Caffeine as a Modulator in Oncology: Mechanisms of Action and Potential for Adjuvant Therapy.

Caffeine, one of the most widely consumed bioactive compounds worldwide, is gaining recognition for its potential anticancer properties beyond its well-known neurological and metabolic effects. Mechanistically, caffeine exerts anti-tumor activity by modulating key cellular pathways involved in carcinogenesis, including the inhibition of phosphodiesterases, antagonism of adenosine A2A receptors, and disruption of the DNA damage response through ATR-Chk1 pathway inhibition. These actions collectively promote apoptosis, suppress tumor cell proliferation, and impair metastatic spread. In vitro and in vivo studies have demonstrated that caffeine can enhance the cytotoxic effects of chemotherapeutic agents and radiation therapy, suggesting a synergistic role in conventional cancer treatments. Epidemiological data further supports an inverse association between habitual caffeine consumption and the incidence of several cancers, notably liver, colorectal, breast, and prostate cancers. Among these, the most consistent experimental and clinical evidence exists for liver and colorectal cancer, where caffeine's modulatory effects on inflammation and cell proliferation have been repeatedly observed. Additionally, caffeine's anti-oxidant and anti-inflammatory properties may contribute to a microenvironment less conducive to tumor initiation and progression. While promising, the anticancer effects of caffeine are influenced by factors such as dosage, individual genetic variability, and cancer type, underscoring the need for further clinical investigation. This review explores the emerging role of caffeine as a potential chemopreventive and adjuvant therapeutic agent in oncology.