F. Bonvissuto scite author profile

F. Bonvissuto

5Publications

82Citation Statements Received

86Citation Statements Given

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University of Palermo

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Altered electrical activity in colonic smooth muscle cells from dystrophic (mdx) mice

Serio

Bonvissuto

Mulè

2001

Neurogastroenterology Motil

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Because the colon from dystrophic (mdx) mice shows an altered motor pattern, probably due to neural disorders, our aim was to examine the electrophysiological properties of muscle cells and the functionality of nitrergic transmission in circular muscle from normal and mdx colon. Normal colonic cells (resting membrane potential [RMP] about -50 mV) showed spontaneous hyperpolarizations (inhibitory junction potentials; IJPs) and cyclic slow depolarizations were sometimes recorded. Mdx colon had a depolarized RMP (about -36 mV) and spontaneous IJPs, but the cyclic activity was never observed. In the normal colon, Nomega-nitro-L-arginine methyl ester (L-NAME) induced depolarization and abolished the cyclic activity. In the mdx colon, L-NAME caused a slight depolarization. Both preparations displayed the same value of RMP in the presence of L-NAME. In normals, neural stimulation induced nonadrenergic, noncholinergic IJPs composed of fast hyperpolarizations followed by a nitrergic slow hyperpolarization, selectively abolished by L-NAME. In the mdx colon the evoked IJPs were composed only of the initial fast hyperpolarization, the nitrergic component being absent. The hyperpolarization to sodium nitroprusside was not significantly different in both preparations. We conclude that the colon from animals lacking in dystrophin displays different electrophysiological features because of an impairment of nitric oxide function.

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Nitric oxide as neuromodulator of sympathetic transmission in rat vas deferens

Postorino

Vetri

Leggio

et al. 1998

Journal of Autonomic Pharmacology

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1. Electrical field stimulation (EFS) of muscle strips in vitro elicited a tetrodotoxin (TTX)-sensitive biphasic contractile response consisting of a phasic component followed by a tonic one. 2. The amplitude of both components of the response was impaired by N omega-nitro-L-arginine and potentiated by sodium nitroprusside. Cystamine caused a reduction in amplitude of both phasic and tonic components of the response to EFS. Neither N omega-nitro-L-arginine, sodium nitroprusside, nor cystamine induced changes in the resting muscle tone, or in the contractile response to exogenous agonists ATP and noradrenaline (NA). 3. The nitric oxide scavenger, 2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide, induced a reduction in amplitude of both components of the response to EFS. 4. These results reveal a facilitatory prejunctional modulatory role for nitric oxide in sympathetic neurotransmission in rat vas deferens. Endogenous nitric oxide released in the extracellular space is presumed to potentiate neurotransmission by acting at prejunctional level via cGMP.

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Tachykinins mediate noncholinergic excitatory neural responses in the circular muscle of rat proximal colon

Serio

Mulè²,

Bonvissuto³

et al. 1998

Rev. can. physiol. pharmacol.

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Using the sucrose-gap technique, we attempted to assess a role for tachykinins (TKs) in mediating noncholinergic excitatory junction potential (EJP) and contraction, in the circular muscle of rat proximal colon. Excitatory responses were evoked by submaximal electrical field stimulation (EFS) in the presence of atropine (1 microM), guanethidine (1 microM), indomethacin (10 microM), and N(omega)-nitro-L-arginine methyl ester (L-NAME) (100 microM). The NK1 receptor antagonist, SR 140,333 (up to 3 microM) or the NK2 receptor antagonists, SR 48,968 and MEN 10,627 (up to 5 microM) produced a partial inhibition of the excitatory responses to EFS. The co-administration of the selective NK1 and NK2 receptor antagonists produced additive effects on the responses to EFS. Selective NK1 receptor agonist, [Sar9, Met (O2)11]-substance P, induced depolarization and contraction, antagonized by SR 140,333, but not by NK2 receptor antagonists. NK2 receptor agonist, [betaAla8]-neurokinin A (4-10), also produced electrical and mechanical excitatory effects that were antagonized by SR 48,968 or MEN 10,627, but not by the NK1 receptor antagonist. Our results provide evidence that, in circular muscle of rat colon, endogenous tachykinins are the main excitatory transmitters for nonadrenergic, noncholinergic (NANC) excitation and their action is mediated by both NK1 and NK2 receptors.

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Apamin‐sensitive and ‐insensitive components of inhibitory junction potentials in rat caecum: role of nitric oxide

Serio¹,

Mulè²,

Postorino³

et al. 1996

Journal of Autonomic Pharmacology

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1. The non-adrenergic non-cholinergic (NANC) inhibitory response to electrical field stimulation (EFS) in circular muscle from rat caecum was investigated using the single sucrose-gap technique. EFS with single pulses evoked hyperpolarization oral inhibitory function potential (IJP) of the membrane associated with muscular relaxation or with transient inhibition of spontaneous contractile activity. 2. The amplitude and the duration of the IJPs were enhanced by using train stimulation at increasing frequency. 3. Apamin (10(-7) M) reduced the amplitude of IJPs at all frequencies tested. 4. N omega-nitro-L-arginine methyl ester (L-NAME) (10(-4) M, 5 x 10(-4) M), but not D-NAME, caused a concentration dependent decrease in the amplitude of IJPs at all frequencies tested. L-Arginine (10(-3) M) prevented these effects. 5. L-NAME (5 x 10(-4) M) caused the disappearance of the apamin-resistant IJP-component, evoked by single pulse or by low frequency trains. 6. Sodium nitroprusside (SNP) (10(-4) M), a nitric oxide (NO) donor, induced hyperpolarization of membrane potential and muscular relaxation. SNP-induced effects were not affected by pretreatment of the muscle strips with effective concentrations of tetrodotoxin, apamin, and L-NAME. 7. P2-purinergic antagonists, reactive blue 2 (up to 5 x 10(-4) M) and suramin (up to 3 x 10(-4) M), failed to affect the evoked IJPs. 8. These results show that, in rat caecum, the NANC response to electrical stimulation is composed of two distinguishable components: an apamin-resistant and an apamin-sensitive component. NO or a related compound is mainly involved in the mediation of the apamin-resistant component, while ATP is not the mediator responsible for the apamin-sensitive component.

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Antagonism by SR 48692 of mechanical responses to neurotensin in rat intestine

Mulè

Serio

Postorino

et al. 1996

British J Pharmacology

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F. Bonvissuto

Altered electrical activity in colonic smooth muscle cells from dystrophic (mdx) mice

Nitric oxide as neuromodulator of sympathetic transmission in rat vas deferens

Tachykinins mediate noncholinergic excitatory neural responses in the circular muscle of rat proximal colon

Apamin‐sensitive and ‐insensitive components of inhibitory junction potentials in rat caecum: role of nitric oxide

Antagonism by SR 48692 of mechanical responses to neurotensin in rat intestine

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