Hernando Nati, Forgo Jutka, Biber Jürg, Murer Heini
Institute of Physiology, University of Zürich, Switzerland.
J Am Soc Nephrol. 2000 Nov;11(11):1961-1968. doi: 10.1681/ASN.V11111961.
Parathyroid hormone (PTH)-induced inhibition of renal proximal tubular Na/P(i) cotransport involves two consecutive steps: endocytosis followed by lysosomal degradation of the type IIa Na/P(i) cotransporter. Tyrosine-, dileucine-, and diacidic-based motifs are suggested to be involved in endocytosis and/or lysosomal targeting of different plasma membrane proteins. The rat type IIa cotransporter (NaPi2) contains two cytoplasmic tyrosine residues (Y) within sequences highly homologous to tyrosine-based motifs (GY(402)FAM and Y(509)RWF), three cytoplasmic dileucine (LL(101), LL(374), and LI(591)) and two cytoplasmic diacidic motifs (EE(81) and EE(616)). We studied the role of these motifs on the PTH-induced retrieval and lysosomal degradation of the NaPi2 cotransporter. To follow its trafficking in vivo, the NaPi2 protein was fused to the carboxyl-terminal end of the enhanced green fluorescence protein. This fusion did not impair the apical targeting or the PTH-induced endocytosis of the wild-type cotransporter when transfected in opossum kidney cells. Single and multiple Y and LL mutants retained the apical targeting and the PTH-induced degradation. Mutations of the diacidic motifs were also without effect. These data suggest that the above three motifs are not required for the PTH-induced internalization and/or degradation of the cotransporter.
甲状旁腺激素(PTH)诱导的肾近端小管钠/无机磷共转运体抑制涉及两个连续步骤:内吞作用,随后是IIa型钠/无机磷共转运体的溶酶体降解。基于酪氨酸、双亮氨酸和双酸性的基序被认为参与了不同质膜蛋白的内吞作用和/或溶酶体靶向。大鼠IIa型共转运体(NaPi2)在与基于酪氨酸的基序(GY(402)FAM和Y(509)RWF)高度同源的序列中包含两个胞质酪氨酸残基(Y)、三个胞质双亮氨酸(LL(101)、LL(374)和LI(591))以及两个胞质双酸性基序(EE(81)和EE(616))。我们研究了这些基序在PTH诱导的NaPi2共转运体回收和溶酶体降解中的作用。为了追踪其在体内的运输,将NaPi2蛋白与增强型绿色荧光蛋白的羧基末端融合。当在负鼠肾细胞中进行转染时,这种融合并不损害野生型共转运体的顶端靶向或PTH诱导的内吞作用。单个和多个Y和LL突变体保留了顶端靶向和PTH诱导的降解。双酸性基序的突变也没有影响。这些数据表明,上述三个基序对于PTH诱导的共转运体内化和/或降解不是必需的。
