SEARCH

SEARCH BY CITATION

References

  • Bond CE, Zimmermann M, Greenfield SA (2009). Upregulation of alpha7 nicotinic receptors by acetylcholinesterase C-terminal peptides. PLoS ONE 4: e4846.
  • Buelke-Sam J, Holson JF, Bazare JJ, Young JF (1978). Comparative stability of physiological parameters during sustained anesthesia in rats. Lab Anim Sci 28: 157162.
  • Carlisle DL, Liu X, Hopkins TM, Swick MC, Dhir R, Siegfried JM (2007). Nicotine activates cell-signaling pathways through muscle-type and neuronal nicotinic acetylcholine receptors in non-small cell lung cancer cells. Pulm Pharmacol Ther 20: 629641.
  • Cheng WH, Lu PJ, Ho WY, Tung CS, Cheng PW, Hsiao M et al. (2010). Angiotensin II inhibits neuronal nitric oxide synthase activation through the ERK1/2-RSK signaling pathway to modulate central control of blood pressure. Circ Res 106: 788795.
  • Cooper E, Couturier S, Ballivet M (1991). Pentameric structure and subunit stoichiometry of a neuronal acetylcholine receptor. Nature 350: 235238.
  • Dudzinski D, Michel T (2007). Life history of eNOS: partners and pathways. Cardiovasc Res 75: 247260.
  • Field KJ, Lang CM (1988). Hazards of urethane (ethyl carbamate): a review of the literature. Lab Anim 22: 255262.
  • Field KJ, White WJ, Lang CM (1993). Anaesthetic effects of chloral hydrate, pentobarbitone and urethane in adult male rats. Lab Anim 27: 258269.
  • Fleming I, Fisslthaler B, Dimmeler S, Kemp BE, Busse R (2001). Phosphorylation of Thr(495) regulates Ca(2+)/calmodulin-dependent endothelial nitric oxide synthase activity. Circ Res 88: E68E75.
  • Gerzanich V, Zhang F, West GA, Simard JM (2001). Chronic nicotine alters NO signaling of Ca(2+) channels in cerebral arterioles. Circ Res 88: 359365.
  • Gilbert D, Lecchi M, Arnaudeau S, Bertrand D, Demaurex N (2009). Local and global calcium signals associated with the opening of neuronal alpha7 nicotinic acetylcholine receptors. Cell Calcium 45: 198207.
  • Ho WY, Lu PJ, Hsiao M, Hwang HR, Tseng YC, Yen MH et al. (2008). Adenosine modulates cardiovascular functions through activation of extracellular signal-regulated kinases 1 and 2 and endothelial nitric oxide synthase in the nucleus tractus solitarii of rats. Circulation 117: 773780.
  • Hsiao M, Lu PJ, Huang HN, Lo WC, Ho WY, Lai TC et al. (2008). Defective phosphatidylinositol 3-kinase signaling in central control of cardiovascular effects in the nucleus tractus solitarii of spontaneously hypertensive rats. Hypertens Res 31: 12091218.
  • Huang HN, Lu PJ, Lo WC, Lin CH, Hsiao M, Tseng CJ (2004). In situ Akt phosphorylation in the nucleus tractus solitarii is involved in central control of blood pressure and heart rate. Circulation 110: 24762483.
  • Isenovic E, Muniyappa R, Milivojevic N, Rao Y, Sowers JR (2001). Role of P13-kinase in isoproterenol and IGF-1 induced ecNOS activity. Biochem Biophys Res Commun 285: 954958.
  • Isenovic ER, Divald A, Milivojevic N, Grgurevic T, Fisher SE, Sowers JR (2003). Interactive effects of insulin-like growth factor-1 and beta-estradiol on endothelial nitric oxide synthase activity in rat aortic endothelial cells. Metabolism 52: 482487.
  • Kone BC, Kuncewicz T, Zhang W, Yu Z-Y (2003). Protein interactions with nitric oxide synthases: controling the right time, the right place, and the right amount of nitric oxide. Am J Physiol Renal Physiol 285: F178F190.
  • Li YL, Li YF, Liu D, Cornish KG, Patel KP, Zucker IH et al. (2005). Gene transfer of neuronal nitric oxide synthase to carotid body reverses enhanced chemoreceptor function in heart failure rabbits. Circ Res 97: 260267.
  • Lo WJ, Liu HW, Lin HC, Ger LP, Tung CS, Tseng CJ (1996). Modulatory effects of nitric oxide on baroreflex activation in the brainstem nuclei of rats. Chin J Physiol 39: 5762.
  • Michel J, Feron O, Sacks D, Michel T (1997). Reciprocal regulation of endothelial nitric-oxide synthase by Ca2+-calmodulin and caveolin. J Biol Chem 272: 1558315586.
  • Montgomery HJ, Bartlett R, Perdicakis B, Jervis E, Squier TC, Guillemette JG (2003). Activation of constitutive nitric oxide synthases by oxidized calmodulin mutants. Biochemistry 42: 77597768.
  • Papadopolou S, Hartmann P, Lips K, Kummer W, Haberberger R (2004). Nicotinic receptor mediated stimulation of NO-generation in neurons of rat thoracic dorsal root ganglia. Neurosci Lett 361: 3235.
  • Paterson D, Nordberg A (2000). Neuronal nicotinic receptors in the human brain. Prog Neurobiol 61: 75111.
  • Qadri F, Carretero OA, Scicli AG (1999). Centrally produced neuronal nitric oxide in the control of baroreceptor reflex sensitivity and blood pressure in normotensive and spontaneously hypertensive rats. Jpn J Pharmacol 81: 279285.
  • Smith DV, Uteshev VV (2008). Heterogeneity of nicotinic acetylcholine receptor expression in the caudal nucleus of the solitary tract. Neuropharmacology 54: 445453.
  • Tai MH, Hsiao M, Chan JY, Lo WC, Wang FS, Liu GS et al. (2004). Gene delivery of endothelial nitric oxide synthase into nucleus tractus solitarii induces biphasic response in cardiovascular functions of hypertensive rats. Am J Hypertens 17: 6370.
  • Tseng CJ, Appalsamy M, Robertson D, Mosqueda-Garcia R (1993). Effects of nicotine on brain stem mechanisms of cardiovascular control. J Pharmacol Exp Ther 265: 15111518.
  • Tseng CJ, Ger LP, Lin HC, Tung CS (1994). The pressor effect of nicotine in the rostral ventrolateral medulla of rats. Chin J Physiol 37: 8387.
  • Tseng CJ, Liu HY, Lin HC, Ger LP, Tung CS, Yen MH (1996). Cardiovascular effects of nitric oxide in the brain stem nuclei of rats. Hypertension 27: 3642.
  • Waki H, Murphy D, Yao ST, Kasparov S, Paton JF (2006). Endothelial NO synthase activity in nucleus tractus solitarii contributes to hypertension in spontaneously hypertensive rats. Hypertension 48: 644650.
  • West KA, Brognard J, Clark AS, Linnoila IR, Yang X, Swain SM et al. (2003). Rapid Akt activation by nicotine and a tobacco carcinogen modulates the phenotype of normal human airway epithelial cells. J Clin Invest 111: 8190.
  • Wu JC, Chruscinski A, De Jesus Perez VA, Singh H, Pitsiouni M, Rabinovitch M et al. (2009). Cholinergic modulation of angiogenesis: role of the 7 nicotinic acetylcholine receptor. J Cell Biochem 108: 433446.
  • Yu J, Huang NF, Wilson KD, Velotta JB, Huang M, Li Z et al. (2009). nAChRs mediate human embryonic stem cell-derived endothelial cells: proliferation, apoptosis, and angiogenesis. PLoS ONE 4: e7040.
  • Zayas R, Qazi S, Morton D, Trimmer B (2002). Nicotinic-acetylcholine receptors are functionally coupled to the nitric oxide/cGMP-pathway in insect neurons. J Neurochem 83: 421431.
  • Zhao R, Chen H, Sharp B (2007). Nicotine-induced norepinephrine release in hypothalamic paraventricular nucleus and amygdala is mediated by N-methyl-D-aspartate receptors and nitric oxide in the nucleus tractus solitarius. J Pharmacol Exp Ther 320: 837844.