RESUMO
BACKGROUND: Ischemic stroke patients are more prone to developing another cardiovascular event. AIM: This study aims to examine potential biological predispositions to cardiovascular recurrence in patients with ischemic stroke. DESIGN: Human and preclinical studies. METHODS: Quantitative proteomic analysis, animal stroke, atherosclerosis models and circulating endothelial cells (CECs) were employed to examine candidate biomarkers derived from an ischemic stroke cohort in Singapore. RESULTS: Proteomic analysis of pooled microvesicles of "Event" (n = 24) and without "Event" (n = 24) samples identified NOTCH3 as a candidate marker; plasma NOTCH3 were shown to be elevated in "Event" patients compared to those without "Events" and age-matched controls. In a validation cohort comprising 431 prospectively recruited ischemic stroke patients (mean age 59.1 years; median follow-up 3.5 years), men with plasma NOTCH3 (>1600pg/ml) harbored increased risk of cardiovascular recurrence (adjusted hazards ratio 2.29, 95% CI 1.10-4.77); no significant association was observed in women. Chronic renal failure, peripheral artery disease and NT-pro-brain natriuretic peptide were significant predictors of plasma NOTCH3 in men without ischemic stroke (adjusted r2=0.43). Following middle cerebral artery occlusion, NOTCH3 expression in mouse sera increased and peaked at 24 hrs, persisting thereafter for at least 72 hours. In Apoe-/- atherosclerotic mice, NOTCH3 stained the endothelium of defective arterial lining and atherosclerotic plaques. Analysis of CECs isolated from stroke patients revealed increased gene expression of NOTCH3, further supporting endothelial damage underpinning NOTCH3-mediated atherosclerosis. CONCLUSION: Findings from this study suggests that NOTCH3 could be important in cardiovascular recurrence following an ischemic stroke.
RESUMO
Introduction: Rodent models of cardiovascular disease have uncovered various types of lymphatic vessel dysfunction that occur in association with atherosclerosis, type II diabetes and obesity. Previously, we presented in vivo evidence for impaired lymphatic drainage in apolipoprotein E null (ApoE -/- ) mice fed a high fat diet (HFD). Whether this impairment relates to the dysfunction of collecting lymphatics remains an open question. The ApoE -/- mouse is a well-established model of cardiovascular disease, in which a diet rich in fat and cholesterol on an ApoE deficient background accelerates the development of hypercholesteremia, atherosclerotic plaques and inflammation of the skin and other tissues. Here, we investigated various aspects of lymphatic function using ex vivo tests of collecting lymphatic vessels from ApoE +/+ or ApoE -/- mice fed a HFD. Methods: Popliteal collectors were excised from either strain and studied under defined conditions in which we could quantify changes in lymphatic contractile strength, lymph pump output, secondary valve function, and collecting vessel permeability. Results: Our results show that all these aspects of lymphatic vessel function are altered in deleterious ways in this model of hypercholesterolemia. Discussion: These findings extend previous in vivo observations suggesting significant dysfunction of lymphatic endothelial cells and smooth muscle cells from collecting vessels in association with a HFD on an ApoE-deficient background. An implication of our study is that collecting vessel dysfunction in this context may negatively impact the removal of cholesterol by the lymphatic system from the skin and the arterial wall and thereby exacerbate the progression and/or severity of atherosclerosis and associated inflammation.
