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  • [ ♪INTRO ]

  • Back in 1944, scientists were only just beginning to suspect that DNA was our genetic material.

  • That's the year Gertrude Elion first started studying nucleotides, the chemical building

  • blocks that form DNA.

  • Over the next five decades, Elion became a leading expert on nucleotides.

  • And her outside-the-box thinking led to methods that totally transformed the world of drug

  • developmentincluding life-saving therapies we still use today.

  • Gertrude Elion was born in New York City in 1918, the daughter of Eastern European immigrants.

  • The year she finished high school, she watched her grandfather succumb painfully to cancer.

  • His death inspired her to study chemistry in college, and eventually earn a master's

  • degree.

  • There weren't a ton of research jobs available during the Great Depression, particularly

  • for a woman.

  • But after World War II broke out, she scored a position in the lab of a guy named George

  • Hitchings.

  • Hitchings had this idea that if you could understand a biological process, you should

  • be able to use that information to design chemicals to disrupt that process.

  • This idea might seem obvious nowbut that's just because it's how we like to develop

  • drugs today.

  • At the time, this rational approach to drug design, as it came to be called, was new and

  • pretty radical.

  • See, in the mid-1940s, most of the drugs that were available were either based on plant

  • compounds that people had been using for millennia, like aspirinor they'd been discovered

  • by accident, like penicillin.

  • But Elion and Hitchings wanted to take a more deliberate approach.

  • And there were two key reasons why nucleotides seemed like a good place to start.

  • One, all cells need them to dividesince dividing means doubling your DNA, and DNA

  • needs nucleotides.

  • And two, certain bad cells like cancer, parasites, and bacteria divide way faster than healthy

  • cells.

  • This makes them especially hungry for nucleotides.

  • If you had a way to exploit this hunger, you might be able to fight all those things.

  • The problem was, nobody knew much of anything about how cells make or use nucleotides.

  • One of Elion's first assignments at her new job was to start figuring all this out.

  • So she synthesized a bunch of chemical analogs that were similar to nucleotides, or things

  • that cells needed for making nucleotides.

  • The idea was to see what cells would do with these imposter compounds.

  • Some of the analogs had key chemical differences that made cells unable to use them like normal

  • nucleotides.

  • They were a biochemical dead end, and they would gum up the worksessentially blocking

  • a cell's ability to make DNA or RNA.

  • Which is exactly what Elion and Hitchings were looking for in a drug.

  • But they had to make sure it wasn't too toxic to people.

  • The first breakthrough came in 1951, when Elion synthesized 6-mercaptopurine, or 6-MP.

  • It's one of those dead-end molecules, and it's especially good for stopping out-of-control

  • immune cells.

  • It was a huge step forward in treating childhood leukemia, and it opened the door to new ideas

  • for treating cancer in general.

  • In testing 6-MP and related molecules, Elion started to piece together that different cell

  • types, and cells from different species, responded differently to some analogs.

  • And that's the key to making drugs like these work.

  • Once she found a promising lead, she would design slightly different compounds to try

  • to exploit some of those differences.

  • Her approach to synthesizing them was novel as well.

  • On top of that, she was among the first to follow what happened to drugs in the body

  • and use that information to design drugs that were more specific, less toxic, and more effective.

  • All of these approaches in combination led to lots of new discoveries about nucleotide metabolism.

  • And they led Elion to treatments for an incredibly diverse set of problems, including malaria,

  • gout, tissue rejection, and autoimmune diseases.

  • Later in her career, she showed that it was possible to develop highly effective drugs for viral diseases.

  • In the 1960s, most of the research worldincluding Hitchings, her partnerbelieved that since

  • viruses use human cells to replicate, it would be impossible to develop a drug that would

  • disrupt viral replication without harming the human host.

  • But Elion proved them wrong in a big way.

  • She connected the dots between several studiessome hers, some from another laband

  • realized that modified nucleotides could block viral replication.

  • She followed the lead, and developed acyclovir.

  • It's a compound that interferes specifically with a nucleotide-making enzyme from the herpes

  • virus, but not the human version of that same enzyme.

  • And this work paved the way for AZT, the first effective antiretroviral drug in the fight

  • against HIV/AIDS.

  • In fact, it was scientists from Elion's research team who developed AZT, after her official retirement.

  • Not only are AZT, 6-MP, and other drugs Elion helped develop still in use todaythe

  • World Health Organization counts them among the safest, most effective drugs available.

  • But beyond the drugs themselves, it was Elion and Hitchings' contributions to the process

  • of drug discovery that had the greatest impacts.

  • Once they showed that their process workedthat you could rationally build drugs

  • from scratchother drug companies around the world started using it.

  • And that's what earned them a Nobel Prize.

  • Elion and Hitchings, along with co-awardee James Black, received the Nobel Prize in Medicine

  • in 1988 for their contributions to the field of drug development.

  • It's rare that a half century of toil earns such recognitionbut no one can argue

  • it's not well deserved.

  • And as long as we continue to use the drugs she designed, Elion's contributions will

  • continue to improve the lives of people everywhere.

  • Thanks for watching this episode of SciShow.

  • If you like learning about awesome women in science and want to help us make more episodes

  • like this one, consider supporting us on Patreon.

  • You'll earn neat perks, and you'll help us make great free videos for everyone to enjoy.

  • Check it out at patreon.com/scishow.

  • [ ♪OUTRO ]

[ ♪INTRO ]

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医薬品開発を変えた女 (The Woman Who Changed Drug Development)

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    林宜悉 に公開 2021 年 01 月 14 日
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