Tailored Chemical Reactivity Probes for Systemic Imaging of Aldehydes in Fibroproliferative Diseases

化学 体内 离体 小分子 生物物理学 生物化学 体外 催化作用 生物 生物技术
作者
Hua Ma,Iris Y. Zhou,Y Iris Chen,Nicholas J. Rotile,İlknur Ay,Eman A. Akam,Huan Wang,Rachel S. Knipe,Lida P. Hariri,Caiyuan Zhang,Matthew Drummond,Pamela Pantazopoulos,Brianna F. Moon,Avery T. Boice,Samantha E. Zygmont,Jonah Weigand‐Whittier,Mozhdeh Sojoodi,Romer A. González-Villalobos,Michael K. Hansen,Kenneth K. Tanabe
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (38): 20825-20836 被引量:19
标识
DOI:10.1021/jacs.3c04964
摘要

During fibroproliferation, protein-associated extracellular aldehydes are formed by the oxidation of lysine residues on extracellular matrix proteins to form the aldehyde allysine. Here we report three Mn(II)-based, small-molecule magnetic resonance probes that contain α-effect nucleophiles to target allysine in vivo and report on tissue fibrogenesis. We used a rational design approach to develop turn-on probes with a 4-fold increase in relaxivity upon targeting. The effects of aldehyde condensation rate and hydrolysis kinetics on the performance of the probes to detect tissue fibrogenesis non-invasively in mouse models were evaluated by a systemic aldehyde tracking approach. We showed that, for highly reversible ligations, off-rate was a stronger predictor of in vivo efficiency, enabling histologically validated, three-dimensional characterization of pulmonary fibrogenesis throughout the entire lung. The exclusive renal elimination of these probes allowed for rapid imaging of liver fibrosis. Reducing the hydrolysis rate by forming an oxime bond with allysine enabled delayed phase imaging of kidney fibrogenesis. The imaging efficacy of these probes, coupled with their rapid and complete elimination from the body, makes them strong candidates for clinical translation.
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