ABSTRACT
Objective To establish a patient-derived gastric cancer xenograft( PDX) model in nude mice and to in-vestigate the application of near infrared fluorescent ( NIRF) dye IR-783 in in vivo imaging of gastric cancer xenograft mod-els.Methods Fresh human gastric cancer tissue was taken and transplanted into the subrenal capsule of nude mice to es-tablish the xenograft model.When the transplanted tumors grew,took part of the tumor tissue to do HE staining and compare the structural characteristics with the primary tumor.Another portion of the tumor was xenografted into nude mice subcutane-ously.Twenty days later,the tumor-bearing mice were injected intraperitoneally with IR-783 dye (10μM) in a dose of 100 mg/20 g.The intensity of the tumor image was monitored by optical NIRF imaging.The correction between tumor volume and fluorescence intensity was analyzed.Finally,the expression of OATP1B3 and HIF1αin the xenografted tumor tissue was detected by immunohistochemistry.Results We successfully established three patient-derived xenograft ( PDH) models of human gastric cancer.The transplanted tumor tissues maintained the histological characteristics of the primary tumor well.NIRF signal can be detec ted in subrenal capsule of the xenografted nude mice.The correlation between tumor size and fluorescence intensity in the PDX models reached higher than 98%.Strong positive expressions of HIF1αand OATP1B3 in the tumor tissues were detected.Conclusions NIRF dye IR-783 can be specifically accumulated at the tumor site,therefore, can be used to detect PDX in vivo early.The tumor targeting property may be related to the expression of OATP1B3 and HIF1α.
ABSTRACT
Objective To evaluate the effect of near infrared heptamethine cyanine dye IR-783-mediated specific tumor imaging in spontaneous tumor of dogs .Methods IR-783 was intraperitoneally injected to nude mice models of transplanted tumor in a dose of 5μmol/kg.The metabolic time course of IR-783 was detected by in vivo imager .Based on the results of above observation , IR-783 was injected to dogs with spontaneous tumor in a dose of 1.5μmol/kg.The site of intravenous injection was the hind leg .Tumor and peri-tumoral tissues were removed at 5 days after IR-783-injection for fluorescence imaging , pathology and frozen section fluorescence examinations .Results After i.p.IR-783 injection to nude mice models of transplanted tumor , the transplanted tumor tissues of nude mice had stronger specific fluorescence than normal tissues by imaging at 8 days after injection .After i.v.IR-783 injection to four dogs with spontaneous tumor , the fluorescence signal in the tumor tissues was stronger than that in the normal tissues at 5 days after injection .Conclusions Near infrared fluorescent dye IR-783 could be specifically taken up by tumor tissues , and can be used for specific diagnosis of tumor.It has an important clinical application prospect .