Здоровая микробиота и натуральное функциональное питание: гуморальный и клеточный иммунитет

Abstract

The human immune system and microbiota jointly evolve, and their balanced systemic interaction occurs throughout life. This close association of both overall composition and microbiota richness plays an important role in modulating host immunity and can influence the immune response in vaccination. The availability of innovative technologies, such as next-generation sequencing and correlated bioinformatics tools, allows deeper investigation of the cross-network relationships between the microbiota and human immune responses. A new managed healthy biomicrobiota and personalized functional and balanced “brain and microbiota” nutrition is a patient’s long-term medical program that allows the combined use of nutritional epigenetics and pharmacepigenetics, and most importantly, the prevention of polypharmacy. A functional food product using biomarkers and artificial intelligence technologies is a targeted nutrient medium for both the body as a whole and biomicrobiota in particular. Lifestyle and environmental factors leave epigenetic traces on our DNA that affect gene expression, some have protective effects and others are harmful. Genetic and epigenetic factors that ensure longevity and super-longevity require a reasonable new interaction with nature and society, and responsibility for future healthy generations. In the studies of P. I. Romanchuk, it was shown that an increase in the average life expectancy of a person and neuroendocrine changes in physiological and pathological aging, on the one hand, epigenetic factors and electromagnetic information load/overload, on the other hand, made a significant contribution to the circadian nature of the neural network interaction of the human brain with artificial intelligence. The microbiota is a key element potentially capable of affecting antigen functions to elicit a protective immune response and the ability of the immune system to adequately respond to antigenic stimulation (vaccine efficacy) by acting as an immunological modulator as well as a natural vaccine adjuvant. The mechanisms underlying the crosstalk between the gut microbiota and the immune system play a crucial role, especially at an early age (early gut microbiota forms immunological functions). New interactions, along with other genetic and environmental factors, lead to a certain composition and richness of the microbiota, which can diversify the individual response to vaccinations. Variations in microbial communities may partly explain the geographical heterogeneity in vaccination success, and a deep understanding of this dynamics may be a tool for improving immunization strategies.