The arterial vasculature is the second most frequently calcified structure in the human body after the skeleton. Calcification of the aorta and aortic valves occurs in most individuals in westernized ...

Two decades ago, Professor Shao-Cong Sun first discovered the non-canonical NF-κB pathway mediated by NF-κB-inducing kinase (NIK). Since then, more ...

Chung’s group captured the transition period directly by improving the time resolution of a method called single-molecule ...

Researchers engineered astrocytes with chimeric antigen receptors to remove amyloid beta plaques linked to Alzheimer’s. In mouse studies, a single injection prevented plaque formation when given early ...

Oslo, Norway, 09 March 2026 - Zelluna (OSE: ZLNA), a company pioneering allogeneic "off-the-shelf" T Cell Receptor-based Natural Killer (TCR-NK) cell therapies for the treatment of solid cancers, toda ...

Zelluna (OSE: ZLNA), a company pioneering allogeneic 'off-the-shelf' T Cell Receptor-based Natural Killer (TCR-NK) cell ...

The NF-κB-inducing kinase (NIK), a molecule pivotal for immune system development and function, shows significant yet complex potential as a therapeutic target. The comprehensive review, published by ...

Scientists at Washington University in St. Louis have engineered brain cells to hunt and destroy amyloid plaques, cutting toxic buildup by roughly half in aged mice with advanced Alzheimer’s-like ...

A single treatment of viral vector-delivered CAR-A construct in mice with existing plaque saturation cut the amount of amyloid plaques in half.

TD Cowen 46th Annual Health Care Conference March 3, 2026 3:10 PM ESTCompany ParticipantsEric BrownGiacomo Salvadore - Chief ...

Fred Hutch Cancer Center scientists have developed an experimental strategy to give genetically engineered CAR T cells help they'd normally find within lymph nodes — but on the go, within the tumor.

A conserved glucagon signaling pathway links high-fat diet-induced metabolic imbalance to cardiac arrhythmia through hormone-producing cells and heart-innervating neurons that regulate rhythmicity.