首页> 外文期刊>Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research >Functional characterization of two naturally occurring mutations in the human sodium-phosphate cotransporter type IIa.
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Functional characterization of two naturally occurring mutations in the human sodium-phosphate cotransporter type IIa.

机译:人类磷酸钠共转运蛋白IIa型中两个自然发生的突变的功能表征。

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Mutations in the gene encoding the human sodium-phosphate cotransporter (NPT2), causing reduced phosphate affinity and dominant-negative behavior, were described. We found no evidence of altered kinetics or dominant-negative effects. Thus, the mutations cannot account for the clinical phenotype. INTRODUCTION: Mutations in NPT22a, the gene encoding the sodium-phosphate cotransporter NaPi-IIa, were for the first time linked to human disease by Prie and colleagues. Two patients are described with renal phosphate wasting who were heterozygous for either the A48F or V147M mutation. Expressed in Xenopus oocytes, both mutants showed reduced phosphate affinity. Furthermore, coexpression of mutants with wildtype (WT) NaPi-IIa resulted in reduced cotransport function, explaining the mutants' dominant-negative effect in the patients. Intrigued by the implications of these findings on transporter kinetics, we decided to examine the transport characteristics of the two mutants in more detail. MATERIALS AND METHODS:We recreated the two mutants, expressed them in Xenopus oocytes, and analyzed their kinetic behavior by two-electrode voltage clamp. We also performed coexpression experiments where we injected mRNA for WT and mutants containing an additional S462C mutation, enabling complete inhibition of cotransport function with cysteine-modifying reagents. Finally, we expressed WT and mutant NaPi-IIa as C-terminal fusions to green fluorescent protein (GFP) in opossum kidney (OK) cells. RESULTS AND CONCLUSIONS: We found in our oocyte expression experiments that P(i)-induced currents were reduced in both mutants, whereas P(i) and Na affinities and other transport characteristics were not affected. The amount of cotransport activity remaining after cysteine modification, corresponding to WT activity, was not affected by coexpression of either mutant. Finally, GFP-tagged WT and mutants were expressed at the apical membrane in OK cells, showing that both mutants are correctly targeted in a mammalian cell. In conclusion, our data from oocyte and OK cell expression studies suggest that the heterozygous A48F and V 147M mutations cannot explain the pathological phenotype observed by Prie and colleagues.
机译:描述了编码人磷酸钠共转运蛋白(NPT2)的基因中的突变,导致磷酸酯亲和力降低和显性负性行为。我们没有发现改变动力学或显性负效应的证据。因此,突变不能解释临床表型。简介:Prie及其同事首次将NPT22a(磷酸钠共转运蛋白NaPi-IIa的编码基因)中的突变与人类疾病相关联。两名患者描述为肾磷酸盐消耗,由于A48F或V147M突变而杂合。在非洲爪蟾卵母细胞中表达的两个突变体均显示出降低的磷酸酯亲和力。此外,突变体与野生型(WT)NaPi-IIa的共表达导致共转运功能降低,这解释了突变体对患者的显性负性作用。这些发现对转运蛋白动力学的影响引起了我们的兴趣,我们决定更详细地研究这两个突变体的转运特性。材料与方法:我们重建了这两个突变体,在非洲爪蟾卵母细胞中表达它们,并通过两电极电压钳分析了它们的动力学行为。我们还进行了共表达实验,在其中注入了WT和含有额外S462C突变的突变体的mRNA,从而能够完全抑制半胱氨酸修饰试剂的共转运功能。最后,我们在负鼠肾(OK)细胞中将WT和突变型NaPi-IIa表达为与绿色荧光蛋白(GFP)的C端融合体。结果与结论:我们在卵母细胞表达实验中发现,P(i)诱导的电流在两个突变体中均降低,而P(i)和Na亲和力及其他转运特性均未受到影响。半胱氨酸修饰后剩余的共转运活性的量,对应于WT活性,不受任一突变体共表达的影响。最后,在OK细胞的顶膜上表达了GFP标记的WT和突变体,表明这两个突变体都正确地靶向了哺乳动物细胞。总之,我们来自卵母细胞和OK细胞表达研究的数据表明,杂合的A48F和V 147M突变不能解释Prie及其同事观察到的病理表型。

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