Researchers at Rambam Medical Center are investigating treatment directed against nerve invasion.
By Viva Sarah Press: March 25, 2014
Cutting-edge research by scientists at the Rambam Medical Center in Haifa, is pointing towards development of new treatment for pancreatic cancer, one of the most deadly and difficult cancers to manage successfully.
Whereas other cancers that have seen a reduction in incidence thanks to therapeutic advances and early detection, rates of pancreatic cancer have been slowly going up over the past 10 years.
Moreover, there is a poor prognosis because of nerve invasion, a form of direct spread of cancer which occurs in more than 80 percent of patients with pancreatic cancer. Because the cancer is distributed along nerves it cannot be treated at a specific site and patients receive only palliative care to alleviate painful symptoms.
The research team, led by Dr. Ziv Gil, Head of the Applied Cancer Research Laboratory at Rambam, is investigating the mechanism that triggers nerve invasion in pancreatic cancer and identifying specific targets for drugs that can effectively reduce it.
“Treatment directed against nerve invasion could prevent cancer spread, prolong survival, and reduce morbidity,” says Gil. Gil and his team suggest the existence of a link between tumor-infiltrating macrophages (large white blood cells that reside in tissue and bone marrow) and pancreatic cancer cells, which contributes to nerve invasion. Tumor-associated macrophages secrete proteins that in turn trigger secretion of a strong growth factor that stimulates the increase and spread of cancer cells.
The experiments conducted by Gil and his team showed that macrophages located in the endoneurium (the innermost connective tissue that surrounds individual nerve fibres in a bundle) act as a first line of defense in response to nerve injury and inflammation—until they are overrun by blood-borne tumor-associated macrophages originating in bone marrow.
Based on their findings, the research team developed a central hypothesis that endoneurial macrophages “play a key role in the progression and dissemination” of pancreatic cancer, said Gil. Although there has been intensive investigation on the role of tumor-associated macrophages in other cancer types, this is the first time it has been explored specifically with regard to nerve invasion in pancreatic cancer. “Our long-term goal is to understand the mechanism that triggers progression of pancreatic cancer and to develop the means to inhibit it,” he explained.
“It is anticipated that the data obtained here….will provide meaningful advancement of current knowledge in the field of cancer biology and for the benefit of cancer patients,” Gil says. “It is also expected that the results will be equally applicable to other neuroinvasive cancers, including head and neck, gastrointestinal, hepatobiliary, genitourinary, and prostate malignancies.”
The research is funded by a grant from the Israel Cancer Research Fund (ICRF).
Read the original article at Israel21c.org