The study, in Nature Cell Biology, focuses on the role of small, spherical tumor-secreted packages, called exosomes, which contain tumor-derived proteins, in preparing a liver microenvironment fertile for pancreatic cancer metastasis.
Nearly 49,000 people in the United States will be diagnosed with pancreatic cancer, and more than 40,000 of them will succumb to it, according to estimates from the American Cancer Society. Pancreatic cancers are among the most lethal cancers -- only six percent of patients survive five years after diagnosis, with the median survival rate being just six months.
"What makes this cancer so lethal is that patients don't generally become symptomatic -- and as such aren't diagnosed -- until the cancer is very advanced and treatment options are limited," said senior author Dr. David Lyden, the Stavros S. Niarchos Professor in Pediatric Cardiology and a professor of pediatrics in the Department of Pediatrics at Weill Cornell Medical College.
In the study, the investigators recreated the environment for pancreatic cancer using mouse models and discovered that exosomes were finding their way to the liver during the cancer's earliest stages. Once in the liver, the exosomes were taken up by resident immune cells, called Kupffer cells. This process changed the Kupffer cells' gene expression and protein composition, and educated them to produce a powerful protein. This protein, in turn, affected the behavior of a group of cells, inducing liver fibrosis. Liver fibrosis is an overly exuberant wound healing process that can interfere with normal liver function, and creates a microenvironment auspicious for tumor seeding and growth.
Image credit: Dr. Bruno Costa da Silva and Dr. David Lyden