What question did this study set out to answer?

The aim is to investigate how irisin affects mitochondrial function and dynamics in the mouse hippocampus.

May 31, 2026Open Access

Irisin promotes selective changes in hippocampal mitochondrial metabolism in mice

Key Points

The aim is to investigate how irisin affects mitochondrial function and dynamics in the mouse hippocampus.
Acute and chronic exposure to irisin in mice
Measurement of ATP-coupled oxygen consumption
Analysis of mitochondrial content and dynamics-related proteins
Acute irisin exposure increased ATP-coupled oxygen consumption without changes in mitochondrial content
Chronic irisin administration reduced Opa1 and Drp1 levels, key regulators of mitochondrial remodeling
Identified selective actions of irisin on mitochondrial homeostasis in the hippocampus

Abstract

Irisin, an exercise-induced hormone, exerts neuroprotective actions in neurological disease models, yet its effects on brain mitochondrial metabolism remain unclear. Here, we examined how irisin influences mitochondrial function and dynamics in the mouse hippocampus. Acute irisin exposure boosted ATP-coupled oxygen consumption without altering mitochondrial content or dynamics-related proteins. Furthermore, chronic irisin administration in vivo decreased hippocampal Opa1 and Drp1 levels, two key regulators of mitochondrial remodeling. These findings uncover selective actions of irisin on hippocampal mitochondrial homeostasis and identify prolonged irisin exposure as a potential regulator of mitochondrial dynamics in the brain.

Irisin promotes selective changes in hippocampal mitochondrial metabolism in mice

Key Points

Abstract

Cite This Study