In Vivo Gene Transfer of Nitric Oxide Synthase Enhances Vasomotor Function in Carotid Arteries From Normal and Cholesterol-Fed Rabbits

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Circulation. 1998;98:1905-1911

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(Circulation. 1998;98:1905-1911.)
© 1998 American Heart Association, Inc.

Basic Science Reports

In Vivo Gene Transfer of Nitric Oxide Synthase Enhances Vasomotor Function in Carotid Arteries From Normal and Cholesterol-Fed Rabbits

Keith M. Channon, MD, MRCP; HuSheng Qian, MD, PhD; Valentina Neplioueva, PhD; Michael A. Blazing, MD; Ercument Olmez, PhD; Geetha A. Shetty, MA; Scot A. Youngblood, MD; John Pawloski, MD, PhD; Timothy McMahon, MD, PhD; Jonathan S. Stamler, MD; ; Samuel E. George, MD

From the Divisions of Cardiology (K.M.C., H.Q., V.N., M.A.B., E.O., G.A.S., S.A.Y., J.S.S., S.E.G.) and Pulmonology (J.P., T.M., J.S.S.), Departments of Medicine and Pharmacology (S.E.G.), Howard Hughes Medical Institute (J.S.S.), Duke University Medical Center, Durham, NC.

Correspondence to Samuel E. George, MD, Box 3060, Division of Cardiology, Duke University Medical Center, Durham, NC 27710. E-mail segeorge{at}duke.edu

Background—The vascular endothelium is anatomically intactbut functionally abnormal in preatherosclerotic states, andan early deficit in the bioavailability of nitric oxide (NO)or related molecules has been described in both humans and animalmodels. We hypothesized that the targeted gene transfer of NOsynthase (NOS) isoforms might ameliorate or reverse the deficit.

Methods and Results—We constructed a recombinant adenovirus, Ad.nNOS,that expresses the neuronal isoform of NOS (nNOS) and used it forin vivo endovascular gene transfer to carotid arteries (CA)from normal and cholesterol-fed rabbits. Vessels were harvested 3days after gene transfer. In CA from normal rabbits, Ad.nNOS generatedhigh levels of functional nNOS protein predominantly in endothelialcells and increased vascular NOS activity by 3.4-fold relativeto sham-infected control CA. Ad.nNOS gene transfer also significantlyenhanced endothelium-dependent vascular relaxation to acetylcholine;at 3 µmol/L acetylcholine, Ad.nNOS-treated arteries showedan 86±4% reduction in precontracted tension, whereascontrol CA showed a 47±6% reduction in tension. Contractionin response to phenylephrine and relaxation in response to nitroprussidewere unaffected in both control and Ad.nNOS-treated CA. To determinethe effect of Ad.nNOS in atherosclerotic arteries, 10 male NewZealand White rabbits maintained on a 1% cholesterol diet for10 to 12 weeks underwent gene transfer according to the sameprotocol used in normal rabbits. Ad.nNOS-treated arteries showeda 2-fold increase in NADPH-diaphorase staining intensity relativeto sham-infected and Ad.ßGal-treated arteries. The CAfrom cholesterol-fed rabbits showed impaired acetylcholine-inducedrelaxation, but this abnormality was almost entirely correctedby Ad.nNOS gene transfer.

Conclusions—In vivo adenovirus-mediated endovascular deliveryof nNOS markedly enhances vascular NOS activity and can favorablyinfluence endothelial physiology in the intact and atheroscleroticvessel wall.

Key Words: genes • adenovirus • endothelium • nitric oxide • atherosclerosis

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				N. E.J. West, H. Qian, T. J. Guzik, E. Black, S. Cai, S. E. George, and K. M. Channon Nitric Oxide Synthase (nNOS) Gene Transfer Modifies Venous Bypass Graft Remodeling: Effects on Vascular Smooth Muscle Cell Differentiation and Superoxide Production Circulation, September 25, 2001; 104(13): 1526 - 1532. [Abstract] [Full Text] [PDF]

				E. A. Black, T. J. Guzik, N. E.J. West, K. Campbell, R. Pillai, C. Ratnatunga, and K. M. Channon Minimally invasive saphenous vein harvesting: effects on endothelial and smooth muscle function Ann. Thorac. Surg., May 1, 2001; 71(5): 1503 - 1507. [Abstract] [Full Text] [PDF]

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				T. J. Guzik, N. E. J. West, E. Black, D. McDonald, C. Ratnatunga, R. Pillai, and K. M. Channon Vascular Superoxide Production by NAD(P)H Oxidase : Association With Endothelial Dysfunction and Clinical Risk Factors Circ. Res., May 12, 2000; 86 (9): e85 - e90. [Abstract] [Full Text] [PDF]

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				H. Qian, V. Neplioueva, G. A. Shetty, K. M. Channon, and S. E. George Nitric Oxide Synthase Gene Therapy Rapidly Reduces Adhesion Molecule Expression and Inflammatory Cell Infiltration in Carotid Arteries of Cholesterol-Fed Rabbits Circulation, June 15, 1999; 99(23): 2979 - 2982. [Abstract] [Full Text] [PDF]