Canadian researchers have found a promising way to stop tumour cells from multiplying. In disrupting the composition of ribosomes, the team from Université de Montréal (UdeM) discovered a direct molecular mechanism to stop cancer cells from proliferating, which is called senescence. Their results have been published in Nature Cell Biology. “Ribosomes are complex machines composed of both…
While treatments for HIV mean that the disease is no longer largely fatal, the world still lacks a true therapy that can eradicate the virus across a globally—and genetically different—population.
Dr. Thomas Hainmüller and Prof. Dr. Marlene Bartos of the Institute of Physiology of the University of Freiburg have established a new model to explain how the brain stores memories of tangible events. The model is based on an experiment that involved mice seeking a place where they received rewards in a virtual environment.
A new SLAS Discovery original research article available now for free ahead-of-print, researchers from the Genomics Institute of the Novartis Research Foundation (GNF) highlights a diversity of approaches that their automated high-throughput flow cytometry has enabled for phenotypic drug discovery. Flow cytometry is a very powerful tool that has been used for decades and allows for…
Menarini Silicon Biosystems announced that a new study has found that using circulating tumor cells (CTCs), a form of liquid biopsy, holds promise as a key tool for developing a staging system that can have a significant impact in the treatment of metastatic breast cancer (MBC). In this study, the largest CTCs pooled analysis study to date, researchers determined that the CTC count could be used…
Making tumour cells glow: Medical physicists at Martin Luther University Halle-Wittenberg (MLU) have developed a new method that can generate detailed three-dimensional images of the body's interior. This can be used to more closely investigate the development of cancer cells in the body. The research group presents its findings in "Communication Physics", a journal published by the…
Cell division is an intricately choreographed ballet of proteins and molecules that divide the cell. During mitosis, microtubule-organizing centers (MTOCs) assemble the spindle fibers that separate the copying chromosomes of DNA. While scientists are familiar with MTOCs’ existence and the role they play in cell division, their actual physical structure remains poorly understood. Shruthi…
Mutations in the p63 protein lead to a number of disorders, but none is as severe as the AEC syndrome. Scientists at Goethe University Frankfurt in collaboration with a research group from the University of Naples Federico II have now discovered that this syndrome resembles diseases such as Alzheimer’s, Parkinson’s or ALS more closely than it does other p63-based syndromes. Their results,…
T cells play a key role in the body’s immune response against pathogens. As a new class of therapeutic approaches, T cells are being harnessed to fight cancer, promising more precise, longer-lasting mitigation than traditional, chemical-based approaches. These “living drugs” are poised to transform medicine, with a growing number of cellular therapies receiving FDA-approval. A current…
UCLA researchers have developed the first map of gene regulation in human neurogenesis, the process by which neural stem cells turn into brain cells and the cerebral cortex expands in size. The scientists identified factors that govern the growth of our brains and, in some cases, set the stage for several brain disorders that appear later in life. The human brain differs from that of mice and…
Mount Sinai researchers have discovered that normal immune cells called macrophages, which reside in healthy breast tissue surrounding milk ducts, play a major role in helping early breast cancer cells leave the breast for other parts of the body, potentially creating metastasis before a tumor has even developed, according to a study published in Nature Communications. The macrophages play a role…
Tissue engineering, broadly described as the combination of cells, engineering methods and biochemical factors to create living biological tissue, is a fast-growing field that has the potential to significantly accelerate the advancement of medicine. In IDTechEx’s new report, Tissue Engineering 2018 – 2028: Technologies, Markets, Forecasts, the market for engineered living tissues is…
Genentech researchers have identified an enzyme that shifts pancreatic cancer cells to a more aggressive, drug-resistant state by epigenetically modifying the cells’ chromatin. The study, which will be published in the Journal of Cell Biology, suggests that targeting this enzyme could make pancreatic cancer cells more vulnerable to existing therapies that currently have only limited effect…
Cancer therapies including radiation and chemotherapy seek to treat the disease by killing tumor cells. Now a team including researchers at Beth Israel Deaconess Medical Center (BIDMC) have shown that the dead and dying cancer cells generated by chemotherapy and targeted cancer therapy paradoxically trigger inflammation that promotes aggressive tumor growth. In a study published today in the…
Treating type 1 diabetes and some cases of type 2 diabetes has long required painful and frequent insulin injections or a mechanical insulin pump for insulin infusion. But researchers from the University of North Carolina and NC State have now developed what could be a much more patient-friendly option: artificial cells that automatically release insulin into the bloodstream when glucose levels…
A common feature of neurodegenerative diseases are deposits of aggregated proteins in the patient's cells that cause damage to cellular functions. Scientists report that, even in normal cells, aberrant aggregation-prone proteins are continually produced due to partial failure of the respiratory system. Unless they are removed by degradation, aggregates accumulate preferentially in the…
G protein-coupled receptors (GPCRs) are among the "hottest” targets for the therapy of diseases such as hypertension, asthma or Parkinson's. These receptors are the site of action of many hormones and neurotransmitters and allow them to regulate the activity of our cells. How and where this happens has long been the subject of numerous hypotheses. An international team of scientists from…
University of Alabama at Birmingham biomedical engineers report a significant advance in efforts to repair a damaged heart after a heart attack, using grafted heart-muscle cells to create a repair patch. The key was overexpressing a gene that activates the cell-cycle of the grafted muscle cells, so they grow and divide more than control grafted cells.
Columbia University Medical Center (CUMC) researchers have identified cells in the upper digestive tract that can give rise to Barrett’s esophagus, a precursor to esophageal cancer. The discovery of this “cell of origin” promises to accelerate the development of more precise screening tools and therapies for Barrett’s esophagus and esophageal adenocarcinoma, the fastest growing form of…
For many years, we thought that all proteins must fold into complicated shapes to fulfill their functions, looking like thousands of sets of custom-tailored locks and keys. But over the past two decades, scientists have begun to realize other proteins—including those involved in many essential cellular functions—remain fully or partially unfolded for parts of their lives. Out of this…
Cells can be programmed like a computer to fight cancer, influenza, and other serious conditions – thanks to a breakthrough in synthetic biology by the University of Warwick.
A nanolaser known as the spaser can serve as a super-bright, water-soluble, biocompatible probe capable of finding metastasized cancer cells in the blood stream and then killing these cells, according to a new research study.
Researchers discover a new molecule, ‘Singheart’, that may hold the key to triggering the regeneration and repair of damaged heart cells.
A protein found in the edible mushroom known as "shaggy ink cap" might be able to kill a type of leukemia cell, new research suggests.
A research team found that in patients suffering from rheumatoid arthritis, a special cell population called innate lymphoid cells are in a state of hibernation which is why these patients suffer from persistent inflammation.