A study led by Assistant Professor Masamitsu Sone and Professor Yoshifumi Yamaguchi from Hokkaido University, Japan, has uncovered a crucial gene that enables hibernating Syrian hamsters (Mesocricetus auratus) to prevent cold-induced cell death. The research was published in the journal Cell Death and Disease.
The study findings of a team from Julius-Maximilians-Universität Würzburg (JMU) in Bavaria, Germany help to broaden the conceptual view on the DNA damage response and to link it more closely with RNA metabolism.
By combining mass spectrometry and mass cytometry imaging techniques, researchers can now dive deeper into tumors and map the metabolism of individual cells in tumor tissue.
Researchers propose the use of molecular ‘cages’ (made of pseudopeptides) to selectively eliminate cancer cells in acidic microenvironments. This could help reduce side effects from chemotherapy.
Researchers have developed an artificial intelligence which can differentiate cancer cells from normal cells, as well as detect the very early stages of viral infection inside cells.
US researchers applied an injectable new therapy, which harnesses fast-moving “dancing molecules,” to repair damaged human cartilage cells within just 4 hours.
Why does the immune system sometimes fail to control the development of bowel cancer? UK and Dutch researchers discovered how cancer cells use a genetic "switch" to evade detection.
Finnish researchers discovered a mechanism that wakes up dormant breast cancer cells and demonstrated that preventing the mechanism can significantly improve treatment outcomes in experimental models.
Scientists discover how the production of antibodies is regulated in allergy and infections. This opens the door to new therapies, without affecting the beneficial response of the immune system.
Chemotherapy kills cancer cells – but how? New research suggests that the mechanisms are different than previously understood. The finding will have implications for future cancer treatments.
Artificial cells to combat cancer: Research groups are working to create synthetic micro-organisms capable of detecting the presence of the disease and delivering anti-cancer therapies.
Blood cancer cells can remain in the blood of AML patients, even after chemotherapy seemed successful. Testing for these residuals before blood cell donation is a vital precaution, a new study finds.
In cancer, cell deterioration can drive progression. A similar process happens in artherosclerosis, new research reveals. This finding could lead to new ways of combatting disease-causing plaque.
Researchers present a new method for generating human alveolar epithelial type I cells. This could ultimately progress therapies for people living with pulmonary diseases.
Stiffness in tissues can be a valuable indicator of cancer formation. Now, researchers have developed a microscopic probe to perform histology at the single cell level inside the human body.
A new detection tool is designed to contribute to improving tumour research and classification by identification and quantification of chromosomal instability in the nuclei of cancer cells.
Biochemists and bioinformaticians from the Leibniz Institute DSMZ have extensively characterized the molecular properties of the breast cancer cell lines from the institute's collection.
Ahead of World Cancer Day on 4 February, scientists are revealing a cutting-edge artificial intelligence (AI) tool designed to help grade cancer, by analysing cell division.
Researchers in Japan and the US have developed technology to robustly augment the amount of MHC class I molecules in cancer cells. This makes them easier to find and destroy for the immune system.
