Background And Aims: Lysyl oxidase (LOX) catalyzes the crosslinking of collagen and elastin to maintain tensile strength and structural integrity of the vasculature. Excessive LOX activity increases vascular stiffness and the severity of occlusive diseases. Herein, we investigated the mechanisms by which LOX controls atherogenesis and osteogenic differentiation of vascular smooth muscle cells (SMC) in hyperlipidemic mice.
Methods: Gene inactivation of Lox in SMC was achieved in conditional knockout mice after tamoxifen injections. Atherosclerosis burden and vascular calcification were assessed in hyperlipidemic conditional [LoxMyh11-CreERApoE] and sibling control mice [LoxMyh11-CreERApoE]. Mechanistic studies were performed with primary aortic SMC from Lox mutant and wild type mice.
Results: Inactivation of Lox in SMCs decreased > 70 % its RNA expression and protein level in the aortic wall and significantly reduced LOX activity without compromising vascular structure and function. Moreover, LOX deficiency protected mice against atherosclerotic burden (13 ± 2 versus 23 ± 1 %, p < 0.01) and plaque calcification (5 ± 0.4 versus 11.8 ± 3 %, p < 0.05) compared to sibling controls. Interestingly, gene inactivation of Lox in SMCs preserved the contractile phenotype of vascular SMC under hyperlipidemic conditions as demonstrated by single-cell RNA sequencing and immunofluorescence. Mechanistically, the absence of LOX in SMC prevented excessive collagen crosslinking and the subsequent activation of the pro-osteogenic FAK/β-catenin signaling axis.
Conclusions: Lox inactivation in SMC protects mice against atherosclerosis and plaque calcification by reducing SMC modulation and FAK/β-catenin signaling.
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http://dx.doi.org/10.1016/j.atherosclerosis.2024.118582 | DOI Listing |
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Department of Biochemistry, Memorial University of Newfoundland, St. John's, NL, Canada.
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Department of Neurology, Nanfang Hospital, Southern Medical University, Guangzhou, China.
Brain injury represents the leading cause of mortality and disability after cardiopulmonary resuscitation (CPR) from cardiac arrest (CA), in which the accumulation of dying cells aggravate tissue injury by releasing proinflammatory intracellular components. Microglia play an essential role in maintaining brain homeostasis via milk fat globule epidermal growth factor 8 (MFG-E8)-opsonized efferocytosis, the engulfment of dying cells and debris. This study investigates whether potentiating microglia efferocytosis by MFG-E8 provides neuroprotection after CA/CPR.
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