Dysbiosis-epigenetics-immune system interaction and ageing health problems.

Background. The growing interest in microbiota-epigenetics-immune system research stems from the understanding that microbiota, a group of micro-organisms colonized in the human body, can influence the gene expression through epigenetic mechanisms and interaction with the immune system. Epigenetics refers to changes in gene activity that are not caused by the alteration in the DNA sequence itself.Discussion. The clinical significance of this research lies in the potential to develop new therapies for diseases linked to the imbalance of these microbial species (dysbiosis), such as cancer and neurodegenerative diseases. The intricate interaction between microbiota and epigenetics involves the production of metabolites and signalling molecules that can impact our health by influencing immune responses, metabolism and inflammation. Understanding these interactions could lead to novel therapeutic strategies targeting microbiota-epigenetic pathways to improve health outcomes.Conclusion. In this context, we aim to review and emphasize the current knowledge and key concepts that link the microbiota to epigenetics and immune system function, exploring their relevance to the development and maintenance of homeostasis and susceptibility to different diseases later in life. We aim to elucidate key concepts concerning the interactions and potential effects among the human gut microbiota, epigenetics, the immune system and ageing diseases linked to dysbiosis.