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  • Blasiak, Anna  (1)
  • Cifani, Carlo  (1)
  • Lenglos, Christophe  (1)
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    Online Resource
    Estrous Cycle Modulation of Feeding and Relaxin-3/Rxfp3 mRNA Expression: Implications for Estradiol Action
    S. Karger AG ; 2021
    In:  Neuroendocrinology Vol. 111, No. 12 ( 2021), p. 1201-1218
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    In: Neuroendocrinology, S. Karger AG, Vol. 111, No. 12 ( 2021), p. 1201-1218
    Abstract: 〈 b 〉 〈 i 〉 Introduction: 〈 /i 〉 〈 /b 〉 Food intake varies during the ovarian hormone/estrous cycle in humans and rodents, an effect mediated mainly by estradiol. A potential mediator of the central anorectic effects of estradiol is the neuropeptide relaxin-3 (RLN3) synthetized in the nucleus incertus (NI) and acting via the relaxin family peptide-3 receptor (RXFP3). 〈 b 〉 〈 i 〉 Methods: 〈 /i 〉 〈 /b 〉 We investigated the relationship between RLN3/RXFP3 signaling and feeding behavior across the female rat estrous cycle. We used in situ hybridization to investigate expression patterns of 〈 i 〉 Rln3 〈 /i 〉 mRNA in NI and 〈 i 〉 Rxfp3 〈 /i 〉 mRNA in the hypothalamic paraventricular nucleus (PVN), lateral hypothalamic area (LHA), medial preoptic area (MPA), and bed nucleus of the stria terminalis (BNST), across the estrous cycle. We identified expression of estrogen receptors (ERs) in the NI using droplet digital PCR and assessed the electrophysiological responsiveness of NI neurons to estradiol in brain slices. 〈 b 〉 〈 i 〉 Results: 〈 /i 〉 〈 /b 〉 〈 i 〉 Rln3 〈 /i 〉 mRNA reached the lowest levels in the NI pars compacta during proestrus. 〈 i 〉 Rxfp3 〈 /i 〉 mRNA levels varied across the estrous cycle in a region-specific manner, with changes observed in the perifornical LHA, magnocellular PVN, dorsal BNST, and MPA, but not in the parvocellular PVN or lateral LHA. G protein-coupled estrogen receptor 1 ( 〈 i 〉 Gper1 〈 /i 〉 ) mRNA was the most abundant ER transcript in the NI. Estradiol inhibited 33% of type 1 NI neurons, including RLN3-positive cells. 〈 b 〉 〈 i 〉 Conclusion: 〈 /i 〉 〈 /b 〉 These findings demonstrate that the RLN3/RXFP3 system is modulated by the estrous cycle, and although further studies are required to better elucidate the cellular and molecular mechanisms of estradiol signaling, current results implicate the involvement of the RLN3/RXFP3 system in food intake fluctuations observed across the estrous cycle in female rats.
    Type of Medium: Online Resource
    ISSN: 0028-3835 , 1423-0194
    URL: Article
    DOI: 10.1159/000513830
    Language: English
    Publisher: S. Karger AG
    Publication Date: 2021
    detail.hit.zdb_id: 1483028-0
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