Tag Archives: rna

Researchers identify molecule that could aid lung cancer detection, treatment

According to the National Cancer Institute (NCI), lung cancer is the leading cause of cancer death among both men and women in the United States, and 90 percent of lung cancer deaths among men and approximately 80 percent of lung cancer deaths among women are due to smoking. The NCI also estimates that approximately 373,489 Americans are living with lung cancer and its treatment costs approximately $10.3 billion in the United States each year…

New eye treatment effective in laboratory tests

The studies involved controlling the actions of microRNAs, tiny pieces of RNA that were once considered to be "junk" but are now known to fine-tune gene activation and expression. The researchers showed that treating mice with short RNA strands that precisely target and inhibit microRNAs ("antimicroRNAs") can stop the aberrant growth of blood vessels ("neovascularization"). It is this abnormal proliferation of vessels that exacerbates vision loss in neovascular eye diseases like "wet" macular degeneration and diabetic retinopathy, two of the leading causes of blindness. Described in the cover story of the November issue of the Journal of Clinical Investigation, the microRNA treatments blocked aberrant vessel growth without damaging existing vasculature or neurons in three separate models of neovascular eye disease — a proof-of-principle that suggests future treatment based on the same approach may be effective in humans…

Mutations in cancer often affect the X chromosome

By studying when and where mutations occur the researchers hope to gain insights into the early mechanisms that send cells along a pathway to cancer. The new international study coordinated by Roland Eils has now for the first time analyzed the exact distribution of somatic mutations in the genomes of tumor cells of various types of cancer. Mutations do not affect all regions of the genome to the same extent. It is known, for example, that the number of somatic mutations depends on the sequence of bases making up a gene and the frequency at which it is transcribed into RNA molecules. …

Genes protect themselves against being silenced

As explicated today in the journal Nature, methylation in fact enforces gene silencing, and it is levels of a newly identified form of RNA produced by individual genes that determines whether they are turned off by the addition of a methyl (CH3) group by the enzyme DNA methylase 1 (DNMT1). The study, led by HSCI Principal Faculty member Daniel Tenen, MD, found that during transcription of DNA to RNA, a gene produces a small amount of what the investigators named "extracoding RNA," which stays in the nucleus and binds to DNMT1, blocking its ability to methylate, or silence the gene. The discovery of RNA’s new function has therapeutic potential as an on-off switch for gene expression. "We have demonstrated, at least for one gene in detail, and probably thousands more, that extracoding RNA serves to protect the gene from methylation," said Tenen, who heads laboratories at Beth Israel Deaconess Medical Center and the Cancer Science Institute of Singapore, where he is director, at the National University of Singapore. …

Malignant brain tumours can be transformed into benign forms

The research team of Prof. Bożena Kamińska from the Nencki Institute of Experimental Biology of the Polish Academy of Sciences in Warsaw developed — so far only in animal model — a method of converting malignant gliomas (brain tumours) into benign forms. Since the cells of benign gliomas are subdued and sometimes even eliminated by the host’s immune system, the prospects for survival of sick animals significantly increase…

New insights into the ribosome; important implications for disease

But in recent years, it has been demonstrated that the ribosome is far more than just a processing unit; indeed, current research points to an important role for this complex structure in actively regulating biological processes. Now, in a first-of-its-kind study that broadly examines the composition of the riboproteome, a scientific team led by investigators at Beth Israel Deaconess Medical Center (BIDMC) reveals previously unappreciated components of the ribosome, uncovering a large and dynamic structure that, among other things, can be altered in cancer. Published in today’s on-line issue of the journal Cell Reports, the study additionally describes the development of an analytic platform that can be widely applied to numerous biological systems to highlight the functional roles of possible disease genes associated with the riboproteome. "A primary goal of our lab is to gain a better understanding of translation and its impact on cancer," explains senior author Pier Paolo Pandolfi, MD, PhD, Scientific Director of the Cancer Center at BIDMC and George C…

New technique in RNA interference cuts time and cost in genetic screens

RNA interference is a natural process by which RNA molecules inhibit gene expression, but it can also be used by scientists to block a gene’s function and look for those that contribute to certain diseases. "For years, fruit flies and worms have been great model organisms because of the ability to carry out rapid genetic screens," says Elaine Fuchs, Rebecca C…

Targeting aggressive prostate cancer: How non-coding RNAs fuel cancer growth

"Androgen-deprivation therapy will often put cancer in remission, but tumors come back, even without testosterone," said contributor Christopher Evans, professor and chair of the Department of Urology at the UC Davis School of Medicine. "We found that these long non-coding RNAs were activating the androgen receptor. …