Improper eating habits and lack of physical activity can cause an imbalance of calorie consumption and expenditure, which results in adipocyte hypertrophy and chronic inflammation. Increasing inflammatory cytokines may consequently lead to insulin resistance by reducing tissue insulin receptor sensitivity and subsequently exacerbating lipid accumulation in the liver. Besides, recent studies have pointed out that gut microbiota dysbiosis is associated with the incidence of obesity. Turmeric is derived from the rhizome of Curcuma longa. It has beneficial properties to relieve inflammation and hyperlipidemia in previous animal studies. Lactobacillus paracasei is a lactic acid bacteria species that has been widely used in fermented products. A previous study showed that the effect of L. paracasei fermented green tea in reducing weight gain in rats could be better than unfermented green tea. Yet, the anti-obesity effects of L. paracasei fermented turmeric haven’t been investigated. Therefore, an animal study is designed to clarify the ameliorative effect of 5% L. paracasei fermented turmeric on 50% High-Fat-Diet (HFD)-induced obesity in mice. Our results showed that curcuminoid content of turmeric was decreased after fermentation. In vivo study showed that both unfermented turmeric (U) and L. paracasei fermented turmeric (F) significantly reduced liver triglyceride accumulation, serum triglyceride and fasting blood glucose levels, perigonadal adipocyte hypertrophy, and restored the expression of hepatic insulin receptor pathway protein expressions. Furthermore, F significantly suppressed the body weight gain, liver weight, perigonadal adipose tissue weight, and serum total cholesterol levels. In addition, F downregulated the expressions of adipogenesis, lipogenesis and inflammatory–related protein in perigonadal adipose tissue. F also ameliorated insulin resistance via activating insulin receptor pathway protein expressions in perigonadal adipose tissues. For liver lipid metabolism, F increased fatty acid β-oxidation and decreased lipogenesis–related protein expressions. In particular, F exerted greater effects on improved body weight gain, liver and perigonadal tissue weight, perigonadal adipocyte hypertrophy, adipogenesis, lipogenesis, inflammation, insulin receptor pathway, liver fatty acid β-oxidation protein SIRT 1, PPARα, and PGC-1α than U. Gut microbiota analysis showed that U and F modulated microbiota composition. Compared with U, F significantly increased the beneficial bacteria Eggerthella sinensis JCM 14551, short-chain fatty acid-producing bacteria Anaerostipes hadrus, [Bacteroides] pectinophilus and significantly reduced the proportion of harmful bacteria Roseburia faecis, thereby increasing propionate concentrations in mouse feces. In summary, our results suggest that fermented turmeric (F) may be beneficial for obesity prevention by reducing adipogenesis, lipogenesis and inflammatory responses in perigonadal adipose tissues, improving the insulin sensitivity of perigonadal adipose tissue and liver, reducing liver lipid accumulation, and regulating the gut microbiota. Compared with U, F had more significant anti-obesity effects on some organs and molecular mechanisms, and the metabolites produced by turmeric fermentation by Lactobacillus paracasei may play a key role.