Tag Archives: discovery

Zebrafish help decode link between calcium deficiency, colon cancer

By studying zebrafish embryo skin, University of Michigan researchers decoded cell messages underlying abnormal colonic cell growth of the kind that can lead to tumors and colon cancer in calcium deficient individuals. They have also tested this new mechanism in human colon cancer cells. Ultimately, the new biological mechanism unraveled in zebrafish will help scientists understand the pathways that fuel low calcium-related abnormal colonic cell growth and how to stop that growth, said Cunming Duan, professor in the U-M Department of Molecular, Cellular & Developmental Biology. To do this, Duan and colleagues used a fluorescent protein to mark a type of epithelial cell, whose job it is to import calcium into the body. …

One protein, two personalities: Team identifies new mechanism of cancer spread

A new finding by University of Pennsylvania scientists has identified key steps that trigger this disintegration of cellular regulation. Their discovery — that a protein called Exo70 has a split personality, with one form keeping cells under tight control and another contributing to the ability of tumors to invade distant parts of the body — points to new possibilities for diagnosing cancer metastasis. The research, published in the journal Developmental Cell, was conducted by a team of researchers from the School of Arts and Sciences’ Department of Biology; the Perelman School of Medicine’s pathobiology and laboratory medicine, medicine and genetics departments, and China’s Hangzhou Normal University School of Medicine. …

Resistant against the flu

Whether it is H1N1, H5N1 or H7N9: The flu virus influenza A exists in many different types as its two coating proteins haemagglutinin (HA) and neuraminidase (NA) can be combined in various ways. Theoretically, more than 100 different pairings are possible. Additionally, the coating proteins themselves can undergo changes. This variability is one of the reasons why the flu vaccination has to be renewed every year…

Gene promotes one in a hundred of tumors: Gene discovered to play a part in one per cent of all cancers

The team discovered that, when CUX1 is deactivated, a biological pathway is activated that increases tumour growth. Drugs that inhibit the biological pathway are currently being used in the clinic and are in development thus highlighting a potential new targeted therapy for patients with this type of cancer-causing mutation. …

Cancer mutation likely trigger of scleroderma

A report on the discovery, published in the Dec. 5 issue of Science, also suggests that a normal immune system is critical for preventing the development of common types of cancer. According to researchers, patients with scleroderma often make immune proteins or antibodies to another protein, called RPC1. These antibodies are believed to cause the organ damage characteristic of the disease, and the reason behind this antibody production has remained unknown…

Cancer researchers translate new findings to enhance melanoma treatment

Translational researchers from UCLA’s Jonsson Comprehensive Cancer Center (JCCC) have published results of two back-to-back studies in the journal Cancer Discovery that provide critical insights into two key areas of how tumors resist BRAF inhibitors: the key cell-signaling pathways BRAF-mutant melanoma cells use to learn how to become resistant to inhibitor drugs, and how the limited focus of BRAF inhibitors allows melanoma cells to evolve and develop drug resistance. The studies were published online ahead of print on November 21, 2013…

‘Undruggable’ mutation meets its match

Now, Howard Hughes Medical Institute (HHMI) researchers at the University of California, San Francisco have identified and exploited a newfound "Achilles heel" in K-Ras. The weak point is a newly discovered "pocket," or binding site, identified by HHMI investigator Kevan M. Shokat and colleagues. Shokat and his team have designed a chemical compound that fits inside this pocket and inhibits the normal activity of mutant K-Ras, but leaves the normal protein untouched…

Discovery of HIV ‘invisibility cloak’ reveals new treatment opportunities

Their study shows how ‘uncloaking’ the virus using an experimental drug triggers an immune response that stops the virus from replicating in cells grown in the laboratory. The findings could lead to new treatments and help to improve existing therapies for HIV infection. The innate immune system is the body’s first line of defence against infection and incorporates an alarm system present in all cells of the body that detects the presence of ‘foreign’ material from invading bacteria and viruses. When the alarm is tripped, the infected cell begins an anti-viral programme and sends out warning signals to alert other cells that a virus is around. …