cancer drug resistance
Caught on Video: Cancer Cells in Act of Cannibalism
Posted on by Dr. Francis Collins
Tumors rely on a variety of tricks to grow, spread, and resist our best attempts to destroy them. Now comes word of yet another of cancer’s surprising stunts: when chemotherapy treatment hits hard, some cancer cells survive by cannibalizing other cancer cells.
Researchers recently caught this ghoulish behavior on video. In what, during this Halloween season, might look a little bit like The Blob, you can see a down-for-the-count breast cancer cell (green), treated earlier with the chemotherapy drug doxorubicin, gobbling up a neighboring cancer cell (red). The surviving cell delivers its meal to internal compartments called lysosomes, which digest it in a last-ditch effort to get some nourishment and keep going despite what should have been a lethal dose of a cancer drug.
Crystal Tonnessen-Murray, a postdoctoral researcher in the lab of James Jackson, Tulane University School of Medicine, New Orleans, captured these dramatic interactions using time-lapse and confocal microscopy. When Tonnessen-Murray saw the action, she almost couldn’t believe her eyes. Tumor cells eating tumor cells wasn’t something that she’d learned about in school.
As the NIH-funded team described in the Journal of Cell Biology, these chemotherapy-treated breast cancer cells were not only cannibalizing their neighbors, they were doing it with remarkable frequency . But why?
A possible explanation is that some cancer cells resist chemotherapy by going dormant and not dividing. The new study suggests that while in this dormant state, cannibalism is one way that tumor cells can keep going.
The study also found that these acts of cancer cell cannibalism depend on genetic programs closely resembling those of immune cells called macrophages. These scavenging cells perform their important protective roles by gobbling up invading bacteria, viruses, and other infectious microbes. Drug-resistant breast cancer cells have apparently co-opted similar programs in response to chemotherapy but, in this case, to eat their own neighbors.
Tonnessen-Murray’s team confirmed that cannibalizing cancer cells have a survival advantage. The findings suggest that treatments designed to block the cells’ cannibalistic tendencies might hold promise as a new way to treat otherwise hard-to-treat cancers. That’s a possibility the researchers are now exploring, although they report that stopping the cells from this dramatic survival act remains difficult.
 Chemotherapy-induced senescent cancer cells engulf other cells to enhance their survival. Tonnessen-Murray CA, Frey WD, Rao SG, Shahbandi A, Ungerleider NA, Olayiwola JO, Murray LB, Vinson BT, Chrisey DB, Lord CJ, Jackson JG. J Cell Biol. 2019 Sep 17.
Breast Cancer (National Cancer Institute/NIH)
James Jackson (Tulane University School of Medicine, New Orleans)
NIH Support: National Institute of General Medical Sciences
Creative Minds: Applying CRISPR Technology to Cancer Drug Resistance
Posted on by Dr. Francis Collins
As a child, Patrick Hsu once settled a disagreement with his mother over antibacterial wipes by testing them in controlled experiments in the kitchen. When the family moved to Palo Alto, CA, instead of trying out for the football team or asking to borrow the family car like other high school kids might have done, Hsu went knocking on doors of scientists at Stanford University. He found his way into a neuroscience lab, where he gained experience with the fundamental tools of biology and a fascination for understanding how the brain works. But Hsu would soon become impatient with the tools that were available to ask some of the big questions he wanted to study.
As a Salk Helmsley Fellow and principal investigator at the Salk Institute for Biological Studies, La Jolla, CA, Hsu now works at the intersection of bioengineering, genomics, and neuroscience with a DNA editing tool called CRISPR/Cas9 that is revolutionizing the way scientists can ask and answer those big questions. (This blog has previously featured several examples of how this technology is revolutionizing biomedical research.) Hsu has received a 2015 NIH Director’s Early Independence award to adapt CRISPR/Cas9 technology so its use can be extended to that other critically important information-containing nucleic acid—RNA.Specifically, Hsu aims to develop ways to use this new tool to examine the role of a certain type of RNA in cancer drug resistance.