Tag Archives: environment

‘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. …

Promising prognostic biomarker candidates for ovarian cancer uncovered

The first study establishes an association of this often-deadly cancer with the immune system and clarified the role of a class of immunogenic tumor antigens known as cancer testis (CT) antigens, and the second reports new evidence that certain molecular interactions influence ovarian cancer prognosis. In context with recent evidence that the immune system can potently inhibit the growth of cancer cells, these novel findings may enable development of a new strategy for identifying those patients most likely to benefit from particular targeted therapies. “There is a lot of interest right now in what to do with the human genome,” says Kevin Eng, PhD, an Assistant Professor of Oncology in the Department of Biostatistics and Bioinformatics at RPCI who was first author on both studies. …

Prostate cancer risk reduced by sleeping with many women, but increased with many men, study finds

Marie-Elise Parent and Marie-Claude Rousseau, professors at university’s School of Public Health, and their colleague Andrea Spence, published their findings in the journal Cancer Epidemiology. The results were obtained as part of the Montreal study PROtEuS (Prostate Cancer & Environment Study), in which 3,208 men responded to a questionnaire on, amongst other things, their sex lives…

New biomarker highly promising for predicting breast cancer outcomes

Cancer is deadly in large part due to its ability to metastasize, to travel from one organ or tissue type to another and malignantly sprout anew. The vast majority of cancer deaths are associated with metastasis. In breast cancer, a process called “epithelial to mesenchymal transition” aids metastasis…

Master heat-shock factor supports reprogramming of normal cells to enable tumor growth and metastasis

The finding, reported by Whitehead Institute scientists this week in the journal Cell, lends new insights into tumor biology with significant implications for the diagnosis, prognosis, and management of cancer patients. Over the past several years, researchers in the lab of Whitehead Member Susan Lindquist have been investigating the role the transcription factor HSF1 plays in supporting malignancy. In normal cells, stressful conditions, including those caused by heat, hypoxia, and toxins activate HSF1, which serves to maintain protein homeostasis and helps the cells endure tough times. Cancer cells, however, are capable of hijacking this heat-shock response to their own benefit. …

More than 40 melanoma-specific genes that determine aggressiveness identified

What is the function of these genes? Strangely, the factors that are increased in melanoma share a common mechanism: the formation of vesicles called endosomes. Endosomes are machinery that tumor cells, via a process called endocytosis, can use to incorporate components into their environment and obtain energy by degrading them via autodigestion or autophagy…