SUMMARY
Peripheral processes that mediate beneficial effects of exercise on the brain remain sparsely explored. Here we show that a muscle secretory factor, Cathepsin B (CTSB) protein, is important for cognitive benefits of running. Proteomic analysis revealed elevated levels of CTSB in conditioned medium derived from skeletal muscle cell cultures treated with AMP-kinase agonist AICAR. Consistently, running increased CTSB levels in mouse gastrocnemius muscle and plasma. In addition, in male wildtype (WT), but not CTSB knockout (KO) mice running enhanced adult hippocampal neurogenesis and spatial memory. Furthermore, recombinant CTSB application enhanced expression of brain-derived neurotrophic factor (BDNF) and doublecortin (DCX) in adult hippocampal progenitor cells through a multifunctional protein, P11, dependent mechanism. Interestingly, in Rhesus monkeys and humans treadmill exercise elevated CTSB in plasma. In humans CTSB levels correlated with fitness and hippocampus-dependent memory function. Our findings suggest CTSB as a mediator of effects of exercise on cognition.
The striatum comprises multiple subdivisions and neural circuits that differentially control motor output. The islands of Calleja (IC) contain clusters of densely-packed granule cells situated in the ventral striatum, predominantly in the olfactory tubercle (OT). Characterized by expression of the D3 dopamine receptor, the IC are evolutionally conserved, but have undefined functions. Here we show that optogenetic activation of OT D3 neurons robustly initiates self-grooming in mice while suppressing other ongoing behaviors. Conversely, optogenetic inhibition of these neurons halts ongoing grooming, and genetic ablation reduces spontaneous grooming. Furthermore, OT D3 neurons show increased activity before and during grooming and influence local striatal output via synaptic connections with neighboring OT neurons (primarily spiny projection neurons, SPNs), whose firing rates display grooming-related modulation. Our study uncovers a novel role of the ventral striatum’s IC in regulating motor output and has important implications for the neural control of grooming.
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