The inflammatory response is a vital protective process, yet its dysregulation can lead to chronic conditions and tissue damage. Central to these processes is the regulation of nitric oxide (NO), a ...

A new human study has uncovered how the body naturally turns off inflammation. Researchers found that fat-derived molecules called epoxy-oxylipins rein in immune cells that can otherwise drive chronic ...

Chronic inflammation is acknowledged as the fundamental cause of various pathological conditions, and in recent decades, there has been a growing focus on ...

The mechanisms of the arthritis inflammatory response are induced through Negative Regulation of SMAD Protein Signal Transduction, Positive Regulation of Voltage-Gated Calcium Channel Activity, and ...

Most of us go through the day without giving much thought to what's quietly happening inside our bodies. We grab a sandwich ...

Individuals with psychiatric disorders exhibiting seemingly similar symptoms often respond very differently to the same treatment, suggesting that distinct biological processes are at work beneath the ...

An EHU study indicates that a drug already approved for use in humans could help to reduce the inflammation associated with celiac disease. The research, conducted by the FunImmune group, shows that ...

Chronic inflammation is both a driver and suppressor of cancer depending on context. Key players-NF-κB, IL-6, STAT3, TAMs, MDSCs, and Tregs-orchestrate a tumor-permissive microenvironment.

An inflammatory sugar molecule produced by certain gut bacteria may play a key role in driving ALS, a study found.

The understanding of fat has evolved in recent decades. Once regarded as nothing more than passive storage reservoirs for fat, adipocytes are now recognized as critical players in metabolic and ...