Distribution of P2X₃ receptor immunoreactivity in myenteric ganglia of the mouse esophagus

Intraganglionic laminar endings (IGLEs) represent the major vagal afferent terminals throughout the gut. Electrophysiological experiments revealed a modulatory role of ATP in the IGLE-mechanotransduction process and the P2X₂-receptor has been described in IGLEs of mouse, rat and guinea pig. Another...

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Veröffentlicht in:	Histochemistry and cell biology 2009-01, Vol.131 (1), p.13-27
Hauptverfasser:	Kestler, Christine, Neuhuber, Winfried L, Raab, Marion
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Schlagworte:	Adenosine triphosphatase Biochemistry Biomedical and Life Sciences Biomedicine Cell Biology Cellular biology Developmental Biology Gastroenterology Microscopy Original Paper Rodents
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description	Intraganglionic laminar endings (IGLEs) represent the major vagal afferent terminals throughout the gut. Electrophysiological experiments revealed a modulatory role of ATP in the IGLE-mechanotransduction process and the P2X₂-receptor has been described in IGLEs of mouse, rat and guinea pig. Another purinoceptor, the P2X₃-receptor, was found in IGLEs of the rat esophagus. These findings prompted us to investigate occurrence and distribution of the P2X₃-receptor in the mouse esophagus. Using multichannel immunofluorescence and confocal microscopy, P2X₃-immunoreactivity (-iry) was found colocalized with the vesicular glutamate transporter 2 (VGLUT2), a specific marker for IGLEs, on average in three-fourths of esophageal IGLEs. The distribution of P2X₃ immunoreactive (-ir) IGLEs was similar to that of P2X₂-iry and showed increasing numbers towards the abdominal esophagus. P2X₃/P2X₂-colocalization within IGLEs suggested the occurrence of heteromeric P2X₂/₃ receptors. In contrast to the rat, where only a few P2X₃-ir perikarya were described, P2X₃ stained perikarya in ~80% of myenteric ganglia in the mouse. Detailed analysis revealed P2X₃-iry in subpopulations of nitrergic (nNOS) and cholinergic (ChAT) myenteric neurons and ganglionic neuropil of the mouse esophagus. We conclude that ATP might act as a neuromodulator in IGLEs via a (P2X₂)-P2X₃ receptor-mediated pathway especially in the abdominal portion of the mouse esophagus.
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Electrophysiological experiments revealed a modulatory role of ATP in the IGLE-mechanotransduction process and the P2X₂-receptor has been described in IGLEs of mouse, rat and guinea pig. Another purinoceptor, the P2X₃-receptor, was found in IGLEs of the rat esophagus. These findings prompted us to investigate occurrence and distribution of the P2X₃-receptor in the mouse esophagus. Using multichannel immunofluorescence and confocal microscopy, P2X₃-immunoreactivity (-iry) was found colocalized with the vesicular glutamate transporter 2 (VGLUT2), a specific marker for IGLEs, on average in three-fourths of esophageal IGLEs. The distribution of P2X₃ immunoreactive (-ir) IGLEs was similar to that of P2X₂-iry and showed increasing numbers towards the abdominal esophagus. P2X₃/P2X₂-colocalization within IGLEs suggested the occurrence of heteromeric P2X₂/₃ receptors. In contrast to the rat, where only a few P2X₃-ir perikarya were described, P2X₃ stained perikarya in ~80% of myenteric ganglia in the mouse. Detailed analysis revealed P2X₃-iry in subpopulations of nitrergic (nNOS) and cholinergic (ChAT) myenteric neurons and ganglionic neuropil of the mouse esophagus. 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subjects	Adenosine triphosphatase Biochemistry Biomedical and Life Sciences Biomedicine Cell Biology Cellular biology Developmental Biology Gastroenterology Microscopy Original Paper Rodents
title	Distribution of P2X₃ receptor immunoreactivity in myenteric ganglia of the mouse esophagus
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