Tag Archives: process

Early Sign of Pancreatic Cancer identified by researchers

Although the increase isn’t large enough to be the basis of a new test for early detection of the disease, the findings will help researchers better understand how pancreatic cancer affects the rest of the body, particularly how it can trigger the sometimes deadly muscle-wasting disease known as cachexia. “Most people with pancreatic ductal adenocarcinoma (PDAC) [by far the most common form of cancreatic cancer] are diagnosed after the disease has reached an advanced stage, and many die within a year of diagnosis,” said Brian Wolpin, MD, MPH, of Dana-Farber, co-senior author of the new study with Matthew Vander Heiden, MD, PhD, of MIT and Dana-Farber. “Detecting the disease earlier in its development may improve our ability to treat it successfully. In this study, we asked whether PDAC produces metabolic changes – changes in the way the body uses energy and nutrients – that can be detected before the disease is diagnosed.” The researchers utilized blood samples collected years earlier from 1,500 people participating in large health-tracking studies. …

Protein ‘map’ could lead to potent new cancer drugs

The scientists hope their findings will help them to design drugs that could target the enzyme, known as N-myristoyltransferase (NMT), and potentially lead to new treatments for cancer and inflammatory conditions. They have already identified a molecule that blocks NMT’s activity, and have identified specific protein substrates where this molecule has a potent impact. NMT makes irreversible changes to proteins and is known to be involved in a range of diseases including cancer, epilepsy and Alzheimer’s disease. In a study published in the journal Nature Communications chemists used living human cancer cells to identify more than 100 proteins that NMT modifies, with almost all these proteins being identified for the very first time in their natural environment…

Discovery may lead to better treatments for autoimmune diseases, bone loss

Researchers at Washington University School of Medicine in St. Louis redesigned a molecule that controls immune cell activity, changing the molecule’s target and altering the effects of the signal it sends. Current treatments for bone loss and autoimmune disorders block these molecules and their signals indiscriminately, which over time increases the risk of infections and cancer. …

New rules for anticancer vaccines

As cancer cells divide, they accumulate random mistakes (mutations). This process creates new versions of proteins, some of which are recognized as foreign invaders by immune cells called T cells, prompting the cells to attack and eliminate the cancer cells. With our current ability to identify all of the mutations in a patient’s cancer and to understand which protein sequences can be recognized by T cells, scientists can now predict which mutations will result in new T cell targets (called “neoepitopes”)…

Simple method turns human skin cells into immune strengthening white blood cells

The work, as detailed in the journal Stem Cells, shows that only a bit of creative manipulation is needed to turn skin cells into human white blood cells. “The process is quick and safe in mice,” says senior author Juan Carlos Izpisua Belmonte, holder of Salk’s Roger Guillemin Chair. “It circumvents long-standing obstacles that have plagued the reprogramming of human cells for therapeutic and regenerative purposes.” Those problems includes the long time — at least two months — and tedious laboratory work it takes to produce, characterize and differentiate induced pluripotent stem (iPS) cells, a method commonly used to grow new types of cells. …

New genetic target for a different kind of cancer drug found

“Historically, scientists haven’t targeted the proteins in cancer cells that are involved in gene splicing,” said Zefeng Wang, PhD, associate professor in the department of pharmacology and senior author of the Cancer Cell paper. “This is a whole new ballgame in terms of gene regulation in cancer.” There are approximately 25,000 genes in the human genome — the same amount as in a fruit fly. But in humans, these genes are spliced together in different ways to create various kinds of messenger RNA to produce the many different proteins humans require…

Rare stem cells hold potential for infertility treatments

Researchers studying infertility in mouse models found that, unlike similar types of cells that develop into sperm, the stem cells that express PAX7 can survive treatment with toxic drugs and radiation. If the findings hold true in people, they eventually could lead to new strategies to restore or protect fertility in men undergoing cancer treatment. “Unfortunately, many cancer treatments negatively impact fertility, and men who receive such treatments are at high risk of losing their fertility…

New tool aids stem cell engineering for medical research

“This free platform has a broad range of uses for all types of cell-based investigations and can potentially offer help to people working on all types of cancer,” says Hu Li, Ph.D., investigator in the Mayo Clinic Center for Individualized Medicine and Department of Molecular Pharmacology & Experimental Therapeutics, and co-lead investigator in the two works. “CellNet will indicate how closely an engineered cell resembles the real counterpart and even suggests ways to adjust the engineering.” The network biology platform contains data on a wide range of cells and details on what is known about those cell types. Researchers say the platform can be applied to almost any study and allows users to refine the engineering process. In the long term, it should provide a reliable short cut to the early phases of drug development, individualized cancer therapies, and pharmacogenetics. …

How premalignant cells can sense oncogenesis, halt growth

Since the 1980s, scientists have known that mutations in a human gene called RAS are capable of setting cells on a path to cancer. Today, a team at Cold Spring Harbor Laboratory (CSHL) publishes experiments showing how cells can respond to an activated RAS gene by entering a quiescent state, called senescence. CSHL Professor Nicholas Tonks and Benoit Boivin, now a University of Montreal Assistant Professor, co-led a team that traced the process in exquisite detail. …