Triptolide: A Narrative Review of Its Traditional Use, Derivatives, Pharmacology, Antitumor Effect, and Clinical Applications

Triptolide (TPL), a diterpenoid derived from the Chinese medicinal plant Tripterygium wilfordii, exhibits broad-spectrum biological and pharmacological activities, although its clinical translation is limited by systemic toxicity. Recent advances in the development of TPL derivatives have created new therapeutic opportunities. This review summarizes current knowledge of triptolide, with a focus on TPL’s toxicity profile, derivative strategies, and antitumor mechanisms across different tumor types, including glioma, pancreatic tumor, leukemia, lung cancer, gastric cancer and others. We also summarize the plant’s origin and traditional uses, TPL’s pharmacokinetics (PKs), and relevant clinical trials against tumors. The main mechanism of the TPL antitumor effect is to interfere with ATPase of XPB by covalently binding to it, as well as inducing the rapid depletion of RPB1 via hyperphosphorylation and ubiquitination. We also reviewed systemic toxicity including neuro-, cardio-, oto-, nephron-, hepato-, and hemato-toxicity, as well as digestive and reproductive toxicity. Finally, we searched clinical trial databases across three platforms for tumors and concluded that Minnelide has strong clinical potential for solid tumors. By critically evaluating TPL from multiple dimensions, specifically its traditional use, chemical derivatization, pharmacokinetics, antitumor mechanisms, toxicity, and clinical trials, this review aims to inform future strategies that maximize therapeutic efficacy while minimizing adverse effects.