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Mass. General team finds how NF-2 gene mutations make cells hyper-responsive to growth factor signaling

08/28/2018
Tuesday, August 28, 2018

Mass. General team finds how NF-2 gene mutations make cells hyper-responsive to growth factor signaling

A team of Massachusetts General Hospital (MGH) Cancer Center researchers has determined one way that mutations in a gene involved in a rare, hereditary cancer syndrome lead to out-of-control cellular proliferation. In their report published online in Genes & Development, the team describes finding how mutations in the NF2 (neurofibromatosis type 2) gene, which codes for the merlin protein, make cells hyper-responsive to growth factor signaling. In addition to neurofibromatosis type 2, a genetic disorder that induces the formation of numerous benign tumors throughout the nervous system, NF2 mutations have also been associated with the dangerous malignant cancer mesothelioma.

“We have found that NF2-mutant cells of multiple types – including cells that initiate nervous system tumors in familial NF2 and mesothelioma cells with the NF2 mutation – excel at a natural process cells use to gulp up and internalize fluids from their environment, as if they were captured by a breaking wave,” says Andrea McClatchey, PhD, of the MGH Center for Cancer Research, senior author of the paper. “This ability enables cells to respond excitedly to growth factors they normally might not detect and may allow NF2-mutant cells to survive and grow outside their normal milieu, ingesting extra nutrients that further fuel their inappropriate responsiveness to growth factors.”

Merlin and related proteins are known to organize the interface between the plasma membrane that surrounds cells and the cytoskeleton, the internal network of fibers that gives cells their shape and structure. Membrane/cytoskeleton linkages both modulate the activity of receptor proteins located on the membrane and respond to receptor activation, but exactly how those interactions influence cellular behavior has not been well understood. Inappropriate activation of growth-factor receptors underlies many types of cancer, which has led to the proliferation of therapies that target specific growth factor pathways.

Under certain circumstances, the interface between the cell membrane and cytoskeleton can initiate a process called macropinocytosis, in which the cell membrane forms wave-like “ruffles” that reach out and engulf surrounding fluids, forming vesicles that are taken into the cell with their contents, including activated receptor proteins from the membrane. Macropinocytosis can be triggered by growth factor receptor activation and can influence the recycling of receptors back to the cell membrane. Recent studies have suggested that certain tumor cells use macropinocytosis to scavenge extra nutrients from their environment, helping to drive their growth.

In the current study, McClatchey’s team focused on the epidermal growth factor receptor (EGFR), overactivation of which is involved in several important cancers. They had previously shown that the absence of merlin greatly increased cells’ responsiveness to stimulation of the EGFR. The new experiments support a role for merlin in calming the cell membrane, keeping cytoskeletal response to growth factor activation under control. Several types of merlin-deficient NF2-mutant cells showed a magnified response to growth factors, with marked increases in ruffling of the membrane and in macropinocytosis.

The researchers also found that, in the absence of merlin, cholesterol accumulates in the cell membrane, promoting the recycling of receptors back to the membrane and further magnifying the growth factor response. Reducing membrane cholesterol levels in NF2-mutant cells limited this growth factor recycling and the resultant cellular overproliferation. This recycling of receptors, instead of increased ingestion of nutrients, appears to be the key result of elevated macropinocytosis in NF2-mutant tumors.

“Importantly, macropinocytosis is also a way that some drugs enter cells – particularly larger drugs than can’t pass through the cell membrane,” says McClatchey, who is a professor of Pathology at Harvard Medical School. “This implies that NF2-mutant cells, which are very good at macropinocytosis, may be particularly good targets for drugs that enter cells that way, in addition to being vulnerable to agents that modulate membrane cholesterol and receptor recycling. Early follow-up studies support this hypothesis. Important next steps will be to investigate whether NF2-mutant cells overreact to a broad range of growth factors by undergoing macropinocytosis, how NF2-deficient cells process internalized macropinocytic vesicles, and whether macropinocytosis can be exploited for delivering drugs to NF2-mutant tumors.”  

Christine Chiasson-MacKenzie, PhD, MGH Center for Cancer Research (MGH-CCR) and Department of Pathology, is the lead author of the Genes & Development paper. Additional co-authors – all of the MGH-CCR– are Zachary Morris, MD, PhD (now at the University of Wisconsin, Madison), Ching-Hui Liu, William Bradford and Thijs Koorman, PhD. Support for the study includes National Institutes of Health grants R01 CA113733 and T32 5T32CA009361-35; Department of Defense grant W81XWH-16-1-0086 and support from the Mesothelioma Applied Research Foundation. McClatchey is the 2011 Patricia and Scott Eston MGH Research Scholar.

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH Research Institute conducts the largest hospital-based research program in the nation, with an annual research budget of more than $900 million and major research centers in HIV/AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, genomic medicine, medical imaging, neurodegenerative disorders, regenerative medicine, reproductive biology, systems biology, photomedicine and transplantation biology. The MGH topped the 2015 Nature Index list of health care organizations publishing in leading scientific journals and earned the prestigious 2015 Foster G. McGaw Prize for Excellence in Community Service. In August 2018 the MGH was once again named to the Honor Roll in the U.S. News & World Report list of "America's Best Hospitals."

Media contact: Katie Marquedant, kmarquedant@mgh.harvard.edu, 617 726-0337



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