News by Subject Biology

Public Release: 16-Nov-2018

Majority of HIV persistence during ART due to infected cell proliferation

Study confirms biological mechanism responsible for latent HIV reservoirs; suggests strategies for a functional HIV cure.

Journal: Nature Communications
Funder: Washington Research Foundation Postdoctoral Fellowship, National Institutes of Health, Australian Centre for HIV and Hepatitis Virology Research, Australian National Health, Medical Research Council

Public Release: 16-Nov-2018

From the ashes of a failed pain drug, a new therapeutic path emerges

Boston Children's Hospital

A surprising discovery about a failed pain drug -- and specifically, the pathway it targets, BH4 -- could have implications for autoimmunity and cancer. Neuroscientists at Boston Children's Hospital and immunologists from IMBA in Vienna report that BH4 also functions as a kind of immunological thermostat, raising and lowering the activity levels of T cells. Inhibiting BH4 could relieve atopic dermatitis, psoriasis, lupus, polyarthritis and inflammatory bowel disease; boosting it could help the immune system attack cancers.

Journal: Nature
Funder: IMBA, Austrian Ministry of Sciences, Austrian Academy of Sciences, T. Von Zastrow Foundation, European Research Council (ERC), National Institutes of Health, Christian Doppler Laboratory for Iron Metabolism and Anemia Research

Public Release: 16-Nov-2018

Dodging antibiotic resistance by curbing bacterial evolution

University of Washington Health Sciences/UW Medicine

Lowering mutation rates in harmful bacteria might be an as yet untried way to hinder the emergence of antimicrobial pathogens. One target for drug development might be a protein factor, DNA translocase Mfd, that enables bacteria to evolve rapidly by promoting mutations in many different bacterial species. This action speeds antibiotic resistance, including multi-drug resistance. Working on drugs to block Mfd and similar factors could be a revolutionary strategy to address the worldwide crisis of treatment-resistant infectious diseases.

Journal: Molecular Cell
Funder: Bill & Melinda Gate Foundation, University of Washington Innovation Award, NIH/National Institute of General Medical Sciences

Public Release: 16-Nov-2018

UCLA cell study reveals how head injuries lead to serious brain diseases

University of California - Los Angeles

UCLA biologists reveal the hidden molecular basis of brain disorders and provide the first cell atlas of the hippocampus -- the part of the brain that helps regulate learning and memory -- as it is affected by traumatic brain injury. The researchers propose gene candidates for treating brain diseases associated with traumatic brain injury such as Alzheimer's disease and post-traumatic stress disorder.

Journal: Nature Communications

Public Release: 16-Nov-2018

Scientists produce 3D chemical maps of single bacteria

DOE/Brookhaven National Laboratory

Researchers at NSLS-II used ultrabright x-rays to generate 3D nanoscale maps of a single bacteria's chemical composition with unparalleled spatial resolution.

Journal: Scientific Reports
Funder: DOE's Office of Science, National Institutes of Health, National Science Foundation

Public Release: 16-Nov-2018

Channels for the supply of energy

University of Freiburg

Freiburg scientists elucidate the mechanism for the transport of water-insoluble protein molecules in mitochondria

Journal: Cell

Public Release: 16-Nov-2018

Gene editing possible for kidney disease

Newcastle University

For the first time scientists have identified how to halt kidney disease in a life-limiting genetic condition, which may pave the way for personalised treatment in the future.

Journal: Proceedings of the National Academy of Sciences
Funder: Kidney Research UK

Public Release: 16-Nov-2018

Controlling organ growth with light

European Molecular Biology Laboratory

In optogenetics, researchers use light to control protein activity. This technique allows them to alter the shape of embryonic tissue and to inhibit the development of abnormalities. Now, scientists in EMBL's De Renzis group have enhanced the technique to stop organ-shaping processes in fruit fly embryos. Their results, published in The EMBO Journal, allow control over a crucial step in embryonic development.

Journal: EMBO Journal

Public Release: 16-Nov-2018

Cells decide when to divide based on their internal clocks

Imperial College London

The time of day, determined by a cell's internal clock, has a stronger influence on cell division than previously thought, reveals a new study.

Journal: Proceedings of the National Academy of Sciences

Public Release: 16-Nov-2018

Proteins cooperate to break up energy structures in oxygen starved heart cells

National Institutes of Natural Sciences

Researchers at the National Institute for Physiological Sciences found that the filamin A-Drp1 complex mediates mitochondrial fission in a mouse model of hypoxic heart cells. Results show that hypoxic stress brought about the interaction of filamin A with Drp1 and increased Drp1 activity in heart cells. This process led to mitochondrial fragmentation and cell senescence. Further investigation demonstrated that the drug cilnidipine suppressed Drp1-filamin A complex formation and preserved heart cell function.

Journal: Science Signaling

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