Summary
This is the first report on the ultra structural distribution of nicotinamide adenine dinucleotide phosphate-diaphorase activity and neuronal isoform (Type I) of nitric oxide synthase immunoreactivity in perivascular nerves (axons) and vascular endothelial cells. In the Sprague-Dawley rat cerebral basilar artery, positive labelling for nicotinamide adenine dinucleotide phosphate-diaphorase and nitric oxide synthase was localized in axons and the endothelium. Over half (∼ 53%) of the axon profiles examined were positive for nicotinamide adenine dinucleotide phosphate-diaphorase. Labelling of nicotinamide adenine dinucleotide phosphate-diaphorase activity in the axons and endothelial cells was mostly distributed in patches within the cytoplasm. In endothelial cells, a relation between the nicotinamide adenine dinucleotide phosphate-diaphorase-labelling and cytoplasmic vesicle-like structures was seen. In both axons and the endothelium, nitric oxide synthase immunoreactivity was seen throughout the cell cytoplasm and in association with the membranes of mitochondria, endoplasmic reticulum and cytoplasmic/synaptic vesicles (the lumen/content of the vesicles was negative for nitric oxide synthase). Also, microtubules were labelled in nitric oxide synthase positive axon profiles. The nitric oxide synthase-positive axon varicosities were characterized by the presence of spherical agranular vesicles with a diameter of 40–50 nm. Approximately 30% of the axon profiles examined were positive for nitric oxide synthase. The nicotinamide adenine dinucleotide phosphate-diaphorase-positive endothelial cells (approximately 20% of all observed endothelial cell profiles) were more frequently seen than those positive for nitric oxide synthase (approximately 7%). It is suggested that nitric oxide released from both perivascular nerves and endothelial cells may be involved in vasomotor control of cerebral circulation.
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References
Afework, M., Tomlinson, A., Belai, A. &Burnstock, G. (1992) Colocalization of nitric oxide synthase and NADPH-diaphorase in rat adrenal gland.NeuroReport 3, 893–6.
Belai, A., Schmidt, H. H. H. W., Hoyle, C. H. V., Hassall, C. J. S., Saffrey, M. J., Moss, J., Förstermann, U., Murad, F. &Burnstock, G. (1992) Colocalization of nitric oxide synthase and NADPH-diaphorase in the myenteric plexus of the rat gut.Neuroscience Letters 143, 60–4.
Bredt, D. S., Hwang, P. M. &Snyder, S. H. (1990) Localization of nitric oxide synthase indicating a neuronal role for nitric oxide.Nature 347, 768–70.
Bredt, D. S., Glatt, C. E., Hwang, P. M., Fotuhi, M., Dawson, T. M. &Snyder, S. H. (1991) Nitric oxide synthase protein and mRNA are discretely localized in neuronal populations of the mammalian CNS together with NADPH diaphorase.Neuron 7, 615–24.
Brizzolara, A. L., Crowe, R. &Burnstock, G. (1993) Evidence for the involvement of both ATP and nitric oxide in non-adrenergic, non-cholinergic inhibitory neurotransmission in the rabbit portal vein.British Journal of Pharmacology 109, 606–8.
Burnstock, G. (1985) Neurogenic control of cerebral circulation.Cephalagia (Suppl. 2), 25–33.
Burnstock, G. (1990a) Local mechanisms of blood flow controlled by perivascular nerves and endothelium.Journal of Hypertension 8 (Suppl. 7), S95-S106.
Burnstock, G. (1990b) Changes in expression of autonomic nerves in aging and disease.Journal of Autonomic Nervous System 30, S25-S34.
Cavanagh, J. R. F., Mione, M. C. &Burnstock, G. (1990) Use of enhanced silver staining combined with electron microscopical immunolabelling to demonstrate the localization of neuropeptide Y and vasoactive intestinal polypeptide in cerebrovascular nerves.Neuroscience 39, 775–85.
Cook, R. D. &Burnstock, G. (1976) The ultrastructure of Auerbach's plexus in the guinea-pig. I. Neuronal elements.Journal of Neurocytology 5, 171–94.
Dawson, T. M., Bredt, D. S., Fotuhi, M., Hwang, P. M. &Snyder, S. H. (1991) Nitric oxide synthase and neuronal NADPH diaphorase are identical in brain and peripheral tissues.Proceedings of the National Academy of Sciences (USA) 88, 7797–801.
Dhital, K. K., Gerli, R., Lincoln, J., Milner, P., Tanganelli, P., Weber, G., Fruschelli, C. &Burnstock, G. (1988) Increased density of perivascular nerves to the major cerebral vessels of the spontaneously hypertensive rat: differential changes in noradrenaline and neuropeptide Y during development.Brain Research 444, 33–45.
Förstermann, U., Schmidt, H. H. H. W., Pollock, J. S., Sheng, H., Mitchell, J. A., Warner, T. D., Nakane, M. &Murad, F. (1991) Isoforms of nitric oxide synthase. Characterization and purification from different cell types.Biochemical Pharmacology 42, 1849–57.
Furchgott, R. F. &Zawadzki, J. V. (1980) The obligatory role of endothelial cells in the relaxation of arterial smooth muscle by acetylcholine.Nature 288, 373–6.
Garthwaite, J. (1991) Glutamate, nitric oxide and cell-cell signalling in the nervous system.Trends in Neuroscience 14, 60–7.
Gaw, A. J., Aberdeen, J., Humphrey, P. P. A., Wadsworth, R. M. &Burnstock, G. (1991) Relaxation of sheep cerebral arteries by vasoactive intestinal polypeptide and neurogenic stimulation: inhibition by L-NG-monomethyl arginine in endothelium-denuded vessels.British Journal of Pharmacology 102, 567–72.
Hassall, C. J. S., Saffrey, M. J., Belai, A., Hoyle, C. H. V., Moules, E. E. W., Moss, J., Schmidt, H. H. H. W., Murad, F., Förstermann, U. &Burnstock, G. (1992) Nitric oxide synthase-immunoreactivity and NADPH-diaphorase activity in a subpopulation of intrinsic neurones of the guinea-pig heart.Neuroscience Letters 143, 65–8.
Hope, B. T., Michael, G. J., Knigge, K. M. &Vincent, S. R. (1991) Neuronal NADPH diaphorase is a nitric oxide synthase.Proceedings of the National Academy of Sciences (USA) 88, 2811–14.
Adecola, C., Beitz, A. J., Renno, W., Xu, H., Mayer, B. &Zhang, F. (1993) Nitric oxide synthase-containing neuronal processes on large cerebral arteries and cerebral microvessels.Brain Research 606, 148–55.
Jojart, I., Joo, F., Siklos, L. &Laszlo, F. A. (1984) Immunoelectron-histochemical evidence for innervation of brain microvessels by vasopressin-immunoreactive neurons in the rat.Neuroscience Letters 51, 259–64.
Kennedy, C. &Burnstock, G. (1985) Evidence for two types of P2-purinoceptor in the longitudinal muscle of the rabbit portal vein.European Journal of Pharmacology 111, 49–56.
Klimaschewski, L., Kummer, W., Mayer, B., Couraud, Y. J., Preissler, U., Philippin, B. &Heym, C. (1992) Nitric oxide synthase in cardiac nerve fibres and neurons of rat and guinea pig heart.Circulation Research 71, 1533–7.
Kummer, W., Fischer, A., Mundel, P., Mayer, B., Brigit, H., Philippin, B. &Preissler, U. (1992) Nitric oxide synthase in VIP-containing vasodilator nerve fibres in the guinea-pig.NeuroReport 3, 653–5.
Lincoln, J. &Burnstock, G. (1990) Neural-endothelial interactions in control of local blood flow. InThe Endothelium: An Introduction to Current Research (edited byWarren, J.), pp. 21–32. New York: Wiley-Liss.
Liu-Chen, L.-Y., Liszczak, T. M., King, J. C. &Moskowitz, M. A. (1986) Immunoelectron microscopic study of substance P-containing fibers in feline cerebral arteries.Brain Research 169, 12–20.
Loesch, A. &Burnstock, G. (1985) Ultrastructural identification of VIP-containing nerve fibres in the myenteric plexus of the rat ileum.Journal of Neurocytology 14, 327–35.
Loesch, A. &Burnstock, G. (1988) Ultrastructural localization of serotonin and substance P in vascular endothelial cells of rat femoral and mesenteric arteries.Anatomy and Embryology 178, 137–42.
Loesch, A. &Burnstock, G. (1993) Ultrastructural localization of nitric oxide synthase in intima of rabbit aorta.Endothelium 1, 23–29.
Loesch, A., Belai, A. &Burnstock, G. (1993) Ultrastructural localization of NADPH-diaphorase and colocalization of nitric oxide synthase in endothelial cells of the rabbit aorta.Cell Tissue Research, in press.
Lundberg, J. M., Hökfelt, T., Schultzberg, M., Uvnäs-Wallenstein, K., Köhler, G. &Said, S. I. (1979) Occurrence of vasoactive intestinal polypeptide (VIP)-like immunoreactivity in certain cholinergic neurons of the cat: evidence from combined immunocyto-chemistry and acetylcholinesterase staining.Neuroscience 4, 1539–59.
Matsuyama, T., Shiosaka, S., Matsumoto, M., Yneda, S., Kimura, K., Abe, H., Hayakawa, T., Inoue, H. &Tohyama, M. (1983) Overall distribution of vasoactive intestinal polypeptide-containing nerves on the wall of cerebral arteries: an immunocytochemical study using whole-mounts.Neuroscience 10, 89–96.
Mione, M. C., Dhital, K. K., Amenta, F. &Burnstock, G. (1988) An increase in the expression of neuropeptidergic vasodilator, but not vasoconstrictor, cerebrovascular nerves in aging rats.Brain Research 460, 103–13.
Moncada, S. &Palmer, R. M. J. (1992) Endothelium-dependent relaxation and the discovery of thel-arginine: NO pathway. InEndothelial Regulation of Vascular Tone (edited byRyan, U. S. &Rubanyi, G. M.), pp. 21–36. New York: Marcel Dekker Inc.
Moncada, S., Palmer, R. M. J. &Higgs, E. A. (1991) Nitric oxide: physiology, pathology, and pharmacology.Pharmacological Reviews 43, 109–42.
Nozaki, K., Moskowitz, M. A., Maynard, K. L., Kokets, N., Dawson, T. M., Bredt, D. S. &Snyder, S. H. (1993) Possible origins and distribution of immunoreactive nitric oxide synthase containing nerve fibres in cerebral arteries.Journal of Cerebral Blood Flow and Metabolism 13, 70–9.
Palmer, R. M. J., Ashton, A. G. &Moncada, S. (1988) Vascular endothelial cells synthesize nitric oxide froml-arginine.Nature 263, 663–5.
Palmer, R. M. J., Ferrige, A. G. &Moncada, S. (1987) Nitric oxide release accounts for the biological activity of endothelium-derived relaxing factor.Nature 327, 524–6.
Probert, L., De Mey, J. &Polak, J. M. (1983) Ultrastructural localization of four different neuropeptides within separate populations of P-type nerves in the guinea-pig colon.Gastroenterology 85, 1094–104.
Ralevic, V. &Burnstock, G. (1993)Neural-Endothelial Interactions in the Control of Local Vascular Tone. Austin: MIU, R. G. Landes Company.
Rand, M. J. (1992) Nitrergic transmission: nitric oxide as a mediator of non-adrenergic, non-cholinergic neuroeffector transmission.Clinical and Experimental Pharmacology and Physiology 19, 147–69.
Ryan, U. S. &Rubanyi, G. M. (1992)Endothelial Regulation of Vascular Tone, New York: Marcel Dekker Inc.
Saffrey, M. J., Hassall, C. J. S., Hoyle, C. H. V., Belai, A., Moss, J., Schmidt, H. H. H. W., Förstermann, U., Murad, F. &Burnstock, G. (1992) Colocalization of nitric oxide synthase and NADPH-diaphorase in cultured myenteric neurones.NeuroReport 3, 333–6.
Saito, A., Wu, J. -L. &Lee, T. J. -F. (1985) Evidence for the presence of cholinergic nerves in cerebral arteries: an immunohistochemical demonstration of choline acetyltransferase.Journal of Cerebral Blood Flow and Metabolism 5, 365–9.
Schmidt, H. H. H. W., Gagne, G. D., Nakane, M., Pollock, J. S., Miller, M. F. &Murad, F. (1992) Mapping of neural nitric oxide synthase in the rat suggests frequent co-localization with NADPH diaphorase but not with soluble guanylyl cyclase, and novel paraneural functions for nitrinergic signal transduction.The Journal of Histochemistry and Cytochemistry 40, 1439–56.
Snyder, S. H. (1992) Nitric oxide and neurons.Current Opinion in Neurobiology 2, 323–7.
Snyder, S. H. &Bredt, D. S. (1992) Biological roles of nitric oxide.Scientific American 266, 28–35.
Springall, D. R., Riveros-Moreno, V., Buttery, L., Bishop, A. E., Merrett, M. &Moncada, S. (1992) Immunological detection of nitric oxide synthase(s) in human tissues using heterologous antibodies suggesting different isoforms.Histochemistry 98, 259–66.
Sweat, M. L. &Lipscomb, M. D. (1955) A transhydrogenase and reduced triphosphopyridinenucleotide involved in the oxidation of deoxycorticosterone to corticosterone by adrenal tissue.Journal of American Chemical Society 77, 5185–7.
Toda, N. (1993) Mediation by nitric oxide of neurallyinduced human cerebral artery relaxation.Experientia 49, 51–3.
Toda, N. &Okamura, T. (1990) Possible role of nitric oxide in transmitting information from vasodilator nerve to cerebroarterial muscle.Biochemical and Biophysical Research Communications 170, 308–13.
Toda, N., Ayajiki, K. &Okamura, T. (1993) Cerebroarterial relaxations mediated by nitric oxide derived from endothelium and vasodilator nerve.Journal of Vascular Research 30, 61–7.
Vanhoutte, P. M. (1988)Relaxing and Constricting Factors. New Jersey: Humana Press, Clifton.
Vincent, S. R., Staines, W. A. &Fibiger, H. C. (1983) Histochemical demonstration of separate populations of somatostatin and cholinergic neurons in the rat striatum.Neuroscience Letters 35, 111–4.
Wolf, G., Würdig, S. &Schünzel, G. (1992) Nitric oxide synthase in rat brain is predominantly located at neuronal endoplasmic reticulum: an electron microscopic demonstration of NADPH-diaphorase activity.Neuroscience Letters 147, 63–6.
Young, H. M., Furness, J. B., Shuttleworth, C. W. R., Bredt, D. S. &Snyder, S. H. (1992) Co-localization of nitric oxide synthase immunoreactivity and NADPH diaphorase staining in neurons of the guinea-pig intestine.Histochemistry 97, 375–8.
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Loesch, A., Belai, A. & Burnstock, G. An ultrastructural study of NADPH-diaphorase and nitric oxide synthase in the perivascular nerves and vascular endothelium of the rat basilar artery. J Neurocytol 23, 49–59 (1994). https://doi.org/10.1007/BF01189816
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DOI: https://doi.org/10.1007/BF01189816