Volume 52, Nº 6 (2016)

The effect of four C21-steroids, progesterone (P₄), 17,20β-dihydroxy-4-pregnen-3-one (17,20βP), 17,20β,21-trihydroxy-4-pregnen-3-one (20βS) and 11-desoxycortisol (S), on in vitro oocyte maturation in Siberian sturgeon (Acipenser baeri Brandt) females was demonstrated using short-term (5 and 30 min) exposures of ovarian follicles to steroid solutions followed by incubation in steroid-free medium. The study aimed to find out which of the four candidates for a maturationinducing steroid (P₄, 17,20βP, 20βS or S) induces a fastest germinal vesicle breakdown (GVBD) in oocytes of Siberian sturgeon. Dissolution of the oocyte nucleus or GVBD was taken as a criterion of oocyte maturation. Dose-response profiles of hormone activities as well as effects of the hormones under short-term exposures of follicles to their equal doses were compared. P₄ was found to be a most active GVBD inducer compared to other C21-steroids, S was the second in its activity, whereas 17,20βP and 20βS were less efficient. A comparison of the present and previously obtained data on the dynamics of C21-steroids in vivo and their effect on ovarian follicles in vitro indicates an important role of the above hormones, particularly P₄ and 20βS, in the regulation of the final stage of oocyte maturation in sturgeons.

A comparative analysis of distribution of lactate dehydrogenase (LDH) isoenzymes in the heart, kidneys, lungs, spleen, liver and skeletal muscle was performed in 4 species of carnivorous mammals (Mustelidae family): American mink (Mustela vison Schr.), polecat (Mustela putorius L.), sable (Martes zibellina L.) and pine marten (Martes martes L.). It was found that in the mink, unlike pure terrestrial mustelids (polecat, sable, pine marten), the anaerobic LDH-5 fraction was predominant in the LDH isoenzyme spectrum in the liver, skeletal muscle, lungs and spleen. In all species studied, aerobic B(H) subunits of LDH were found to prevail in the heart and kidney, whereas anaerobic A(M) subunits prevailed in the liver and spleen. The tissue- and species-specific features of LDH isoenzyme spectra revealed in different mustelids reflect the biochemical adaptation of the animals to environmental conditions.

Social interactions are able to strongly influence animal physiology and behavior. As is known, social experience can lead to changes in sexual and aggressive behavior, circadian rhythms and composition of cuticular hydrocarbons in Drosophila. Previously, we have shown that housing Drosophila males in monosexual groups of 20 individuals for 3 days after eclosion leads to a strong and long-term suppression of locomotor activity as revealed at individual testing, in contrast to males kept separately. The present research addressed courtship behavior, and specifically song production, in Drosophila males reared under similar conditions. It was found that rearing males in monosexual groups leads to a suppression of courtship and song production as well as to a simultaneous increase in locomotor activity when tested with a moving female. The latter effect was due to the strong urge of males to avoid interindividual contacts that prevented triggering the courtship ritual. It was suggested that intermale aggression caused by group rearing generates a state similar to conditioned fear.

The aim of this study was to investigate fertility-associated parameters of spermatogenesis and androgenic status in male laboratory mice at puberty and to assess their prognostic significance in the realization of the definitive testicular function. In three inbred murine strains, BALB/cLac, CBA/Lac and PT, the serum testosterone level, its testicular concentration, epididymal sperm count (sperm reserve) and portion of sperm with abnormal head morphology were evaluated on days 45 (puberty) and 90 (adulthood) of postnatal development. CBA/Lac males were characterized by a lower epididymal sperm count vs. other strains at both ages indicative of poorer spermatogenesis. At the same time, CBA/Lac males had a lower portion of sperm with abnormal head morphology, and this could be considered as a compensatory reaction aimed at improving sperm fertility. Distinct inter-strain differences in the portion of sperm with morphologically abnormal heads were established at both ages, while the inter-strain ratio remained invariable (BALB/cLac > PT > CBA/Lac). Thus, the level of abnormal spermatogenesis in the pubertal period may have a predictive significance for the definitive testicular activity in adult mice. No inter-strain and age-dependent changes were found in serum and testicular testosterone levels except for the PT strain, in which both testosterone levels rose from puberty to adulthood, suggesting a shift of the pubertal testosterone peak towards later times. Our data show that in male laboratory mice the genetic peculiarities of the testicular function manifest themselves during puberty and persist until adulthood.

Distribution of calcium-binding proteins (CaBPr) parvalbumin (PV) and calbindin (CB) in the thalamic auditory center (nucleus ovoidalis, Ov) was studied in the pigeon (Columba livia). Two parts of Ov were distinguished on the basis of their cytoarchitectonics and distribution of PV and CB immunoreactivity. The central lemniscal region (core, nCe) contains both dense PV-ir neuropil and PV-ir neurons overlapped with scant CB-ir neuropil and weaker stained CB-ir neurons. The peripheral extralemniscal region (belt), consisting of peri/paraovoidal nuclei (Ovl, Ovm, SPO), contains only CB-ir neuropil and strongly stained CB-ir neurons morphologically differing from CB-ir neurons in the nCe. A comparative analysis of our data on the distribution of PV and CB immunoreactivity in the thalamic auditory relay center in pigeons and related literature data obtained on other avian, reptilian and mammalian species indicates high evolutionary conservatism of its extralemniscal region across all sauropside amniotеs and mammals in contrast to plasticity of its central lemniscal region due to adaptive, ecologically dependent transformations during the evolution.

Time course of formation of the inhibitory receptor network (GABA-Aα1 and GABA-B1) in the respiratory subnuclei (ventral and lateral) of the solitary tract (NTS) during the early postnatal period was studied on laboratory Wistar rats under normal conditions and prenatal serotonin deficiency. It was found that in normal rats the maturation of the inhibitory receptor networks in both NTS subnuclei occurs within the first three postnatal weeks. Some features of their formation were noticed. The dynamics of changes in intensity of GABA-Аα1 expression in the ventral and lateral subnuclei proceeds in a similar way. During the first postnatal week, GABA-Aα1 expression is low. In the neuropil, the network of GABA-Aα1-containing presynaptic terminals and synapses is poorly developed. Within the second week, the number of GABA-Aα1-expressing neurons increases in both subnuclei with a simultaneous rise in the density of the network of terminals and synaptic structures. By the end of the third week, the number of GABA-Aα1-expressing neurons decreases, but the network density continues to increase. GABA-B1 expression in the ventral and lateral subnuclei occurs also simultaneously, although with some distinctions. During the first postnatal week, intensity of GABA-B1 expression is weak. In the neuropil, few GABA-B1-containing terminals form a loose network with sporadic synaptic structures. During the second week, expression of the receptor increases, being particularly considerable in the ventral subnuclei. Simultaneously, the density of the presynaptic terminals increases. By the end of the third week, the number of GABA-B1-expressing neurons in the ventral subnuclei decreases, while in the lateral subnuclei remains almost intact and the network density increases. The data obtained show that prenatal serotonin deficiency leads to malformation and impaired maturation of the GABAergic inhibitory neuronal network in the ventrolateral part of NTS.