Objective: During the advancement of atherosclerosis, plaque cellularity is governed by the influx of monocyte-derived macrophages and their turnover via apoptotic and nonapoptotic forms of cell death. Previous reports have demonstrated that programmed necrosis, or necroptosis, of plaque macrophages contribute to necrotic core formation. Knockdown or inhibition of the necrosome components RIPK1 (receptor-interacting protein kinase 1) and RIPK3 (receptor-interacting protein kinase 3) slow atherogenesis, and activation of the terminal step of necroptosis, MLKL (mixed lineage kinase domain-like protein), has been demonstrated in advanced human atherosclerotic plaques. However, whether MLKL directly contributes to lesion development and necrotic core formation has not been investigated. Approaches and Results: MLKL expression was knocked down in atherogenic Apoe-knockout mice via the administration of antisense oligonucleotides. During atherogenesis, Mlkl knockdown decreased both programmed cell death and the necrotic core in the plaque. However, total lesion area remained unchanged. Furthermore, treatment with the MLKL antisense oligonucleotide unexpectedly reduced circulating cholesterol levels compared with control antisense oligonucleotide but increased the accumulation of lipids within the plaque and in vitro in macrophage foam cells. MLKL colocalized with the late endosome and multivesicular bodies in peritoneal macrophages incubated with atherogenic lipoproteins. Transfection with MLKL antisense oligonucleotide increased lipid localization with the multivesicular bodies, suggesting that upon Mlkl knockdown, lipid trafficking becomes defective leading to enhanced lipid accumulation in macrophages. Conclusions: These studies confirm the requirement for MLKL as the executioner of necroptosis, and as such a significant contributor to the necrotic core during atherogenesis. We also identified a previously unknown role for MLKL in regulating endosomal trafficking to facilitate lipid handling in macrophages during atherogenesis. Keywords: atherosclerosis; cholesterol; foam cells; macrophages; necroptosis.

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乐备实（上海优宁维生物科技股份有限公司旗下全资子公司），是国内专注于提供高质量蛋白检测以及组学分析服务的实验服务专家，自2018年成立以来，乐备实不断寻求突破，公司的服务技术平台已扩展到单细胞测序、空间多组学、流式检测、超敏电化学发光、Luminex多因子检测、抗体芯片、PCR Array、ELISA、Elispot、PLA蛋白互作、多色免疫组化、DSP空间多组学等30多个，建立起了一套涵盖基因、蛋白、细胞以及组织水平实验的完整检测体系。

 
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