High basal autophagic activity in the brain revealed by systemic quantitative analysis using GFP-LC3-RFP mice
Kanda, Y.; Eguchi, T.; Morishita, H.; Hama, Y.; Abe, M.; Sakimura, K.; Mizushima, N.
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Autophagy is a fundamental intracellular degradation pathway with vital physiological functions. Although it is well known that autophagy is activated during starvation, the extent of basal autophagy remains unclear owing to challenges in measuring autophagic flux in vivo. In this study, we developed autophagy reporter (GFP-LC3-RFP) mice and quantified basal autophagic flux across tissues by comparing normal and autophagy-deficient conditions. Comparative analyses revealed uniformly low basal autophagic flux during embryogenesis, but significant tissue-specific variation in adult mice. In contrast to previous assumptions that basal autophagy in the brain is low, the brain, along with the liver and kidney, exhibited higher basal autophagic flux than the heart, skeletal muscle, and intestine. These data serve as foundational information on basal autophagic flux in mammals and provide a plausible explanation for the severe neurological phenotypes linked to autophagy gene mutations in mice and humans.
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