Mitochondrial dysfunction manifests as structural damage (swelling, cristae rupture, increased volume/decreased numerical density), energy metabolism abnormalities (reduced COX and Complex I-III ...

Mitochondrial dysfunctions are associated with a variety of pathologies, and the onset and progression of disease are accompanied by alterations in extracellular biochemical and mechanical signals.

Engineered protein binders have enabled selective mitochondrial transplantation to diseased cells with preclinical evidence of improved neuronal survival and broad applicability across human ...

Sometimes I read a paper that literally gives me goosebumps—not because it gave me the answer to a question I’ve been seeking ...

When people think about health, they often focus on specific organs like the heart or brain. But many changes related to chronic conditions or ageing begin in the smallest units of your body — your ...

A previously unknown type of DNA damage in the mitochondria, the tiny power plants inside our cells, could shed light on how our bodies sense and respond to stress. The findings of the UC ...

Investigators led by Navdeep Chandel, Ph.D., the David W. Cugell, MD, Professor of Medicine in the Division of Pulmonary and Critical Care, have discovered how the metabolism of mitochondria supports ...

Mitochondria turn the food we eat into the energy our cells can use. But when stress hijacks the process they use to maintain their quality, they get snipped into useless fragments and go into a ...

A clinically robust mitochondrial assessment that transforms advanced cellular testing into actionable insights for optimized energy, metabolism, and personalized performance. Mitochondria drive ...

Mitochondria have long been known as the tiny organelles that act as the battery packs inside our cells while also serving as internal sensors and communicators. But relatively little is understood ...