Y Zhang scite author profile

Y Zhang

4Publications

35Citation Statements Received

159Citation Statements Given

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138

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Queen's University, Kingston General Hospital

Publications

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Regional differences in nitrergic innervation of the smooth muscle of murine lower oesophageal sphincter

Zhang

Mashimo

Paterson

2008

British J Pharmacology

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Background and purpose: Anatomical and pharmacological studies have demonstrated that the lower oesophageal sphincter (LES) is not a simple homogenous circular muscle with uniform innervation. Regional differences have been demonstrated in several species including humans. We investigated, for the first time in mice LES, regionally distinct physiological and pharmacological characteristics of the neuromusculature. Experimental approach: Conventional intracellular recordings and pharmacological techniques were employed to evaluate electrical properties and functional innervation of smooth muscle cells. Results from CD1 (control), nNOS (À/À) and eNOS (À/À) genetic knockout mice were compared. Key results: Smooth muscle of sling and clasp LES displayed unitary membrane potentials of 1-4 mV. Transmural nerve stimulation produced a monophasic inhibitory junction potential (IJP) in the sling, whereas in the clasp a biphasic IJP, consisting of a brief IJP followed by a long-lasting slow IJP (lsIJP), was induced. Pharmacological interventions and genetically modified mice were used to demonstrate a monophasic apamin-sensitive (purinergic) component in both LES regions. However, the nitrergic IJP was monophasic in the sling and biphasic in the clasp. Unitary membrane potentials and IJPs were not different in CD1 and eNOS (À/À) mice, suggesting no involvement of myogenic NOS. Conclusion and implications: These data in mouse LES indicate that there are previously unreported regional differences in the IJP and that both the apamin-resistant monophasic and biphasic IJPs are mediated primarily by nitrergic innervation.

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TREK‐1 channels do not mediate nitrergic neurotransmission in circular smooth muscle from the lower oesophageal sphincter

Zhang

Miller

2010

British J Pharmacology

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Background and purpose:The ionic mechanisms underlying nitrergic inhibitory junction potentials (IJPs) in gut smooth muscle remain a matter of debate. Recently, it has been reported that opening of TWIK-related K + channel 1 (TREK-1) K + channels contributes to the nitrergic IJP in colonic smooth muscle. We investigated the effects of TREK-1 channel blockers on nitrergic neurotransmission in mouse and opossum lower oesophageal sphincter (LOS) circular smooth muscle (CSM). Experimental approach:The effects of TREK-1 channel blockers were characterized pharmacologically in murine and opossum gut smooth muscle using conventional intracellular and tension recordings. Key results: In LOS, L-methionine depolarized the resting membrane potential (RMP) but did not inhibit the nitrergic IJP. Cumulative application of theophylline hyperpolarized the RMP and inhibited the nitrergic IJP concentration dependently. The induced membrane hyperpolarization was prevented by pre-application of caffeine, but not by 1H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one. 8-Br-cAMP significantly hyperpolarized membrane potential and increased the amplitude of the nitrergic IJP. In opossum LOS muscle strips, L-methionine increased resting tone but had no effect on nerve-mediated LOS relaxation. On the other hand, theophylline markedly inhibited tone. In CSM from mouse proximal colon, L-methionine caused modest inhibition of nitrergic IJPs. Conclusions and implications:TREK-1 channels were not involved in the nitrergic IJP in LOS CSM. Not only does L-methionine have no effect on the nitrergic IJP or LOS relaxation, but the effect of theophylline appears to be due to interruption of Ca 2+ -releasing pathways (i.e. caffeine-like effect) rather than via blockade of TREK-1 channels.

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A21 Fermentable Carbohydrate-Microbiome Interactions in a Mouse Model of Ibs

Palma

Reed

Shimbori

et al. 2018

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A20 Gut Microbiota-Diet Interaction Alter Intestinal Mast Cell Numbers and Distribution in the Humanized Ibs Mouse Model

Shimbori

Palma

Reed

et al. 2018

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Y Zhang

Regional differences in nitrergic innervation of the smooth muscle of murine lower oesophageal sphincter

TREK‐1 channels do not mediate nitrergic neurotransmission in circular smooth muscle from the lower oesophageal sphincter

A21 Fermentable Carbohydrate-Microbiome Interactions in a Mouse Model of Ibs

A20 Gut Microbiota-Diet Interaction Alter Intestinal Mast Cell Numbers and Distribution in the Humanized Ibs Mouse Model

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