Project description:We pursued a chemogenetic approach to create an animal model of aortic aneurysm formation using a transgenic mouse line DAAO-TGTie2 that expresses yeast D-amino acid oxidase (DAAO) under control of the endothelial Tie2 promoter. In DAAO-TGTie2 mice, DAAO generates the reactive oxygen species hydrogen peroxide (H2O2) in endothelial cells only when provided with D-amino acids. When DAAO-TGTie2 mice are chronically fed D-alanine, the animals become hypertensive and develop abdominal but not thoracic aortic aneurysms. Generation of H2O2 in the endothelium leads to oxidative stress throughout the vascular wall.

Project description:Thoracic aortic aneurysms have a higher prevalence in male patients compared to female patients. Marfan syndrome causes a hereditary form of TAA with dilation of the aortic root. Male patients with Marfan syndrome are more likely than women to have aortic dilation and dissection and mouse models of Marfan syndrome demonstrate larger aortic roots in males compared to females even after adjustment for body size. Similar sex disparities are present in patients and models of abdominal aortic aneurysms where estrogen has been demonstrated to attenuate aneurysm formation perhaps through anti-inflammatory mechanisms. In this study we demonstrate the effects of estrogen on aortic dilation and rupture in a Marfan mouse model and we investigate if these effects operate through suppression of complement components of the immune system.

Project description:In this study we used microarrays to examine relative genes expression within the aorta of ApoE-/- infused with angiotensin II in relation to aneurysm formation. Infusion of angiotensin II induces aortic dilatation particularly of the suprarenal aorta in ApoE-/- mice. Based on studies carried out in our and other laboratories the response to angiotensin II is variable, with some mice developing large aneurysms but other animals appearing resistant to aneurysm formation with aortic diameters similar to that of saline controls. We compared RNA expression from whole aortas of 17 week old male ApoE-/- mice exposed to angiotensin II (1.44 µg/kg/min) for 4 weeks where there was clear evidence of aortic aneurysm formation (n=5) with that of mice failing to develop aneurysms (n=7) and those exposed to saline infusion (n=6). AAA was defined as diameter of suprarenal aorta greated than 1.5mm measured on photographs of aortas at necroscopy. Keywords: Disease state analysis 18 samples analysed, AAA (n=5), no AAA (n=7), saline (n=6). AAA - abdominal aortic aneurysm

Project description:To determine how gene expression is altered in aorta tissue in response to aortic aneurysm disease. Thoracic or abdominal aorta tissue was isolated from patients requiring surgery due to aortic aneurysm or other (control) reason.

Project description:Thoracic and abdominal aortic aneurysm poses a substantial mortality risk in adults, yet many of its underlying factors remain unidentified. Here, we identify mitochondrial nicotinamide adenine dinucleotide (NAD)⁺ deficiency as a causal factor for the development of aortic aneurysm. Multiomics analysis of 150 surgical aortic specimens indicated impaired NAD+ salvage and mitochondrial transport in human thoracic aortic aneurysm, with expression of the NAD+ transporter SLC25A51 inversely correlating with disease severity and postoperative progression. Genome-wide gene-based association analysis further linked low SLC25A51 expression to risk of aortic aneurysm and dissection. In mouse models, smooth muscle-specific knockout of Nampt, Nmnat1, Nmnat3, Slc25a51, Nadk2 and Aldh18a1, genes involved in NAD+ salvage and transport, induced aortic aneurysm, with Slc25a51 deletion producing the most severe effects. Using these models, we suggest a mechanism that may explain the disease pathogenesis: the production of type III procollagen during aortic medial matrix turnover imposes a high demand for proline, an essential amino acid component of collagen. Deficiency in the mitochondrial NAD⁺ pool, regulated by NAD⁺ salvage and transport, hinders proline biosynthesis in mitochondria, contributing to thoracic and abdominal aortic aneurysm.

Project description:Objective-Aortic pathologies exhibit sexual dimorphism, with aneurysms in the ascending, thoracic and abdominal aorta (AAA) exhibiting higher prevalence in males. Despite lower incidence of aortic vascular disease in women, aneurysms progress rapidly. Mechanisms for these sex differences are unclear. We defined the role of sex chromosome complement and testosterone in regional development and progression of angiotensin II (AngII)-induced vascular pathologies. Approach and Results-We used transgenic male mice expressing Sry on an autosome to create low density lipoprotein receptor (Ldlr) deficient male mice with an XY or XX sex chromosome complement. Subjects were then sham operated or orcheictomized. Transcriptional profiling on abdominal aortas from XY or XX males demonstrated1746 genes influenced by sex chromosomes, sex hormones, or an interaction. A second cohort of animals was then infused with AngII for 28 days. Diffuse aortic aneurysm pathology developed in XY AngII-infused males, while XX males developed discrete AAAs. Castration reduced all AngII-induced aortic pathologies in XY and XX males. Thoracic aortas from AngII-infused XY males, but not XX males exhibited adventitial thickening. We infused male XY and XX mice with saline or AngII and quantified mRNA abundance of key genes in thoracic versus abdominal aortas. Regional differences in mRNA abundance existed before AngII infusions, which were differentially influenced by AngII between genotypes. Prolonged AngII infusions resulted in AAA aortic wall thickening in XY males with diffuse aortic pathology, while XX males had dilated focal AAAs. Conclusions-An XY sex chromosome complement mediates diffuse aortic pathology, while an XX sex chromosome complement contributes to discrete AngII-induced AAAs.

Project description:Lysyl oxidase is an extracellular enzyme essential for crosslinking elastin and collagen. Mice that do not express Lox have 60% and 40% reductions in elastin-specific and collagen-specific crosslinks, respectively. Mutations in LOX are associated with thoracic aortic aneurysm and dissection (TAAD). Lysyl oxidase knockout mice dye perinatally with ruptured diaphragm, tortuous arteries, and TAAD This is the first study to analyze the mechanical and genetic changes induced by the absence of lysyl oxidase in the thoracic aorta, and may provide new therapeutic targets relevant for the pathogenesis of thoracic aortic aneurysms and dissections

Project description:Fibulin-4 plays an essential role in elastic fiber formation, though it's exact function is unclear. Mice lacking the fibulin-4 gene develop cutis laxa with thoracic aortic aneurysms and have narrowed descending aortic diamaters, dying shortly after birth. Another model that disrupt elastic fiber formation, elastin gene knockeds, are also perinatally lethal and have narrowed descending aortas but do not develop thoracic aneurysms. We hypothesized that there may be altered gene expression to explain the altered anatomy based on aortic tissue location we observed, which may provide therapeutic target(s)

Project description:Although abnormal TGFbeta signaling is observed in several heritable forms of thoracic aortic aneurysms and dissections including Marfan syndrome, the precise role of TGFbeta signaling in aortic disease progression is still disputed. Using a mouse genetic approach and quantitative isobaric labeling proteomics, we sought to investigate the role of TGFbeta signaling in molecular pathways of pathogenesis associated with development of aortic aneurysm and aortic rupture. This study reports an isoform-specific effect of TGFbeta in MFS aortic disease and the effects of deleting the first hybrid domain of fibrillin-1 on TGFbeta signaling. Distinct molecular differences in mouse models of aneurysm (Fbn_GT-8_plus), of aneurysm and rupture (Fbn1_GT-8_H1delta), and of microdissection (Fbn1_H1delta_plus) were identified, which associated with TGFbeta signaling and extracellular matrix composition, possibly contributing to the development of dissection and rupture. These findings offer new insights into the pathophysiological mechanisms that potentially drive initiation of aortic dissection and could pave the way for development of new treatment targets of aortic disease.

Project description:Fibulin-4 plays an essential role in elastic fiber formation, though it's exact function is unclear. Mice lacking the fibulin-4 gene develop cutis laxa with thoracic aortic aneurysms and have narrowed descending aortic diamaters, dying shortly after birth. Another model that disrupt elastic fiber formation, elastin gene knockeds, are also perinatally lethal and have narrowed descending aortas but do not develop thoracic aneurysms. We hypothesized that there may be altered gene expression to explain the altered anatomy based on aortic tissue location we observed, which may provide therapeutic target(s) Ascending and descending aortas of p0 mouse pups were dissected, pooled in groups of eight, and homogenized to isolate RNA and we used microarrays on the pooled samples to identify genes that had expression significantly changed.