Abstract
Renovascular hypertension is characterised by stenosis of the renal artery and high plasma renin levels due to the recruitment of renin-producing cells along the afferent arterioles. This increase in myoepithelioid cells is mainly a result of the differentiation of existing smooth muscle cells with acquisition of a secretory phenotype. To understand the molecular mechanisms involved in this recruitment, we used the model of renovascular hypertension known as the two-kidney, one-clip model in the Lewis rat. Renal arterioles were isolated using magnetised iron suspension. Differential proteomic analysis was performed using two-dimensional electrophoresis gel followed by mass spectrometry for identification. The most striking protein revealed by proteomics is troponin T, which is down-regulated in the afferent arterioles of the clipped kidney. Confocal microscopy showed that troponin T is specific to the smooth muscle phenotype and absent in the myoepithelioid phenotype.
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