Variations in renal morphology during adaptation to salinities in tilapias

Synopsis Fifteen days oldOreochromis niloticus andO. mossambicus juveniles were gradually adapted to 10, 20, 30 and 35 ppt sea water. Kidney morphology was observed after transfer to higher salinities and compared with freshwater controls. Despite differences in salinity tolerance, both species have similar transformations when transferred at high salinity, particularly reduction of the glomerular area after 2 months adaptation to sea water, and change in tubule morphology.     

Efficacy of the self-regulation mechanisms of the heart contractile function in adaptation to great and excessive physical loads

Upon adaptation to large physical loading, intensity of the efficacy of self-regulation mechanisms of the heart contractile function increases, but under overloading influence it decreases.     

Glutathione system adaptation to acute stress in the heart of rats during different regimes of hypoxia training

The intensity of lipid peroxidation (LPO), reduced and oxidized glutathione (GSH and GSSG) contents, glutathione reductase, glutathione peroxidase, glutathione-S-transferase, glucose-6-phosphate dehydrogenase (G-6-PDH), and NADP-isocitrate dehydrogenase (NADP-IDH) activities were studied in the heart of male rats exposed to two modes of intermittent hypoxic training (IHT): I-breathing in normobaric chamber with 7% O2 gas mixture for 5 min with 15 min normoxic intervals 4 times daily during 3 weeks; II-breathing by 12% O2 gas mixture in the same manner). After adaptation to hypoxia, the rats were subjected to 6h-immobilization stress. It has been shown that stress action after IHT (regime I) caused the increase in LPO and the shift of GSH/GSSG to disulfides. A disbalance in antioxidative defense system was determined by the decrease in glutatione peroxidase, G-6-PDH activities, and GSH content. The support of glutathione reductase activity under stress in this group with simultaneous decrease of enzyme activity in the pentose phosphate pathway was realized through the participation of NADP-IDH. Hypoxic training in regime II induced LPO decrease in the heart tissue after stress. The increase in the heart GSH content, optimal balance of glutathione-related enzymes in this group evidences for the dependence of adaptation effects on the vigor of hypoxic exposition. Our results suggest the active participation of glutathione system in the formation of adaptation reactions under the extreme factor influences through the action on intracellular red/ox potential as well as effectiveness of antioxidant defense.     

Variations in ppGpp levels in Rhodopseudomonas spheroides during adaptation to decreased light intensity

The guanosine nucleotides ppGpp and pppGpp have been found in the photosynthetic bacterium $\text{Rhodopseudomonas spheroides}$ supporting a suggestion that these are ubiquitous compounds in bacteria. ppGpp levels undergo an abrupt rise coincident with the cessation of RNA accumulation which occurs in this bacterium following a down-shift in incident light intensity. An abrupt decrease in the rate of [³H] uridine uptake into acid-precipitable material characteristic of light shift-down is also coincident with the rise in ppGpp levels. A regulatory role for this nucleotide in $\text{R. spheroides}$ similar to that proposed in other bacteria is suggested.     

Plasma-coagulation hemostasis in physically active subjects during adaptation to physical exercise

Basic hemorheological and pro-and anticoagulatory characteristics were studied in athletes practicing cyclic sports and patients with venous thrombosis and arterial atherosclerosis. The results of factor analysis of the entire sample indicated that changes in the procoagulatory components of the plasma-coagulation hemostasis in athletes tend to decrease the coagulatory potential of the blood. The athletes displayed a decrease in the activity of natural anticoagulants (protein C and antithrombin III). A significant decrease in the parameters of blood viscosity mainly caused by a better red cell deformability was correlated with the changes in the procoagulatory and anticoagulatory components of the hemostasis; these changes were well balanced and may be considered predominant. Damage to the vascular endothelium and disturbances in the red cell microrheology were found to be the most important factors in the patients with peripheral arterial disease. Acute deep vein thrombosis was associated with a strong activation of procoagulatory components and dysfunction of natural anticoagulants.     

Variations in virulence between different electrophoretic types of Listeria monocytogenes

A total of 245 strains of Listeria monocytogenes, representing 33 different electrophoretic types (ETs), were examined quantitatively for haemolytic activity. No significant difference was observed in the mean haemolytic activity between different ETs. Eighty four out of 91 strains examined were found to be virulent for chick embryos. Strains belonging to ET 2 and ET 4 were found to be less virulent than strains of other ETs (P = 0.0447). Furthermore, strains from clinical cases were found to be more virulent (P = 0.0002) than strains from foods (the MTD among clinical strains was 2.46 in mean compared with 3.64 among food isolates). The explanation for this may be that more virulent strains are more prone to cause human infection. It is, however, also possible that strains of L. monocytogenes may become more virulent while multiplying in a living organism compared with multiplying in foods.     

Morphologic changes in the thymus and lymphoid nodules of the appendix of the white rat subjected to increasing physical loads

By means of histological and morphometrical methods the thymus and appendage have been studied in male white rats subjected to a dosed physical loading (swimming). The physical loading is accompanied with essential changes in structure and cell composition of the immunogenic organs. The rate and character of the changes depend on the adaptability level of the animal's organism to the physical loading. At adaptation to the loading, the process of age involution of the thymus decelerates, amount of lymphoid nodules in the appendage increases, comparing the control parameters, contents of lymphocytes noticeably increase in all zones of the lymphoid nodules. When adaptation to the physical loading is not sufficient, the rate of the thymus involution sharply increases, while in the appendage the number of the lymphoid nodules decreases. However, in some animals at a sharp involution of the thymus, the changes in the appendage do not differ from the control ones.