Tag Archives: dna

Ebola whole virus vaccine shown effective, safe in primates

The vaccine, described today (March 26, 2015) in the journal Science, was developed by a group led by Yoshihiro Kawaoka, a University of Wisconsin-Madison expert on avian influenza, Ebola and other viruses of medical importance. It differs from other Ebola vaccines because as an inactivated whole virus vaccine, it primes the host immune system with the full complement of Ebola viral proteins and genes, potentially conferring greater protection. “In terms of efficacy, this affords excellent protection,” explains Kawaoka, a professor of pathobiological sciences in the UW-Madison School of Veterinary Medicine and who also holds a faculty appointment at the University of Tokyo…

Tumor determination in bowel cancer: Blood test replaces surgery

One of the challenges of personalised medicine is the development of treatment resistance. At the Comprehensive Cancer Center (CCC) Vienna at the MedUni Vienna and Vienna General Hospital, a study is now commencing which involves patients with metastasized bowel cancer who are undergoing a new diagnostic method, namely liquid biopsy in the form of a blood test. The aim of this new method is to spot a tumor’s development of resistance early on and therefore adjust the treatment quickly and in a targeted manner…

Epigenetic breakthrough: A first of its kind tool to study the histone code

This work, published in the journal Developmental Cell, opens the door to experiments that are expected to uncover new biology important for a host of conditions, such as neurological diseases, diabetes, obesity, and especially cancer, which has become a hotbed of epigenetic research. “People think cancer is a disease of uncontrolled proliferation, but that’s just one aspect of it,” said Robert Duronio, PhD, professor of biology and genetics and co-senior author. “Cancer is actually a disease of development in which the cells don’t maintain their proper functions; they don’t do what they’re supposed to be doing.” Somehow, the gene regulation responsible for proper cell development goes awry. …

‘Bad luck’ of random mutations plays predominant role in cancer, study shows

“All cancers are caused by a combination of bad luck, the environment and heredity, and we’ve created a model that may help quantify how much of these three factors contribute to cancer development,” says Bert Vogelstein, M.D., the Clayton Professor of Oncology at the Johns Hopkins University School of Medicine, co-director of the Ludwig Center at Johns Hopkins and an investigator at the Howard Hughes Medical Institute. “Cancer-free longevity in people exposed to cancer-causing agents, such as tobacco, is often attributed to their ‘good genes,’ but the truth is that most of them simply had good luck,” adds Vogelstein, who cautions that poor lifestyles can add to the bad luck factor in the development of cancer. The implications of their model range from altering public perception about cancer risk factors to the funding of cancer research, they say. “If two-thirds of cancer incidence across tissues is explained by random DNA mutations that occur when stem cells divide, then changing our lifestyle and habits will be a huge help in preventing certain cancers, but this may not be as effective for a variety of others,” says biomathematician Cristian Tomasetti, Ph.D., an assistant professor of oncology at the Johns Hopkins University School of Medicine and Bloomberg School of Public Health. …

Reprogramming stem cells may prevent cancer after radiation

The study also shows that this same safeguard of “programmed mediocrity” that weeds out stem cells damaged by radiation allows blood cancers to grow in cases when the full body is irradiated. And by reprogramming this safeguard, we may be able to prevent cancer in the aftermath of full body radiation. “The body didn’t evolve to deal with leaking nuclear reactors and CT scans. It evolved to deal with only a few cells at a time receiving dangerous doses of radiation or other insults to their DNA,” says James DeGregori, PhD, investigator at the CU Cancer Center, professor of Biochemistry and Molecular Genetics at the CU School of Medicine, and the paper’s senior author…

Whole-genome sequencing can successfully identify cancer-related mutations — ScienceDaily

This is the first study that has used whole-genome sequencing to evaluate a series of 258 cancer patients’ genomes to improve the ability to diagnose cancer-predisposing mutations. The study is published online in the journal EBioMedicine. “Whole-genome sequencing is a new genetic tool that can determine more of a person’s DNA sequence than ever before. Our results show that nearly 90 percent of clinically identified mutations were confidently detected and additional cancer gene mutations were discovered, which together with the decreasing costs associated with whole-genome sequencing means that this method will improve patient care, as well as lead to discovery of new cancer genes,” said Dr…

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. …

Airline pilots can be exposed to cockpit radiation similar to tanning beds

Airplane windshields are commonly made of polycarbonate plastic or multilayer composite glass. UV-A radiation can cause DNA damage in cells and its role in melanoma is well known, according to the article. Author Martina Sanlorenzo, M.D., of the University of California, San Francisco, and co-authors measured the amount of UV radiation in airplane cockpits during flights and compared them with measurements taken in tanning beds. The cockpit radiation was measured in the pilot seat of a general aviation turboprop airplane through the acrylic plastic windshield at ground level and at various heights above sea level…

Orphan receptor proteins deliver two knock-out punches to glioblastoma cells

The scientists say when activated, one protein, called the short form, stops glioblastoma cells from replicating their DNA, and the other, called the long form, prevents cell division if the DNA has already been replicated, explains Rebecca Riggins, PhD, assistant professor of oncology at Georgetown Lombardi. The study was posted online Dec. …

Orphan receptor proteins deliver two knock-out punches to glioblastoma cells — ScienceDaily

The scientists say when activated, one protein, called the short form, stops glioblastoma cells from replicating their DNA, and the other, called the long form, prevents cell division if the DNA has already been replicated, explains Rebecca Riggins, PhD, assistant professor of oncology at Georgetown Lombardi. The study was posted online Dec…