Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway

Currently, no mouse models manifest calcification and thrombus formation, which is frequently associated with human atherosclerosis. We demonstrated that lack of Favine/CCDC3 in apoE knockout mice accelerated atherosclerosis accompanied by large cholesterol crystals and calcification, and also promo...

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Autores principales: Kobayashi, Sachiko, Kita, Shunbun, Okuzaki, Daisuke, Fujishima, Yuya, Otsuki, Michio, Kato, Hisashi, Nishizawa, Yasuko, Miyashita, Kazuya, Yokoyama, Chieko, Fukuhara, Atsunori, Morii, Eiichi, Shimomura, Iichiro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9587315/
https://www.ncbi.nlm.nih.gov/pubmed/36281455
http://dx.doi.org/10.1016/j.isci.2022.105252
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author Kobayashi, Sachiko
Kita, Shunbun
Okuzaki, Daisuke
Fujishima, Yuya
Otsuki, Michio
Kato, Hisashi
Nishizawa, Yasuko
Miyashita, Kazuya
Yokoyama, Chieko
Fukuhara, Atsunori
Morii, Eiichi
Shimomura, Iichiro
author_facet Kobayashi, Sachiko
Kita, Shunbun
Okuzaki, Daisuke
Fujishima, Yuya
Otsuki, Michio
Kato, Hisashi
Nishizawa, Yasuko
Miyashita, Kazuya
Yokoyama, Chieko
Fukuhara, Atsunori
Morii, Eiichi
Shimomura, Iichiro
author_sort Kobayashi, Sachiko
collection PubMed
description Currently, no mouse models manifest calcification and thrombus formation, which is frequently associated with human atherosclerosis. We demonstrated that lack of Favine/CCDC3 in apoE knockout mice accelerated atherosclerosis accompanied by large cholesterol crystals and calcification, and also promoted thrombus formation in the left ventricle and arteries. Circulating Favine was detectable in WT mouse plasma. RNA-sequencing analysis of aortae in DKO mice showed similar gene expression patterns of human atherosclerosis with unstable and vulnerable plaques. Importantly, human FAVINE mRNA expressions were lower in atheroma plaque than in adjacent intact aortic tissue and decreased with the progression of atherosclerosis. Pathway analysis of aortae in DKO mice suggested the decrease of the MEF2C-KLF2-mediated transcriptional pathway. Favine insufficiency and its attenuated downstream pathways may increase atherosclerosis progression with calcification and thrombus, which have not previously been fully modeled in experimental animals. Favine and its downstream pathways may have therapeutic potential for atherosclerosis.
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spelling pubmed-95873152022-10-23 Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway Kobayashi, Sachiko Kita, Shunbun Okuzaki, Daisuke Fujishima, Yuya Otsuki, Michio Kato, Hisashi Nishizawa, Yasuko Miyashita, Kazuya Yokoyama, Chieko Fukuhara, Atsunori Morii, Eiichi Shimomura, Iichiro iScience Article Currently, no mouse models manifest calcification and thrombus formation, which is frequently associated with human atherosclerosis. We demonstrated that lack of Favine/CCDC3 in apoE knockout mice accelerated atherosclerosis accompanied by large cholesterol crystals and calcification, and also promoted thrombus formation in the left ventricle and arteries. Circulating Favine was detectable in WT mouse plasma. RNA-sequencing analysis of aortae in DKO mice showed similar gene expression patterns of human atherosclerosis with unstable and vulnerable plaques. Importantly, human FAVINE mRNA expressions were lower in atheroma plaque than in adjacent intact aortic tissue and decreased with the progression of atherosclerosis. Pathway analysis of aortae in DKO mice suggested the decrease of the MEF2C-KLF2-mediated transcriptional pathway. Favine insufficiency and its attenuated downstream pathways may increase atherosclerosis progression with calcification and thrombus, which have not previously been fully modeled in experimental animals. Favine and its downstream pathways may have therapeutic potential for atherosclerosis. Elsevier 2022-10-02 /pmc/articles/PMC9587315/ /pubmed/36281455 http://dx.doi.org/10.1016/j.isci.2022.105252 Text en © 2022 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Kobayashi, Sachiko
Kita, Shunbun
Okuzaki, Daisuke
Fujishima, Yuya
Otsuki, Michio
Kato, Hisashi
Nishizawa, Yasuko
Miyashita, Kazuya
Yokoyama, Chieko
Fukuhara, Atsunori
Morii, Eiichi
Shimomura, Iichiro
Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title_full Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title_fullStr Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title_full_unstemmed Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title_short Favine/CCDC3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased MEF2C-KLF2 pathway
title_sort favine/ccdc3 deficiency accelerated atherosclerosis and thrombus formation is associated with decreased mef2c-klf2 pathway
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9587315/
https://www.ncbi.nlm.nih.gov/pubmed/36281455
http://dx.doi.org/10.1016/j.isci.2022.105252
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