Contribution of nNOS- and eNOS-derived NO to microvascular smooth muscle NO exposure

Mahendra Kavdia, Aleksander S. Popel

Research output: Contribution to journalArticlepeer-review

60 Scopus citations


Nitric oxide (NO) plays an important role in autocrine and paracrine manner in numerous physiological processes, including regulation of blood pressure and blood flow, platelet aggregation, and leukocyte adhesion. In vascular wall, most of the bioavailable NO is believed to derive from endothelial cell NO synthase (eNOS). Recently, neuronal NOS (nNOS) has been identified as a source of NO in the vicinity of microvessels and has been shown to participate in vascular function. Thus NO can be produced and transported to the vascular smooth muscle cells from 1) endothelial cells and 2) perivascular nerve fibers, mast cells, and other nNOS-containing sources. In this study, a mathematical model of NO diffusion-reaction in a cylindrical arteriolar segment was formulated. The model quantifies the relative contribution of these NO sources and the smooth muscle availability of NO in a tissue containing an arteriolar blood vessel. The results indicate that a source of NO derived through nNOS in the perivascular region can be a significant contributor to smooth muscle NO. Predicted smooth muscle NO concentrations are as high as 430 nM, which is consistent with reported experimental measurements (∼400 nM). In addition, we used the model to analyze the smooth muscle NO availability in 1) eNOS and nNOS knockout experiments, 2) the presence of myoglobin, and 3) the presence of cell-free Hb, e.g., Hb-based oxygen carriers. The results show that NO release by nNOS would significantly affect available smooth muscle NO. Further experimental and theoretical studies are required to account for distribution of NOS isoforms and determine NO availability in vasculatures of different tissues.

Original languageEnglish (US)
Pages (from-to)293-301
Number of pages9
JournalJournal of applied physiology
Issue number1
StatePublished - Jul 2004


  • Blood substitute
  • Endothelial and neuronal nitric oxide synthase knockouts
  • Model computational
  • Model mathematical
  • Myoglobin
  • Neuronal nitric oxide synthase
  • Nitric oxide

ASJC Scopus subject areas

  • General Medicine


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