["Acta Physiologica, Volume 242, Issue 6, June 2026. ", "\nABSTRACT\nSolid tumors are characterized by profound metabolic and vascular abnormalities that generate a hostile tumor microenvironment (TME) marked by extracellular acidosis, hypoxia, and nutrient deprivation. While the consequences of these conditions for cancer cell behavior have been extensively studied, their impact on anti‐tumor immune responses—particularly T cell function—has only recently gained attention. In this review, we summarize and critically discuss current knowledge on how acidic TME conditions affect the cytotoxic CD8+ T cells which are essential for anti‐tumor immunity, and the protumorigenic, regulatory T cells (Tregs). An emerging body of literature shows that TME acidosis restricts cytotoxic CD8+ T cell motility and tumor penetration, suppresses cytokine production and secretion despite preserved transcription, impairs proliferation, and reduces cytotoxic killing capacity. These effects are closely linked to acid‐induced metabolic reprogramming, including inhibition of glycolysis, altered mTOR and MYC signaling, and a shift toward fatty acid‐dependent oxidative metabolism. In contrast, Tregs, which are metabolically adapted to rely on oxidative phosphorylation and lactate utilization, are comparatively resilient to acidic stress, and acidosis can enhance their suppressive capacity, thereby further skewing the immune balance toward tolerance. We highlight emerging evidence that tumor acidosis modulates immune checkpoint pathways, including pH‐sensitive signaling through VISTA and regulation of PD‐L1 expression, with important implications for immunotherapy sensitivity. We posit that limiting tumor acidosis may enable restoration of anti‐tumor T cell function and improve therapeutic response to immune checkpoint blockade and adoptive T cell therapies.\n"]