Collagenase-Cleavable Peptide Amphiphile Micelles as a Novel Theranostic Strategy in Atherosclerosis
Autor: | Christopher Poon, Eun Ji Chung, Russell E. Jacobs, Deborah D Chin, Zhangjingyi Jiang, Jackson Cook, Johan Joo, Jonathan Wang, Naomi S Sta Maria, Noah Trac |
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Rok vydání: | 2021 |
Předmět: |
Pharmacology
Chemokine biology Chemistry Monocyte Biochemistry (medical) Fibrous cap Pharmaceutical Science Medicine (miscellaneous) medicine.disease_cause Vulnerable plaque Article medicine.anatomical_structure In vivo Peptide amphiphile Cancer research biology.protein medicine Collagenase Pharmacology (medical) Peptide sequence Genetics (clinical) medicine.drug |
Zdroj: | Adv Ther (Weinh) |
ISSN: | 2366-3987 |
Popis: | Atherosclerosis is an inflammatory disease characterized by plaques that can cause sudden myocardial infarction upon rupture. Such rupture-prone plaques have thin fibrous caps due to collagenase degradation, and a noninvasive diagnostic tool and targeted therapy that can identify and treat vulnerable plaques and may inhibit the onset of acute cardiac events. Toward this goal, monocyte-binding, collagenase-inhibiting, and gadolinium-modified peptide amphiphile micelles (MCG PAMs) are developed. Monocyte chemoattractant protein-1 (MCP-1) binds to C-C chemokine receptor-2 expressed on pathological cell types present within plaques. Through the peptide binding motif of MCP-1, MCG PAMs bind to monocytes and vascular smooth muscle cells in vitro. Moreover, using magnetic resonance imaging, MCG PAMs show enhanced targeting and successful detection of plaques in diseased mice in vivo and act as contrast agents for molecular imaging. Through the collagenase-cleaving peptide sequence of collagen [VPMS-MRGG], MCG PAMs can compete for collagenases that degrade the fibrous cap of plaques, providing therapy. MCG PAM-treated mice show increased fibrous cap thickness by 61% and 113% histologically compared to nontargeting micelle- or PBS-treated mice (p = 0.0075 and 0.001, respectively). Overall, this novel multimodal nanoparticle offers new theranostic opportunities for noninvasive diagnosis and treatment of atherosclerotic plaques. |
Databáze: | OpenAIRE |
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