Unit of Urology, URI, Division of Experimental Oncology, IRCCS San Raffaele Scientific Institute, Milan, Italy.
Tumor Biology and Vascular Targeting Unit, Division of Experimental Oncology, IRCCS San Raffaele Scientific Institute, Via Olgettina 58, 20132, Milan, Italy.
J Nanobiotechnology. 2023 Aug 27;21(1):301. doi: 10.1186/s12951-023-02028-5.
Early detection and removal of bladder cancer in patients is crucial to prevent tumor recurrence and progression. Because current imaging techniques may fail to detect small lesions of in situ carcinomas, patients with bladder cancer often relapse after initial diagnosis, thereby requiring frequent follow-up and treatments.
In an attempt to obtain a sensitive and high-resolution imaging modality for bladder cancer, we have developed a photoacoustic imaging approach based on the use of PEGylated gold nanorods (GNRs) as a contrast agent, functionalized with the peptide cyclic [CphgisoDGRG] (Iso4), a selective ligand of α5β1 integrin expressed by bladder cancer cells. This product (called GNRs@PEG-Iso4) was produced by a simple two-step procedure based on GNRs activation with lipoic acid-polyethyleneglycol(PEG-5KDa)-maleimide and functionalization with peptide Iso4. Biochemical and biological studies showed that GNRs@PEG-Iso4 can efficiently recognize purified integrin α5β1 and α5β1-positive bladder cancer cells. GNRs@PEG-Iso4 was stable and did not aggregate in urine or in 5% sodium chloride, or after freeze/thaw cycles or prolonged exposure to 55 °C, and, even more importantly, do not settle after instillation into the bladder. Intravesical instillation of GNRs@PEG-Iso4 into mice bearing orthotopic MB49-Luc bladder tumors, followed by photoacoustic imaging, efficiently detected small cancer lesions. The binding to tumor lesions was competed by a neutralizing anti-α5β1 integrin antibody; furthermore, no binding was observed to healthy bladders (α5β1-negative), pointing to a specific targeting mechanism.
GNRs@PEG-Iso4 represents a simple and robust contrast agent for photoacoustic imaging and diagnosis of small bladder cancer lesions.
早期发现和去除膀胱癌患者的肿瘤对于防止肿瘤复发和进展至关重要。由于目前的成像技术可能无法检测到原位癌的小病变,膀胱癌患者在初始诊断后经常复发,因此需要频繁的随访和治疗。
为了获得一种用于膀胱癌的敏感且高分辨率的成像方式,我们开发了一种基于聚乙二醇化金纳米棒(GNRs)作为造影剂的光声成像方法,该造影剂通过脂酸-聚乙二醇(PEG-5KDa)-马来酰亚胺激活,并与肽环[CphgisoDGRG](Iso4)进行功能化,Iso4 是膀胱癌细胞中 α5β1 整联蛋白的选择性配体。该产品(称为 GNRs@PEG-Iso4)是通过基于 GNRs 与脂酸-聚乙二醇(PEG-5KDa)-马来酰亚胺的激活和肽 Iso4 的功能化的简单两步法制备的。生化和生物学研究表明,GNRs@PEG-Iso4 可以有效地识别纯化的整联蛋白 α5β1 和 α5β1 阳性膀胱癌细胞。GNRs@PEG-Iso4 在尿液中或在 5%氯化钠中、在冷冻/解冻循环或长时间暴露于 55°C 下均稳定且不聚集,更重要的是,在膀胱内灌注后不会沉淀。将 GNRs@PEG-Iso4 经膀胱内灌注到患有原位 MB49-Luc 膀胱癌的小鼠中,然后进行光声成像,可有效地检测到小的癌症病变。用中和性抗-α5β1 整联蛋白抗体进行竞争结合实验,证明了与肿瘤病变的结合;此外,在健康的膀胱(α5β1 阴性)中没有观察到结合,这表明存在特定的靶向机制。
GNRs@PEG-Iso4 是一种简单而强大的光声成像和诊断小膀胱癌病变的造影剂。
