Aronsson S, Enemar A
J Comp Neurol. 1981 Aug 10;200(3):315-21. doi: 10.1002/cne.902000303.
With the aid of lesion experiments and the Falck-Hillarp fluorescence technique, it is shown that the aminergic nerves of the hypophysis, including pars distalis, originate in the caudal hypothalamus and reach the gland via a fibre tract in the floor of tuber cinereum. However, some contribution to the eminentia mediana from the preoptic area could not be excluded. A vasomotor function of the pars distalis nerves is unlikely. Based on a comparative survey the hypothesis is put forward, that the pars distalis nerves, which disappear during the metamorphic climax, are remnants of an aminergic innervation existing together with a hypophyseal portal system as a functional link between brain and pituitary in the fish-like ancestor of amphibians. Aspects are given on the problem of why a direct pars distalis innervation has neither been retained nor evolved during evolution of tetrapods.
借助损伤实验和福尔克-希拉尔普荧光技术表明,垂体的胺能神经,包括远侧部,起源于下丘脑尾部,并通过灰结节底部的纤维束到达腺体。然而,不能排除视前区对正中隆起有一定贡献。远侧部神经的血管运动功能不太可能存在。基于一项比较研究,提出了这样的假说:在变态高峰期消失的远侧部神经是胺能神经支配的残余,在两栖类的鱼类祖先中,它与垂体门脉系统一起作为脑与垂体之间的功能联系而存在。文中还探讨了在四足动物进化过程中,远侧部直接神经支配为何既未保留也未进化这一问题。