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Pathogenetic Effects of Bacteria of the Genus <i>Desulfovibrio</i>. Experimental Study. Part One: Iron Metabolism
The aim of the work was to study specific systemic effect of sulfate-reducing bacteria of the genus Desulfovibrio on organism systems through creating an experimental model of intragastric bacterial invasion against the background of dysbiotic conditions of rodent gastrointestinal tract. Materials and methods. The experimental study was conducted on Wistar rats. Intestinal dysbiosis was modeled with the help of antibiotics, amoxicillin and metronidazole. Typical strain Desulfovibrio desulfuricans subsp. desulfuricans VKM B-1799T was used as an infectious agent. Results and discussion. As a result of the experiment performed, during the period of acute infection (on day 15 of the experiment), a direct correlation between the concentration of the injected D. desulfuricans VKM B-1799T bacteria suspension and the serum iron level was observed: the higher the infectious agent dose, the lower the serum iron concentration. During the phase of remote effects (day 38 of the experiment), the inverse correlation between the concentrations of D. desulfuricans VKM B-1799T in the intestines of rodents was revealed: when the concentration of the infecting agent increased from 103 CFU/g and higher, the iron level decreased from 43.5 μmol/l to 38.5 μmol/l. When comparing the level of transferrin and unsaturated iron binding capacity (UIBC), an increase in those parameters was observed in all groups of rats both during the period of acute infection and the period of long-term effects, and the percentage of transferrin iron saturation decreased, indicating the occurrence of iron deficiency against the background of exposure to the infectious agent. Intestinal dysbiosis promotes colonization by opportunistic flora, including Desulfovibrio sp. Changes in the iron metabolism markers in experimental animals against the background of D. desulfuricans VKM B-1799T infestation above 103 CFU/g and the ability of this microorganism to bind iron into an unavailable form suggest that the bacteria Desulfovibrio sp. are one of the key etiological factors of iron deficiency anemia