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Regulace subcelulárního vápníku během gametogeneze ryb
GOLPOUR DEHSARI, Amin
Changes in the characteristics of spermatogenic and oogenic cells during gametogenesis may reflect a corresponding alteration in aspects of components such as calcium, which plays prominent roles in regulating a broad range of physiological events in animal reproduction. Basic information regarding distribution of intracellular calcium in different germ cells may provide better understanding of processes of reproduction in fish. The monthly testicular development in the cultured breeding stock of sterlet, Acipenser ruthenus, using histological and serum sex steroid was studied. Results showed four distinct phases including resting, pre-spawning, spawning and post-spawning. Hormonal profiles of 11-ketotestosterone (11-KT) showed peak, which indicated a seasonal pattern of gonadal development. The 11-KT concentration increased considerably during the spermatogenesis (pre-spawning phase) and remained quite high throughout the pre-spermiation period. In the final phase of testicular development (spawning phase), the 11-KT markedly dropped. This study provides basic knowledge of the reproductive biology in male sterlet and a complete guide for gonadal development, heretofore lacking in previous studies of sturgeon gonadal development. The intracellular distribution of calcium during different developmental stages of spermatogenesis was studied in sterlet, A. ruthenus, using a combined oxalate-pyroantimonate technique. The distribution of calcium was described in spermatogonium, spermatocyte, spermatid, and spermatozoon stages. Although calcium is appeared in the form of deposits in limited areas of the early stages cells (spermatogonium and spermatocyte), it is present as an unbound form in larger areas of spermatids and spermatozoa especially nucleus, which probably reflects changes in its physiological function and homeostasis of calcium during male gamete production. Similar to sterlet sturgeon, ultrastructural distribution of calcium during different developmental stages of spermatogenesis was described in a model organism, zebrafish (Danio rerio), using a combined oxalate-pyroantimonate technique. The subcellular distribution of intracellular calcium was detected as deposits mainly in the cytoplasm and the nucleus of the spermatogonium and spermatocyte. Interestingly, large amount of calcium was transformed from isolated deposits into an unbound pool (electrondense mass) within the nucleus of the spermatid and the spermatozoon. The alteration of intracellular calcium at different stage of D. rerio spermatogenesis can be related to specific function of each germ cell types during male gamete development. Unbound calcium in the nucleus of mature spermatozoon can be used for condensation of chromatin and induction of calcium wave during egg activation and fertilization. Using a combined oxalate-pyroantimonate technique, the subcellular distribution of calcium deposits during stages of oogenesis in zebrafish was described. Calcium deposits were localized at different organells within the egg during oocyte development. At the first stage of oocyte development (primary growth), calcium deposits were localized in the cytoplasm, mitochondria, nucleus, and follicular cells. At the cortical-alveolus stage, calcium particles were transported from follicular cells into the cortical alveoli. In the main stage of oocyte development (vitellogenic stage), some cortical alveoli were compacted and transformed from flocculent electron-lucent to electron-dense objects with the progression of the stage. Calcium deposits were transformed from larger to smaller particles, coinciding with compaction of cortical alveoli. As a conclusion, results of this study provide new and convergent insight into information about the regulation and functional roles of calcium during fish gametogenesis which simply describe facilitate release of calcium from related organelles (nucleus and cortical alveoli) as main internal stores of calcium for calcium transport.
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