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Gonadotropin-releasing hormone and gonadotropin in goldfish and masu salmon (1997)

Kobayashi, M. ; Amano, M. ; Kim, M.H. ; [et al.]

Springer

Fish physiology and biochemistry 17 (1997), S. 1-8

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ISSN: 1573-5168

Keywords: gonadotropin-releasing hormone ; GnRH ; gonadotropin ; GTH ; reproduction ; reproductive endocrinology ; gonadal development ; fish ; goldfish ; masu salmon

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Reproductive activities in vertebrates are regulated by an endocrine system, consisting of the brain-pituitary-gonad axis. In teleosts, gonadotropin-releasing hormone (GnRH) in the brain stimulates gonadotropin (GTH) release in the pituitary gland, but because of lack of the portal vessel, it is not known when and how much GnRH is released for the regulation of GTH release. There are multiple molecular types of GnRH in teleosts and several distinct populations of GnRH neurons in the brain. However, we do not know which types and populations of GnRH neurons regulate reproductive activities. Here we summarize our recent studies on GnRH and GTH in masu salmon Oncorhynchus masou and goldfish Carassius auratus. Immunocytochemistry showed the location and molecular types of GnRH neurons. Salmon (sGnRH) and chicken-II GnRH (cGnRH-II) neuronal fibers were widely distributed in the brain of both masu salmon and goldfish. Only sGnRH fibers were observed in the pituitary of masu salmon, whereas both sGnRH and cGnRH-II fibers were observed in the goldfish pituitary, indicating that species specific GnRH profiles are involved in the regulation of pituitary function in teleosts. A series of experiments in masu salmon and goldfish suggest that among GnRH neuron populations GnRH neurons in the ventral telencephalon and the hypothalamus regulate GTH release, and that GnRH of the terminal nerve origin is not essential to gonadal maturation and ovulation. The biological function of other GnRH neurons remains unkown. Two GTHs appear to be characteristic of teleost; however, regulation of reproduction by these GTHs is a question that remains to be elucidated. In salmonid species, it is proposed that GTH I stimulates early gonadal development, whereas GTH II acts in later stages. When GTH expression was examined in goldfish, both GTH I β and II β mRNA levels in the pituitary gland showed increases in accordance with gonadal development, unlike the sequential expression of GTH subunits in salmonids. The expression of these GTH subunit mRNAs were affected by water temperature, starvation, and steroid hormones in goldfish, but in what manner these two GTHs regulate gonadal development remains to be clarified.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007764430746

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Molecular cloning of the cDNA encoding the β subunit of thyrotropin and regulation of its gene expression by thyroid hormones in the goldfish, Carassius auratus (1999)

Yoshiura, Y. ; Sohn, Y.C. ; Munakata, A. ; [et al.]

Springer

Fish physiology and biochemistry 21 (1999), S. 201-210

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ISSN: 1573-5168

Keywords: cDNA cloning ; TSH regulation ; thyroxine (T4) ; triiodothyronine (T3) ; negative feed-back ; hypothalamus–pituitary gland–thyroid gland axis ; GTH regulation ; goldfish ; glycoprotein family ; molecular evolution

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A cDNA encoding the β subunit of thyrotropin (TSH) was isolated from a goldfish (Carassius auratus) pituitary gland cDNA library. By comparing the sequence with other teleost TSHβs, a signal peptide of 19 amino acids and a mature hormone of 131 amino acids were predicted for goldfish TSHβ subunits. The resulting putative mature hormone of 131 amino acids had well-conserved cysteine positions and a putative N-linked glycosylation site; homology was 51–67% with TSHβs from other teleosts, 38–43% with tetrapod TSHβs, but only 27 and 29% with goldfish GTH-Iβ and -IIβ, respectively. We also examined the effects of thyroid hormones (TH) and thiourea (TU, an inhibitor of TH production) treatments on TSH and GTH subunit gene expressions in the goldfish pituitary gland. After thyroxine (T4) treatment, circulating T4 concentration increased and TSHβ mRNA level decreased. Supressing the amount of circulating T4 and triiodothyronine (T3) by TU treatment increased the TSHβ mRNA level. Moreover, T4 replacement therapy (simultaneous treatment of both TU and T4) caused a high level of circulating T4 and a low level of circulating T3, and a decrease in the TSHβ mRNA level. Thus, changing levels of circulating TH exert a negative feedback on the level of TSH β subunit mRNA in goldfish in vivo. On the other hand, GTH subunit mRNA levels were not affected by changes in the levels of circulating TH.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007884527397

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