The Influence of Permafrost Microorganisms on Monocytes Differentiation In Vitro.

Metabolites of fossil microorganisms of dispersed watered rocks that have passed into a frozen state (Bacillus sp. strains 2/09 and 9/08, Bacillus megaterium 8-75) can modulate the differentiation activity of human peripheral blood monocytes into phenotypically different subpopulations when cultured in vitro for 7 days. This effect is largely determined by the type of metabolites that depends on the temperature of their production: cold (collected after bacterium culturing at 5°C), medium (at 22°C), and warm temperature (at 37°C).

Influence of Paleobacteria on the Proliferative Activity of Human Lymphocytes In Vitro.

When testing the proliferative activity of 14 strains of permafrost microorganisms in the reaction of blast transformation of human lymphocytes in vitro, a strain (Alcaligenes sp.) with mitogen properties was isolated (20-fold increase in the rate of lymphocyte proliferation in comparison with the control). Four strains activated lymphocyte proliferation by 3-9 times in comparison with the control.

Effects of Secondary Metabolites of Permafrost Bacillus sp. on Cytokine Synthesis by Human Peripheral Blood Mononuclear Cells.

We studied the effects of secondary metabolites of Bacillus sp. isolated from late Neogene permafrost on secretion of proinflammatory (TNF-α, IL-1β, IL-8, IL-2, and IFNγ) and antiinflammatory (IL-4 and IL-10) cytokines by human peripheral blood mononuclear cells. It was found that metabolites of Bacillus sp.

Effect of Contamination with Perennial Permafrost Microorganisms on the Outcome of Closed Brain Neurotrauma.

We studied the effect of contamination with Bacillus genus microorganisms isolated from perennial permafrost samples on the outcome of closed brain neurotrauma in Wistar rats. It was found that contamination with different Bacillus strains produced different effects on the mortality of experimental animals with closed neurotrauma. The complex of metabolites from strain Ch2/9 - Bacillus spp.

Effects of temperature on biological activity of permafrost microorganisms.

The number and viability of microorganism specimens Bacillus spp. isolated from permafrost soil remained unchanged after incubation at temperatures of -16-37°C. Experiments on F1 CBA/Black-6 mice showed that incubation of bacteria at -5°C for 72 h promotes a decrease in their toxicity and an increase in their immunostimulating effect.

Effects of permafrost microorganisms on skin wound reparation.

Local application of ointment with Bacillus spp. strain MG8 (15,000-20,000 living bacterial cells), isolated from permafrost specimens, on the skin wound of about 60 mm(2) stimulated the reparation processes in experimental mice. A possible mechanism stimulating the regeneration of the damaged tissues under the effect of MG8 could be modulation of the immune system reactivity with more rapid switchover to humoral immunity anti-inflammatory mechanisms aimed at de novo synthesis of protein.

Effects of low-doses of Bacillus spp. from permafrost on differentiation of bone marrow cells.

The effects of a new microorganism species (Bacillus spp., strain M3) isolated from permafrost specimens from Central Yakutia (Mamontova Mountain) on the bone marrow hemopoiesis were studied on laboratory mice. Analysis of the count and immunophenotype of bone marrow cells indicated that even in low doses (1000-5000 microbial cells) these microorganisms modulated hemopoiesis and lymphopoiesis activity.

Effects of short-term local warm and cold applications to the chest on immunophysiological parameters of the organism.

Applications of cold and warm activated cellular immunity and orientation and exploratory behavior in mice. Application of cold increased the number of turns to the left in the open field, muscle force, and activity of the food instinct, and caused an increase in the total count of peripheral blood leukocytes. Warm applications reduced the food instinct activity and stimulated the humoral immunity.

Experimental study of the effects of permafrost microorganisms on the morphofunctional activity of the immune system.

The immunobiological potential of a new microorganism species isolated from permafrost specimens (PMO strain 3M) collected from the Mammoth Mountain in Yakutia was studied in laboratory mice. PMO injected intraperitoneally in doses of 2500 to 50 × 10(6) microbial bodies caused characteristic dose-dependent effects on the structure and functions of the immune system (thymus and spleen indexes, functional activity of splenic macrophages, cellular and humoral immunity). Doses of PMO stimulating functional activities of both cellular and humoral immunity were detected.