Expanding a peptide-covalent probe hybrid for PET imaging of S. aureus driven focal infections

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Jyotsna Bhatt Mitra, Saurav Chatterjee, Anuj Kumar, Elina Khatoon, Ashok Chandak, Sutapa Rakshit, Anupam Bandyopadhyay, Archana Mukherjee
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引用次数: 0

Abstract

Background

The urgent demand for innovative theranostic strategies to combat bacterial resistance to antibiotics is evident, with substantial implications for global health. Rapid diagnosis of life-threatening infections can expedite treatment, improving patient outcomes. Leveraging diagnostic modalities i.e., positron emission tomography (PET) and single photon emission computed tomography (SPECT) for detecting focal infections has yielded promising results. Augmenting the sensitivity of current PET and SPECT tracers could enable effective imaging of pathogenic bacteria, including drug-resistant strains.UBI (29–41), an antimicrobial peptide (AMP) fragment recognizes the S. aureus membrane through electrostatic binding. Radiolabeled UBI (29–41) is a promising SPECT and PET-based tracer for detecting focal infections. 2-APBA (2-acetyl-phenyl-boronic acid), a non-natural amino acid, specifically targets lysyl-phosphatidyl-glycerol (lysyl-PG) on the S. aureus membranes, particularly in AMP-resistant strains. We propose that combining UBI with 2-APBA could enhance the diagnostic potential of radiolabeled UBI.

Results

Present work aimed to compare the diagnostic potential of two radiolabeled peptides, namely UBI (29–41) and 2-APBA modified UBI (29–41), referred to as UBI and UBI-APBA. APBA modification imparted antibacterial activity to the initially non-bactericidal UBI against S. aureus by inducing a loss of membrane potential. The antibacterial activity demonstrated by UBI-APBA can be ascribed to the synergistic interaction of both UBI and UBI-APBA on the bacterial membrane. To enable PET imaging, we attached the chelator 1,4,7-triazacyclononane 1-glutaric acid 4,7-acetic acid (NODAGA) to the peptides for complexation with the positron emitter Gallium-68 (68Ga). Both NODAGA conjugates were radiolabeled with 68Ga with high radiochemical purity. The resultant 68Ga complexes were stable in phosphate-buffered saline and human serum. Uptake of these complexes was observed in S. aureus but not in mice splenocytes, indicating the selective nature of their interaction. Additionally, the APBA conjugate exhibited superior uptake in S. aureus while preserving the selectivity of the parent peptide. Furthermore, [68Ga]Ga-UBI-APBA demonstrated accumulation at the site of infection in rats, with an improved target-to-non-target ratio, as evidenced by ex-vivo biodistribution and PET imaging.

Conclusions

Our findings suggest that linking UBI, as well as AMPs in general, with APBA shows promise as a strategy to augment the theranostic potential of these molecules.

扩展用于金黄色葡萄球菌病灶感染 PET 成像的多肽-共价探针混合体。
背景:显然,迫切需要创新的治疗策略来对抗细菌对抗生素的耐药性,这对全球健康具有重大影响。对危及生命的感染进行快速诊断可加快治疗,改善患者的预后。利用正电子发射计算机断层扫描(PET)和单光子发射计算机断层扫描(SPECT)等诊断模式检测病灶感染已取得了可喜的成果。UBI (29-41) 是一种抗菌肽 (AMP) 片段,能通过静电结合识别金黄色葡萄球菌膜。放射性标记的 UBI (29-41) 是一种很有前景的用于检测病灶感染的 SPECT 和 PET 示踪剂。2-APBA(2-乙酰基-苯基-硼酸)是一种非天然氨基酸,可特异性靶向金黄色葡萄球菌膜上的赖氨酰-磷脂酰-甘油(赖氨酰-PG),尤其是耐 AMP 菌株。我们建议将 UBI 与 2-APBA 结合使用可提高放射性标记 UBI 的诊断潜力:本研究旨在比较两种放射性标记肽(即 UBI(29-41)和经 2-APBA 修饰的 UBI(29-41),简称 UBI 和 UBI-APBA)的诊断潜力。经 APBA 修饰的 UBI 最初对金黄色葡萄球菌无杀菌作用,但通过诱导膜电位的丧失,赋予了其抗菌活性。UBI-APBA 的抗菌活性可归因于 UBI 和 UBI-APBA 在细菌膜上的协同作用。为了实现 PET 成像,我们将螯合剂 1,4,7-三氮杂环壬烷-1-戊二酸-4,7-乙酸(NODAGA)连接到肽上,以便与正电子发射体镓-68(68Ga)络合。两种 NODAGA 共轭物都用 68Ga 进行了放射标记,放射化学纯度很高。得到的 68Ga 复合物在磷酸盐缓冲盐水和人体血清中都很稳定。在金黄色葡萄球菌中观察到了这些复合物的摄取,而在小鼠脾细胞中则没有,这表明它们之间的相互作用具有选择性。此外,在保持母肽选择性的同时,APBA 复合物在金黄色葡萄球菌中表现出更高的吸收率。此外,[68Ga]Ga-UBI-APBA 在大鼠感染部位显示出蓄积作用,体内外生物分布和 PET 成像显示其靶向与非靶向比率有所提高:我们的研究结果表明,将 UBI 以及一般的 AMP 与 APBA 联用有望成为增强这些分子治疗潜力的一种策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
8.70%
发文量
30
审稿时长
5 weeks
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