Designing Dihydrofolate Reductase Inhibitors as X-ray Radiosensitizers to Reverse Radioresistance of Cervical Cancer.

X-ray radiotherapy has been widely used in the treatment of cervical cancer, a common gynecologic malignant tumor. However, the therapeutic efficacy tends to be indistinctive. One major reason for this is amplification of the dihydrofolate reductase (DHFR) gene, which causes an increase in DHFR activity and attenuation of the treatment effect. To solve this problem, we synthesized a series of DHFR inhibitors derived from methotrexate (MTX) analogues as radiotherapy sensitizers. Activity screening revealed that compound 2a exerted the best inhibitory effect toward DHFR activity. In combination with X-ray radiotherapy (4 Gy), 2a showed much more prominent antiproliferative activity on cervical cancer cells than 2a or X-rays alone and revealed higher selectivity and radiosensitization than MTX. In vitro experiments showed that 2a + X-rays significantly induced cell apoptosis, as revealed by the increase in the Sub-G1 population and activation of caspase 3, 8, and 9. The in vivo antitumor effect demonstrated that in the presence of X-rays, 2a effectively suppressed tumor growth and did not cause obvious side effects. In conclusion, as a DHFR inhibitor, 2a successfully reversed the radioresistance problem induced by radiotherapy and greatly promoted the therapeutic effect. This is a promising candidate for tumor treatment that deserves further research and development. This study clearly demonstrates that DHFR inhibitors could be developed as promising radiosensitizers in the treatment of cervical cancer and that further research to improve their activity and potential in future clinical use is deserved.