Abstract P213: Vascular Dysfunction and Aberrant Vascular NOTCH3 Signalling in Hypertension and Cerebral Autosomal Dominant Subcortical Infarcts and Leukoencephalopathy (CADASIL)

Abstract

Hypertension (HT) and CADASIL are clinical conditions of small vessel disease. Vascular dementia is a major feature in CADASIL, and a serious consequence of HT. CADASIL is a monogenic condition due to mutations in NOTCH3 , which is expressed almost exclusively in VSMCs. We hypothesised that altered NOTCH3 signalling in CADASIL and HT are associated with small vessel disease. Small arteries from gluteal biopsies from CADASIL patients (n=14), HT patients (n=3) and healthy controls (n=10) were investigated. Vascular function was assessed by myography. Cultured VSMCs were used to assess signaling through NOTCH3, NO, ER stress (gene array) and Rho kinase (ELISA). CADASIL and HT patients exhibited endothelial dysfunction (Max response: CADASIL 41.7±3%, HT 54.1±2% vs Control 98.2±4%). Pre-incubation with N-acetyl-cysteine ameliorated vasorelaxation. Only CADASIL displayed impaired endothelium-independent relaxation (Max response: CADASIL 53±1.9% vs Control 93±8.9%) and contraction (Max response: CADASIL 78±1.3% vs control 102±5%) (p<0.05). AngII-induced contraction was elevated in HT (98%), yet reduced in CADASIL (28%) (vs control 64% max contraction: p<0.05), despite VSMCs from both conditions displaying increased AT 1 R mRNA expression (HT: 5.1; CADASIL: 3.8; fold vs control; p<0.05). VSMCs from CADASIL and HT have decreased expression of CAMK1, SIRT2 and VEGFA; important in NO signalling (0.5 fold; p<0.05 vs control). VSMC levels of NOTCH3 and NOTCH ligand, JAG1, were increased in CADASIL (3.5, 2.5 fold) and HT (3.0, 2.6 fold, p<0.05). Downstream targets, HEY1 and HEYL, were elevated in CADASIL (3.8, 4.2 fold) and HT (1.9, 2.6 fold) (p<0.05). CADASIL but not HT VSMCs exhibited increased expression of ER stress markers. Rho kinase activity was increased in VSMCs from CADASIL (2.5 fold) and HT (2 fold) vs control (p<0.05). These data demonstrate that in CADASIL and HT, vascular dysfunction, is associated with aberrant NOTCH3 and Rho kinase signalling. In CADASIL, but not HT, endothelium-independent relaxation and ER stress were increased. Our results demonstrate a putative role for NOTCH3 -Rho kinase in vascular dysfunction in conditions of small vessel disease and suggest that ER stress and oxidative stress may be important in vascular injury in CADASIL.