December 22, 2024

New Discovery Illuminates One of Cancer’s More Insidious Survival Mechanisms

Growth cell-derived EVPs caused accumulation of lipid droplets in the mouse liver. Credit: Gang Wang, Jianlong Li, David Lyden
For the previous 20 years, Dr. Lyden, who is also a member of the Gale and Ira Drukier Institute for Childrens Health and the Sandra and Edward Meyer Cancer Center at Weill Cornell Medicine, and his research group have been studying the systemic impacts of cancers. These impacts show particular techniques cancers utilize to protect their survival and speed their progression. In their work released in 2015, for example, the group discovered that pancreatic cancers secrete molecules encapsulated in extracellular blisters, that travel through the blood stream, are used up by the liver, and prepare the organ to support the outgrowth of new, metastatic tumors.
In the brand-new research study, the researchers revealed a various set of liver changes caused by distant cancer cells which they observed in animal models of bone, breast, and skin cancer that metastasize to other organs but not to the liver. The research studys crucial finding is that these growths cause the accumulation of fat molecules in liver cells, subsequently reprogramming the liver in such a way that looks like the weight problems- and alcohol-related condition referred to as fatty liver illness.
The group also observed that reprogrammed livers have high levels of inflammation, marked by raised levels of tumor necrosis factor-α (TNF-α), and low levels of drug-metabolizing enzymes called cytochrome P450, which break down possibly hazardous particles, including numerous drug particles. The observed reduction in cytochrome P450 levels could explain why cancer clients frequently become less tolerant of chemotherapy and other drugs as their disease advances.
The researchers traced this liver reprogramming to EVPs that are released by the remote tumors and bring fatty acids, particularly palmitic acid. When taken up by liver-resident immune cells called Kupffer cells, the fat cargo sets off the production of TNF-α, which subsequently drives fatty liver development.
The scientists principally used animal designs of cancers in the research study, they observed similar modifications in the livers of newly identified pancreatic cancer patients who later established non-liver metastases.
” One of our more striking observations was that this EVP-induced fatty liver condition did not co-occur with liver metastases, recommending that triggering fatty liver and preparing the liver for transition are distinct strategies that cancers utilize to manipulate liver function,” said co-first author Dr. Gang Wang, a postdoctoral associate in the Lyden laboratory. Dr. Jianlong Li, a clinical collaborator in the Lyden laboratory, is also a co-first author of the research study.
The researchers think that the fatty liver condition advantages cancers in part by turning the liver into a lipid-based source of energy to sustain cancer development.
” We see in liver cells not only an irregular accumulation of fat however likewise a shift far from the normal processing of lipids so that the lipids that are being produced are more helpful to the cancer,” said co-senior author Dr. Robert Schwartz, associate teacher of medicine in the Division of Gastroenterology and Hepatology and a member of the Meyer Cancer Center at Weill Cornell Medicine and a hepatologist at NewYork-Presbyterian/Weill Cornell Medical Center.
That might not be the only advantage that cancers derive from this liver change. “There are also essential molecules associated with immune cell function, however their production is altered in these fatty livers, hinting that this condition might also weaken anti-tumor resistance,” stated co-senior author Dr. Haiying Zhang, assistant teacher of cell and developmental biology in pediatrics at Weill Cornell Medicine.
The researchers were able to alleviate these systemic results of tumors on the livers by carrying out strategies such as blocking tumor-EVP release, preventing the product packaging of palmitic acid into tumor EVPs, reducing TNF-α activity, or removing Kupffer cells in the experimental animal designs. The researchers are further examining the potential of executing these methods in human clients to block these remote impacts of growths on the liver and checking out the possibility of utilizing the detection of palmitic acid in tumor EVPs flowing in the blood as a possible indication of advanced cancer.
Referral: “Tumour extracellular vesicles and particles induce liver metabolic dysfunction” by Gang Wang, Jianlong Li, Linda Bojmar, Haiyan Chen, Zhong Li, Gabriel C. Tobias, Mengying Hu, Edwin A. Homan, Serena Lucotti, Fengbo Zhao, Valentina Posada, Peter R. Oxley, Michele Cioffi, Han Sang Kim, Huajuan Wang, Pernille Lauritzen, Nancy Boudreau, Zhanjun Shi, Christin E. Burd, Jonathan H. Zippin, James C. Lo, Geoffrey S. Pitt, Jonathan Hernandez, Constantinos P. Zambirinis, Michael A. Hollingsworth, Paul M. Grandgenett, Maneesh Jain, Surinder K. Batra, Dominick J. DiMaio, Jean L. Grem, Kelsey A. Klute, Tanya M. Trippett, Mikala Egeblad, Doru Paul, Jacqueline Bromberg, David Kelsen, Vinagolu K. Rajasekhar, John H. Healey, Irina R. Matei, William R. Jarnagin, Robert E. Schwartz, Haiying Zhang and David Lyden, 24 May 2023, Nature.DOI: 10.1038/ s41586-023-06114-4.

A research study from Weill Cornell Medicine has shed light on a survival mechanism employed by cancers, which frequently give off molecules into the bloodstream that trigger destructive changes to the liver. The research study, which was recently published in the journal Nature, discovered that various types of growths situated outside the liver can remotely induce modifications to the liver that mimic fatty liver disease. Evidence of this system was found in both animal cancer models and the livers of human cancer patients.
Growth cell-derived EVPs caused build-up of lipid beads in the mouse liver. In their work published in 2015, for example, the group discovered that pancreatic cancers produce molecules encapsulated in extracellular vesicles, that travel through the blood stream, are taken up by the liver, and prepare the organ to support the outgrowth of brand-new, metastatic growths.

Cancers can modify liver function, triggering inflammation and fat buildup, according to a research study from Weill Cornell Medicine. This finding opens possibilities for new tests and treatments for detecting and reversing this process.
A research study from Weill Cornell Medicine has actually shed light on a survival system employed by cancers, which typically discharge particles into the bloodstream that trigger damaging changes to the liver. These adjustments shift the liver into a state of inflammation, causing a buildup of fat and impeding its routine detoxifying abilities. The research exposes potential avenues for establishing new diagnostic tests and treatments to reverse this procedure and spot.
The research study, which was recently released in the journal Nature, discovered that different kinds of growths situated outside the liver can remotely induce alterations to the liver that mimic fatty liver illness. This transformation is caused by the secretion of extracellular blisters and particles (EVPs) loaded with fatty acids. Proof of this system was found in both animal cancer designs and the livers of human cancer patients.
” Our findings reveal that growths can cause substantial systemic issues consisting of liver illness, however likewise suggest that these issues can be addressed with future treatments,” stated study co-senior author Dr. David Lyden, the Stavros S. Niarchos Professor in Pediatric Cardiology and a teacher of pediatrics and of cell and developmental biology at Weill Cornell Medicine.