Near-infrared fluorescent molecular probes with cetuximab in the in vivo fluorescence imaging for epithelial ovarian cancer.

IF 3.8 3区医学 Q1 REPRODUCTIVE BIOLOGY Journal of Ovarian Research Pub Date : 2024-11-14 DOI:10.1186/s13048-024-01547-5

Chen Zhang, Hongyan Cheng, Sha Dou, Yuanfen Wang, Xue Ye, Heng Cui, Xiaohong Chang, Yi Li

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Abstract

Background: Near-infrared fluorescence (NIRF) imaging is an excellent choice for image-guided surgery due to its simple operation and non-invasiveness. Developing tumor-specific fluorescent molecular probes is key to fluorescence imaging-guided surgery. EGFR (epidermal growth factor receptor) is closely related to the proliferation and growth of tumor cells and is highly expressed in epithelial ovarian cancer (EOC). The study aims to construct a NIR fluorescent molecular probe using cetuximab (an EGFR monoclonal antibody) and investigate its feasibility for targeting EOC in vivo through fluorescence imaging.

Methods: We determined the expression of EGFR in EOC. NIR fluorescent molecular probe with cetuximab (cetuximab-Cy7) was chemically engineered and identified. The subcutaneous xenografted tumor model of EOC was induced using SKOV3-Luc cell line with positive expression of EGFR. Cetuximab-Cy7 was used for in vivo fluorescence imaging, and phosphate-buffered saline, free Cy7 dye and mouse isotype immunoglobulin G-Cy7 were used as controls. NIRF imaging system was performed to study the distribution and targeting of the probes. Tumors were imaged in situ and ex vivo, and fluorescent intensity was quantified. Resected specimens were analyzed to confirm diagnosis, and immunohistochemical (IHC) staining was used to identify EGFR expression.

Results: EGFR expression was increased in EOC tissues than fallopian tube tissues. The high expression of EGFR was significantly correlated with well-differentiation, residual lesions ≤ 1 cm, no recurrence and increased survival. NIRF imaging showed that the cetuximab-Cy7 enabled detection of tumor lesions in EOC-bearing mice with the optimal dose of 30 µg. The suitable imaging time window may be 24-96 h post-injection. Ex vivo fluorescence imaging indicated that fluorescent signal was mainly detected in the tumor and the lung. IHC results confirmed that xenografts were EGFR positive.

Conclusion: Cetuximab-Cy7 can specifically target the tumors of EOC xenografted nude mice. This research lays the foundation for future studies on EOC surgery navigation.

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近红外荧光分子探针与西妥昔单抗在上皮性卵巢癌体内荧光成像中的应用。

背景：近红外荧光成像（NIRF）具有操作简单、无创伤等特点，是图像引导手术的最佳选择。开发肿瘤特异性荧光分子探针是荧光成像引导手术的关键。表皮生长因子受体（EGFR）与肿瘤细胞的增殖和生长密切相关，在上皮性卵巢癌（EOC）中高表达。本研究旨在利用西妥昔单抗（表皮生长因子受体单克隆抗体）构建近红外荧光分子探针，并通过荧光成像研究其在体内靶向 EOC 的可行性：我们测定了表皮生长因子受体在 EOC 中的表达。方法：我们确定了表皮生长因子受体（EGFR）在 EOC 中的表达，并通过化学方法设计和鉴定了西妥昔单抗近红外荧光分子探针（西妥昔单抗-Cy7）。使用表皮生长因子受体（EGFR）阳性表达的 SKOV3-Luc 细胞系诱导 EOC 皮下异种移植肿瘤模型。西妥昔单抗-Cy7 被用于体内荧光成像，磷酸盐缓冲液、游离 Cy7 染料和小鼠同种型免疫球蛋白 G-Cy7 被用作对照。近红外荧光成像系统用于研究探针的分布和靶向性。对肿瘤进行原位和体外成像，并对荧光强度进行量化。对切除的标本进行分析以确诊，并使用免疫组化（IHC）染色来确定表皮生长因子受体的表达：结果：与输卵管组织相比，EOC组织中表皮生长因子受体表达量增加。表皮生长因子受体的高表达与分化良好、残留病灶小于1厘米、无复发和生存率提高显著相关。近红外成像显示，西妥昔单抗-Cy7能在最佳剂量为30微克的EOC小鼠体内检测到肿瘤病灶。合适的成像时间窗为注射后 24-96 h。体内外荧光成像显示，荧光信号主要在肿瘤和肺部被检测到。IHC结果证实，异种移植物的表皮生长因子受体（EGFR）呈阳性：结论：西妥昔单抗-Cy7可特异性靶向EOC异种移植裸鼠的肿瘤。结论：西妥昔单抗-Cy7能特异性靶向EOC异种移植裸鼠的肿瘤，这项研究为今后的EOC手术导航研究奠定了基础。

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来源期刊

Journal of Ovarian Research REPRODUCTIVE BIOLOGY-

CiteScore

6.20

自引率

2.50%

发文量

125

审稿时长

>12 weeks

期刊介绍： Journal of Ovarian Research is an open access, peer reviewed, online journal that aims to provide a forum for high-quality basic and clinical research on ovarian function, abnormalities, and cancer. The journal focuses on research that provides new insights into ovarian functions as well as prevention and treatment of diseases afflicting the organ. Topical areas include, but are not restricted to: Ovary development, hormone secretion and regulation Follicle growth and ovulation Infertility and Polycystic ovarian syndrome Regulation of pituitary and other biological functions by ovarian hormones Ovarian cancer, its prevention, diagnosis and treatment Drug development and screening Role of stem cells in ovary development and function.