Fine structure of neurosecretory cells and sinus gland in the eyestalk of the freshwater crab Travancoriana schirnerae Bott, 1969 (Decapoda: Gecarcinucidae)

S. Raghavan, A. Ayanath, B. K. C. Sagar
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Abstract

This study elucidated the fine structure of neurosecretory cells and sinus gland in the optic ganglia of the freshwater crab Travancoriana schirnerae Bott, 1969 (Decapoda: Gecarcinucidae). The eyestalk ganglion showed the presence of four well defined ganglia arranged below the ommatidium: lamina ganglionaris, medulla externa, medulla interna and medulla terminalis of which the lamina ganglionaris, was devoid of neurosecretory cells. Groups of neurosecretory cells seen distributed along the medulla externa, interna and terminalis regions constitute the X-organs. Electron microscopic observations of the eyestalk ganglia revealed ten types of neurosecretory cells, mostly apolar with a few unipolar and bipolar cells classified according to the size, shape and density of the cell and nucleus, cell organelles/inclusions, together with the arrangement and properties of chromatin. These cells were characterized by the presence of large nuclei with unusually condensed chromatin, inclusions like vacuoles and vesicles of varying size, shape and density and organelles like Golgi, endoplasmic reticulum, ribosomes and mitochondria and neurosecretory material. The sinus gland of T. schirnerae was positioned laterally between the externa and interna regions, composed of axonal endings of the neurosecretory cells of the optic ganglia with interspersed glial cells. The axon terminals were enclosed with several small to large membrane bound homogenously dense neurosecretory granules which also occur in the preterminal areas of the axons. Based on size, shape and density of granules and axoplasmic matrix, seven terminal types could be distinguished in the sinus gland of T. schirnerae. Mostly, the granules contained in a terminal were of the same type; rarely, the same terminal enclosed granules of varying size, shape and density. The neurosecretory cell types and axon terminal types represent the types of neurohormones they contained. A precise knowledge of the morphology and cytology of neurosecretory cells in the XO-SG complex of the eyestalk that secrete neurohormones controlling major physiological processes such as growth and reproduction is imperative for successful captive breeding of a species of aquaculture potential.
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淡水蟹trancorana schirnerae Bott眼柄神经分泌细胞和窦腺精细结构(十足目:蟹科)
本研究阐明了淡水蟹trancorana schirnerae Bott, 1969(十足目:蟹科)视神经节神经分泌细胞和窦腺的精细结构。眼柄神经节显示在小孔膜下排列有四个明确的神经节:神经节层、外髓、内髓和终髓,其中神经节层缺乏神经分泌细胞。沿延髓外区、内区和终末区分布的神经分泌细胞群构成x器官。电镜观察发现眼柄神经节有10种神经分泌细胞,以极性细胞为主,少量单极和双极细胞,根据细胞核的大小、形状和密度、细胞器/包涵体、染色质的排列和性质进行分类。这些细胞的特征是存在染色质异常凝聚的大细胞核,大小、形状和密度各异的液泡和囊泡等包涵体,以及高尔基体、内质网、核糖体、线粒体和神经分泌物质等细胞器。脑脊液鼻窦腺位于外区和内区之间,由视神经节神经分泌细胞的轴突末梢和散布的胶质细胞组成。轴突终末被几个大小不等的膜结合均匀致密的神经分泌颗粒包围,这些颗粒也出现在轴突终末前区。根据颗粒和轴浆基质的大小、形状和密度,可将棘球绦虫窦腺分为7种终末类型。大多数情况下,一个末端所含的颗粒是同一类型的;很少,相同的末端封闭颗粒大小,形状和密度不等。神经分泌细胞类型和轴突末端类型代表它们所含的神经激素类型。准确了解眼柄XO-SG复合物中神经分泌细胞的形态和细胞学,这些细胞分泌神经激素,控制生长和繁殖等主要生理过程,对于成功圈养养殖具有水产养殖潜力的物种至关重要。
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