Studies of a receptor guanylyl cyclase cloned from Y-organs of the blue crab ( Callinectes sapidus ), and its possible functional link to ecdysteroidogenesis
Abstract Crustacean Y-organs synthesize ecdysteroid molting hormones. Synthesis of ecdysteroids by Y-organs is negatively regulated by a polypeptide neurohormone, molt-inhibiting hormone (MIH). Our laboratory has recently cloned from Y-organs of the blue crab ( Callinectes sapidus ) a cDNA ( CsGC-YO...
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Veröffentlicht in: | General and comparative endocrinology 2008-02, Vol.155 (3), p.780-788 |
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Zusammenfassung: | Abstract Crustacean Y-organs synthesize ecdysteroid molting hormones. Synthesis of ecdysteroids by Y-organs is negatively regulated by a polypeptide neurohormone, molt-inhibiting hormone (MIH). Our laboratory has recently cloned from Y-organs of the blue crab ( Callinectes sapidus ) a cDNA ( CsGC-YO1 ) encoding a putative receptor guanylyl cyclase (CsGC-YO1). We hypothesize that CsGC-YO1 is an MIH receptor. In studies reported here, antipeptide antibodies (anti-CsGC-YO1) were raised against a fragment of the extracellular domain of CsGC-YO1. Western blots showed affinity purified anti-CsGC-YO1 bound to the heterologously expressed extracellular domain, and to a protein in Y-organs that corresponded in size to the theoretical molecular mass of CsGC-YO1. Immunocytochemical studies with anti-CsGC-YO1 as primary antibody, showed CsGC-YO1 immunoreactivity was restricted to the peripheral margins of cells, and was not present in cytoplasm or nuclei. The results strongly suggest that CsGC-YO1 is a membrane-associated protein. Preincubation of Y-organs with anti-CsCG-YO1 blunted MIH-induced suppression of ecdysteroidogenesis. This finding represents the first demonstration of a link between CsGC-YO1 and MIH action. A real-time PCR assay for quantifying CsCG-YO1 was developed and validated. The assay was used to determine the abundance of the CsCG-YO1 transcript in Y-organs during a molt cycle: the level of CsGC-YO1 in Y-organs was elevated during intermolt (C4 ) and lower during premolt stages D1 –D3 . The data suggest that the biological action of CsGC-YO1 in Y-organs is likely to be most pronounced during intermolt. The combined results are consistent with the hypothesis that CsGC-YO1 is an MIH receptor. |
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ISSN: | 0016-6480 1095-6840 |
DOI: | 10.1016/j.ygcen.2007.10.009 |