Expression and function of recombinant S1179D endothelial NO synthase in human pial arteries

J Sorenson, AVR Santhanam, LA Smith, M Akiyama… - Stroke, 2005 - Am Heart Assoc
J Sorenson, AVR Santhanam, LA Smith, M Akiyama, WC Sessa, ZS Katusic
Stroke, 2005Am Heart Assoc
Background and Purpose—Mutation of serine 1179 to aspartate on the endothelial NO
synthase (eNOS) increases NO production in the absence of stimulation by agonists. The
present study was designed to determine the effect of recombinant S1179DeNOS gene
expression on the vasomotor function of human pial arteries. Methods—Pial arteries were
isolated from 28 patients undergoing temporal lobectomy for intractable seizures. Adenoviral
vectors (1010 pfu/mL) encoding β-galactosidase (AdCMVLacZ) or S1179DeNOS …
Background and Purpose— Mutation of serine 1179 to aspartate on the endothelial NO synthase (eNOS) increases NO production in the absence of stimulation by agonists. The present study was designed to determine the effect of recombinant S1179DeNOS gene expression on the vasomotor function of human pial arteries.
Methods— Pial arteries were isolated from 28 patients undergoing temporal lobectomy for intractable seizures. Adenoviral vectors (1010 pfu/mL) encoding β-galactosidase (AdCMVLacZ) or S1179DeNOS (AdCMVS1179DeNOS) were used for ex vivo gene transfer, and vasomotor function was evaluated in control and transduced arteries.
Results— Contractions to cumulative additions of U46619 were not affected by expression of LacZ or S1179DeNOS. Endothelium-dependent relaxations to bradykinin or endothelium-independent relaxations to Diethylaminodiazen-1-ium-1,2-dioate were significantly reduced in arteries expressing S1179DeNOS. A superoxide dismutase mimetic, manganese (III) tetrakis (4-benzoic acid) porphyrin chloride, failed to improve the reduced relaxations to bradykinin. The levels of cGMP were significantly elevated in arteries expressing S1179DeNOS.
Conclusions— Our results support the concept that high local production of NO in pial arterial wall causes adaptive reduction of vasodilator reactivity to NO.
Am Heart Assoc