Experimental study of 131I-caerin 1.1 and 131I-c(RGD)2 for internal radiation therapy of esophageal cancer xenografts

Abstract

Objective: The aim of this study was to analyze and compare the therapeutic effects of ¹³¹I-caerin 1.1 and ¹³¹I-c(RGD)₂ on TE-1 esophageal cancer cell xenografts.

Methods: (1) The in vitro antitumor effects of the polypeptides caerin 1.1 and c(RGD)₂ were verified by MTT and clonogenic assays. ¹³¹I-caerin 1.1 and ¹³¹I-c(RGD)₂ were prepared by chloramine-T (Ch-T) direct labeling, and their basic properties were measured. The binding and elution of ¹³¹I-caerin 1.1, ¹³¹I-c(RGD)₂, and Na¹³¹I (control group) in esophageal cancer TE-1 cells were studied through cell binding and elution assays. (2) The antiproliferative effect and cytotoxicity of ¹³¹I-caerin 1.1, ¹³¹I-c(RGD)₂, Na¹³¹I, caerin 1.1 and c(RGD)₂ on TE-1 cells were detected by Cell Counting Kit-8 (CCK-8) assay. (3) A nude mouse esophageal cancer (TE-1) xenograft model was established to study and compare the efficacy of ¹³¹I-caerin 1.1 and ¹³¹I-c(RGD)₂ in internal radiation therapy for esophageal cancer.

Results: (1) Caerin 1.1 inhibited the in vitro proliferation of TE-1 cells in a concentration-dependent manner, with an IC₅₀ of 13.00 µg/mL. The polypeptide c(RGD)₂ had no evident inhibitory effect on the in vitro proliferation of TE-1 cells. Therefore, the antiproliferative effects of caerin 1.1 and c(RGD)₂ on esophageal cancer cells were significantly different (P < 0.05). The clonogenic assay showed that the clonal proliferation of TE-1 cells decreased as the concentration of caerin 1.1 increased. Compared with the control group (drug concentration of 0 µg/mL), the caerin 1.1 group showed significantly lower clonal proliferation of TE-1 cells (P < 0.05). (2) The CCK-8 assay showed that ¹³¹I-caerin 1.1 inhibited the in vitro proliferation of TE-1 cells, while ¹³¹I-c(RGD)₂ had no evident inhibitory effect on proliferation. The two polypeptides showed significantly different antiproliferative effects on esophageal cancer cells at higher concentrations (P < 0.05). Cell binding and elution assays showed that ¹³¹I-caerin 1.1 stably bound to TE-1 cells. The cell binding rate of ¹³¹I-caerin 1.1 was 15.8 % ± 1.09 % at 24 h and 6.95 % ± 0.22 % after 24 h of incubation and elution. The cell binding rate of ¹³¹I-c(RGD)₂ was 0.06 % ± 0.02 % at 24 h and 0.₂3 % ± 0.11 % after 24 h of incubation and elution. (3) In the in vivo experiment, 3 days after the last treatment, the tumor sizes of the phosphate-buffered saline (PBS) group, caerin 1.1 group, c(RGD)₂ group, ¹³¹I group, ¹³¹I-caerin 1.1 group, and ¹³¹I-c(RGD)₂ group were 68.29 ± 2.67 mm³, 61.78 ± 3.58 mm³, 56.67 ± 5.65 mm³, 58.88 ± 1.71 mm³, 14.40 ± 1.38 mm³, and 60.14 ± 0.47 mm³, respectively. Compared with the other treatment groups, the ¹³¹I-caerin 1.1 group had significantly smaller tumor sizes (P < 0.001). After treatment, the tumors were isolated and weighed. The tumor weights in the PBS group, caerin 1.1 group, c(RGD)₂ group, ¹³¹I group, ¹³¹I-caerin 1.1 group, and ¹³¹I-c(RGD)₂ group were 39.50 ± 9.54 mg, 38.25 ± 5.38 mg, 38.35 ± 9.53 mg, 28.25 ± 8.50 mg, 9.50 ± 4.43 mg, and 34.75 ± 8.06 mg, respectively. The tumor weights in the ¹³¹I-caerin 1.1 group were significantly lighter than those in the other groups (P < 0.01).

Conclusion: ¹³¹I-caerin 1.1 has tumor-targeting properties, is capable of targeted binding to TE-1 esophageal cancer cells, can be stably retained in tumor cells, and has an evident cytotoxic killing effect, while ¹³¹I-c(RGD)₂ has no evident cytotoxic effect. ¹³¹I-caerin 1.1 better suppressed tumor cell proliferation and tumor growth than pure caerin 1.1, ¹³¹I-c(RGD)₂, and pure c(RGD)₂.

Keywords: Esophageal cancer; Iodine-131 labeling; Polypeptide c(RGD)(2); Polypeptide caerin 1.1; TE-1 cells.