Influence of supplementation with probiotic bacteria Lactiplantibacillus plantarum and Latilactobacillus curvatus on selected parameters of duodenum iron metabolism in rats on a high-fat, iron-deficient diet

Objectives

A high-fat, iron (Fe)-deficient Western diet induces obesity and dysregulates Fe metabolism. We compared the influence of Lactiplantibacillus plantarum and Latilactobacillus curvatus with and without Fe supplementation on duodenal Fe uptake under high-fat diet conditions.

Methods

Rats were fed a high-fat diet (HF group) or high-fat, Fe-deficient diet (HFDEF group) or control diet (C group) for 8 wk. For the next 8 wk, the rats in the C and HF groups continued on the same diet, whereas the rats in the HFDEF group were divided into six groups and fed high-fat, Fe-deficient diet combinations with L. plantarum (Lp), L. curvatus (Lc), and Fe supplementation (HFDEF, HFDEFFe, HFDEFLp, HFDEFLc, HFDEFFeLp, HFDEFFeLc). Duodenum and serum samples were collected for analysis.

Results

In the duodenum, the Fe content was higher in the HFDEFFeLp and HFDEFFeLc groups; the ferroportin level was higher in the HFDEFFeLp and HFDEFFeLc groups versus the HF group; the divalent metal transporter 1 level was higher in the HFDEFFeLc group versus the C and HF groups; and duodenal cytochrome B was higher in the HFDEFLc versus all the other groups. In addition, duodenal expression of the solute carrier family 11 member 2 gene was higher in the HFDEF group versus the C, HF, HFDEFFe, HFDEFFeLp, and HFDEFFeLc groups; that of the TFRC gene was higher in the HFDEFFeLc group versus the C, HF, HFDEF, and HFDEFFe groups; and that of the HJV gene was higher in the HFDEFFeLp group versus the C, HF, HFDEF, HFDEFFe, and HFDEFLc groups.

Conclusions

L. plantarum and L. curvatus supplementation shows some potential to enhance duodenal cellular Fe uptake in rats on a high-fat, Fe-deficient diet.