Inositol trisphosphate receptors (IP3Rs) are pivotal Ca²⁺ channels embedded in the membrane of the endoplasmic reticulum. Their activation by inositol 1,4,5-trisphosphate (IP3) and Ca²⁺ gives rise to ...

Researchers have found a new receptor for nerve growth factor that plays an important role in pain signaling, even though it does not signal on its own, according to a new study. The findings hold ...

As a synthetic decapeptide structurally derived from gonadotropin-releasing hormone (GnRH), Triptorelin has long attracted research interest due to its unusually paradoxical signalling profile.

Researchers at the NYU Pain Research Center have found a new receptor for nerve growth factor that plays an important role in pain signaling, even though it does not signal on its own, according to a ...

A team has demonstrated new mechanisms that are involved in the development of inflammatory cardiovascular diseases. A team led by LMU researchers Christian Weber and Yvonne Döring has demonstrated ...

A new review links three forces shaping osteoarthritis: mechanical stress, integrin signaling, and integrin endocytosis. The authors argue that integrin trafficking can reprogram where and how long ...

Results From First-in-Human Phase I Study of a Novel CD19-1XX Chimeric Antigen Receptor With Calibrated Signaling in Large B-Cell Lymphoma The following represents disclosure information provided by ...

Cell signaling is crucial for cells to communicate and function correctly. Disruptions in these pathways, caused by genetic mutations or environmental factors, can lead to uncontrolled cell growth, ...

New research explores T cells and their signaling pathways in alopecia areata (AA), highlighting promising drug targets for future treatment. A research review described the role of T cells and T-cell ...

“While for all other cells the signaling molecule CXCL12 leads to migration, for erythroblasts this molecule is transported within the cell, even into the nucleus.” The receptor and its signal ...

Nerve growth factor receptor TrkA (in green) and co-receptor NRP1 (in purple) are coexpressed in the same nerve cells in mice. Researchers at the NYU Pain Research Center have found a new receptor for ...