Researchers discover new approach to treat allergic asthma

Immunotherapy research primarily focuses on better recognition of cancer cells by the body's own immune system. Researchers at Amsterdam UMC and Moffitt Cancer Center have taken a different approach.

Protein synthesis in eukaryotic cells--found in plants, animals, and fungi--involves more than just the straightforward ribosome assembly of amino acids.

A study by Van Andel Institute scientists suggests that restricting cancer cells' access to fat may enhance the effectiveness of certain cancer treatments.

Columbia researchers developed probiotic bacteria that train the immune system to eliminate cancer cells, paving the way for a new class of cancer vaccinations that take advantage of bacteria's innate tumour-targeting abilities. These microbial cancer vaccines can be tailored to each person's specific original tumour and metastases, perhaps preventing future recurrences.

Pancreatic cells, like human cells, have a limit to how much stress they can handle before they start to break down. Through overstimulation of these cells, certain stresses like inflammation and hyperglycemia lead to the onset of type 2 diabetes.

The majority of cancer deaths are caused by metastatic disease, which occurs when cancer spreads from the primary tumour to other areas of the body. and researchers understand how cancer cells escape the primary location to seed new tumours, it is unclear why some cancer cells produce new tumours decades later and others do not.

The significance of gamma-delta T cells in 33 different cancer types is revealed in a recent study that was published in Cell Press. This information sheds light on the cells' potential as clinical biomarkers and therapeutic targets in the treatment of cancer. This thorough examination, which was carried out under the direction of a group of Moffitt Cancer Center experts, marks a substantial breakthrough in our knowledge of these distinct immune cells and how they affect cancer therapy outcomes for patients.

When cells divide, there is a substantial risk of genetic harm. After all, the cell must repeat its whole genetic material, including billions of genetic letters, before it can divide. This repeatedly produces "reading errors" in the genome. Other factors, including as exposure to sunlight, alcohol, and cigarettes, are also responsible for the buildup of DNA damage over a person's lifetime.

Endosymbiosis is a remarkable biological phenomenon in which one creature resides within another. Such an unconventional partnership is usually advantageous to both parties. Even in human bodies, we find evidence of such cohabitation: mitochondria, the cells' powerhouses, originated from an ancient endosymbiosis. Bacteria long ago invaded and colonized other cells. This coexistence created the groundwork for mitochondria, which are found in the cells of plants, animals, and fungi.

Researchers at Vanderbilt University Medical Centre showed that fever temperatures increase immune cell metabolism, proliferation, and activity, but they also promote mitochondrial stress, DNA damage, and cell death in a specific subgroup of T cells.