Optic bionanospherical probe from Gd\(_2\)O\(_3\): Yb, Er upconverting nanosphere and mAb^CD133 antibody for precise imaging label of cancer stem cell NTERA-2

Huong Nguyen, Thao Do, Nghia Nguyen Trong, Nga Nguyen Thi, L. Pham Thi, Phuong Ha Thi, Nghia Nguyen Van, D. Vu, Huong Tran Thu, Anh Tran Kim, Quoc Minh Le
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Abstract

Rare earth photonic nanomaterials are increasingly prominently applied in various fields of biomedicine. Currently, there is greater focus on the investigation to control the size and shape of nanomaterials, including the nanospherical form, which allows for precise labeling by only one nanoparticle. This paper demonstrates, for the first time, the construction of a biological nanospherical probe (BNSP) Gd2O3: Yb3+, Er3+/Silica/NH/mAb^CD133 for diagnostic labeling of cancer stem cells (CSCs) NTERA-2. The BNSP was constructed using highly monodisperse spheres with around 200nm uniform size of Gd2O3: 7.6% Yb3+, 1.6% Er3+. They were functionalized by an amine group-contained shell coating and conjugated with CD133 monoclonal antibody. The functionalized nanosphere Gd2O3: Yb, Er/silica/NH2 showed strong upconversion luminescence in red color upon laser excitation in the near-infrared region at 975 nm. The Gd2O3: Yb3+, Er3+/silica/NH2 was carefully implemented to conjugate mAb^CD133 via a linker, glutaraldehyde, to obtain the predictable probe Gd2O3: Yb3+, Er3+/Silica/NH/mAb^CD133. Then, this BNSP was tested in vitro for its capacity to label NTERA-2 cancer stem cells. The efficient labeling based on the fluorescent immunoassay method was detected by incorporating a nanophotometer, Field Energy Scan Electron Microscopy (FESEM), and precisely determined by fluorescent microscopy. The study shows that the BNSP is highly efficient with targeting capacity and specificity in the labeling of cancer stem cells. These advanced results open up promising avenues for the development of precise imaging diagnostics in cancer cellular biomedicine, and beyond.
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Gd \(_2\) O \(_3\): Yb, Er上转换纳米球和mAb^CD133抗体制备的光学生物纳米球探针用于肿瘤干细胞NTERA-2的精确成像标记
稀土光子纳米材料在生物医学各个领域的应用日益突出。目前,人们更关注于研究如何控制纳米材料的大小和形状,包括纳米球形形式,它允许仅通过一个纳米颗粒进行精确标记。本文首次构建了用于肿瘤干细胞(CSCs) NTERA-2诊断标记的生物纳米球形探针(BNSP) Gd2O3: Yb3+, Er3+/Silica/NH/mAb^CD133。BNSP是用高度单分散的球构建的,均匀尺寸约为200nm, Gd2O3: 7.6% Yb3+, 1.6% Er3+。它们被含胺基团的壳包被功能化,并与CD133单克隆抗体偶联。功能化的纳米球Gd2O3: Yb, Er/silica/NH2在975 nm近红外波段激光激发下显示出强烈的红色上转换发光。将Gd2O3: Yb3+, Er3+/silica/NH2通过连接剂戊二醛偶联mAb^CD133,得到可预测的探针Gd2O3: Yb3+, Er3+/silica/NH /mAb^CD133。然后,在体外测试了该BNSP标记NTERA-2癌症干细胞的能力。利用纳米光度计、场能扫描电镜(FESEM)检测基于荧光免疫分析法的高效标记,并通过荧光显微镜精确测定。研究表明,BNSP在肿瘤干细胞标记中具有高效的靶向性和特异性。这些先进的结果为癌症细胞生物医学及其他领域的精确成像诊断的发展开辟了有希望的途径。
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