Tag Archives: body

New way to generate insulin-producing cells in type 1 diabetes

“We have found a promising technique for type 1 diabetics to restore the body’s ability to produce insulin. By introducing caerulein to the pancreas we were able to generate new beta cells — the cells that produce insulin — potentially freeing patients from daily doses of insulin to manage their blood-sugar levels.” said Fred Levine, M.D., Ph.D., professor and director of the Sanford Children’s Health Research Center at Sanford-Burnham. The study first examined how mice in which almost all beta cells were destroyed — similar to humans with type 1 diabetes — responded to injections of caerulein. …

‘Normal’ bacteria vital for keeping intestinal lining intact

The research involved the intestinal microbiome, which contains some 100 trillion bacteria. The role of these microorganisms in promoting or preventing disease is a major emerging field of study. Einstein scientists found that absorption of a specific bacterial byproduct is crucial for maintaining the integrity of the intestinal epithelium — the single-cell layer responsible for keeping intestinal bacteria and their toxins inside the gut and away from the rest of the body…

New drug target can break down cancer’s barrier against treatment

The team at Barts Cancer Institute, part of Queen Mary University of London, have found that a molecule, called focal adhesion kinase (FAK), signals the body to repair itself after chemotherapy or radiotherapy, which kill cancer cells by damaging DNA. When the researchers removed FAK from blood vessels that grew in melanoma or lung cancer models, both chemotherapy and radiation therapies were far more effective in killing the tumors. The researchers also studied samples taken from lymphoma patients. Those with low levels of FAK in their blood vessels were more likely to have complete remission following treatment. …

Surgical treatment for metastatic melanoma of the liver increases overall survival

In the past, surgical treatment for liver metastases was not considered an option for most patients, as the disease typically spreads to other organs. However, advances in surgical techniques along with new systemic therapies have made existing therapies more effective and opened the door to new therapeutic approaches. “Although there has been a great deal of excitement about the new medical therapies, which are clearly enormous advances, those are still not the answers for everyone,” said lead investigator Mark Faries, MD, FACS, Director of the Donald L. …

Starving pancreatic cancer before it has a chance to feast

Pancreatic cancer and other cancers can only thrive, grow and spread if they have nutrients from blood, just like other tissues in our bodies. Cancer cells and tumors at first rely on nearby blood vessels to get what they need to survive, but, as tumors grow, they need to form new vessels. These vessels differ from those in regular tissue, Sushanta explained, which is part of the reason cancer can be so difficult to treat. …

Mechanism that clears excess of protein linked with Type 2 diabetes

What causes this accumulation of IAPP in pancreatic beta cells of people with diabetes has remained a mystery. But a team of researchers from the Larry L. Hillblom Islet Research Center led by Dr. Peter Butler, professor of medicine at UCLA, may have found an answer in autophagy, a process that clears damaged and toxic proteins from cell. …

New myeloma-obesity research shows drugs can team with body’s defenses

And with current obesity trends in the United States and especially in South Texas, that’s ominous. “I’m predicting an increase in multiple myeloma,” said Edward Medina, M.D., Ph.D., “and with the obesity problems we see in the Hispanic population, there could be a serious health disparity on the horizon.” Dr. Medina, a hematopathologist and assistant professor in the Department of Pathology at The University of Texas Health Science Center at San Antonio, is looking at exactly how obesity causes an increased risk for myeloma…

Possible pathway for inhibiting liver, colon cancer found

The international team from CIC bioGUNE, the University of Liverpool and the US research centre USC-UCLA has successfully unravelled the mechanism by which two proteins, MATα2 and MATβ, bind to each other, thereby promoting the reproduction of tumour cells in liver and colon cancers. The study was announced in the latest issue of the open access journal IUCrJ published by the IUCr. This structural data discovery opens up additional research opportunities into drugs that can act on the binding of these proteins, thereby possibly inhibiting cancer cell growth. …