A normal process called cell competition, in which healthy tissues eliminate unhealthy cells, could be responsible for cancer relapses in patients months or years after they were declared cancer-free, a new study by UT Southwestern Simmons Cancer Center researchers suggests.(Image : Unsplash) 
Medicine

What Causes Cancer to Relapse?

Cell competition may explain cancer relapses, UT Southwestern Simmons Cancer Center research suggests new ways that could prevent metastasis.

MedBound Times

 A normal process called cell competition, in which healthy tissues eliminate unhealthy cells, could be responsible for cancer relapses in patients months or years after they were declared cancer-free, a new study by UT Southwestern Simmons Cancer Center researchers suggests.

The findings, published in Cancer Discovery, could lead to better ways to treat or even prevent metastasis, or the spread of tumors to different parts of the body.

“Our findings show that cell competition within the primary tumor results in displacement of less-fit cells into the circulation. But not all of these displaced cells die,” said study leader Srinivas Malladi, Ph.D., Assistant Professor of Pathology at UT Southwestern Medical Center and a member of the Harold C. Simmons Comprehensive Cancer Center. “Some with metastatic potential survive in circulation, persist in distal organs, and initiate metastasis.”

Metastasis is common with most cancers. In clear cell renal carcinoma (ccRCC), the most common form of kidney cancer, new metastatic lesions often develop well after the primary tumor has been removed, a process called metachronous metastasis. Researchers have known that metachronous metastasis can occur months or years later, when many patients and their physicians believe they are cancer-free. But how this happens has been unknown.

Cell competition within the primary tumor results in displacement of less-fit cells into the circulation. i.e. SPARC(high) latent metastatic cells displaces the SPARC (Low) Tumor cells Displaced latent metastatic cells colonize and persist. (Image : Unsplash)

To find out, Dr. Malladi and his colleagues created a mouse model of metachronous metastasis by implanting human ccRCC cells that carried extra genes to make them glow and resist an antibiotic called hygromycin. After four weeks, the researchers surgically removed the primary tumors that formed at the implantation site, then continued to monitor the animals for metastasis through bioluminescent imaging. Although none of the mice developed metastatic tumors over the next five months, the researchers found living cells in the animals’ lungs that glowed and resisted hygromycin.

When the researchers grew these latent metastatic (Lat-M) cells with primary tumor cells in petri dishes, they found that the primary tumor cells took over the mixture and more Lat-M cells ended up in the culture media – both signs that the Lat-M cells had “lost” in competition with the primary tumor cells. However, when the researchers implanted the Lat-M cells by themselves in mice, they effectively grew tumors.

“Although the Lat-M cells were ‘losers’ and displaced from the primary tumor,” Dr. Malladi explained, “they were ‘winners’ when they grew alone.” These findings show that disease progression is not necessarily driven by the dominant aggressive clone but could be driven by a non-dominant, less-fit clone within the primary tumor.

SPARC loss/genomic/epigenomic changes alter cell competition dynamics and initiate metastasis. (Image : Unsplash)

Further investigation identified a gene called SPARC that appeared to play a key role in both Lat-M cell displacement and establishment at distal organs. When SPARC activity decreased in the primary tumor, reduced displacement of Lat-M cells was observed, while depletion of SPARC in Lat-M cells that colonized the lungs resulted in increased metastatic burden. Dr. Malladi suggested that other genes waiting to be discovered are probably also important in this process. Eventually, he said, profiling genes in primary tumors surgically removed from patients could show which individuals need to be monitored more closely after surgery for metachronous metastasis. Pharmaceuticals could someday act on these genes to prevent Lat-M cells from leaving the primary tumor, a strategy that may prevent metachronous metastasis in a range of cancers.

The Malladi Lab is focused on developing preclinical models to provide a conceptual framework to define and target the latent metastatic phase of tumor progression. Their research is aimed towards identifying patients harboring latent metastatic cells and providing therapeutic options to eliminate these cells (metastatic seeds) before they initiate overt metastasis.

Other UTSW researchers who contributed to this study include Kangsan Kim, Huocong Huang, Pravat Kumar Parida, Lan He, Mauricio Marquez-Palencia, Tanner C. Resse, Payal Kapur, James Brugarolas, and Rolf A. Brekken.

Dr. Brugarolas is Director of the Kidney Cancer Program at the Harold C. Simmons Comprehensive Cancer Center and Principal Investigator of one of two Specialized Programs of Research Excellence in kidney cancer in the U.S., and holds the Sherry Wigley Crow Cancer Research Endowed Chair in Honor of Robert Lewis Kirby, M.D. Dr. Brekken is a member of the Harold C. Simmons Comprehensive Cancer Center, the Effie Marie Cain Research Scholar in Angiogenesis Research and a principal investigator in the Hamon Center for Therapeutic Oncology Research.

This work was supported by grants from the Cancer Prevention and Research Institute of Texas (RP210041 RR170003, and RP180770), National Science Foundation (2019281049), Kidney Cancer Program SPORE Developmental Research Program (P50CA196516), American Cancer Society (RSG-20-47-01-CSM), Kidney Cancer Research Program-Department of Defense (KC200273), and National Institutes of Health/National Cancer Institute (R01CA258629 and P30 CA142543).

About UT Southwestern Medical Center

UT Southwestern, one of the nation’s premier academic medical centers, integrates pioneering biomedical research with exceptional clinical care and education. The institution’s faculty has received six Nobel Prizes, and includes 24 members of the National Academy of Sciences, 18 members of the National Academy of Medicine, and 14 Howard Hughes Medical Institute Investigators. The full-time faculty of more than 2,900 is responsible for groundbreaking medical advances and is committed to translating science-driven research quickly to new clinical treatments. UT Southwestern physicians provide care in more than 80 specialties to more than 100,000 hospitalized patients, more than 360,000 emergency room cases, and oversee nearly 4 million outpatient visits a year.(KF/Newswise)

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