Nutrient Intake and Renal Cancer: Molecular Pathways and Mechanistic Insights into the Protective Role of Dietary Components

Peng ChenXiaojin BiRenli TianQian Zhang^*

• General Hospital of Shenyang Military Command, Shenyang, China

Renal cell carcinoma involves specialized metabolic transformations centered on proximal tubule biology, yet its interface with nutrient intake is frequently interpreted within a generalized oncological framework. This review contextualizes dietary influences within the kidney-specific physiological environment, emphasizing the role of renal filtration dynamics and oxygen-sensing mechanisms in shaping nutrient–tumor interactions. We discuss mechanistic and experimental evidence suggesting that dietary components—particularly fermentable fibers and plant-derived phytochemicals—may function as context-dependent biochemical modulators within the renal microenvironment. Special attention is given to short-chain fatty acids generated by gut microbial fermentation, which may act as distal modulators along the gut–kidney axis and influence metabolic and inflammatory signaling relevant to renal carcinogenesis. By relating circulating nutritional metabolites to proximal tubule metabolic sensitivity and VHL–HIF–dependent regulation, this review aims to bridge systemic nutritional metabolism with metabolic reprogramming characteristic of kidney cancer. Overall, this kidney-centric perspective reframes nutrition from a broad health factor to a context-dependent molecular modulator within renal metabolic pathways, specifically identifying nutritional signals as biochemical modulators—such as short-chain fatty acids—that directly interface with the oncogenic microenvironment through the VHL-HIF and mTOR circuits.