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). All three types of metabolites had a weak negative influence on the level of classical (CD14hiCD16-) monocytes and stimulated the differentiation of intermediate (CD14+CD16+) and non-classical (CD14loCD16+) monocytes. The monocytes differentiation into the subpopulation of intermediate (CD14+CD16+) was stimulated to a greater extent by medium-temperature metabolites of the strain 8/75 and into the subpopulation of non-classical (CD14loCD16+) monocytes by warm metabolites of the strains 8/75 and 2/09 throughout culturing of mononuclear cells (days 1, 3, 7). Bearing in mind the anti-infection activity of intermediate and non-classical monocytes, we can consider strains 8/75 Bacillus megaterium and 2/09 Bacillus sp. promising for their in-depth testing.

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. The percentage of early hemopoietic precursors (CD117(+)CD34(-)) increased, intensity of lymphocyte precursor proliferation and differentiation (CD25(+)CD44(-)) decreased, and the percentage of lymphocytes released from the bone marrow (CD25(+)CD44(+)) increased on day 21 after injection of the bacteria. These changes in activity of hemopoiesis were associated with changes in the level of regulatory T lymphocytes (reduced expression of TCRαß) and were most likely compensatory. The possibility of modulating hemopoiesis activity in the bone marrow by low doses of one microorganism strain isolated from the permafrost could be useful for evaluating the effects of other low dose bacteria on the bone marrow hemopoiesis.

[The comparative characteristics of antibacterial properties of the peptides of the active site of GM-CSF, and substances delivered from supernatants of hematopoietic progenitor CD34+45- cells].

The antibacterial activity of synthetic peptides of the active site of GM-CSF and supernatants of CD34+45- hematopoietic progenitor cells has been investigated GM-CSF peptides and cell supernatants were found to possess pronounced antibacterial activity, at that a combination of these substances has a more pronounced activity in comparison with the single substances. Possible mechanisms of the identified effects of synthetic peptides and substances from the supernatants of CD34+5- cells are discussed.

[Dynamics of characteristics of the immune, cardiovascular, and autonomic nervous systems during aerocryotherapy in patients with different "immune health" status].

This study has demonstrated that subjects of different "immune health" status also differ in the activity of the vegetative nervous system. Aerocryotherapy was shown to have stimulatory effect on the immune system and decreased the hyperactivity of the parasympathetic nervous system especially in people suffering immune insufficiency.