TY - JOUR
T1 - Connections of the mouse subfornical region of the lateral hypothalamus (LHsf)
AU - Ugur, M. zeyyen
AU - Doridot, Stéphane
AU - la Fleur, Susanne E.
AU - Veinante, Pierre
AU - Massotte, Dominique
N1 - Funding Information: This work was supported by the Centre National de la Recherche Scientifique (contract UPR3212), the University of Strasbourg and the NeuroTime Erasmus Mundus Joint Doctorate Program. Funding Information: We thank the Chronobiotron (UMS3415) for animal housing and animal care, and the imaging platform of INCI (UPS3156) for their assistance. Publisher Copyright: © 2021, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.
PY - 2021/9
Y1 - 2021/9
N2 - The lateral hypothalamus is a major integrative hub with a complex architecture characterized by intricate and overlapping cellular populations expressing a large variety of neuro-mediators. In rats, the subfornical lateral hypothalamus (LHsf) was identified as a discrete area with very specific outputs, receiving a strong input from the nucleus incertus, and involved in defensive and foraging behaviors. We identified in the mouse lateral hypothalamus a discrete subfornical region where a conspicuous cluster of neurons express the mu opioid receptor. We thus examined the inputs and outputs of this LHsf region in mice using retrograde tracing with the cholera toxin B subunit and anterograde tracing with biotin dextran amine, respectively. We identified a connectivity profile largely similar, although not identical, to what has been described in rats. Indeed, the mouse LHsf has strong reciprocal connections with the lateral septum, the ventromedial hypothalamic nucleus and the dorsal pre-mammillary nucleus, in addition to a dense output to the lateral habenula. However, the light input from the nucleus incertus and the moderate bidirectional connectivity with nucleus accumbens are specific to the mouse LHsf. A preliminary neurochemical study showed that LHsf neurons expressing mu opioid receptors also co-express calcitonin gene-related peptide or somatostatin and that the reciprocal connection between the LHsf and the lateral septum may be functionally modulated by enkephalins acting on mu opioid receptors. These results suggest that the mouse LHsf may be hodologically and functionally comparable to its rat counterpart, but more atypical connections also suggest a role in consummatory behaviors.
AB - The lateral hypothalamus is a major integrative hub with a complex architecture characterized by intricate and overlapping cellular populations expressing a large variety of neuro-mediators. In rats, the subfornical lateral hypothalamus (LHsf) was identified as a discrete area with very specific outputs, receiving a strong input from the nucleus incertus, and involved in defensive and foraging behaviors. We identified in the mouse lateral hypothalamus a discrete subfornical region where a conspicuous cluster of neurons express the mu opioid receptor. We thus examined the inputs and outputs of this LHsf region in mice using retrograde tracing with the cholera toxin B subunit and anterograde tracing with biotin dextran amine, respectively. We identified a connectivity profile largely similar, although not identical, to what has been described in rats. Indeed, the mouse LHsf has strong reciprocal connections with the lateral septum, the ventromedial hypothalamic nucleus and the dorsal pre-mammillary nucleus, in addition to a dense output to the lateral habenula. However, the light input from the nucleus incertus and the moderate bidirectional connectivity with nucleus accumbens are specific to the mouse LHsf. A preliminary neurochemical study showed that LHsf neurons expressing mu opioid receptors also co-express calcitonin gene-related peptide or somatostatin and that the reciprocal connection between the LHsf and the lateral septum may be functionally modulated by enkephalins acting on mu opioid receptors. These results suggest that the mouse LHsf may be hodologically and functionally comparable to its rat counterpart, but more atypical connections also suggest a role in consummatory behaviors.
KW - Anterograde tracing
KW - Defensive behavior
KW - Feeding
KW - Mu opioid receptor
KW - Retrograde tracing
UR - http://www.scopus.com/inward/record.url?scp=85111489899&partnerID=8YFLogxK
U2 - https://doi.org/10.1007/s00429-021-02349-x
DO - https://doi.org/10.1007/s00429-021-02349-x
M3 - Article
C2 - 34318365
SN - 1863-2653
VL - 226
SP - 2431
EP - 2458
JO - Brain Structure & Function
JF - Brain Structure & Function
IS - 7
ER -