Tag Archives: gene

New look at complex head and neck tumor behavior

An increasing number of head and neck cancers are caused by a virus, the human papilloma virus (HPV). Using tissue from HPV-positive and HPV-negative (largely linked to smoking) HNSCC tumors, researchers from institutions around the country referenced The Cancer Genome Atlas to develop a comprehensive assessment of alterations, or oncogenes, that could play a role in how the tumors develop and metastasize, said Wendell Yarbrough, M.D., section chief of otolaryngology at Yale School of Medicine and Clinical Program Leader of the Head & Neck Cancer Program at Smilow Cancer Hospital at Yale-New Haven. “To make the progress we envision with personalized medicine, we first have to understand what’s driving these tumors, and this is one of the first studies to do this,” said Yarbrough, an author on the study. …

New nanoparticle gene therapy strategy effectively treats deadly brain cancer in rats

Previous research on mice found that nanoparticles carrying genes can be taken up by brain cancer cells, and the genes can then be turned on. However, this is the first time these biodegradable nanoparticles have effectively killed brain cancer cells and extended survival in animals. For their studies, the Johns Hopkins team designed and tested a variety of nanoparticles made from different polymers, or plastics. When they found a good candidate that could deliver genes to rat brain cancer cells, they filled the nanoparticles with DNA encoding an enzyme, herpes simplex virus type 1 thymidine kinase (HSVtk), which turns a compound with little effect into a potent therapy that kills brain cancer cells. …

An extra protein gives naked mole rats more power to stop cancer

The protein is associated with a cluster of genes (called a locus) that is also found in humans and mice. It’s the job of that locus to encode–or carry the genetic instructions for synthesizing –several cancer-fighting proteins. As Professor of Biology Vera Gorbunova explains, the locus found in naked mole rats encodes a total of four cancer-fighting proteins, while the human and mouse version encodes only three proteins. …

An ‘ambulance’ for the brain

“It is estimated that 20% of humans at some time will need a treatment that targets the brain,” explains Meritxell Teixid�, associate researcher at IRB Barcelona and leader of this line of investigation, “and for many diseases there are some good candidate drugs but none have the capacity to reach their target and thus there is a subsequent loss of potential. Our shuttle offers a solution to an urgent clinical need.” The work has been carried out in IRB Barcelona’s Peptides and Proteins Lab. Directed by Ernest Giralt, also senior professor of the UB, this lab is one of the few leading labs worldwide devoted to these kinds of developments…

Spontaneous cure of rare immune disease

As an adult, the patient contacted NIH’s National Institute of Allergy and Infectious Diseases (NIAID) to evaluate herself and two of her children, who eventually were diagnosed with WHIM syndrome. The patient reported that her symptoms resolved in her 30s, indicating that she had maintained disease remission for nearly 20 years. In their study, NIAID researchers identify chromothripsis, the abrupt fragmentation of a chromosome, as the reason for the cure. …

Lung Cancer: New Genetic Anomalies Discovered

By analyzing the DNA and RNA of lung cancers, researchers at the University of Michigan Comprehensive Cancer Center found that patients whose tumors contained a large number of gene fusions had worse outcomes than patients with fewer gene fusions. Gene fusions are a type of genetic anomaly found in cancers that occurs when genes get rearranged and fuse together. In addition, the researchers identified several new genetic anomalies that occur in lung cancer, including in patients with a history of smoking. …

How does prostate cancer form? Parkinson’s Link?

“Using genetic deletion we found that SIRT1 normally restrains prostatic intraepithelial neoplasia in animals. Therefore too little SIRT1 may be involved in the cellular processes that starts human prostate cancer,” said Dr. Richard Pestell, M.D., Ph.D., MBA, executive Vice President of Thomas Jefferson University and Director of the Sidney Kimmel Cancer Center. “As we had shown that gene therapy based re expression of SIRT1 can block human prostate cancer tumor growth, and SIRT1 is an enzyme which can be targeted, this may be an important new target for prostate cancer prevention.” The researchers led by Dr…

How breast cancer cells break free to spread in body

A gene normally involved in the regulation of embryonic development can trigger the transition of cells into more mobile types that can spread without regard for the normal biological controls that restrict metastasis, the new study shows. Analysis of downstream signaling pathways of this gene, called SNAIL, could be used to identify potential targets for scientists who are looking for ways to block or slow metastasis. “This gene relates directly to the mechanism that metastatic cancer cells use to move from one location to another,” said Michelle Dawson, an assistant professor in the School of Chemical and Biomolecular Engineering at the Georgia Institute of Technology…