The human glycine receptor beta subunit: primary structure, functional characterisation and chromosomal localisation of the human and murine genes.

C A Handford, J W Lynch, E Baker, G C Webb, J H Ford, G R Sutherland, P R Schofield
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Abstract

The inhibitory glycine receptor (GlyR) is a pentameric receptor comprised of alpha and beta subunits, of which the beta subunit has not been characterised in humans. A 2106 bp cDNA, isolated from a human hippocampal cDNA library, contained an open reading frame of 497 amino acids which encodes the beta subunit of the human GlyR. The mature human GlyR beta polypeptide displays 99% amino acid identity with the rat GlyR beta subunit and 48% identity with the human GlyR alpha 1 subunit. Neither [3H]strychnine binding nor glycine-gated currents were detected when the human GlyR beta subunit cDNA was expressed in the human embryonic kidney 293 cell line. However, co-expression of the beta subunit cDNA with the alpha 1 subunit cDNA resulted in expression of functional GlyRs which showed a 4-fold reduction in the EC50 values when compared to alpha 1 homomeric GlyRs. Glycine-gated currents of alpha 1/beta GlyRs were 17-fold less sensitive than homomeric alpha 1 GlyRs to the antagonists picrotoxin, picrotoxinin and picrotin, providing clear evidence that heteromeric alpha 1/beta GlyRs were expressed. The beta subunit appears to play a structural rather than ligand binding role in GlyR function. Fluorescence in situ hybridisation was used to localise the gene encoding the human GlyR beta subunit (GLRB) to chromosome 4q32, a position syntenic with mouse chromosome 3. In situ hybridisation using the human GlyR beta subunit cDNA showed that the murine GlyR beta subunit gene (Glrb) maps to the spastic (spa) locus on mouse chromosome 3 at bands E3-F1. This is consistent with the recent finding that a mutation in the murine GlyR beta subunit causes the spa phenotype. It also raises the possibility that mutations in the human beta subunit gene may cause inherited disorders of the startle response.

人甘氨酸受体β亚基:人类和小鼠基因的初级结构、功能特征和染色体定位。
抑制性甘氨酸受体(GlyR)是由α和β亚基组成的五聚体受体,其中β亚基在人类中尚未被表征。从人海马cDNA文库中分离出一个2106 bp的cDNA,包含497个氨基酸的开放阅读框,编码人GlyR的β亚基。成熟的人GlyR β多肽与大鼠GlyR β亚基的氨基酸一致性为99%,与人GlyR α 1亚基的氨基酸一致性为48%。在人胚胎肾293细胞系中表达GlyR β亚基cDNA时,既没有检测到[3H]士的宁结合电流,也没有检测到甘氨酸门控电流。然而,β亚基cDNA与α 1亚基cDNA的共表达导致功能性GlyRs的表达,与α 1同源GlyRs相比,其EC50值降低了4倍。α 1/ β GlyRs的甘氨酸门控电流对拮抗剂picrotoxin、picrotoxinin和picrotin的敏感性比同质α 1 GlyRs低17倍,表明α 1/ β GlyRs是异质α 1/ β GlyRs表达的证据。β亚基似乎在GlyR功能中起结构作用而不是配体结合作用。利用荧光原位杂交技术将编码人GlyR β亚基(GLRB)的基因定位到与小鼠3号染色体相同的4q32号染色体上。利用人GlyR β亚单位cDNA原位杂交表明,小鼠GlyR β亚单位基因(Glrb)定位于小鼠3号染色体E3-F1带的痉挛(spa)位点。这与最近的发现一致,即小鼠GlyR β亚基的突变导致spa表型。这也增加了人类β亚基基因突变可能导致惊吓反应遗传性疾病的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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