A pH-responsive magnetic resonance tuning probe for precise imaging of bacterial infection in vivo

磁共振成像 体内 细菌 核磁共振 临床前影像学 材料科学 化学 生物 医学 物理 遗传学 生物技术 放射科 冶金
作者
Linyao Li,Maojuan Liu,Siyu Deng,Xiaokang Zhu,Yang Song,Erqun Song
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:164: 487-495 被引量:15
标识
DOI:10.1016/j.actbio.2023.04.009
摘要

Accurate and sensitive detection of bacteria is essential for treating bacterial infections. Herein, a pH-responsive magnetic resonance tuning (MRET) probe, whose T1-weighted signal is activated in the bacteria-infected acid microenvironment, is developed for in situ accurately magnetic resonance imaging (MRI) of bacterial infection in vivo. The MRET probe (MDVG-1) is an assembly of paramagnetic enhancer (gadolinium-modified i-motif DNA3, abbreviated as Gd-DNA3-Gd) and the precursor of superparamagnetic quencher (DNA and vancomycin-modified magnetic nanoparticle, abbreviated as MDV). The T1-weighted signal of Gd-DNA3-Gd is quenched once the formation of MDVG-1 (MRET ON). Interestingly, the MDVG-1 probe was disassembled into the monomers of Gd-DNA3-Gd and MDV under the bacteria-infected acid microenvironment, resulting significantly enhanced T1-weighted signal at the infected site (MRET OFF). The pH-responsive MRET probe-based enhanced MRI signal and bacteria targeting significantly improve the distinction between bacterial infectious tissues and sterile inflamed tissues, which provides a promising approach for accurately detecting bacterial infection in vivo. Detecting pathogenic bacteria in vivo based on magnetic resonance imaging (MRI) strategy has been exploring recently. Although various bacterial-targeted MRI probes have been developed to image bacteria in vivo, the MRI signal of these MRI probes is always “on”, which inevitably generates nonspecific background MRI signals, affecting the accuracy of MRI to a certain extent. In the current study, based on the magnetic resonance tuning (MRET) phenomenon, we present a pH-responsive MRET probe (MDVG-1) with T2-weighted imaging to T1-weighted imaging switchable properties to achieve in situ precise imaging of bacterial infection in vivo.
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