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A prolactin-releasing peptide in the brain

Author

Listed:
  • Shuji Hinuma

    (Discovery Research Laboratories I)

  • Yugo Habata

    (Discovery Research Laboratories I)

  • Ryo Fujii

    (Discovery Research Laboratories I)

  • Yuji Kawamata

    (Discovery Research Laboratories I)

  • Masaki Hosoya

    (Discovery Research Laboratories I)

  • Shoji Fukusumi

    (Discovery Research Laboratories I)

  • Chieko Kitada

    (Discovery Research Laboratories I)

  • Yoshinori Masuo

    (Discovery Research Laboratories I)

  • Tsuneo Asano

    (Pharmaceutical Research Division)

  • Hirokazu Matsumoto

    (Discovery Research Laboratories I)

  • Masahiro Sekiguchi

    (Takeda Chemical Industries Ltd)

  • Tsutomu Kurokawa

    (Discovery Research Laboratories I)

  • Osamu Nishimura

    (Pharmaceutical Research Division)

  • Haruo Onda

    (Discovery Research Laboratories I)

  • Masahiko Fujino

    (Discovery Research Laboratories I)

Abstract

Hypothalamic peptide hormones regulate the secretion of most ofthe anterior pituitary hormones, that is, growth hormone, follicle-stimulating hormone, luteinizing hormone, thyroid-stimulating hormone and adrenocorticotropin1,2. These peptides do not regulate the secretion of prolactin1,2, at least in a specific manner, however. The peptides act through specific receptors, which are referred to as seven-transmembrane-domain receptors or G-protein-coupled receptors3,4,5,6,7. Although prolactin is important in pregnancy and lactation in mammals, and is involved in the development of the mammary glands and the promotion of milk synthesis8,9, a specific prolactin-releasing hormone has remained unknown. Here we identify a potent candidate for such a hormone. We first proposed that there may still be unknown peptide hormone factors that control pituitary function through seven-transmembrane-domain receptors. We isolated the complementary DNA encoding an ‘orphan’ receptor (that is, one for which the ligand is unknown). This receptor, hGR3, is specifically expressed in the human pituitary. We then searched for the hGR3 ligand in the hypothalamus and identified a new peptide, which shares no sequence similarity with known peptides and proteins, as an endogenous ligand. We show that this ligand is a potent prolactin-releasing factor for rat anterior pituitary cells; we have therefore named this peptide prolactin-releasing peptide.

Suggested Citation

  • Shuji Hinuma & Yugo Habata & Ryo Fujii & Yuji Kawamata & Masaki Hosoya & Shoji Fukusumi & Chieko Kitada & Yoshinori Masuo & Tsuneo Asano & Hirokazu Matsumoto & Masahiro Sekiguchi & Tsutomu Kurokawa & , 1998. "A prolactin-releasing peptide in the brain," Nature, Nature, vol. 393(6682), pages 272-276, May.
    • Handle: RePEc:nat:nature:v:393:y:1998:i:6682:d:10.1038_30515
    DOI: 10.1038/30515
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    Cited by:

    1. Fleur Talbot & Claire H. Feetham & Jacek Mokrosiński & Katherine Lawler & Julia M. Keogh & Elana Henning & Edson Mendes de Oliveira & Vikram Ayinampudi & Sadia Saeed & Amélie Bonnefond & Mohammed Arsl, 2023. "A rare human variant that disrupts GPR10 signalling causes weight gain in mice," Nature Communications, Nature, vol. 14(1), pages 1-10, December.

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