Journal of the American Heart Association: Cardiovascular and Cerebrovascular Disease (Jul 2024)
Monoclonal Antibody chP3R99 Reduces Subendothelial Retention of Atherogenic Lipoproteins in Insulin‐Resistant Rats: Acute Treatment Versus Long‐Term Protection as an Idiotypic Vaccine for Atherosclerosis
Abstract
BACKGROUND Atherosclerosis is triggered by the retention of apolipoprotein B‐containing lipoproteins by proteoglycans. In addition to low‐density lipoprotein, remnant lipoproteins have emerged as pivotal contributors to this pathology, particularly in the context of insulin resistance and diabetes. We have previously reported antiatherogenic properties of a monoclonal antibody (chP3R99) that recognizes sulfated glycosaminoglycans on arterial proteoglycans. METHODS AND RESULTS Solid‐phase assays demonstrated that chP3R99 effectively blocked >50% lipoprotein binding to chondroitin sulfate and vascular extracellular matrix in vitro. The preperfusion of chP3R99 (competitive effect) resulted in specific antibody‐arterial accumulation and reduced fluorescent lipoprotein retention by ~60% in insulin resistant JCR:LA‐cp rats. This competitive reduction was dose dependent (25–250 μg/mL), effectively decreasing deposition of cholesterol associated with lipoproteins. In a 5‐week vaccination study in insulin resistant rats with (200 μg subcutaneously, once a week), chP3R99 reduced arterial lipoprotein retention, and was associated with the production of antichondroitin sulfate antibodies (Ab3) able to accumulate in the arteries (dot‐blot). Neither the intravenous inoculation of chP3R99 (4.5 mg/kg), nor the immunization with this antibody displayed adverse effects on lipid or glucose metabolism, insulin resistance, liver function, blood cell indices, or inflammation pathways in JCR:LA‐cp rats. CONCLUSIONS Both acute (passive) and long‐term administration (idiotypic cascade) of chP3R99 antibody reduced low‐density lipoprotein and remnant lipoprotein interaction with proteoglycans in an insulin‐resistant setting. These findings support the innovative approach of targeting proatherogenic lipoprotein retention by chP3R99 as a passive therapy or as an idiotypic vaccine for atherosclerosis.
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