Abstract 525: Angiotensin Ii Type 1a Receptor Deletion In Vascular Smooth Muscle Cells Prevent Abdominal Aortic Aneurysm Formation Induced By Angiotensin Ii Plus β-aminopropionitrile

Abstract only Abdominal aortic aneurysm (AAA) is multifactorial disease resulting from changes in the aortic wall structure, such as medial degradation and inflammation, causing life-threatening AAA rupture. Angiotensin II (AngII) type 1A receptor (AT 1A R) upon AngII binding mediates blood pressure...

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Published inArteriosclerosis, thrombosis, and vascular biology Vol. 43; no. Suppl_1
Main Authors Okuno, Keisuke, Torimoto, Keiichi, Cicalese, Stephanie, Hashimoto, Tomoki N, Sparks, Matthew A, Rizzo, Victor J, Eguchi, Satoru
Format Journal Article
LanguageEnglish
Published 01.05.2023
Online AccessGet full text
ISSN1079-5642
1524-4636
DOI10.1161/atvb.43.suppl_1.525

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Abstract Abstract only Abdominal aortic aneurysm (AAA) is multifactorial disease resulting from changes in the aortic wall structure, such as medial degradation and inflammation, causing life-threatening AAA rupture. Angiotensin II (AngII) type 1A receptor (AT 1A R) upon AngII binding mediates blood pressure elevation and several chronic cardiovascular diseases including AAA. Treatment with AngII plus β-aminopropionitrile (BAPN), a lysyl oxidase inhibitor, in normolipidemic C57BL6 mice similarly induces AAA. However, we have limited understanding whether smooth muscle AT 1A R affects AAA formation induced by AngII plus BAPN. Thus, the subject of this study is to test the contribution of smooth muscle AT 1A R to AngII-dependent AAA development in normocholesterolemic mice. At 8 to 12 week of age, smooth muscle AT 1A R silenced mice (knock-in Tagln-Cre +/- crossed with AT 1A R flox/flox mice) and control mice were infused with AngII (1 μg/kg/min) via osmotic mini-pump for 4 weeks and treated with 1 g/L BAPN containing water for the first 2 weeks or sham-operated for mini-pump implantation. After 4 weeks, significant increases in maximum external aortic diameter and structural alterations were observed in the control mice, which was attenuated in smooth muscle AT 1A R silenced mice (1.67 mm vs. 1.22 mm, p<0.05). AngII plus BAPN treatment increased perivascular collagen III positive cell ratio, which was normalized in smooth muscle AT 1A R silenced mice (p<0.01). Evaluation of blood pressure at week 4 in conscious mice showed significant reduction in AngII-induced hypertension in smooth muscle AT 1A R silenced mice (p<0.01). Furthermore, in contrast to control mice, no death duet to aortic rupture was observed in smooth muscle AT 1A R silenced mice. In conclusion, our study has demonstrated the significant contribution of smooth muscle expressing AT 1A R in mediating AAA development and rupture in response to AngII plus BAPN treatment. It is possible that attenuation of hypertension in the AT 1A R silenced mice may provide additional protection against AAA rupture.
AbstractList Abstract only Abdominal aortic aneurysm (AAA) is multifactorial disease resulting from changes in the aortic wall structure, such as medial degradation and inflammation, causing life-threatening AAA rupture. Angiotensin II (AngII) type 1A receptor (AT 1A R) upon AngII binding mediates blood pressure elevation and several chronic cardiovascular diseases including AAA. Treatment with AngII plus β-aminopropionitrile (BAPN), a lysyl oxidase inhibitor, in normolipidemic C57BL6 mice similarly induces AAA. However, we have limited understanding whether smooth muscle AT 1A R affects AAA formation induced by AngII plus BAPN. Thus, the subject of this study is to test the contribution of smooth muscle AT 1A R to AngII-dependent AAA development in normocholesterolemic mice. At 8 to 12 week of age, smooth muscle AT 1A R silenced mice (knock-in Tagln-Cre +/- crossed with AT 1A R flox/flox mice) and control mice were infused with AngII (1 μg/kg/min) via osmotic mini-pump for 4 weeks and treated with 1 g/L BAPN containing water for the first 2 weeks or sham-operated for mini-pump implantation. After 4 weeks, significant increases in maximum external aortic diameter and structural alterations were observed in the control mice, which was attenuated in smooth muscle AT 1A R silenced mice (1.67 mm vs. 1.22 mm, p<0.05). AngII plus BAPN treatment increased perivascular collagen III positive cell ratio, which was normalized in smooth muscle AT 1A R silenced mice (p<0.01). Evaluation of blood pressure at week 4 in conscious mice showed significant reduction in AngII-induced hypertension in smooth muscle AT 1A R silenced mice (p<0.01). Furthermore, in contrast to control mice, no death duet to aortic rupture was observed in smooth muscle AT 1A R silenced mice. In conclusion, our study has demonstrated the significant contribution of smooth muscle expressing AT 1A R in mediating AAA development and rupture in response to AngII plus BAPN treatment. It is possible that attenuation of hypertension in the AT 1A R silenced mice may provide additional protection against AAA rupture.
Author Sparks, Matthew A
Eguchi, Satoru
Cicalese, Stephanie
Torimoto, Keiichi
Rizzo, Victor J
Okuno, Keisuke
Hashimoto, Tomoki N
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Title Abstract 525: Angiotensin Ii Type 1a Receptor Deletion In Vascular Smooth Muscle Cells Prevent Abdominal Aortic Aneurysm Formation Induced By Angiotensin Ii Plus β-aminopropionitrile
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