Chronic alcohol exposure induces cerebral microbleeds by TGF-β1/Smad signaling pathway mediated remodeling of cerebral small vessels

Abstract

AbstractBackgroundLong-term heavy drinking is a major risk factor for cerebral microbleeds(CMBs), which are increasingly gaining attention as a pathological phenotype of cerebral small vessel diseases(CSVD). Under pathological conditions, remodeling of the extracellular matrix(ECM) on the walls of small vessels causes disarray in the structure and function of these vessels, leading to cerebral small vessel sclerosis and consequent rupture and bleeding. This can result in cognitive and emotional disorders, abnormal gait and increased risk of falling. However, the mechanisms underlying how long-term alcohol consumption leads to CMBs and decline in motor function remain unknown.MethodsWe constructed a chronic alcohol exposure mouse model and measured the deposition of ECMs on the small vessels in motor-related brain regions. The presence of microbleeds was confirmed through Prussian blue staining and Magnetic Resonance Imaging. We also extracted primary cerebral microvascular smooth muscle cells (CMVSMCs) from the newborn mice and explored the effects of alcohol on the phenotypic transformation and substance synthesis function. Additionally, we conducted interventional experiments on the cell and animal models with an anti-fibrotic drugs Pirfenidone(PFD).ResultsWe found that mice with long-term alcohol exposure showed decreased motor function. In their motor-related brain regions, such as the motor cortex(MC), thalamus/basal ganglia(Tha/BG), and cerebellum(CB), we observed microbleeds. On the small vessels in these areas, we detected excessive deposited ECM proteins. In vitro experiments with primary CMVSMCs revealed that after alcohol treatment, the cells underwent a transformation into fibroblast-like phenotypes, and excessive production of the aforementioned ECM proteins, which is regulated by upstream TGFβ1/Smad signaling pathway. Additionally, PFD applied on cell and animal models could reverse the above processes to some extent.ConclusionsOur study found that the remodeling of ECM accompanied by activation of TGF-β1/Smad signaling pathway may be involved in alcohol-induced CMBs. It could be a potential therapeutic target for CMBs or CSVD.