Mitochondria play a central role in cellular energy metabolism by converting nutrients into adenosine triphosphate (ATP) through oxidative phosphorylation. Beyond energy production, these organelles ...

Stanford University-led researchers report that tumor cells hijack mitochondria from immune cells, reducing anti-tumor immune ...

Scientists at Duke University found that satellite glial cells can deliver healthy mitochondria to injured sensory neurons, restoring energy, reducing inflammation, and significantly relieving ...

This Collection supports and amplifies research related to SDG 3 and SDG 9. Mitochondrial dysfunction has been identified as a hallmark of aging, playing a central role in age-associated decline ...

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.

Mitochondrial dysfunction is associated with various chronic diseases and cancers, including neurodegenerative diseases and ...

For millions living with nerve pain, even a light touch can feel unbearable. Scientists have long suspected that damaged ...

Transferring mitochondria, or the glial cells that produce them, to mice with nerve damage mitigated pain, suggesting a ...

Mitochondrial respiratory complexes (Complexes I–V) and their assembly into respiratory supercomplexes (SCs) are fundamental to liver bioenergetics, redox homeostasis, and metabolic adaptability.

Forbes contributors publish independent expert analyses and insights. Jesse Pines is an expert in healthcare innovation and wellness. Microscopic view of mitochondria—often called the "powerhouses of ...

Scientists have developed oral nanorobots that target damaged heart tissue, deliver energy, and repair mitochondrial function, offering a novel approach to treating ischemic heart disease. (Nanowerk ...