Inward remodeling of resistance arteries requires reactive oxygen species-dependent activation of matrix metalloproteinases

Inward eutrophic remodeling is the most prevalent structural change of resistance arteries in hypertension. Sympathetic and angiotensin (ANG)-induced vasoconstriction has been associated with hypertension and with the production of matrix metalloproteinases (MMPs) and ROS. Therefore, we hypothesize that prolonged exposure to norepinephrine (NE) and ANG II induces arteriolar inward remodeling dependent on the activation of MMPs and the production of ROS. This hypothesis was tested on rat cremaster arterioles that were isolated, cannulated, pressurized, and exposed to either NE (10−5.5 mol/l) + ANG II (10−7 mol/l) or vehicle (control) for 4 h. The prolonged exposure to NE + ANG II induced inward remodeling, as evidenced by the reduced maximal arteriolar passive diameter observed after versus before exposure to the vasoconstrictor agonists. NE + ANG II also increased the arteriolar expression and activity of MMP-2 and the production of ROS as determined, respectively, by real-time RT-PCR, gel and in situ zymography, and the use of ROS-sensitive dyes with multiphoton microscopy. Inhibition of MMP activation (with GM-6001) or ROS production (with apocynin or tempol) prevented the NE + ANG II-induced inward remodeling. Inhibition of ROS production prevented the activation of MMPs and the remodeling process, whereas inhibition of MMP activation did not affect ROS production. These results indicate that prolonged stimulation of resistance arterioles with NE + ANG II induces a ROS-dependent activation of MMPs necessary for the development of arteriolar inward remodeling. These mechanisms may contribute to the structural narrowing of resistance vessels in hypertension.

Organoid culture of cannulated rat resistance arteries: effect of serum factors on vasoactivity and remodeling

We developed an organoid culture technique to study the mechanisms involved in arterial remodeling. Resistance arteries were isolated from rat cremaster muscle and mounted in a pressure myograph at 75 mmHg. Vessels were studied during a 4-day culture period in DMEM with either 2% albumin, 10% heat-inactivated FCS (HI-FCS) or 10% dialyzed HI-FCS (12 kDa cut off) added to the perfusate. The albumin group showed a gradual loss of endothelial function and integrity, whereas smooth muscle agonist and myogenic responses were retained. No remodeling was observed. Vessels cultured in the presence of serum showed a progressive constriction. Smooth muscle responses and substance P-induced endothelium-dependent dilation were maintained. An inward remodeling of 17 ± 4% in the HI-FCS group and 26 ± 3% in the dialyzed HI-FCS group was found, while media cross-sectional areas were unchanged. These data show that pressurized resistance arteries can be maintained in culture for several days and undergo eutrophic remodeling in vitro in the presence of high molecular weight serum factors.