Ultrastructure study of the transgenic REN2 rat aorta – part 2: media, external elastic lamina, and adventitia

Background The renin-angiotensin-aldosterone system (RAAS) plays an important role in the development and progression of vascular stiffness, hypertension and accelerated atherosclerosis, which are associated with the metabolic syndrome (MetS) and type 2 diabetes mellitus. In addition to the intima, RAAS plays an important role in vascular media and adventitial remodeling. Methods Descending thoracic aortas of young male transgenic heterozygous (mRen2) 27 (Ren2) rats were utilized for ultrastructural study. This lean model of hypertension, insulin resistance, and oxidative stress harbors the mouse renin gene and is known to have increased aortic tissue levels of angiotensin II, angiotensin type 1 receptors, and elevated plasma aldosterone levels. Results Ultrastructural observations substantiate known and novel findings in the tunica media, internal and external elastic lamina, and tunica adventitia, which includes: increased media collagen - proteoglycan matrix expansion, increased secretory and proliferative activity and migration of vascular smooth muscle cells (VSMCs) into a newly developing subendothelial neointima, increased VSMC caveolae, mitochondria degeneration, apoptosis; and lipid retention at the elastin lamellar interface. Openings in the external elastic lamina allow pericyte-to-VSMC contacts. The tunica adventitia exhibits stromal pericyte hyperplasia with actively synthetic phenotype and pericyte-pericyte connections. Conclusion While these studies only represent a single snapshot in time, they provide an evaluation of early abnormal ultrastructural vascular remodeling in Ren-2 models of the conduit-elastic thoracic aorta.