Ivan Martinez, The Conversation Ivan Martinez, The Conversation
In an amazing twist of fate, the aggressive cervical cancer tumor that killed Henrietta Lacks, a 31-year old African American mother, became an essential tool that helped the biomedical field flourish in the 20th century. As a cancer researcher who uses HeLa cells in my everyday work, even I sometimes find it hard to believe. Henrietta Lacks Cancer
On Aug. 1, 2023, over 70 years after doctors took Lacks’ cells without her consent or knowledge, her family reached a settlement with biotech company Thermo Fisher. Lacks’ descendants had sued the company in 2021 for making billions of dollars off her cells. The family has not been previously been compensated.
READ MORE: Family of Henrietta Lacks, whose cells were taken for research, settles with company that profited
Lacks’ cervical cancer cells, called “HeLa” after the first two letters of her first and last name, are immortal, continuing to divide when most cells would die. This ability to survive through endless generations of cells is what makes them invaluable for scientists conducting experiments on human cells.
Before HeLa cells, scientists wanted a way to grow and study human cells in the lab to conduct studies that are impossible to do in a living person. When Lacks’ cervical cancer cells were successfully grown in a petri dish in 1951, scientists now had a source of cost-effective and easy-to-use cells that expanded their ability to conduct research. From polio and COVID-19 vaccines to cancer research and sequencing the human genome, HeLa cells have played an enormous role in many scientific discoveries and advancements.
Henrietta Lacks’ story is also an ongoing bioethics case, because these cells were taken from her during a routine cervical cancer biopsy and were then given to researchers without her consent, as was common practice at the time. The Lacks family has long attempted legal action against companies they say have unfairly benefited from Henrietta’s cells. A 2010 book by journalist Rebecca Skloot details how HeLa cells affected both science and the Lacks family.
READ MORE: After battling COVID, can mRNA vaccines fight cancer?
But how did Lacks’ cells become immortal?
Lacks didn’t know that cells in her cervix were infected with a virus that causes one of the most common sexually transmitted diseases: human papillomavirus, or HPV. There are more than 150 different types of HPVs, but only a small group are known to cause cervical cancer. In fact, 99.7 percent of cervical cancers are HPV positive. Fortunately, most people infected with high-risk HPVs are able to clear out the virus before it becomes cancerous. HPV vaccinations can prevent over 90 percent of HPV-related cancers. But 10 percent of people with HPV infections on their cervix develop cancer. Sadly, Henrietta was one of the unlucky ones.
Her misfortune has helped elucidate how HPV works. Since the Nobel Prize-winning 1976 discovery of HPV’s essential role in cervical cancer, many scientists, including me, have been investigating how HPV causes cancer.
It turns out that the virus’ cancer-causing ability is linked to two proteins it produces. These viral proteins can target and destroy two major human proteins that protect against cancer, p53 and retinoblastoma (Rb). P53 and Rb act as sentinels making sure cells don’t accumulate harmful genetic mutations and stop dividing after a set number of cycles. My research has focused on how HPV proteins interact with tumor-suppressing proteins in different types of human cells, including HeLa.
WATCH: American Black women face disproportionately high rates of maternal mortality
Most cells divide around 40 to 60 times before they become too old to function properly and are naturally killed off. But HPV can allow cells to divide forever, because they attack the sentinels keeping uncontrolled division in check. After Lacks was infected with HPV 18, the second-most-common high-risk type of the virus, her cervical cells lost the ability to produce these sentinels. Without growth checks in place, her cells were able to divide indefinitely and became “immortal” – living on to this day both in test tubes and the 70,000 studies they’ve made possible.
This article is republished from The Conversation. Read the original article.
Left: General atmosphere at HBO's The HeLa Project Exhibit For "The Immortal Life of Henrietta Lacks" on April 6, 2017 in New York City. Photo by Nicholas Hunt/Getty Images for HBO
By Lea Skene, Sarah Brumfield, Associated Press
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Ivan Martinez, The Conversation Ivan Martinez, The Conversation
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