MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2

Michael J Coady; Abdulah El Tarazi; René Santer; Pierre Bissonnette; Louis J Sasseville; Joaquim Calado; Yoann Lussier; Christopher Dumayne; Daniel G Bichet; Jean-Yves Lapointe

doi:10.1681/ASN.2015111282

MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2

Standard

MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2. / Coady, Michael J; El Tarazi, Abdulah; Santer, René; Bissonnette, Pierre; Sasseville, Louis J; Calado, Joaquim; Lussier, Yoann; Dumayne, Christopher; Bichet, Daniel G; Lapointe, Jean-Yves.

In: J AM SOC NEPHROL, Vol. 28, No. 1, 01.2017, p. 85-93.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Coady, MJ, El Tarazi, A, Santer, R, Bissonnette, P, Sasseville, LJ, Calado, J, Lussier, Y, Dumayne, C, Bichet, DG & Lapointe, J-Y 2017, 'MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2', J AM SOC NEPHROL, vol. 28, no. 1, pp. 85-93. https://doi.org/10.1681/ASN.2015111282

APA

Coady, M. J., El Tarazi, A., Santer, R., Bissonnette, P., Sasseville, L. J., Calado, J., Lussier, Y., Dumayne, C., Bichet, D. G., & Lapointe, J-Y. (2017). MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2. J AM SOC NEPHROL, 28(1), 85-93. https://doi.org/10.1681/ASN.2015111282

Vancouver

Coady MJ, El Tarazi A, Santer R, Bissonnette P, Sasseville LJ, Calado J et al. MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2. J AM SOC NEPHROL. 2017 Jan;28(1):85-93. https://doi.org/10.1681/ASN.2015111282

Bibtex

@article{9ec5d2e455ac4d788c1430e0d6ea29f4,

title = "MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2",

abstract = "The renal proximal tubule reabsorbs 90% of the filtered glucose load through the Na(+)-coupled glucose transporter SGLT2, and specific inhibitors of SGLT2 are now available to patients with diabetes to increase urinary glucose excretion. Using expression cloning, we identified an accessory protein, 17 kDa membrane-associated protein (MAP17), that increased SGLT2 activity in RNA-injected Xenopus oocytes by two orders of magnitude. Significant stimulation of SGLT2 activity also occurred in opossum kidney cells cotransfected with SGLT2 and MAP17. Notably, transfection with MAP17 did not change the quantity of SGLT2 protein at the cell surface in either cell type. To confirm the physiologic relevance of the MAP17-SGLT2 interaction, we studied a cohort of 60 individuals with familial renal glucosuria. One patient without any identifiable mutation in the SGLT2 coding gene (SLC5A2) displayed homozygosity for a splicing mutation (c.176+1G>A) in the MAP17 coding gene (PDZK1IP1). In the proximal tubule and in other tissues, MAP17 is known to interact with PDZK1, a scaffolding protein linked to other transporters, including Na(+)/H(+) exchanger 3, and to signaling pathways, such as the A-kinase anchor protein 2/protein kinase A pathway. Thus, these results provide the basis for a more thorough characterization of SGLT2 which would include the possible effects of its inhibition on colocalized renal transporters.",

author = "Coady, {Michael J} and {El Tarazi}, Abdulah and Ren{\'e} Santer and Pierre Bissonnette and Sasseville, {Louis J} and Joaquim Calado and Yoann Lussier and Christopher Dumayne and Bichet, {Daniel G} and Jean-Yves Lapointe",

note = "Copyright {\textcopyright} 2016 by the American Society of Nephrology.",

year = "2017",

month = jan,

doi = "10.1681/ASN.2015111282",

language = "English",

volume = "28",

pages = "85--93",

journal = "J AM SOC NEPHROL",

issn = "1046-6673",

publisher = "American Society of Nephrology",

number = "1",

}

RIS

TY - JOUR

T1 - MAP17 Is a Necessary Activator of Renal Na+/Glucose Cotransporter SGLT2

AU - Coady, Michael J

AU - El Tarazi, Abdulah

AU - Santer, René

AU - Bissonnette, Pierre

AU - Sasseville, Louis J

AU - Calado, Joaquim

AU - Lussier, Yoann

AU - Dumayne, Christopher

AU - Bichet, Daniel G

AU - Lapointe, Jean-Yves

PY - 2017/1

Y1 - 2017/1

N2 - The renal proximal tubule reabsorbs 90% of the filtered glucose load through the Na(+)-coupled glucose transporter SGLT2, and specific inhibitors of SGLT2 are now available to patients with diabetes to increase urinary glucose excretion. Using expression cloning, we identified an accessory protein, 17 kDa membrane-associated protein (MAP17), that increased SGLT2 activity in RNA-injected Xenopus oocytes by two orders of magnitude. Significant stimulation of SGLT2 activity also occurred in opossum kidney cells cotransfected with SGLT2 and MAP17. Notably, transfection with MAP17 did not change the quantity of SGLT2 protein at the cell surface in either cell type. To confirm the physiologic relevance of the MAP17-SGLT2 interaction, we studied a cohort of 60 individuals with familial renal glucosuria. One patient without any identifiable mutation in the SGLT2 coding gene (SLC5A2) displayed homozygosity for a splicing mutation (c.176+1G>A) in the MAP17 coding gene (PDZK1IP1). In the proximal tubule and in other tissues, MAP17 is known to interact with PDZK1, a scaffolding protein linked to other transporters, including Na(+)/H(+) exchanger 3, and to signaling pathways, such as the A-kinase anchor protein 2/protein kinase A pathway. Thus, these results provide the basis for a more thorough characterization of SGLT2 which would include the possible effects of its inhibition on colocalized renal transporters.

AB - The renal proximal tubule reabsorbs 90% of the filtered glucose load through the Na(+)-coupled glucose transporter SGLT2, and specific inhibitors of SGLT2 are now available to patients with diabetes to increase urinary glucose excretion. Using expression cloning, we identified an accessory protein, 17 kDa membrane-associated protein (MAP17), that increased SGLT2 activity in RNA-injected Xenopus oocytes by two orders of magnitude. Significant stimulation of SGLT2 activity also occurred in opossum kidney cells cotransfected with SGLT2 and MAP17. Notably, transfection with MAP17 did not change the quantity of SGLT2 protein at the cell surface in either cell type. To confirm the physiologic relevance of the MAP17-SGLT2 interaction, we studied a cohort of 60 individuals with familial renal glucosuria. One patient without any identifiable mutation in the SGLT2 coding gene (SLC5A2) displayed homozygosity for a splicing mutation (c.176+1G>A) in the MAP17 coding gene (PDZK1IP1). In the proximal tubule and in other tissues, MAP17 is known to interact with PDZK1, a scaffolding protein linked to other transporters, including Na(+)/H(+) exchanger 3, and to signaling pathways, such as the A-kinase anchor protein 2/protein kinase A pathway. Thus, these results provide the basis for a more thorough characterization of SGLT2 which would include the possible effects of its inhibition on colocalized renal transporters.

U2 - 10.1681/ASN.2015111282

DO - 10.1681/ASN.2015111282

M3 - SCORING: Journal article

C2 - 27288013

VL - 28

SP - 85

EP - 93

JO - J AM SOC NEPHROL

JF - J AM SOC NEPHROL

SN - 1046-6673

IS - 1

ER -