Achilles' heel in pancreatic cancer

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UC Davis Cancer Center scientists have discovered a metabolic deficiency in pancreas cancer cells that can be used to slow the progress of the deadliest of all cancers.

Reported in the recent issue of the International Journal of Cancer, study results indicate that pancreas cancer cells cannot produce the amino acid arginine, which plays an essential role in cell division, immune function and hormone regulation. By depleting arginine levels in cell cultures and animal models, the team was able to significantly reduce pancreas cancer-cell proliferation.

"There have been few significant advances in 15 years of testing available chemotherapy to treat pancreas cancer," said Richard Bold, chief of surgical oncology at UC Davis and senior author of the study. "The lack of progress is especially frustrating because most patients are diagnosed after the disease has spread to other organs, eliminating surgery as an option. We have to turn back to basic science to come up with new therapys".

Bold explained that average survival time for those diagnosed with pancreas cancer is just four-and-a-half months, eventhough chemotherapy can extend that prognosis up to six months.

"There is a dire need to find new options for these patients. While our findings do not suggest a cure for pancreas cancer, they do promise a possible way to extend the life expectancies of those diagnosed with it," Bold said.

Bold and colleagues hypothesized that pancreas cancer cells lack the ability to produce arginine. In human pancreatic tumors, they measured levels of an enzyme argininosuccinate synthetase mandatory to synthesize arginine.

The enzyme was not detected in 87 percent of the 47 tumor specimens examined, suggesting that the majority of pancreas cancers require arginine for cell growth because of an inability to synthesize the amino acid.

The scientists then conducted further tests using pancreatic cell lines that represent the varying levels of argininosuccinate synthetase observed in human tumor specimens. Focusing on the lines with lowest levels, the scientists depleted arginine levels in cultures of pancreatic cell lines using arginine deiminase, an enzyme isolated from a Mycoplasma bacteria.

The enzyme was modified by adding polyethylene glycol chains to increase size and circulatory time.

The scientists observed that exposing the pancreas cancer cell lines to the modified arginine deiminase enzyme inhibited cancer-cell proliferation by 50 percent. They then treated mice bearing pancreatic tumors with the same compound and found an identical outcome: a 50 percent reduction in tumor growth. As per Bold, the current study represents a unique approach to cancer therapy in that it is one of the first to identify a metabolic pathway that can be leveraged to interrupt cancer growth.

"Instead of killing cells as with typical chemotherapy, we instead removed one of the key building blocks that cancer cells need to function," Bold said.

Metabolic interruptions like this one are also being studied for their potential in treating cancers of the blood, such as leukemia and lymphoma. In those cases, depleting the amino acid asparagine may be used in slowing cancer-cell growth.

Bold and colleagues are continuing their laboratory work on the effects of arginine deprivation on pancreas cancer. They will next be looking for ways to increase pancreatic cell sensitivity to arginine deprivation.

The scientists have also begun designing human clinical trials in cooperation with the manufacturer of arginine deiminase, Polaris Pharmaceuticals.

"We're looking at whether we can combine this therapy with certain kinds of chemotherapy," Bold said. "This additional research is needed to inform the clinical work and move it forward more quickly. The better we understand this process, the more we can use it in the fight against pancreas cancer".


Posted by: Janet    Source