Lilach Gavish1, Ronen Beeri2, Dan Gilon2, Chen Rubinstein3, Yacov Berlatzky3, Leah Y Gavish1, Atilla Bulut2, Mickey Harlev4, Petachia Reissman5, S David Gertz6. 1. Institute for Medical Research-IMRIC, The Hebrew University-Hadassah Medical School, Jerusalem, Israel. 2. Department of Cardiology, The Hebrew University-Hadassah Medical School and University Hospital, Jerusalem, Israel. 3. Department of Vascular Surgery, The Hebrew University-Hadassah Medical School and University Hospital, Jerusalem, Israel. 4. Division of Veterinary Surgery, The Hebrew University-Hadassah Medical School, Jerusalem, Israel. 5. Department of Surgery, Shaarei Zedek Hospital, Jerusalem, Israel. 6. Institute for Medical Research-IMRIC, The Hebrew University-Hadassah Medical School, Jerusalem, Israel. Electronic address: Gertz@cc.huji.ac.il.
Abstract
INTRODUCTION: Infusion of angiotensin-II (Ang-II) in apolipoprotein-E-deficient mice (Apo-E(-/-)) results in suprarenal abdominal aortic aneurysm (AAA) in 30-85% of cases. This study identifies the apparent mechanism by which some animals do, but others do not, develop AAA in this model. METHODS: Male Apo-E(-/-) mice were infused with Ang-II (n=21) or saline (n=6) and sacrificed at 4 weeks. Aortas were excised, embedded in paraffin, sectioned (250 μm intervals), and stained. Sites of transmedial disruption (TMD) were identified and characterized, and their relationship to the 4 major aortic side branches (celiac, superior mesenteric, and renals) were determined. RESULTS: The frequency of TMDs in Ang-II-infused mice that formed AAA (n=9) was similar to those that did not (n=12) (AAA vs. no-AAA: 25 of 36[69%] vs. 28 of 48[58%] branches, P=.3 by chi-square). All TMDs were at branch points. However, in animals with AAA, the mean maximum length of the TMDs was significantly larger (1.94±1.6 vs. 0.65±0.5mm, P=.007 by Mann Whitney U test), the #mac-2(+) macrophages per 0.01mm(2) of defect area was greater (32±10 vs. 19±11, P<.02 by Kruskal-Wallis with Conover-Inman post hoc), the % area of attempted repair occupied by collagen was less (17±13% vs. 44±15%, P=.0009 by Mann Whitney U test), and the density of collagen per unit length of media missing was also markedly less (0.13±0.2 vs. 1.14±1.0, P=.0001 by Mann Whitney U test). CONCLUSIONS: Reinforcement of transmedial defects at branch points by wall matrix is a key intrinsic player in limiting AAA formation in the Ang-II-infused, Apo E(-/-) mouse and a potentially important mechanism-based therapeutic target for management of small, slowly progressing aneurysms.
INTRODUCTION: Infusion of angiotensin-II (Ang-II) in apolipoprotein-E-deficient mice (Apo-E(-/-)) results in suprarenal abdominal aortic aneurysm (AAA) in 30-85% of cases. This study identifies the apparent mechanism by which some animals do, but others do not, develop AAA in this model. METHODS: Male Apo-E(-/-) mice were infused with Ang-II (n=21) or saline (n=6) and sacrificed at 4 weeks. Aortas were excised, embedded in paraffin, sectioned (250 μm intervals), and stained. Sites of transmedial disruption (TMD) were identified and characterized, and their relationship to the 4 major aortic side branches (celiac, superior mesenteric, and renals) were determined. RESULTS: The frequency of TMDs in Ang-II-infused mice that formed AAA (n=9) was similar to those that did not (n=12) (AAA vs. no-AAA: 25 of 36[69%] vs. 28 of 48[58%] branches, P=.3 by chi-square). All TMDs were at branch points. However, in animals with AAA, the mean maximum length of the TMDs was significantly larger (1.94±1.6 vs. 0.65±0.5mm, P=.007 by Mann Whitney U test), the #mac-2(+) macrophages per 0.01mm(2) of defect area was greater (32±10 vs. 19±11, P<.02 by Kruskal-Wallis with Conover-Inman post hoc), the % area of attempted repair occupied by collagen was less (17±13% vs. 44±15%, P=.0009 by Mann Whitney U test), and the density of collagen per unit length of media missing was also markedly less (0.13±0.2 vs. 1.14±1.0, P=.0001 by Mann Whitney U test). CONCLUSIONS: Reinforcement of transmedial defects at branch points by wall matrix is a key intrinsic player in limiting AAA formation in the Ang-II-infused, Apo E(-/-) mouse and a potentially important mechanism-based therapeutic target for management of small, slowly progressing aneurysms.
Authors: Changshun He; Bo Jiang; Mo Wang; Pengwei Ren; Sae-Il Murtada; Alexander W Caulk; Guangxin Li; Lingfeng Qin; Roland Assi; Constantinos J Lovoulos; Martin A Schwartz; Jay D Humphrey; George Tellides Journal: JCI Insight Date: 2022-02-08
Authors: Matthew R Bersi; Víctor A Acosta Santamaría; Karl Marback; Paolo Di Achille; Evan H Phillips; Craig J Goergen; Jay D Humphrey; Stéphane Avril Journal: Sci Rep Date: 2020-06-08 Impact factor: 4.379