Table 2.
Antitumor mechanism of antiparasitic drugs.
| Category | Drug | Drug action | Effect |
|---|---|---|---|
| Macrolides | Avermectins | Apoptosis | Inhibit Cl-Channel, Mitochondrial related pathways |
| Cell cycle | Cycle-related protein, KPNB1-dependent | ||
| Autophagy | Ubiquitination pathway, PAK1↓, Inactivate AKT-mTOR | ||
| Cell stemness | Inhibit stemness genes, Inactivate PAK1, pStat3↓, IL-6↓ | ||
| Milbemycins | Drug resistance | MDR1↓, P-gp↓, MAST1↓ | |
| Benzimidazoles | Albendazole | Energy homeostasis | Inhibition GLUT1/AMPK/P53, HIF-1α↓ |
| Cell cycle | Inhibit microtubule formation | ||
| Apoptosis | ER stress, pMAPK↑, TNF-α↑ | ||
| Flubendazole | Cell cycle | Inhibiting tubulin polymerization | |
| Autophagy | EVA1A↑, LC3 puncta↓, p62 degradation↓, and LC3 lipidation↓, STAT3 related pathways | ||
| Immunity | PD-1↓, accumulation of MDSCs↓ | ||
| Artemisinin and derivatives | Artemisinin | DNA damage | ROS↑, topoisomerase 1↓ |
| Cell cycle | Cycle-related protein (cyclin-B1, cyclin D1, cyclin E) | ||
| Immunity | Degranulation of NK cells↑, MDSCs and Treg cells↓, CD4 +IFN-γ+ T and CTL↑ | ||
| Artesunate | DNA damage | ROS↑ | |
| Artemisitene | DNA damage | NEDD4↑, the stability of c-Myc↓, DNA topoisomerases↓ | |
| Dihydroartemisinin | Cell cycle | ROS↑, CDK4↓ | |
| Ferroptosis | Iron-related proteins, Binding of iron IRP1 and IRP2↑, unstable iron ions↑ | ||
| Artemether | Immunity | Treg↓, IL-4 and IFN-γ↑ | |
| Quinolines | Chloroquine | Autophagy | Impeding the degradation of autophagic proteins |
| Immunity | tumor-associated carcinoembryonic antigen↑, CD80 and CD86↑ | ||
| Drug resistance | p21WAF1/CIP1↑ | ||
| Cell stemness | STAT3↓, CXCR4↓ | ||
| Atovaquone | Energy homeostasis | Inhibiting mitochondrial complex III, Oxidative phosphorylation↓ | |
| Cell stemness | mitochondrial membrane potential↓, ROS↑, pSTAT3 in mitochondrial↓ | ||
| Apoptosis | Degrade HER2 and β-catenin, pATM and p53↑ |