Literature DB >> 34914519

Supramammillary regulation of locomotion and hippocampal activity.

Jordan S Farrell1, Matthew Lovett-Barron2,3, Peter M Klein1, Fraser T Sparks4,5,6, Tilo Gschwind1, Anna L Ortiz1, Biafra Ahanonu7,8, Susanna Bradbury2, Satoshi Terada4,5,6, Mikko Oijala1, Ernie Hwaun1, Barna Dudok1, Gergely Szabo1, Mark J Schnitzer7,9, Karl Deisseroth2,9,10, Attila Losonczy4,5,6, Ivan Soltesz1.   

Abstract

Locomotor speed is a basic input used to calculate one’s position, but where this signal comes from is unclear. We identified neurons in the supramammillary nucleus (SuM) of the rodent hypothalamus that were highly correlated with future locomotor speed and reliably drove locomotion when activated. Robust locomotion control was specifically identified in Tac1 (substance P)–expressing (SuMTac1+) neurons, the activation of which selectively controlled the activity of speed-modulated hippocampal neurons. By contrast, Tac1-deficient (SuMTac1−) cells weakly regulated locomotion but potently controlled the spike timing of hippocampal neurons and were sufficient to entrain local network oscillations. These findings emphasize that the SuM not only regulates basic locomotor activity but also selectively shapes hippocampal neural activity in a manner that may support spatial navigation.

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Year:  2021        PMID: 34914519      PMCID: PMC9154354          DOI: 10.1126/science.abh4272

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   63.714


  54 in total

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5.  The supramammillary region of the cat sends substance P-like immunoreactive axons to the hippocampal formation and the entorhinal cortex.

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  3 in total

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