Metformin improves age-related visual cortex dysfunction in mice by reducing noise correlation in the primary visual cortex
Xiaoming Liu, Yifeng Zhou, Jiachen Liu, Guangwei Xu

TL;DR
Metformin improves visual processing in aged mice by reducing noise in the visual cortex and enhancing inhibitory signaling.
Contribution
This study shows metformin reverses age-related visual cortex dysfunction by modulating neural noise and enhancing inhibitory circuits.
Findings
Aging leads to increased noise correlation and reduced orientation selectivity in the primary visual cortex.
Metformin treatment reduces noise correlation and improves visual processing in aged mice.
Metformin enhances inhibitory signaling by upregulating glutamic acid decarboxylase 67 and gephyrin.
Abstract
Age-related decline in visual processing has been observed in association with reduced orientation selectivity and decreased signal-to-noise ratios in the primary visual cortex (V1). Elevated noise correlations between neurons are associated with impaired visual discrimination in aging; however, less is known about therapeutic interventions that could preserve visual cortical function during aging. In this study, we investigated the effects of metformin treatment on age-related changes in visual processing and neuronal correlations in V1. We conducted in vivo electrophysiological recordings to investigate whether 3 weeks of acute gavage with metformin improves visual processing in 12-month-old mice compared to 8-week-old mice by modulating neural noise in the V1, and used western blot analysis to investigate the molecular mechanism of the effect of metformin. In vivo…
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Taxonomy
TopicsNeural dynamics and brain function · Neuroscience and Neuropharmacology Research · Olfactory and Sensory Function Studies
