Vol 47, No 2 (2016)

Connective tissue growth factor (CTGF) was examined in the structures of dermis of humans with different ages, from 20 weeks of pregnancy to 85 years. By immunohistochemistry, the fibroblasts and blood vessels positively stained for CTGF were observed in the dermis of all examined ages. An age-dependent increase in the percent of the fibroblasts and blood vessels positively stained for CTGF in the dermis was observed. A statistically significant negative correlation was found between the age-dependent changes in the total number of fibroblasts, percent of the fibroblasts with positive staining for proliferating cell nuclear antigen, and portion of the fibroblasts with positive staining for CTGF. Another statistically significant negative correlation was found between the age-dependent changes in the number of blood vessels and portion of the blood vessels with a positive staining for CTGF. The results suggest that CTGF has an inhibitory influence on the angiogenesis and fibroblast renewal in the human dermis through ontogenesis.

Dopamine in the concentration 0.4 μg/mL abolishes protein synthesis rhythm in HaCaT keratinocytes and hepatocytes unlike noradrenaline or melatonin, which synchronize direct intercellular interactions and organize protein synthesis rhythm. Experiments with D2 dopamine receptors blocking agent metoclopramide (tserukal) in the concentration 2 μg/mL show that a disorganizing effect of dopamine is driven by the activation of D2 receptors, which block adenylyl cyclase and the efflux of calcium ions from internal depos according to the literature. It is shown that tserukal does not activate serotonin receptors in our experimental settings. Cellular interactions’ recovery during or after dopamine action is carried out by melatonin in the concentration 0.001 μg/mL. A recommendation to inject melatonin before dopamine administration for different medical indications is discussed.

The highest potencies of regeneration in tailed amphibians in comparison with the abilities of organ and tissue restoration in other vertebrates represent the goal of longstanding and intense studies. Accumulated information can half-open some mysteries of cellular and molecular fundamentals of regeneration in Urodela, but it does not explain the maintenance of regenerative abilities in mature, adult animals. The information summarized in the review suggests that the paedomorphosis inherent in this animal group determines the keeping of the juvenile state on all levels of organization—from organismic to molecular. This, in turn, permits and eases initiation and development of regenerative responses to trauma, right up to the epimorphic regeneration of whole organs. As an example, we have traced paedomorphosis-associated cellular and molecular specificities of urodelean eye and brain tissues, which could possibly play a permissive role in their complete regeneration.

The rheoreaction of juvenile rainbow trout (aged 2 months) was studied 30–40 days after a single injection of surfagon (synthetic analogue of gonadotropin-releasing hormone). Individuals subjected to surfagon preferred to move against the water current both in normal and migratory state, while control (not injected) individuals preferred to move downstream. Surfagon strongly modified the rheoreaction of individuals in normal and migratory state.

The given paper summarizes the data on the early mammalian embryo development in culture media containing low oxygen concentration. Experimental results on in vitro modeling the hypoxia for preimplantation development are reviewed. Hypoxic conditions were shown to be available in the female reproductive tract of different mammalian species. The estimation of the embryo developing in vitro exhibits that lower oxygen level in culture media improves embryonic quality.