P2X受体在小鼠膀胱中的表达以及P2X(1)受体对小鼠膀胱平滑肌功能性P2X受体反应的需求。
P2X receptor expression in mouse urinary bladder and the requirement of P2X(1) receptors for functional P2X receptor responses in the mouse urinary bladder smooth muscle.
作者信息
Vial C, Evans R J
机构信息
Department of Cell Physiology & Pharmacology, University of Leicester, Leicester LE1 9HN.
出版信息
Br J Pharmacol. 2000 Dec;131(7):1489-95. doi: 10.1038/sj.bjp.0703720.
Abstract
- We have used subtype selective P2X receptor antibodies to determine the expression of P2X(1 - 7) receptor subunits in the mouse urinary bladder. In addition we have compared P2X receptor mediated responses in normal and P2X(1) receptor deficient mice to determine the contribution of the P2X(1) receptor to the mouse bladder smooth muscle P2X receptor phenotype. 2. P2X(1) receptor immunoreactivity was restricted to smooth muscle of the bladder and arteries and was predominantly associated with the extracellular membrane. Diffuse P2X(2) and P2X(4) receptor immunoreactivity not associated with the extracellular membrane was detected in the smooth muscle and epithelial layers. Immunoreactivity for the P2X(7) receptor was associated with the innermost epithelial layers and some diffuse staining was seen in the smooth muscle layer. P2X(3), P2X(5) and P2X(6) receptor immunoreactivity was not detected. 3. P2X receptor mediated inward currents and contractions were abolished in bladder smooth muscle from P2X(1) receptor deficient mice. In normal bladder nerve stimulation evoked contractions with P2X and muscarinic acetylcholine (mACh) receptor mediated components. In bladder from the P2X(1) receptor deficient mouse the contraction was mediated solely by mACh receptors. Contractions to carbachol were unaffected in P2X(1) receptor deficient mice demonstrating that there had been no compensatory effect on mACh receptors. 4. These results indicate that homomeric P2X(1) receptors underlie the bladder smooth muscle P2X receptor phenotype and suggest that mouse bladder from P2X(1) receptor deficient and normal animals may be models of human bladder function in normal and diseased states.
摘要
- 我们使用亚型选择性P2X受体抗体来确定P2X(1 - 7)受体亚基在小鼠膀胱中的表达。此外,我们比较了正常小鼠和P2X(1)受体缺陷小鼠中P2X受体介导的反应,以确定P2X(1)受体对小鼠膀胱平滑肌P2X受体表型的贡献。2. P2X(1)受体免疫反应性仅限于膀胱和动脉的平滑肌,且主要与细胞外膜相关。在平滑肌和上皮层中检测到与细胞外膜无关的弥漫性P2X(2)和P2X(4)受体免疫反应性。P2X(7)受体的免疫反应性与最内层上皮层相关,在平滑肌层中可见一些弥漫性染色。未检测到P2X(3)、P2X(5)和P2X(6)受体免疫反应性。3. P2X受体介导的内向电流和收缩在P2X(1)受体缺陷小鼠的膀胱平滑肌中消失。在正常膀胱中,神经刺激诱发的收缩具有P2X和毒蕈碱型乙酰胆碱(mACh)受体介导的成分。在P2X(1)受体缺陷小鼠的膀胱中,收缩仅由mACh受体介导。P2X(1)受体缺陷小鼠对卡巴胆碱的收缩不受影响,表明对mACh受体没有代偿作用。4. 这些结果表明,同型P2X(1)受体是膀胱平滑肌P2X受体表型的基础,并表明P2X(1)受体缺陷和正常动物的小鼠膀胱可能是正常和疾病状态下人类膀胱功能的模型。
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