Microbiota and Lipotoxicity.

Gut microbiota is an indispensable commensal partner of human superorganism. The wealth of genetic repertoire provided by these microorganisms extends host's substrate processing capability. Energy and nutrient harvesting machinery primarily depends on the proper function of these organisms. However, the dynamic composition of microbiota changes with age, lifestyle, stress factors, infections, medications, and host pathophysiological conditions. Host immune system is primarily responsible for shaping up the microbial community and sustaining the symbiotic state. This involves controlling the delicate balance between agility toward pathobionts and tolerance toward symbionts. When things go wrong with this crosstalk, dysbiosis may arise.Metabolic syndrome is a multisystemic, low-grade chronic inflammatory disease that involves dyslipidemia, glucose intolerance, insulin resistance, and central obesity. Excess caloric intake with high-sugar and high-fat diet promote high energy harvesting and lipogenesis. The secretion of adipokines accompanies lipid spillover from fat cells, which contribute to insulin resistance and the expansion of adipose tissue in ectopic sites. Proinflammatory cytokines from adipose tissue macrophages increase the extent of adipose dysfunction.The inflammatory nature of obesity and metabolic syndrome recall the connection between dysbiosis and immune dysfunction. A remarkable association exits between obesity, inflammatory bowel disease, gluten-sensitive enteropathy, and dysbiosis. These conditions compromise the gut mucosa barrier and allow lipopolysaccharide to enter circulation. Unresolved chronic inflammation caused by one condition may overlap or trigger the other(s). Experimental studies and therapeutic trials of fecal microbiota transplantation promise limited improvement in some of these conditions.Typically, metabolic syndrome is considered as a consequence of overnutrition and the vicious cycle of lipogenesis, lipid accumulation, and chronic low-level inflammation. Because of the complex nature of this disorder, it remains inconclusive whether dysbiosis is a cause or consequence of obesity and metabolic syndrome.