Cholesteryl hemiazelate identified in CVD patients causes in vitro and in vivo inflammation

Domingues, Neuza; Gaifem, Joana; Matthiesen, Rune; Saraiva, Diana P.; Bento, Luís; Marques, André R.A.; Soares, Maria I.L.; Sampaio, Julio; Klose, Christian; Surma, Michal A.; Almeida, Manuel S.; Rodrigues, Gustavo; Gonçalves, Pedro Araújo; Ferreira, Jorge; Melo, Ryan Gouveiae; Pedro, Luís Mendes; Simons, Kai; Pinho e Melo, Teresa M.V.D.; Guadalupe Cabral, M.; Jacinto, Antonio; Silvestre, Ricardo; Vaz, Winchil; Vieira, Otília V.

doi:https://doi.org/10.1016/j.jlr.2023.100419

Utilize este identificador para referenciar este registo: http://hdl.handle.net/10362/158604

Título:	Cholesteryl hemiazelate identified in CVD patients causes in vitro and in vivo inflammation
Autor:	Domingues, Neuza Gaifem, Joana Matthiesen, Rune Saraiva, Diana P. Bento, Luís Marques, André R.A. Soares, Maria I.L. Sampaio, Julio Klose, Christian Surma, Michal A. Almeida, Manuel S. Rodrigues, Gustavo Gonçalves, Pedro Araújo Ferreira, Jorge Melo, Ryan Gouveiae Pedro, Luís Mendes Simons, Kai Pinho e Melo, Teresa M.V.D. Guadalupe Cabral, M. Jacinto, Antonio Silvestre, Ricardo Vaz, Winchil Vieira, Otília V.
Palavras-chave:	atherosclerosis cholesteryl hemiazelates cholesteryl hemiesters innate inflammatory responses lipidomics Biochemistry Endocrinology Cell Biology SDG 3 - Good Health and Well-being
Data:	Set-2023
Resumo:	Oxidation of PUFAs in LDLs trapped in the arterial intima plays a critical role in atherosclerosis. Though there have been many studies on the atherogenicity of oxidized derivatives of PUFA-esters of cholesterol, the effects of cholesteryl hemiesters (ChEs), the oxidation end products of these esters, have not been studied. Through lipidomics analyses, we identified and quantified two ChE types in the plasma of CVD patients and identified four ChE types in human endarterectomy specimens. Cholesteryl hemiazelate (ChA), the ChE of azelaic acid (n-nonane-1,9-dioic acid), was the most prevalent ChE identified in both cases. Importantly, human monocytes, monocyte-derived macrophages, and neutrophils exhibit inflammatory features when exposed to subtoxic concentrations of ChA in vitro. ChA increases the secretion of proinflammatory cytokines such as interleukin-1β and interleukin-6 and modulates the surface-marker profile of monocytes and monocyte-derived macrophage. In vivo, when zebrafish larvae were fed with a ChA-enriched diet, they exhibited neutrophil and macrophage accumulation in the vasculature in a caspase 1- and cathepsin B-dependent manner. ChA also triggered lipid accumulation at the bifurcation sites of the vasculature of the zebrafish larvae and negatively impacted their life expectancy. We conclude that ChA behaves as an endogenous damage-associated molecular pattern with inflammatory and proatherogenic properties.
Descrição:	Funding Information: supported by FCT through projects UIDB/00313/2020 and UIDP/00313/2020. Funding Information: R. S. group has been funded by national funds, through the FCT—project numbers UIDB/50026/2020 and UIDP/ 50026/2020 and 2020.00185. CEECIND to the FCT. Funding Information: N. D. was a holder of a PhD fellowship from the FCT (Ref. N◦: SFRH/BD/51877/2012). Funding Information: The authors acknowledge the technical support of the Microscopy and Fish Facilities NOVA Medical School. They also acknowledge the UC-NMR facility for obtaining the NMR data (http://www.nmrccc.uc.pt). This work was also supported by the Biobanco-iMM, Lisbon Academic Medical Center, Lisbon, Portugal. This work was financially supported by the Foundation for Science and Technology (FCT) of the Portuguese Ministry of Science and Higher Education through national funds, project reference: 2022.01305.PTDC. The Coimbra Chemistry Centre is Fig. 7. Working model of the proatherogenic properties of ChA. ChA is an end product of cholesteryl linoleate oxidation, generated in the arterial intima. Because of its amphiphilic properties, ChA can be detected in the plasma of CVD patients. The presence of ChA in circulation can imprint an inflammatory phenotype in the circulating monocytes and neutrophils (1), conditioning the immunological response in the arterial intima. ChA promotes the recruitment of innate immune cells, neutrophils, and monocytes into the vasculature (2). Here, neutrophils in the presence of ChA secret IL-1β, which can interfere with monocyte/ macrophage priming. Monocytes differentiated in the presence of ChA are activated, increasing the secretion of inflammatory cytokines: IL-1β, IL-6, and IL-10 (3). In activated macrophages, ChA induces lipid accumulation (foam cells) and lysosomal dysfunction, conferring then the second signal necessary for IL-1β secretion mediated by inflammasome activation (4). IL-1β can initiate a propagation loop of the inflammation, increasing the macrophage secretion of IL-6 and TNF-α. On the other hand, dysfunctional lysosomes will decrease the clearance capacity of macrophages, leading to lipid accumulation in the arterial intima. Publisher Copyright: © 2023 THE AUTHORS.
Peer review:	yes
URI:	http://hdl.handle.net/10362/158604
DOI:	https://doi.org/10.1016/j.jlr.2023.100419
ISSN:	0022-2275
Aparece nas colecções:	NMS: iNOVA4Health - Artigos em revista internacional com arbitragem científica

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