In vivo multimodal imaging of hyaluronan-mediated inflammatory response in articular cartilage

体内 软骨 磁共振成像 骨关节炎 炎症 体外 透明质酸 临床前影像学 分子成像 病理 医学 磁共振造影剂 化学 免疫学 解剖 生物 生物化学 放射科 替代医学 生物技术
作者
Amparo Ruiz,Alejandra Duarte,Dalibel Bravo,Elisa Ramos Gavilá,Chengliang Zhang,Mary K. Cowman,Thorsten Kirsch,Marnus Milne,Leonard G. Luyt,José G. Raya
出处
期刊:Osteoarthritis and Cartilage [Elsevier BV]
卷期号:30 (2): 329-340
标识
DOI:10.1016/j.joca.2021.11.006
摘要

One driving factor in the progression to posttraumatic osteoarthritis (PTOA) is the perpetuation of the inflammatory response to injury into chronic inflammation. Molecular imaging offers many opportunities to complement the sensitivity of current imaging modalities with molecular specificity. The goal of this study was to develop and characterize agents to image hyaluronan (HA)-mediated inflammatory signaling.We developed optical (Cy5.5-P15-1) and magnetic resonance contrast agents (Gd-DOTA-P15-1) based in a hyaluronan-binding peptide (P15-1) that has shown anti-inflammatory effects on human chondrocytes, and validated them in vitro and in vivo in two animal models of PTOA.In vitro studies with a near infrared (NIR) Cy5.5-P15-1 imaging agent showed a fast and stable localization of Cy5.5-P15-1 on chondrocytes, but not in synovial cells. In vivo NIR showed significantly higher retention of imaging agent in PTOA knees between 12 and 72 h (n = 8, Cohen's d > 2 after 24 h). NIR fluorescence accumulation correlated with histologic severity in cartilage and meniscus (ρ between 0.37 and 0.57, P < 0.001). By using in vivo magnetic resonance imaging with a Gd-DOTA-P15-1 contrast agent in 12 rats, we detected a significant decrease of T1 on injured knees in all cartilage plates at 48 h (-15%, 95%-confidence interval (CI) = [-18%,-11%]) while no change was observed in the controls (-2%, 95%-CI = [-5%,+1%]).This study provides the first in vivo evidence that hyaluronan-related inflammatory response in cartilage after injury is a common finding. Beyond P15-1, we have demonstrated that molecular imaging can provide a versatile technology to investigate and phenotype PTOA pathogenesis, as well as study therapeutic interventions.

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