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How Being Ignored Helped A Woman Discover The Breast Cancer Gene

Actress Angelina Jolie, seen here at a movie industry event on March 25, used BRCA genetic testing to gauge her risk of hereditary  cancer. She chose to have a prophylactic double mastectomy.
Alberto E. Rodriguez Getty Images for CinemaCon
Actress Angelina Jolie, seen here at a movie industry event on March 25, used BRCA genetic testing to gauge her risk of hereditary cancer. She chose to have a prophylactic double mastectomy.

Mary-Claire King says obscurity gave her the freedom to spend years looking for breast cancer genes.
Mary Levin/University of Washington
Mary-Claire King says obscurity gave her the freedom to spend years looking for breast cancer genes.

How Being Ignored Helped A Woman Discover The Breast Cancer Gene

Back in the 1970s, a geneticist named Mary-Claire King decided she needed to figure out why women in some families were much more likely to get breast cancer.

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It took 17 years for King and her colleague to identify the single gene that could cause both breast and ovarian cancer. During that time, many people discounted her work, saying that genes couldn't cause complex diseases like cancer. She proved them wrong, first by mapping the gene's location, and then in 1994, by announcing that her laboratory had successfully cloned the BRCA1 gene. (King describes her experience in Thursday's issue of the journal Science.)

The discovery revolutionized genetics and cancer treatment. Simple genetic tests now let women know if they have mutations in their BRCA genes that increase cancer risk. They then can act on that knowledge, as actress Angelina did.

King, now a professor of genome science at the University of Washington, talked with NPR's Audie Cornish Thursday about how she slowly but surely built evidence to prove that BRCA did indeed cause cancer. The conversation has been edited for length and clarity.

What triggered you to think that there would be this genetic link to cancer?

For breast cancer, we had time and time again very good demonstration that some families were at high risk of the disease, but without out an explanation why that could be true. In the absence of any other explanation I was driven to turn to genetics.

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How did you come up with the answer?

Our strategy was to use the idea of mapping a gene, which of course was an idea current in genetics at the time, as an epistemological tool. We felt that we could prove the existence of a gene by showing where it was. And that's what we did. It took 17 years, from 1974 to 1990, but by 1990 we really had incontrovertible proof that there was a gene that lived on chromosome 17 in a particular physical locale.

Now this was all before the Human Genome Project, right? Now we take it for granted that there's this kind of easy mapping technology – if you want to find a gene in a chromosome just go look it up.

Oh, you can look it up for free! It costs nothing and it takes 10 seconds. You're absolutely right. The Human Genome Project had not yet begun when we began working on this project. And the Human Genome Project and the effort to find BRCA1 were essentially born at the same time.

It seems like we're at a point now where we can do all kinds of mapping, we know about all these genes, but that doesn't necessarily make the decision any easier in terms of what kind of treatment you should do or what kind of risk prevention you should take. The science has outpaced the treatment.

A challenge we face as scientists, a challenge our physician colleagues face, is how to understand this very rapidly growing amount of information in a way that we can best empower our patients. Our goal is to be able to inform women of genetic information that will lead them to make the best choices for them. We need to be able to give them data that is complete and that's accurate. And we need to be able to do that inexpensively and effectively.

Over time, do you see that there has been too much emphasis on genes and genetic links and that that has that been to the detriment of other factors like environmental factors?

We now are in a position to say genetics only goes this far; beyond this we need to think about environmental causes. Now the understanding of environmental causes and genetic causes are moving hand in hand rather than in conflict.

You've said in the past that as a woman doing this work there was a certain freedom in your research back in the 1970s when you were starting out; freedom in being ignored. In what way?

As a young scientist it can be liberating to not have expectations placed on you; if you can work quietly, if you can obtain funds for your work. And I could obtain modest funds for my work and I could work in a way that allowed me the time and space to develop evidence until I was convinced of it. That's of course the highest bar — that you convince yourself that your evidence is good. Once you present your evidence then of course you're no longer being ignored. You're being attacked from all sides. Then you need to defend your evidence. But if you've had 17 years to do it, to build it, then you're in a much better position to defend it well.

You've said you were a child of affirmative action. At that time did it really feel like not just that people were ignoring you, but they were dismissive of your work?

When one is a child of affirmative action one needs to anticipate that people, particularly those who didn't benefit from affirmative action, won't take you seriously for a while. But there's a wonderful phrase: For a woman to be taken as seriously as a man she must be three times as effective. Happily this is not difficult.

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