Histology and Ultrastructure of the Nephron and Kidney Interstitial Cells in the Atlantic Salmon (<i>Salmo salar</i> Linnaeus 1758) at Different Stages of Life Cycle
Ekaterina A. Flerova,
Victoria V. Yurchenko,
Alexey A. Morozov,
Evgeniy G. Evdokimov,
Alena A. Bogdanova,
Maksim Yu. Alekseev,
Dmitry S. Sendek,
Sergey F. Titov
Affiliations
Ekaterina A. Flerova
Faculty of Biology and Ecology, P.G. Demidov Yaroslavl State University, Sovetskaya St. 14, Yaroslavl 150003, Russia
Victoria V. Yurchenko
Papanin Institute for Biology of Inland Waters, Russian Academy of Sciences, IBIW 109, Borok 152742, Russia
Alexey A. Morozov
Papanin Institute for Biology of Inland Waters, Russian Academy of Sciences, IBIW 109, Borok 152742, Russia
Evgeniy G. Evdokimov
Faculty of Biology and Ecology, P.G. Demidov Yaroslavl State University, Sovetskaya St. 14, Yaroslavl 150003, Russia
Alena A. Bogdanova
Yaroslavl Scientific Research Institute of Livestock Breeding and Forage Production—Federal State Budget Sciences Institution “Federal Williams Research Center of Forage Production and Agroecology”, Lenin St. 1, Mikhailovskiy, Yaroslavl 157517, Russia
Maksim Yu. Alekseev
Polar Branch of FSBSI “VNIRO” (“PINRO” Named after N.M. Knipovich), 6 Akademika Knipovicha St., Murmansk 183038, Russia
Dmitry S. Sendek
Federal Agency for Fishery, Russian Federal “Research Institute of Fisheries and Oceanography” “VNIRO”, Saint Petersburg Branch of VNIRO (“GosNIORKH” Named after L.S. Berg), Naberezhnaya Makarova St. 26, St. Petersburg 199053, Russia
Sergey F. Titov
Federal Agency for Fishery, Russian Federal “Research Institute of Fisheries and Oceanography” “VNIRO”, Saint Petersburg Branch of VNIRO (“GosNIORKH” Named after L.S. Berg), Naberezhnaya Makarova St. 26, St. Petersburg 199053, Russia
This article presents data on the mesonephros histology and ultrastructure in the Atlantic salmon from the Baltic Sea and Barents Sea populations, with an emphasis on comparisons between the following ontogenetic stages: parr, smolting, adult life at sea, the adults’ return to their natal river to spawn, and spawning. The ultrastructural changes in the renal corpuscle and cells of the proximal tubules of the nephron occurred as early as the smolting stage. Such changes reflect fundamental alterations during the pre-adaptation to life in saltwater. In the Barents Sea population, the adult salmon sampled in the sea had the smallest diameters of the renal corpuscle and proximal and distal tubules, the most narrow urinary space, and the thickest basement membrane. In the group of salmon that entered the mouth of the river and spent less than 24 h in freshwater, the structural rearrangements occurred only in the distal tubules. Better development of the smooth endoplasmic reticulum and a greater abundance of mitochondria in the tubule cells were observed in the adult salmon from the Barents Sea compared to those from the Baltic Sea. Cell-immunity activation was initiated during the parr–smolt transformation. Another pronounced innate-immunity response was registered in the adults returning to the river to spawn.
