Bernard Breton scite author profile

Very different testicular structures and spermatogenetic patterns have been found in fish of the teleost group. Two types of structures may be identified: (i) a tubular type with no lumen (in cyprinodonts); the cysts migrate from the blind end to the vas efferens during the process of spermatogenesis; (ii) a lobular type having a central lumen receiving the spermatozoa released from cysts which remain stationary along the lobule during spermatogenesis. Different spermatogenetic patterns are distinguished in salmonids and cyprinids. In the latter (carp. &Ivprinus ccarpio. and goldfish, Cciras.sius crur-atus). sonme germ cell types (e.g. type B spermatogonia and spermatozoa) are present throughout the year, allowing nearly continuous production of good-quality sperm. Studies of their endocrine patterns suggest that the GTH involved is controlled by external (mainly temperature but also photoperiod) and gonadal factors. The GTH stimulates androgen production and eventually controls spermatogenesis and spernmiation. In salmonids, the two major events of the testicular cycle, spermatogenesis and spermiation, are temporally separated by a stage of spcmsatozoal "maturation" during which the spermatozoa undergo physiological changes. Sperm quality declines during the period of spe'rmiation. The initiation of a new spermatogenetic cycle seems possible only when the spermatozoa have been eliminated from the testis. either by the normal process of spermiation or by intratesticular resorption. This also illustrates the spatias independence of spermatogenesis and spermiation. ' The endocrine pattern of spermatogenesis in saimonids is similar to that in carp but seems different as regards spermiation. This spermiation process includes two steps, initiation and amplification, which require different GTH levels and steroid balance. Among the steroids, I 1-ketotestosterone is the major androgen found in the plasma, but its superiority over other androgens in regard to spernsiation remains to be demonstrated. Environmental factors (photoperiodic changes and temperature) may act directly on the central nervous system to control gonadotropin secretion. Temperature may also directly influence the gonad, somatic or germ cells, and steroid metabolism which acts either locally on the gonad or more centrally. The regulation of spermatogenesis in fish appears to be more subtle than previously believed. Major unknowns are whether there is a second GTH and, if so, its site of action; which steroids are directly involved in the control of sperinatogeriesis in the lobules, and which are the target cells; and which factors regulate testicular size and which pituitary GTH secretion. Finally, the poor yield of spermiation is intriguing and requires further study, considering its practical implication in fish-farming.

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A reinvestigation of the Gn-RH (gonadotrophin-releasing hormone) systems in the goldfish brain using antibodies to salmon Gn-RH

Kah¹,

et al. 1986

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The organization of Gn-RH systems in the brain of teleosts has been investigated previously by immunohistochemistry using antibodies against the mammalian decapeptide which differs from the teleostean factor. Here, we report the distribution of immunoreactive Gn-RH in the brain of goldfish using antibodies against synthetic teleost peptide. Immunoreactive structures are found along a column extending from the rostral olfactory bulbs to the pituitary stalk. Cell bodies are observed within the olfactory nerves and bulbs, along the ventromedial telencephalon, the ventrolateral preoptic area and the latero-basal hypothalamus. Large perikarya are detected in the dorsal midbrain tegmentum, immediately caudal to the posterior commissure. A prominent pathway was traced from the cells located in the olfactory nerves through the medial olfactory tract and along all the perikarya described above to the pituitary stalk. In the pituitary, projections are restricted to the proximal pars distalis. A second immunoreactive pathway ascends more dorsally in the telencephalon and arches to the periventricular regions of the diencephalon. Part of this pathway forms a periventricular network in the dorsal and posterior hypothalamus, whereas other projections continue caudally to the medulla oblongata and the spinal cord. Lesions of the ventral preoptic area demonstrate that most of the fibers detected in the pituitary originate from the preoptic region.

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Release of Pituitary Gonadotrophins GtH I and GtH II in the Rainbow Trout (Oncorhynchus mykiss): Modulation by Estradiol and Catecholamines

Saligaut

Linard

Mañanós

et al. 1998

General and Comparative Endocrinology

103

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Bernard Breton

7 The Gonadal Steroids

Growth Hormone (GH) and Gonadotropin Subunit Gene Expression and Pituitary and Plasma Changes during Spermatogenesis and Oogenesis in Rainbow Trout (Oncorhynchus mykiss)

Endocrine Control of Spermatogenesis in Teleost Fish

A reinvestigation of the Gn-RH (gonadotrophin-releasing hormone) systems in the goldfish brain using antibodies to salmon Gn-RH

Release of Pituitary Gonadotrophins GtH I and GtH II in the Rainbow Trout (Oncorhynchus mykiss): Modulation by Estradiol and Catecholamines

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