
 
ONCOGENE AND TUMOUR SUPPRESSOR GENE
ONCOGENE AND TUMOUR SUPPRESSOR GENEONCOGENE AND TUMOUR SUPPRESSOR GENE
ONCOGENE AND TUMOUR SUPPRESSOR GENEKoppala RVS Chaitanya
 
Cancer biology
Cancer biologyCancer biology
Cancer biologyDomina Petric
 
Cancer Biology
Cancer Biology Cancer Biology
Cancer Biology Amany Elsayed
 
tumor suppressor gene, prb, p53
tumor suppressor gene, prb, p53tumor suppressor gene, prb, p53
tumor suppressor gene, prb, p53KAUSHAL SAHU
 

Empfohlen

Biology of cancer
Biology of cancer Biology of cancer
Biology of cancer AnishaMukherjee5
 
biology of cancer
biology of cancerbiology of cancer
biology of cancerPrashantSharma807
 
Cancer biology
Cancer biologyCancer biology
Cancer biologyRAJENDRA SINGH
 
Oncogenes
Oncogenes Oncogenes
Oncogenes VISHAKHA UPADHYAY
 
ONCOGENE AND TUMOUR SUPPRESSOR GENE
ONCOGENE AND TUMOUR SUPPRESSOR GENEONCOGENE AND TUMOUR SUPPRESSOR GENE
ONCOGENE AND TUMOUR SUPPRESSOR GENEKoppala RVS Chaitanya
 
Cancer biology
Cancer biologyCancer biology
Cancer biologyDomina Petric
 
Cancer Biology
Cancer Biology Cancer Biology
Cancer Biology Amany Elsayed
 
tumor suppressor gene, prb, p53
tumor suppressor gene, prb, p53tumor suppressor gene, prb, p53
tumor suppressor gene, prb, p53KAUSHAL SAHU
 
stem cells and cancer stem cells
stem cells and cancer stem cells stem cells and cancer stem cells
stem cells and cancer stem cellsMarwa Khalifa
 
Somatic cell genetics
Somatic cell geneticsSomatic cell genetics
Somatic cell geneticsKAUSHAL SAHU
 
Biology of cancer - oncology
Biology of cancer - oncology Biology of cancer - oncology
Biology of cancer - oncology Sijo A
 
Tumour supressor gene
Tumour supressor geneTumour supressor gene
Tumour supressor geneGopi krishna Giri
 
Genetic basis of cancer
Genetic basis of cancerGenetic basis of cancer
Genetic basis of cancerIkram Ullah
 
Oncogenes
Oncogenes Oncogenes
Oncogenes Dhanya K C
 
Oncogene
OncogeneOncogene
OncogeneBAlbeer Singh
 
Cyclin dependent kinases
Cyclin dependent kinasesCyclin dependent kinases
Cyclin dependent kinasesMandira bhosale
 
Cancer Biology
Cancer BiologyCancer Biology
Cancer BiologyJulfikar Saif
 
Molecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for studentsMolecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for studentsthirupathiSathya
 
Molecular Genetics of Cancer
Molecular Genetics of CancerMolecular Genetics of Cancer
Molecular Genetics of CancerNeha Vats
 
Epigenetic in Cancer
Epigenetic in CancerEpigenetic in Cancer
Epigenetic in CancerAbeer Ibrahim
 
Cancer cell biology
Cancer cell biologyCancer cell biology
Cancer cell biologyDr. Binu Babu Nursing Lectures Incredibly Easy
 
Oncogenesis
OncogenesisOncogenesis
OncogenesisMD Specialclass
 
Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes rakhavem
 
Development of cancer
Development of cancerDevelopment of cancer
Development of cancerMerlyn Denesia
 
Carcinogenesis
CarcinogenesisCarcinogenesis
Carcinogenesismohit rulaniya
 
Cell senescence
Cell senescenceCell senescence
Cell senescenceShreya Feliz
 
Knock out technology (final)
Knock out technology (final)Knock out technology (final)
Knock out technology (final)Dr Vijayata choudhary
 
Hallmarks in cancer
Hallmarks in cancerHallmarks in cancer
Hallmarks in cancerPrabhu Thirusangu
 
Cancer CSIR-NET.pptx
Cancer CSIR-NET.pptxCancer CSIR-NET.pptx
Cancer CSIR-NET.pptxBarunKrAri
 
Cancer
CancerCancer
CancerArun Kumar
 

Weitere ähnliche Inhalte

Was ist angesagt?

stem cells and cancer stem cells
stem cells and cancer stem cells stem cells and cancer stem cells
stem cells and cancer stem cellsMarwa Khalifa
 
Somatic cell genetics
Somatic cell geneticsSomatic cell genetics
Somatic cell geneticsKAUSHAL SAHU
 
Biology of cancer - oncology
Biology of cancer - oncology Biology of cancer - oncology
Biology of cancer - oncology Sijo A
 
Genetic basis of cancer
Genetic basis of cancerGenetic basis of cancer
Genetic basis of cancerIkram Ullah
 
Cyclin dependent kinases
Cyclin dependent kinasesCyclin dependent kinases
Cyclin dependent kinasesMandira bhosale
 
Molecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for studentsMolecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for studentsthirupathiSathya
 
Molecular Genetics of Cancer
Molecular Genetics of CancerMolecular Genetics of Cancer
Molecular Genetics of CancerNeha Vats
 
Epigenetic in Cancer
Epigenetic in CancerEpigenetic in Cancer
Epigenetic in CancerAbeer Ibrahim
 
Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes rakhavem
 

Was ist angesagt? (20)

stem cells and cancer stem cells
stem cells and cancer stem cells stem cells and cancer stem cells
stem cells and cancer stem cells
 
Somatic cell genetics
Somatic cell geneticsSomatic cell genetics
Somatic cell genetics
 
Biology of cancer - oncology
Biology of cancer - oncology Biology of cancer - oncology
Biology of cancer - oncology
 
Tumour supressor gene
Tumour supressor geneTumour supressor gene
Tumour supressor gene
 
Genetic basis of cancer
Genetic basis of cancerGenetic basis of cancer
Genetic basis of cancer
 
Oncogenes
Oncogenes Oncogenes
Oncogenes
 
Oncogene
OncogeneOncogene
Oncogene
 
Cyclin dependent kinases
Cyclin dependent kinasesCyclin dependent kinases
Cyclin dependent kinases
 
Cancer Biology
Cancer BiologyCancer Biology
Cancer Biology
 
Molecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for studentsMolecular diagnosis of genetic disease ppt for students
Molecular diagnosis of genetic disease ppt for students
 
Molecular Genetics of Cancer
Molecular Genetics of CancerMolecular Genetics of Cancer
Molecular Genetics of Cancer
 
Epigenetic in Cancer
Epigenetic in CancerEpigenetic in Cancer
Epigenetic in Cancer
 
Cancer cell biology
Cancer cell biologyCancer cell biology
Cancer cell biology
 
Oncogenesis
OncogenesisOncogenesis
Oncogenesis
 
Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes Oncogenes and tumour suppressor genes
Oncogenes and tumour suppressor genes
 
Development of cancer
Development of cancerDevelopment of cancer
Development of cancer
 
Carcinogenesis
CarcinogenesisCarcinogenesis
Carcinogenesis
 
Cell senescence
Cell senescenceCell senescence
Cell senescence
 
Knock out technology (final)
Knock out technology (final)Knock out technology (final)
Knock out technology (final)
 
Hallmarks in cancer
Hallmarks in cancerHallmarks in cancer
Hallmarks in cancer
 

Ähnlich wie biology of cancer

Cancer CSIR-NET.pptx
Cancer CSIR-NET.pptxCancer CSIR-NET.pptx
Cancer CSIR-NET.pptxBarunKrAri
 
2 neoplasia (2).pptx
2 neoplasia (2).pptx2 neoplasia (2).pptx
2 neoplasia (2).pptxMesfinShifara
 
Understanding cancer -_what_is_cancer_edited
Understanding cancer -_what_is_cancer_editedUnderstanding cancer -_what_is_cancer_edited
Understanding cancer -_what_is_cancer_editedvjcummins
 
Taniya slide share
Taniya slide shareTaniya slide share
Taniya slide shareTaniya M S
 
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1jawahar singh
 
TUMOR MARKERS.......................pptx
TUMOR MARKERS.......................pptxTUMOR MARKERS.......................pptx
TUMOR MARKERS.......................pptxahamdsarayreh
 
Epidemiology of neoplasma
Epidemiology of neoplasmaEpidemiology of neoplasma
Epidemiology of neoplasmaimrana tanvir
 

Ähnlich wie biology of cancer (20)

Cancer CSIR-NET.pptx
Cancer CSIR-NET.pptxCancer CSIR-NET.pptx
Cancer CSIR-NET.pptx
 
Cancer
CancerCancer
Cancer
 
Tumour immunology
Tumour immunologyTumour immunology
Tumour immunology
 
Cancer
CancerCancer
Cancer
 
Cancer.pptx
Cancer.pptxCancer.pptx
Cancer.pptx
 
2 neoplasia (2).pptx
2 neoplasia (2).pptx2 neoplasia (2).pptx
2 neoplasia (2).pptx
 
neoplasia.pptx
neoplasia.pptxneoplasia.pptx
neoplasia.pptx
 
Understanding cancer -_what_is_cancer_edited
Understanding cancer -_what_is_cancer_editedUnderstanding cancer -_what_is_cancer_edited
Understanding cancer -_what_is_cancer_edited
 
Cancer
CancerCancer
Cancer
 
Taniya slide share
Taniya slide shareTaniya slide share
Taniya slide share
 
ONCOLOGY.pptx
ONCOLOGY.pptxONCOLOGY.pptx
ONCOLOGY.pptx
 
Cancer
Cancer Cancer
Cancer
 
Cancer
Cancer Cancer
Cancer
 
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1
Neoplasia & carcinogenesis.pptx dr.jawahar singh.pptx 1
 
TUMOR MARKERS.......................pptx
TUMOR MARKERS.......................pptxTUMOR MARKERS.......................pptx
TUMOR MARKERS.......................pptx
 
Epidemiology of neoplasma
Epidemiology of neoplasmaEpidemiology of neoplasma
Epidemiology of neoplasma
 
Oncology
OncologyOncology
Oncology
 
CANCER
CANCERCANCER
CANCER
 
Neoplasia
NeoplasiaNeoplasia
Neoplasia
 
Cancer.pdf
Cancer.pdfCancer.pdf
Cancer.pdf
 

Mehr von KAUSHAL SAHU

Post translation modification in protein
Post translation modification in proteinPost translation modification in protein
Post translation modification in proteinKAUSHAL SAHU
 
Biosynthesis of protein in eukariotes
Biosynthesis of protein in eukariotesBiosynthesis of protein in eukariotes
Biosynthesis of protein in eukariotesKAUSHAL SAHU
 
Protein synathesis in eukariyotes
Protein synathesis in eukariyotesProtein synathesis in eukariyotes
Protein synathesis in eukariyotesKAUSHAL SAHU
 
Development in Arobidopsis thaliyana
Development in Arobidopsis thaliyanaDevelopment in Arobidopsis thaliyana
Development in Arobidopsis thaliyanaKAUSHAL SAHU
 
Development in drosophila
Development in drosophilaDevelopment in drosophila
Development in drosophilaKAUSHAL SAHU
 
Development in arabidopsis
Development in arabidopsisDevelopment in arabidopsis
Development in arabidopsisKAUSHAL SAHU
 
Development of drosophila
Development of drosophilaDevelopment of drosophila
Development of drosophilaKAUSHAL SAHU
 
Control of eukariyotic genes
Control of eukariyotic genesControl of eukariyotic genes
Control of eukariyotic genesKAUSHAL SAHU
 
Molecular event during fertilization
Molecular event during fertilizationMolecular event during fertilization
Molecular event during fertilizationKAUSHAL SAHU
 
Cellular response to environmental signals in plant
Cellular response to environmental signals in plantCellular response to environmental signals in plant
Cellular response to environmental signals in plantKAUSHAL SAHU
 
Signal transduction process
Signal transduction processSignal transduction process
Signal transduction processKAUSHAL SAHU
 
Signal transduction mechanism
Signal transduction mechanismSignal transduction mechanism
Signal transduction mechanismKAUSHAL SAHU
 
Control of cell cycle
Control of cell cycleControl of cell cycle
Control of cell cycleKAUSHAL SAHU
 
Signal transduction
Signal transduction Signal transduction
Signal transduction KAUSHAL SAHU
 
Cell cycle check point By KK Sahu Sir
Cell cycle check point By KK Sahu SirCell cycle check point By KK Sahu Sir
Cell cycle check point By KK Sahu SirKAUSHAL SAHU
 
ion channel and carrier protein By KK Sahu Sir
ion channel and carrier protein By KK Sahu Sirion channel and carrier protein By KK Sahu Sir
ion channel and carrier protein By KK Sahu SirKAUSHAL SAHU
 
Molecular event during Cell cycle By KK Sahu Sir
Molecular event during Cell cycle By KK Sahu SirMolecular event during Cell cycle By KK Sahu Sir
Molecular event during Cell cycle By KK Sahu SirKAUSHAL SAHU
 
Cell cycle By KK Sahu Sir
Cell cycle By KK Sahu SirCell cycle By KK Sahu Sir
Cell cycle By KK Sahu SirKAUSHAL SAHU
 

Mehr von KAUSHAL SAHU (20)

Post translation modification in protein
Post translation modification in proteinPost translation modification in protein
Post translation modification in protein
 
Biosynthesis of protein in eukariotes
Biosynthesis of protein in eukariotesBiosynthesis of protein in eukariotes
Biosynthesis of protein in eukariotes
 
Protein synathesis in eukariyotes
Protein synathesis in eukariyotesProtein synathesis in eukariyotes
Protein synathesis in eukariyotes
 
Development in Arobidopsis thaliyana
Development in Arobidopsis thaliyanaDevelopment in Arobidopsis thaliyana
Development in Arobidopsis thaliyana
 
Development in drosophila
Development in drosophilaDevelopment in drosophila
Development in drosophila
 
Development in arabidopsis
Development in arabidopsisDevelopment in arabidopsis
Development in arabidopsis
 
Development of drosophila
Development of drosophilaDevelopment of drosophila
Development of drosophila
 
Control of eukariyotic genes
Control of eukariyotic genesControl of eukariyotic genes
Control of eukariyotic genes
 
Molecular event during fertilization
Molecular event during fertilizationMolecular event during fertilization
Molecular event during fertilization
 
Cellular response to environmental signals in plant
Cellular response to environmental signals in plantCellular response to environmental signals in plant
Cellular response to environmental signals in plant
 
Signal transduction process
Signal transduction processSignal transduction process
Signal transduction process
 
Signal transduction mechanism
Signal transduction mechanismSignal transduction mechanism
Signal transduction mechanism
 
cell motility
cell motilitycell motility
cell motility
 
Cancer genetics
Cancer genetics Cancer genetics
Cancer genetics
 
Control of cell cycle
Control of cell cycleControl of cell cycle
Control of cell cycle
 
Signal transduction
Signal transduction Signal transduction
Signal transduction
 
Cell cycle check point By KK Sahu Sir
Cell cycle check point By KK Sahu SirCell cycle check point By KK Sahu Sir
Cell cycle check point By KK Sahu Sir
 
ion channel and carrier protein By KK Sahu Sir
ion channel and carrier protein By KK Sahu Sirion channel and carrier protein By KK Sahu Sir
ion channel and carrier protein By KK Sahu Sir
 
Molecular event during Cell cycle By KK Sahu Sir
Molecular event during Cell cycle By KK Sahu SirMolecular event during Cell cycle By KK Sahu Sir
Molecular event during Cell cycle By KK Sahu Sir
 
Cell cycle By KK Sahu Sir
Cell cycle By KK Sahu SirCell cycle By KK Sahu Sir
Cell cycle By KK Sahu Sir
 

Kürzlich hochgeladen

Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Patrick Diehl
 
Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsAArockiyaNisha
 
Botany krishna series 2nd semester Only Mcq type questions
Botany krishna series 2nd semester Only Mcq type questionsBotany krishna series 2nd semester Only Mcq type questions
Botany krishna series 2nd semester Only Mcq type questionsSumit Kumar yadav
 
Isotopic evidence of long-lived volcanism on Io
Isotopic evidence of long-lived volcanism on IoIsotopic evidence of long-lived volcanism on Io
Isotopic evidence of long-lived volcanism on IoSérgio Sacani
 
Botany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfBotany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfSumit Kumar yadav
 
Orientation, design and principles of polyhouse
Orientation, design and principles of polyhouseOrientation, design and principles of polyhouse
Orientation, design and principles of polyhousejana861314
 
Pests of cotton_Sucking_Pests_Dr.UPR.pdf
Pests of cotton_Sucking_Pests_Dr.UPR.pdfPests of cotton_Sucking_Pests_Dr.UPR.pdf
Pests of cotton_Sucking_Pests_Dr.UPR.pdfPirithiRaju
 
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxUnlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxanandsmhk
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Sérgio Sacani
 
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...ssifa0344
 
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsHubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsSérgio Sacani
 
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...Sérgio Sacani
 
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...jana861314
 
Green chemistry and Sustainable development.pptx
Green chemistry and Sustainable development.pptxGreen chemistry and Sustainable development.pptx
Green chemistry and Sustainable development.pptxRajatChauhan518211
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​kaibalyasahoo82800
 
Formation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksFormation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksSérgio Sacani
 
Cultivation of KODO MILLET . made by Ghanshyam pptx
Cultivation of KODO MILLET . made by Ghanshyam pptxCultivation of KODO MILLET . made by Ghanshyam pptx
Cultivation of KODO MILLET . made by Ghanshyam pptxpradhanghanshyam7136
 
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...Labelling Requirements and Label Claims for Dietary Supplements and Recommend...
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...Lokesh Kothari
 
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCR
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCRStunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCR
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCRDelhi Call girls
 
Recombinant DNA technology (Immunological screening)
Recombinant DNA technology (Immunological screening)Recombinant DNA technology (Immunological screening)
Recombinant DNA technology (Immunological screening)PraveenaKalaiselvan1
 

Kürzlich hochgeladen (20)

Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?
 
Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based Nanomaterials
 
Botany krishna series 2nd semester Only Mcq type questions
Botany krishna series 2nd semester Only Mcq type questionsBotany krishna series 2nd semester Only Mcq type questions
Botany krishna series 2nd semester Only Mcq type questions
 
Isotopic evidence of long-lived volcanism on Io
Isotopic evidence of long-lived volcanism on IoIsotopic evidence of long-lived volcanism on Io
Isotopic evidence of long-lived volcanism on Io
 
Botany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdfBotany 4th semester series (krishna).pdf
Botany 4th semester series (krishna).pdf
 
Orientation, design and principles of polyhouse
Orientation, design and principles of polyhouseOrientation, design and principles of polyhouse
Orientation, design and principles of polyhouse
 
Pests of cotton_Sucking_Pests_Dr.UPR.pdf
Pests of cotton_Sucking_Pests_Dr.UPR.pdfPests of cotton_Sucking_Pests_Dr.UPR.pdf
Pests of cotton_Sucking_Pests_Dr.UPR.pdf
 
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxUnlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
 
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
TEST BANK For Radiologic Science for Technologists, 12th Edition by Stewart C...
 
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroidsHubble Asteroid Hunter III. Physical properties of newly found asteroids
Hubble Asteroid Hunter III. Physical properties of newly found asteroids
 
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
 
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
 
Green chemistry and Sustainable development.pptx
Green chemistry and Sustainable development.pptxGreen chemistry and Sustainable development.pptx
Green chemistry and Sustainable development.pptx
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​
 
Formation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disksFormation of low mass protostars and their circumstellar disks
Formation of low mass protostars and their circumstellar disks
 
Cultivation of KODO MILLET . made by Ghanshyam pptx
Cultivation of KODO MILLET . made by Ghanshyam pptxCultivation of KODO MILLET . made by Ghanshyam pptx
Cultivation of KODO MILLET . made by Ghanshyam pptx
 
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...Labelling Requirements and Label Claims for Dietary Supplements and Recommend...
Labelling Requirements and Label Claims for Dietary Supplements and Recommend...
 
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCR
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCRStunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCR
Stunning ➥8448380779▻ Call Girls In Panchshil Enclave Delhi NCR
 
Recombinant DNA technology (Immunological screening)
Recombinant DNA technology (Immunological screening)Recombinant DNA technology (Immunological screening)
Recombinant DNA technology (Immunological screening)
 

biology of cancer

  • 1. By KAUSHAL KUMAR SAHU Assistant Professor (Ad Hoc) Department of Biotechnology Govt. Digvijay Autonomous P. G. College Raj-Nandgaon ( C. G. )
  • 2.  Synopsis:- • Introduction •Tumours •Types of Tumours •Formation of Tumours •How cancer cell differ from normal cells •Classification of cancer •The causes of cancer •Viruses and Cancer • Cancer and Gene: A. Oncogene B. Tumours suppressor gene •Detection and Diagnosis • Therapy of cancer •How can cancer are prevented •Conclusion •References
  • 3. • The term cancer, which means “crab” in Latin, was coined by Hippocrates in the fifth century B.C.to describe diseases in which tissues grow and spread unrestrained throughout the body eventually choking off life. • Cancer can originate in almost any tissue of the body. • Somatic cell of higher eukaryote has limited life span and their growth and division and growth and an ability to grow in appropriate location. This are said to be cancerous or tumorigenic cell and they produce cancer. • Cancer results from a breakdown of the regulatory mechanism that governs the division,differentiation and survival of individual cells. As a result of the loss of regulation, cancer cells grow and divide in an uncontrolled manner. Introduction:-
  • 4. • The cells which undergo rapid, abnormal and uncontrolled growth at the cost of remaining cells are called neoplastic cells. These proliferating cells form a mass of undifferentiated cells.This cell mass is called tumour or neoplasm or cancerous growth. OR • Cancer is actually a group of diseases that involve uncontrolled division of cells.These cells also lose their attachments to other cells and are capable of moving around. These properties permit the spread of cancerous cells throughout the body. Definition:-
  • 6. • Benign tumours have slow growing cells contained within layer of connective tissue. • Benign tumours can be removed effectively by surgery. They usually don’t reappear. • Benign tumours remain localized in a specific area at the site of origin forming a single mass enclosed in a capsule. Usually these are not fatal. a. Benign Tumours:-
  • 7. • Malignant tumours are cancerous. • Their cells are poorly differentiated with high rate of mitosis, nuclear polymorphism and abnormal mitosis. • Malignant tumors are a more serious problem because they can invade surrounding tissues and enter into the circulatory system allowing them to spread to distant parts of the body by the process of metastasis. • The movement of malignant cells form their original site to other body areas is called metastasis. b. Malignant Tumours:-
  • 8. Fig:- Diagram showing non malignant(benign) and malignant [www.google.com]
  • 9. Generally cancer cells are produced due to following 3 types of changes:- a. Immortalization : Acquisition of property of indefinite growth by animal cell is terme immortalization. b. Transformation : conversion of normal mammalian cell into a cell with cancer like properties usually by a virus or other cancer causing agents. c. Metastasis : When the tumours become malignant its cell detach and migrate to other part of body where they produce secondary tumour this phenomena is called metastasis.
  • 10. Fig. Steps in the process of metastasis [Cell and molecular biology -Lewis J.Kleinsmith ]
  • 11. • Tumor formations is multi stage process, and require several steps, which is then followed by further changes to strengthen the tumorigenic state. 1. Tumor initiation (Due to genetic alteration & cell proliferation) 2. Tumor progression (Tumor progresses with mutation) 3. Clonal selection (Selection of rapid growing cell & they become dominant within tumor, producing mutated cells)  Formation of Tumor:- o STEPS ARE:-
  • 13. Fig- Showing tumor formation[Gene 9- Benjamin Lewin]
  • 14. Signs and symptoms:- Symptoms of cancer metastasis depend on the location of the tumor. o Cancer symptoms can be divided into three groups:- • Local symptoms : unusual lumps or swelling (tumor), hemorrhage (bleeding), pain • Symptoms of metastasis(spreading) : enlarged lymph nodes and hemoptysis, hepatomegaly(enlarged liver),bone pain, fracture of affected bones and neurological symptoms. •Systemic symptoms : weight loss, poor appetite, excessive sweating (night sweats), anemia and specific paraneoplastic phenomena, i.e. specific conditions that are due to an active cancer, such as thrombosis or hormonal changes.
  • 15.  How cancer cell differ from normal cells:- • The nucleus of cancer cells are usually enlarged and have irregularly distributed chromatin. The interchromatin and perichromatin granules which are formed of RNA and proteins are more abundant in the nucleus of cancer cells. The nucleolus of cancer cells displays hypertrophy. It becomes more irregular and enlarged. Sometimes several nucleoli may be present in the nucleus of cancer cells. • The ergsatoplasm and ribosomes are more abundant in cancer cell. • The normal cells have a cytoskeleton of microtubules and microfilaments arranged in some regular fashion and help in coordinated cell movement. In cancer cells, the cytoskeleton undergoes depolymerization and disintegration, thus cells become independent and their movements uncoordinated.
  • 17. Classification of Cancer:- • Cancers can be classified on the basis of the original tissue from where they arose:- o Carcinoma: which are the most common types of cancer, arise form the epithelial cells that cover external and internal body surfaces. • Lung, breast, prostate, and colon cancer are the most frequent cancers of this type. o Sarcoma: Origin in supporting connective tissues of mesoderm origin, such as bone, cartilage, fat, connective tissue and muscle. o Lymphoma and leukemia’s : arise from cells of blood and lymphate origin. • These are tumours of the haematopoeitic cells.
  • 18. THE CAUSES OF CANCER:- • Cancer is ultimately the result of cells that uncontrollably grow and do not die. • Normal cells in the body follow an orderly path of growth, division, and death.Programmed cell death is called apoptosis, and when this process breaks down,cancer begins to form. A. Heredity:- • Most forms of cancer are sporadic, meaning that there is no inherited cause of the cancer. • There are, however, a number of recognised syndromes where there is an inherited predisposition to cancer, often due to a defect in a gene that protects against tumor formation. • Examples:-Familial adenomatous polyposis an inherited mutation of the APC gene that leads to early onset of colon carcinoma. •Retinoblastoma, when occurring in young children, is due to a hereditary mutation in the retinoblastoma gene.
  • 19. • Chromosomal aberration occurring in somatic cell, non-reproductive cells, results somatic mutation. • The abnormal chromosome helps the somatic cells to get transformed into cancer. C. Chromosomal Aberrations:- •. Chromosomes are observed best at the metaphase stage of cell division because the chromosomes are most condensed at this stage. • .In human chromosomal abnormalities of tumours include both number and structure. • During anaphase of mitosis , one/many chromosome fail to migrate at distant places resulting in production of daughter cells which may be trisomic(containing both of the chromosomes of a pair i.e.2n+1)or monosomic (devoid of a pair of chromosome i.e.2n-1) B. Somatic and Multiple mutations:-
  • 20. • The environmental factors that are the probable cause of cancer include ionizing radiations,diets, personal habits, occupation, smoking, etc. All the agents that cause cancer are known as carcinogens. • UV light and IFR break chromosomes and delete the genetic material resulting in Changes in genes. Occasionally; the damaged cells are also killed. This results in cancer. D. Environmental factors:-
  • 21. Fig. Effects of ionizing radiation on (A) Normal cells(B)cancer cells[www.wikipedia.com]
  • 22. E. Chemicals:- • The incidence of lung cancer is highly correlated with smoking. • Cancer pathogenesis is traceable back to DNA mutations that impact cell growth and metastasis.Substances that cause DNA mutations are known as mutagens, and mutagens that cause cancers are known as carcinogens. Viruses and Cancer:- • Certain families of viruses can infect vertebrate cells and transform them into cancer cells. • The transforming viruses have been divided into two groups :- a. DNA tumour viruses b. RNA tumour viruses • On the basis of their genomic nucleic acid.
  • 23. • Transformation by a virus may be defined as:-Changes in the biologic function of a cell that result from regulation of the cell by viral genes and that confer on the infected cell certain properties characteristic of neoplasia. These changes often (but not always) result from integration of the viral genome into the host cell genome. • DNA tumour viruses :- The viruses that contain DNA as their genetic material and induce tumour are called DNA tumour viruses. • For example :- Papova viruses (SV 40, polyoma and papilloma-viruses), Adenoviruses, Herpes viruses, Poxviruses and hepatitis B virus. • RNA tumour viruses (Retroviruses):-All RNA tumour viruses belong to the retrovirus family. • They cause adult T-cell leukemia in humans.
  • 24. Cancer and gene:- • Cancer are the result of a disruption of the normal restraints on cellular proliferation. • It is apparent that the number of way in which such disruption can occur is strictly limited and there may be as few as forty cellular genes in which mutation or some other disruption of their expression leads to unrestrained cell growth. • There are two classes of these genes in which altered expression can lead to loss of growth control:- (A)Oncogene (B)Tumour suppressor gene
  • 25. (A) Oncogene:- • Those genes that are stimulatory for growth and which cause cancer when hyperactive.mulations in these genes will be dominant.These genes are called oncogens. • The name is derived from the Greek word oncos, meaning bulk or mass, because of the ability to cause tumor growth. • The oncogene was discovered in 1970 and was termed src (sarcoma). Src was first disease as an oncogene in a chicken virus. • When proto-oncogene mutated [changes] into one oncogene, it become permanently “Turned on” or activated when it is not supposed to be. When this occurs, the cell divides so quickly, this can lead to cancer • Activation of proto-oncogenes by point mutation,amplification or dysregulation converts the proto- oncogenes into oncogenes(tumour-causing genes)
  • 26. Fig- Showing ‘turning on’ of oncogene.[www.oncogene.com]
  • 27. (B)Tumour suppressor gene:- • Those genes that inhibit cell growth and which cause cancer when they are turned off.Mutations in these will be recessive.These are the anti-oncogenes or tumour suppressor gene. • When tumor suppressor genes don’t work properly, cells can grow out of control, which can lead to cancer or malignancy.  EXAMPLES OF TUMOR SUPPRESSOR GENES:- 1) RB-the Retinoblastoma gene:- Retinoblastoma is a cancerous tumor of the retina i.e. a childhood disease in which tumor form at retina.
  • 28. Also, two gene homologous to RB have their protein products, p107 & p130 (based on mass), and they also play key roles in cell-cycle regulation. Fig:-A child with retinoblastoma.[www.oncogene.com] It occurs in two forms:- •Familial Retinoblastoma •Sporadic Retinoblastoma
  • 29. [fig.showing pathognesis of retinoblastomawww.kbiotech.com]
  • 30. 2) p53 (guardian of the Genome) • Another major tumour suppressor gene is called p53 a gene that is more frequently mutated in human cancer that any other known gene. • The product of this gene is a cell cycle inhibitor.
  • 31. Detection and Diagnosis:- • Cancer diagnosis is based on the characteristic histological features of malignant cells. Blood tests for abnormal WBCs and bone marrow biopsy are also used. • Non -invasive techniques like X-rays (using injected dyes),CT scans and MRI scans can be used to detect cancers of internal organs like kidneys and pancreas. • Modern techniques monitor and detect the molecular changes that occur in cancer cells.Monoclonal antibodies against cancer specific antigens are coupled to appropriate radioistopes.These antibodies are then used for detection of cancer.
  • 32. Therapy of cancer: - • Treatments usually fall into one of the following categories: surgery, radiation, chemotherapy, immunotherapy, hormone therapy, or gene therapy. A. Surgery:- • Surgery is the oldest known treatment for cancer. • If a cancer has not metastasized, it is possible to completely cure a patient by surgically removing the cancer from the body.
  • 33. • Radiation treatment, also known as radiotherapy, destroys cancer by focusing high-energy rays on the cancer cells. • Radiotherapy utilizes high-energy gamma-rays that are emitted from metals such as radium or high-energy x-rays that are created in a special machine. B. Radiation:-
  • 34. C. Chemotherapy:- • Chemotherapy utilizes chemicals that interfere with the cell division process-damaging proteins or DNA -so that cancer cells will commit suicide. D. Immunotherapy:- • Immunotherapy aims to get the body's immune system to fight the tumor. • Systemic immunotherapy treats the whole body by administering an agent such as the protein interferon alpha that can shrink tumors.
  • 35. • Hormone therapy is designed to alter hormone production in the body so that cancer cells stop growing or are killed completely. • Breast cancer hormone therapies often focus on reducing estrogen levels and prostate cancer hormone therapies often focus on reducing testosterone levels. • Gene therapy is to replace damaged genes with ones that work to address a root cause of cancer: damage to DNA. E. Hormone therapy:- F. Gene therapy:-
  • 36. • Cancers that are closely linked to certain behaviors are the easiest to prevent. • For example, choosing not to smoke tobacco or drink alcohol significantly lower the risk of several types of cancer – most notably lung, throat, mouth, and liver cancer. • Skin cancer can be prevented by staying in the shade, protecting yourself with a hat and shirt when in the sun, and using sunscreen. • Certain vaccinations have been associated with the prevention of some cancers. • For example, Hepatitis B vaccines prevent the hepatitis B virus, which can cause liver cancer. How can cancer be prevented:-
  • 37. • Cancer is a collection of disease in which cell growth and division are unregulated. • Cancer is a lethal disease; it is caused due to various agents or by cellular or viral oncogene conversion. • Cancer cell loss the regulatory function and start to proliferate uncontrollably. • Through various mechanisms a proto-oncogene can be converted into infections ‘oncogene’ which leads to cause cancer. Failure of ‘tumor suppressor gene’ also causes cancer. Conclusion:-
  • 38. S. NO BOOKS AUTHORS 1 Gene IX Benjamin Lewin 2 The cell –A Molecular Approach- 4th edition Geoffery M. Cooper Robert E. Hausmen. 3 Molecular genetics of cancer 2nd edition C. B powar 4 Principle of cell and molecular biology Lewis J. kleinsmith Valerie M. 5 Molecular biology 4th edition Gerald karp •References :- www.google.com www.wikipedia.com www.kbotech.com www.oncogene.com •INTERNET