News by Subject Biology

News Release 22-Aug-2019

Enzyme that helps protect us from stress linked to liver cancer growth

Medical College of Georgia at Augusta University

An enzyme induced by stress to help reduce production of damaging free radicals is also used by liver cancer to regulate two major cell proliferation pathways that enable the cancer to thrive, scientists report.

Journal: Hepatology
Funder: National Institutes of Health

News Release 22-Aug-2019

Brain finds order amidst chaos

Ecole Polytechnique Fédérale de Lausanne

How does the brain find order amidst a sea of noise and chaos? Researchers at the EPFL Blue Brain Project have found the answer by using advanced simulation techniques to investigate the way neurons talk to each other. In a paper published in Nature Communications, they found that by working as a team, cortical neurons can respond even to weak input against the backdrop of noise and chaos, allowing the brain to find order.

Journal: Nature Communications
Funder: ETH Board of the Swiss Federal Institutes of Technology

News Release 21-Aug-2019

Texas A&M CVM study finds new pathway for potential glioblastoma treatment

Texas A&M University

A team led by Texas A&M University's College of Veterinary Medicine & Biomedical Sciences' (CVM) researcher Dr. Stephen Safe has discovered a new pathway that may help suppress the development of glioblastoma tumors, one of the deadliest forms of cancer.

Journal: Journal of Biological Chemistry
Funder: National Institutes of Health, Karmanos Cancer Institute

News Release 21-Aug-2019

Scientists probe how distinct liquid organelles in cells are created

University at Buffalo

One way biological compounds inside cells stay organized is through membrane-less organelles (MLOs) -- wall-less liquid droplets made from proteins and RNA that clump together and stay separate from the rest of the cellular stew. In a paper in Scientific Reports, scientists report that MLOs may be highly sensitive to the level of divalent cations inside cells. This matters because divalent calcium and magnesium ions aid in cellular signaling and are vital to life.

Journal: Scientific Reports
Funder: NIH/National Institute of General Medical Sciences, National Science Foundation, UB College of Arts and Sciences

News Release 21-Aug-2019

Scientists discover the basics of how pressure-sensing Piezo proteins work

Weill Cornell Medicine

A team of scientists from Weill Cornell Medicine and The Rockefeller University has illuminated the basic mechanism of Piezo proteins, which function as sensors in the body for mechanical stimuli such as touch, bladder fullness, and blood pressure. The discovery is a feat of basic science that also opens up many new paths of investigation into the roles of Piezo proteins in human diseases and potential new therapeutic strategies.

Journal: Nature

News Release 21-Aug-2019

Scientists unlock secrets of maternal/fetal cellular communication during pregnancy

University of Texas Medical Branch at Galveston

Researchers have unlocked mysteries surrounding how a pregnant mother's cells and her fetus' cells communicate throughout pregnancy. With this new information, The University of Texas Medical Branch at Galveston team and their colleagues in South Korea can develop new non-invasive methods of monitoring and improving the health of the fetus using this mode of communication.

Journal: American Journal of Obstetrics & Gynecology

News Release 21-Aug-2019

UC San Diego researchers convert pro-tumor macrophages into cancer killers

University of California - San Diego

University of California San Diego School of Medicine researchers identified a new therapeutic approach in mouse models that halts drug resistance and cancer progression by using an antibody that induces the immune system via macrophages to seek and kill cancer cells.

Journal: Cancer Research
Funder: National Institutes of Health, V Foundation Translational Research Award, Daiichi-Sankyo Foundation of Life Science fellowship grant

News Release 21-Aug-2019

'Kissing loops' in RNA molecule essential for its role in tumor suppression

European Molecular Biology Laboratory

A team of researchers in the Marcia group at EMBL Grenoble, France, have discovered that the tumour suppressor MEG3 adopts a complex three-dimensional structure to fulfil its function. Furthermore, they were able to fine-tune its activity by targeted manipulation of this architecture. The results of this study, published in Molecular Cell, might help to advance diagnosis and treatment of certain types of cancer.

Journal: Molecular Cell

News Release 21-Aug-2019

CNIO discovers a connection between nutrients and follicular lymphoma

Centro Nacional de Investigaciones Oncológicas (CNIO)

CNIO researchers have identified the role played by mTOR pathway as the origin of follicular lymphoma and propose the exploration in future studies of a possible therapeutic strategy using a drug that is already being used in clinical practice to treat other tumors.

Journal: Nature Metabolism

News Release 21-Aug-2019

Insight into cells' 'self-eating' process could pave the way for new dementia treatments

University of Plymouth

Cells regularly go through a process called autophagy -- literally translated as 'self-eating' -- which helps to destroy bacteria and viruses after infection. Now new research by the University of Plymouth has shed light on the mechanisms behind autophagy and how it progresses -- particularly relating to a process called liquid-liquid phase separation (LLPS).

Journal: Nature Communications

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