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1 University Laboratory of Physiology, Parks Road, Oxford OX1 3PT, UK
2 Department of Cardiovascular Medicine, John Radcliffe Hospital, Oxford OX3 9DU, UK
We tested the hypothesis that a single allele deletion of neuronal nitric oxide synthase (nNOS) would impair the neural control of heart rate following physical training, and that this phenotype could be restored following targeted gene transfer of nNOS. Voluntary wheel-running (+EX) in heterozygous nNOS knockout mice (nNOS+/–, +EX; n= 52; peak performance 9.1 ± 1.8 km day–1) was undertaken and compared to wild-type mice (n= 38; 9.5 ± 0.8 km day–1). In anaesthetized wild-type mice, exercise increased phenylephrine-induced bradycardia by 67% (measured as heart rate change, in beats per minute, divided by the change in arterial blood pressure, in mmHg) or pulse interval response to phenylephrine by 52% (measured as interbeat interval change, in milliseconds, divided by the change in blood pressure). Heart rate changes or interbeat interval changes in response to right vagal nerve stimulation were also enhanced by exercise in wild-type atria (P < 0.05), whereas both in vivo and in vitro responses to exercise were absent in nNOS+/– mice. nNOS inhibition attenuated heart rate responses to vagal nerve stimulation in all atria (P < 0.05) and normalized the responses in wild-type, +EX with respect to wild-type with no exercise (–EX) atria. Atrial nNOS mRNA and protein were increased in wild-type, +EX compared to wild-type, –EX (P < 0.05), although exercise failed to have any effect in nNOS+/– atria. In vivo nNOS gene transfer using adenoviruses targeted to atrial ganglia enhanced choline acetyltransferase–nNOS co-localization (P < 0.05) and increased phenylephrine-induced bradycardia in vivo and heart rate responses to vagal nerve stimulation in vitro compared to gene transfer of enhanced green fluorescent protein (eGFP, P < 0.01). This difference was abolished by nNOS inhibition (P < 0.05). In conclusion, genomic regulation of NO bioavailability from nNOS in cardiac autonomic ganglia in response to training is dependent on both alleles of the gene. Although basal expression of nNOS is normal, polymorphisms of nNOS may interfere with neural regulation of heart rate following training. Targeted gene transfer of nNOS can restore this impairment.
(Received 5 February 2004;
accepted after revision 17 May 2004;
first published online 21 May 2004)
Corresponding author D. J. Paterson: University Laboratory of Physiology, Parks Road, Oxford OX1 3PT, UK. Email: david.paterson{at}physiol.ox.ac.uk
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