Prolactin and its Receptor in Galliformes

Avian and Poultry Biology Reviews Pub Date : 2002-08-28 DOI:10.3184/147020602783698566

D. Zadworny, N. Kansaku, G. Bédécarrats, D. Guemene, U. Kuhnlein

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引用次数: 10

Abstract

In recent years, the range of reported actions ofhormones has considerably expanded. The adenohy-pophyseal hormone, prolactin (PRL), however, is stillunrivalled in the extraordinary diversity of biologicalactions which have been attributed to it. The ﬁrst roleattributed to PRL was the induction of milk secretionin rabbits (Stricker and Greuter, 1928) and in 1935, itwas shown that PRL was a causative factor in theinduction of incubation behaviour in ‘‘broody strains’’of actively laying chickens (Riddle et al., 1935). Sincethen, the roles of PRL have considerably expanded anda recent review categorizes over 300 separate actionsinto those which modulate: (1) water and electrolytebalance, (2) growth and development, (3) endocri-nology and metabolism, (4) brain and behaviour, (5)reproduction and (6) immunoregulation and protection(Bole-Feysot et al., 1998).One of the most studied roles of PRL in avesinvolves the incubation phase of broody behaviour.Broodiness occurs during the breeding season in manyavian species and consists of 2 phases: the incubationof eggs and the raising of young. Many studies haveindicated that hyperprolactinemia is associated withthe onset and maintenance of incubation behaviour inchickens and turkeys. The role(s) that PRL may effectduring this behaviour are not known but immunolo-gical evidence (suppression of PRL levels via active orpassive immunization against PRL or its majorreleasing factor, VIP (Sharp, 1997; Criso´stomo et al.,1997, 1998) clearly suggest that high levels of PRL area requisite aspect of this behaviour. Since the expres-sion of incubation behaviour is also associated withlarge changes in physiology including gonadal involu-tion, aphagia and adipsea it may be expected that PRLmay have multiple roles in mediating adaptions to thebehaviour. How does a single hormone cause so manydifferent responses? In this review, we will brieﬂyconsider functional aspects of the genes encoding PRLand its receptor, changes in glycosylation patterns ofPRL and genetic variation in the genes.

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哺乳动物的催乳素及其受体

近年来，关于激素作用的报道范围大大扩大了。然而，腺垂体激素催乳素(PRL)在生物作用的多样性方面仍然是无可匹敌的。PRL的第一个作用是诱导家兔分泌乳汁(Stricker和Greuter, 1928)， 1935年，PRL被证明是诱导活跃产蛋鸡“孵株”孵化行为的一个致病因素(Riddle et al.， 1935)。从那时起，PRL的作用已经大大扩展，最近的综述将超过300种单独的作用分类为调节:(1)水和电解质平衡，(2)生长和发育，(3)内分泌和代谢，(4)大脑和行为，(5)生殖和(6)免疫调节和保护(Bole-Feysot等人，1998)。PRL在avs中被研究最多的角色之一涉及孵卵行为的孵化阶段。许多鸟类的孵蛋期发生在繁殖季节，包括两个阶段:孵蛋和养育幼鸟。许多研究表明，高催乳素血症与鸡和火鸡的孵化行为的发生和维持有关。PRL在这种行为中可能发挥的作用尚不清楚，但免疫学证据(通过主动或被动免疫对PRL或其主要释放因子VIP进行抑制PRL水平)(Sharp, 1997;Criso ' stomo等人，1997,1998)清楚地表明，高水平的PRL是这种行为的必要方面。由于孵化行为的表达也与生理上的巨大变化有关，包括性腺参与、失语和适应，因此可以预期prl在调节对该行为的适应方面可能具有多种作用。一种激素是如何引起如此多不同的反应的?在这篇综述中，我们将简要介绍编码prl及其受体的基因的功能方面，prl糖基化模式的变化以及基因的遗传变异。

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Avian and Poultry Biology Reviews

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