Dedifferentiation of smooth muscle cells in intracranial aneurysms and its potential contribution to the pathogenesis

Autor:	Kampei Shimizu, Satoshi Shimo, Mieko Oka, Tomohiro Aoki, Kazuhiko Nozaki, Isao Ono, Nobuhiko Ohno, Hirokazu Koseki, Hirohiko Imai, Mika Kushamae, Haruka Miyata, Takakazu Kawamata, Yu Abekura, Akitsugu Kawashima
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	0301 basic medicine Male Platelet-derived growth factor Intimal hyperplasia Becaplermin lcsh:Medicine Article Extracellular matrix Rats Sprague-Dawley 03 medical and health sciences chemistry.chemical_compound 0302 clinical medicine Cell Movement Myosin medicine Animals Humans lcsh:Science Cells Cultured Inflammation Multidisciplinary PDGFB Hyperplasia biology Chemistry CD68 lcsh:R Intracranial Aneurysm Muscle Smooth Cell Dedifferentiation Internal elastic lamina medicine.disease musculoskeletal system Aneurysm Cardiovascular biology Cell biology Rats Disease Models Animal 030104 developmental biology Chronic Disease biology.protein Disease Progression cardiovascular system Female lcsh:Q Tunica Intima 030217 neurology & neurosurgery Platelet-derived growth factor receptor
Zdroj:	Scientific Reports, Vol 10, Iss 1, Pp 1-13 (2020) Scientific Reports
ISSN:	2045-2322
Popis:	Smooth muscle cells (SMCs) are the major type of cells constituting arterial walls and play a role to maintain stiffness via producing extracellular matrix. Here, the loss and degenerative changes of SMCs become the major histopathological features of an intracranial aneurysm (IA), a major cause of subarachnoid hemorrhage. Considering the important role of SMCs and the loss of this type of cells in IA lesions, we in the present study subjected rats to IA models and examined how SMCs behave during disease progression. We found that, at the neck portion of IAs, SMCs accumulated underneath the internal elastic lamina according to disease progression and formed the intimal hyperplasia. As these SMCs were positive for a dedifferentiation marker, myosin heavy chain 10, and contained abundant mitochondria and rough endoplasmic reticulum, SMCs at the intimal hyperplasia were dedifferentiated and activated. Furthermore, dedifferentiated SMCs expressed some pro-inflammatory factors, suggesting the role in the formation of inflammatory microenvironment to promote the disease. Intriguingly, some SMCs at the intimal hyperplasia were positive for CD68 and contained lipid depositions, indicating similarity with atherosclerosis. We next examined a potential factor mediating dedifferentiation and recruitment of SMCs. Platelet derived growth factor (PDGF)-BB was expressed in endothelial cells at the neck portion of lesions where high wall shear stress (WSS) was loaded. PDGF-BB facilitated migration of SMCs across matrigel-coated pores in a transwell system, promoted dedifferentiation of SMCs and induced expression of pro-inflammatory genes in these cells in vitro. Because, in a stenosis model of rats, PDGF-BB expression was expressed in endothelial cells loaded in high WSS regions, and SMCs present nearby were dedifferentiated, hence a correlation existed between high WSS, PDGFB and dedifferentiation in vivo. In conclusion, dedifferentiated SMCs presumably by PDGF-BB produced from high WSS-loaded endothelial cells accumulate in the intimal hyperplasia to form inflammatory microenvironment leading to the progression of the disease.
Databáze:	OpenAIRE
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