Xu_2015_J.Mol.Neurosci_57_446

Reference

Title : Reduced Expression of P2Y2 Receptor and Acetylcholinesterase at Neuromuscular Junction of P2Y1 Receptor Knock-out Mice - Xu_2015_J.Mol.Neurosci_57_446
Author(s) : Xu ML , Bi CWC , Cheng LK , Mak SH , Yao P , Luk WK , Lau KK , Cheng AW , Tsim KWK
Ref : Journal of Molecular Neuroscience , 57 :446 , 2015
Abstract :

ATP is co-stored and co-released with acetylcholine (ACh) at the pre-synaptic vesicles in vertebrate neuromuscular junction (nmj). Several lines of studies demonstrated that binding of ATP to its corresponding P2Y1 and P2Y2 receptors in the muscle regulated post-synaptic gene expressions. To further support the notion that P2Y receptors are playing indispensable role in formation of post-synaptic specifications at the nmj, the knock-out mice of P2Y1 receptor (P2Y1R (-/-)) were employed here for analyses. In P2Y1R (-/-) mice, the expression of P2Y2 receptor in muscle was reduced by over 50 %, as compared to P2Y1R (+/+) mice. In parallel, the expression of acetylcholinesterase (AChE) in muscle was markedly decreased. In the analysis of the expression of anchoring subunits of AChE in P2Y1R (-/-) mice, the proline-rich membrane anchor (PRiMA) subunit was reduced by 60 %; while the collagen tail (ColQ) subunit was reduced by 50 %. AChE molecular forms in the muscle were not changed, except the amount of enzyme was reduced. Immuno-staining of P2Y1R (-/-) mice nmj, both AChE and AChR were still co-localized at the nmj, and the staining was diminished. Taken together our data demonstrated that P2Y1 receptor regulated the nmj gene expression.

PubMedSearch : Xu_2015_J.Mol.Neurosci_57_446
PubMedID: 26036470

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Citations formats

Xu ML, Bi CWC, Cheng LK, Mak SH, Yao P, Luk WK, Lau KK, Cheng AW, Tsim KWK (2015)
Reduced Expression of P2Y2 Receptor and Acetylcholinesterase at Neuromuscular Junction of P2Y1 Receptor Knock-out Mice
Journal of Molecular Neuroscience 57 :446

Xu ML, Bi CWC, Cheng LK, Mak SH, Yao P, Luk WK, Lau KK, Cheng AW, Tsim KWK (2015)
Journal of Molecular Neuroscience 57 :446