Abstract
This study aimed to evaluate sex-related differences in kidney toxicity induced by aflatoxin B1 (AFB1) and ochratoxin A (OTA), administered either individually or in combination, and to investigate the mitigating potential of fermented whey (FW) and pumpkin (P) using a proteomic approach in a sub-chronic rat model. Diets naturally contaminated with AFB1 and OTA fungal producers, or enriched with FW and P, were administered to 120 Wistar rats for 28 days. Afterwards, kidneys were collected and subjected to protein extraction and digestion to peptides. For proteomic analysis, peptides were separated using an LC-QTOF-MS system, and differentially expressed proteins between control and treated groups were statistically filtered (p < 0.05) to distinguish sex-related differences between males and females. Proteomic analysis revealed that non-supplemented diets induced significant protein alterations, with male kidneys showing greater sensitivity to mycotoxin exposure, particularly to OTA, and exhibiting a distinct expression pattern compared with females. Notably, FW and FW + P supplementation mitigated these adverse effects by reducing the number of differentially expressed proteins, stabilizing mitochondrial function, and enhancing xenobiotic metabolism pathways. These findings underscore the importance of sex-specific factors in evaluating the protective potential of bioactive ingredients against mycotoxin-induced renal injury.