2. SERENDIPITOUS DRUG DISCOVERY IN THE FIELD OF PHARMACY
Y. Srikala*, Jyothirmayee, S. Sharadha, V. Uma Maheshwara Rao
C.M.R College of Pharmacy, Kandlakoya (v), Medchal, Hyderabad – 501 401
Serendipity is not merely stumbling on things unsought for, it is the ability to see significances and find
values in the things stumbled upon. Serendipity means an aptitude for making desirable discoveries by
accident. It was found that the discovery of 5.8% (84/1437) of all drugs on the market involved serendipity.
Of these drugs, 31 (2.2%) were discovered in the laboratory and 53 (3.7%) were discovered in a clinical
setting. In addition, 263 (18.3%) of the pharmaceuticals in clinical use today are chemical derivatives of the
drugs discovered with the aid of serendipity. Therefore, in total, 24.1% (347/1437) of marketed drugs can be
directly traced to serendipitous events confirming the importance of this elusive phenomenon. In the case of
anticancer drugs, 35.2% (31/88) can be attributed to a serendipitous event, which is somewhat larger than for
all drugs. Recently a new concept of Known Drug Space (KDS) has been developed to help drug designers
to navigate chemical space based on the analysis of drugs in clinical use. It is known that 10% of KDS are
unaltered natural products and 29% are their derivatives (semi-synthetics). The therapeutic field that has
benefited the most from serendipity is central nervous system active drugs reflecting the difficulty in
designing compounds to pass the blood-brain-barrier and the lack of laboratory-based assays for many of the
diseases of the mind.
In general, 24% of all pharmaceuticals currently on the market were affected in a positive way during their
development by this phenomenon with CNS active drugs being the most prominent. This leads to the
conclusion that drug discovery is based on good science and where intuition, critical thinking, sagacity and
open-mindedness play crucial roles.
3. INTRODUCTION
Serendipity is not merely stumbling on things unsought for, it is the ability to see significances and find values in the things
stumbled upon. Serendipity means an aptitude for making desirable discoveries by accident.
Nearly all the great discoveries in chemotherapy have been made as a result of a false hypothesis or due to a so-called chance
observation.
If the frontiers of knowledge is wide open, causes of phenomena mostly hide in the dark, where many scientists deem research
most challenging and exhilarating, chance and serendipity play bigger roles.
We explore the characteristics of a prepared mind in three cases. In the cases of scientists getting their ideas in dreams, we
examine the cognitive psychology of thinking and problem solving. The second case we take is one of the most famous
serendipitous drug discoveries, that of penicillin. Here we examine how the ability and inability to “connect the dots”
facilitated and limited Fleming’s contribution to the development of the antibiotic medicine. Many people would consider our
third case, drug screening, to be the antithesis of serendipity. Sure, instead of running into something unintentionally,
screening set out with the intention to find something
4. STATISTICS:
It was found that the discovery of 5.8% (84/1437) of all drugs on the market involved serendipity. Of these drugs, 31 (2.2%)
were discovered in the laboratory and 53 (3.7%) were discovered in a clinical setting. In addition, 263 (18.3%) of the
pharmaceuticals in clinical use today are chemical derivatives of the drugs discovered with the aid of serendipity. Therefore, in
total, 24.1% (347/1437) of marketed drugs can be directly traced to serendipitous events confirming the importance of this
elusive phenomenon. In the case of anticancer drugs, 35.2% (31/88) can be attributed to a serendipitous event, which is
somewhat larger than for all drugs
The distribution of the serendipity types (laboratory-based and clinical) and their chemical derivatives in clinical use (100% =
1437).
5. SERENDIPITOUS DRUG ACTS ON CARDIOVASCULAR SYSTEM:
During the 1920's, cattle began to mysteriously die from internal hemorrhage. The cause was attributed
generally to spoiled sweet clover, but when the Great Depression hit and ranchers could ill afford to lose a single
cow, one frustrated farmer, Ed Carlson, packed up his dead cow along with a milk can filled with blood that
refused to clot and drove to the Wisconsin Alumni Research Foundation (WARF) looking for answers. There
researcher Karl Link was able to isolate the naturally occurring chemical compound coumarin, which, when
oxidized in damp hay, is the culprit anticoagulant. In 1945, Link came up with the idea to use the compound as a
rodenticide, as it is still used today. Scientists continued to study and test coumarin.
In 1955, it was given to President Dwight Eisenhower after a myocardial infarction and today - from cattle-killer,
to rat-killer, to human life-saver -Warfarin is the most widely used anticoagulant in the world.
6. Figure 1. The systematization of serendipity.
Schlueter P J , and Peterson R T Circulation 2009;120:255-
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7. SERENDIPITOUS ANTIBIOTIC DRUG:
Alexander Fleming didn't clean up his workstation before going on vacation one day in 1928. When he came
back, Fleming noticed that there was a strange fungus on some of his cultures. Even stranger was that bacteria
didn't seem to thrive near those cultures.
Penicillin became the first and is still one of the most widely used antibiotics.
8. In 1928, Scottish Scientist Sir Alexander Fleming was studying Staphylococcus – the bacteria that causes food
poisoning.
He turned up at work one day and discovered
a blue-green mould that seemed to be inhibiting growth of the bacteria. He grew a pure culture of the mould and
discovered
that it was a Penicillium mould.
9. SERENDIPITOUS ANTI DIABETIC DRUG:
Often several serendipitous discoveries contribute to the establishment of a major therapy.
Take for example insulin for diabetes. Chance observation of flies attracted to the sugar-rich urine of
experimental dogs with pancreas removed led to the discovery that the pancreas is causally related to
diabetes.
Since that discovery in 1889, many scientists tried to extract the pancreas’ secretion and use it as a
remedy for diabetes. Some almost made it; others failed, but not necessarily because they were more
ignorant.
When Frederick Banting, Charles Best, and John Macleod succeeded to extract insulin and demonstrate
its therapeutic efficacy in 1921, they designed their crucial experiment on a wrong conception
10.
11. SERENDIPITOUS ANTICANCER DRUG:
Nearly all the great discoveries in chemotherapy have been made as a result of a false hypothesis or due
to a so-called chance observation.
Chemotherapy involves the use of low-molecular-weight drugs to selectively destroy a tumor or at least
limit its growth.
Nitrogen mustards were the first agents to be used clinically; their use resulted from the accidental
discovery that the mustard gas used in world war II had antileukemic properties. Since then, important
advances have been made in the development of new anticancer drugs. For example, cisplatin, which was
also discovered serendipitously, provided a major advance in the treatment of testicular and ovarian
carcinomas.
12. The discovery of cis-platin was serendipitous. In 1965, Rosenberg was looking into the effects of an electric field on the
growth of Escherichia coli bacteria. He noticed that bacteria ceased to divide when placed in an electric field but what
Rosenberg also observed was a 300-fold increase in the size of the bacteria.
He attributed this to the fact that somehow the platinum-conducting plates were inducing cell growth but inhibiting cell
division. It was later deduced that the platinum species responsible for this was cis-platin.
Rosenberg hypothesized that if cis-platin could inhibit bacterial cell division it could also stop tumor cell growth. This
conjecture has proven correct and has led to the introduction of cis-platin in cancer therapy. Indeed, in 1978, six years after
clinical trials conducted by the NCI and Bristol-Myers-Squibb, the U.S. Food and Drug Administration (FDA) approved cis-platin
under the name of Platinol for treating patients with metastatic testicular or ovarian cancer in combination with other
drugs but also for treating bladder cancer.
13. Cisplatin is a chemotherapy drug commonly prescribed to lung cancer patients. Because it is administered systemically, the
entire body gets a hefty dose of the toxic substance with side effects that are often quite debilitating. To better target the drug
toward lung CA, researchers at the University of Strachlyde, Glasgow and TRANSAVE (Monmouth Junction, NJ) have
independently developed inhalation microcapsules that can contain cisplatin.
14. SERENDIPITOUS ANTIRHEUMATIC DRUG:
In 1996 we found by serendipity that 2 patients with rheumatoid arthritis (RA) who were taking clarithromycin (CM) to
eradicate Helicobacter pylori experienced a regression of their RA symptoms.
15. SERENDIPITOUS DRUG USED IN MYOCARDIAL INFARCTION:
A serendipitous discovery by William Smith Tillett in 1933, followed by many years of work with his student Sol Sherry, laid
a sound foundation for the use of streptokinase as a thrombolytic agent in the treatment of acute myocardial infarction.
The drug found initial clinical application in combating fibrinous pleural exudates, hemothorax, and tuberculous meningitis.
In 1958, Sherry and others started using streptokinase in patients with acute myocardial infarction and changed the focus of
treatment from palliation to “cure.”
16.
17. CURRENT STATUS OF SERENDIPITY
Several putative “anti-serendipity” factors that may interfere with current drug development have been identified.
These include 1) movement toward rational drug design based on translational research, 2) reduction in the amount of
time that clinicians have to observe patients, and 3) reliance on the double-blind placebo control design to
demonstrate efficacy..
The trend toward rational drug design is clear .However, its relationship to serendipity is opaque. Rational drug design
guided by translational research refers to the development of drugs deliberately designed to alter processes that have
been implicated in mental pathology by basic research
Another putative “anti-serendipity” factor is a constriction in the amount of time that clinical researchers have to
observe drug effects. Interestingly, this has been linked to the closing of long-term care mental hospitals (i.e.,
deinstitutionalization)
Another putative “anti-serendipity” factor is the use of the double blind placebo control design . The principal
objection to this design is that the design does not allow for analysis of individual differences in drug response.
The therapeutic field that has benefited the most from serendipity is central nervous system active drugs reflecting the
difficulty in designing compounds to pass the blood-brain-barrier and the lack of laboratory-based assays for many of
the diseases of the mind.
18. CONCLUSION:
In general, 24% of all pharmaceuticals currently on the market were affected in a positive way during their
development by this phenomenon with CNS active drugs being the most prominent. This leads to the conclusion that
drug discovery is based on good science and where intuition, critical thinking, sagacity and open-mindedness play
crucial roles.
Hinweis der Redaktion
Figure 1. The systematization of serendipity. Historically, cardiovascular drugs have been discovered through the serendipitous confluence of small molecules, organisms, and astute observations, as occurred in the discovery of dicoumarol (A). Some modern drug discovery efforts are systematically bringing together the same elements in the form of small-molecule libraries, screenable model organisms, and automated phenotyping systems in an effort to discover novel therapies for cardiovascular diseases (B).