--- - |2- We have previously demonstrated in Caco‐2 cells that tumor necrosis factor‐α (TNF‐α) inhibits sugar uptake, acting from the apical membrane, by decreasing the expression of the Na+‐glucose cotransporter SGLT1 in the brush border membrane. The goal was to investigate the hypothesis that TNF‐α from abdominal adipose tissue (adipocytes and macrophages) would decrease sugar and amino acid transport acting from the basolateral membrane of the enterocytes. TNF‐α placed in the basal compartment of Caco‐2 cells decreased α‐methyl‐ d‐glucose (αMG) and glutamine uptake. The apical medium derived from these Caco‐2 cells apically placed in another set of cells, also reduced sugar and glutamine transport. Reverse‐transcription polymerase chain reaction analysis demonstrated upregulation of TNF‐α, IL‐1β, and MCP1 expression in Caco‐2 cells exposed to basal TNF‐α. Similarly, αMG uptake was inhibited after Caco‐2 cells were incubated, in the basal compartment, with medium from visceral human mesenchymal stem cells‐derived adipocytes of overweight individuals. The apical medium collected from those Caco‐2 cells, and placed in the upper side of other set of cells, also decreased sugar uptake. Basal presence of medium derived from lipopolysaccharide‐activated macrophages and nonactivated macrophages decreased αMG uptake as well. Diet‐induced obese mice showed an increase in the visceral adipose tissue surrounding the intestine. In this physiological condition, there was a reduction on αMG uptake in jejunal everted rings. Altogether, these results suggest that basolateral TNF‐α, which can be produced by adipocytes and macrophages during obesity, would be able to activate TNF‐α and other proinflammatory proteins expression in the small intestine and diminish intestinal sugar and amino acids transport. - Journal of Cellular Physiology, EarlyView.