Parathyroid Hormone-dependent Degradation of Type II Na+/Pi Cotransporters*

Parathyroid hormone (PTH) inhibits proximal tubular brush border membrane Na+/Picotransport activity; this decrease in the transport activity was found to be associated with a decrease in type II Na+/Pi cotransporter protein content in rat brush border membranes. In the present study we investigated the PTH-dependent regulation of the type II Na+/Pi cotransporter in opossum kidney cells, a previously established model to study cellular mechanisms involved in the regulation of proximal tubular Na+/Picotransport. We transfected opossum kidney cells with a cDNA coding for NaPi-2 (rat renal type II Na+/Pi cotransporter). This allowed the study of PTH-dependent regulation of the transfected NaPi-2 and of the corresponding intrinsic cotransporter (NaPi-4). The results show (i) that the intrinsic and the transfected cotransporters are functionally (transport) and morphologically (immunofluorescence) localized at the apical membrane, (ii) that the intrinsic as well as the transfected Na+/Pi cotransport activities are inhibited by PTH, (iii) that PTH leads to a retrieval of both cotransporters from the apical membrane, (iv) that both cotransporters are rapidly degraded in response to PTH, and (v) that the reappearance/recovery of type II Na+/Pi cotransporter protein and function from PTH inhibition requires de novo protein synthesis. These results document that PTH leads to a removal of type II Na+/Pi cotransporters from the apical membrane and to their subsequent degradation.

[1]  H. Murer,et al.  Renal sodium-phosphate cotransport. , 1994, Current opinion in nephrology and hypertension.

[2]  A. Werner,et al.  Renal Na(+)-phosphate cotransport in murine X-linked hypophosphatemic rickets. Molecular characterization. , 1994, The Journal of clinical investigation.

[3]  A. Verkman,et al.  Constitutive and regulated membrane expression of aquaporin 1 and aquaporin 2 water channels in stably transfected LLC-PK1 epithelial cells. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[4]  H. Murer Homer Smith Award. Cellular mechanisms in proximal tubular Pi reabsorption: some answers and more questions. , 1992, Journal of the American Society of Nephrology : JASN.

[5]  J. Collins,et al.  Molecular cloning, functional expression, tissue distribution, and in situ hybridization of the renal sodium phosphate (Na+/Pi) transporter in the control and hypophosphatemic mouse , 1994, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[6]  D. Markovich,et al.  Cloning of a Na/Pi cotransporter from opossum kidney cells. , 1994, The Journal of biological chemistry.

[7]  G. Semenza,et al.  Cloning and expression of cDNA for a Na/Pi cotransport system of kidney cortex. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[8]  F. Lang,et al.  Role of N-linked glycosylation in rat renal Na/Pi-cotransport. , 1994, The Journal of biological chemistry.

[9]  H. Yamamoto,et al.  Cloning and functional expression of a Na(+)-dependent phosphate co-transporter from human kidney: cDNA cloning and functional expression. , 1995, The Biochemical journal.

[10]  R. Quatrano Genomics , 1998, Plant Cell.

[11]  O. Poulain-Godefroy,et al.  Highly inducible synthesis of heterologous proteins in epithelial cells carrying a glucocorticoid-responsive vector. , 1992, Gene.

[12]  H. Zoghbi,et al.  Molecular cloning of the cDNA encoding a human renal sodium phosphate transport protein and its assignment to chromosome 6p21.3-p23. , 1993, Genomics.

[13]  A. Werner,et al.  Expression cloning of human and rat renal cortex Na/Pi cotransport. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[14]  R. Rizzoli,et al.  Sodium-dependent phosphate transport inhibited by parathyroid hormone and cyclic AMP stimulation in an opossum kidney cell line. , 1986, The Journal of biological chemistry.

[15]  C. F. Anderson The Kidney: Physiology and Pathophysiology , 1985 .

[16]  H. Murer,et al.  Parathyroid hormone regulates phosphate transport in OK cells via an irreversible inactivation of a membrane protein , 1987, FEBS letters.

[17]  H. Murer,et al.  Modulation of Na+-Pi cotransport in opossum kidney cells by extracellular phosphate. , 1988, The American journal of physiology.

[18]  J. Pfeilschifter,et al.  Parathyroid hormone inhibition of Na+/phosphate cotransport in OK cells: requirement of protein kinase C-dependent pathway. , 1989, Biochimica et biophysica acta.