Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy

Johanna Guzman; Alexandra N. Jauregui; Sandra Merscher-Gomez; Dony Maiguel; Cristina Muresan; Alla Mitrofanova; Ana Diez-Sampedro; Joel Szust; Tae Hyun Yoo; Rodrigo Villarreal; Christopher Pedigo; R. Damaris Molano; Kevin Johnson; Barbara Kahn; Bjoern Hartleben; Tobias B. Huber; Jharna Saha; George W. Burke; E. Dale Abel; Frank C. Brosius; Alessia Fornoni

doi:10.2337/db13-0752

Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy

Johanna Guzman, Alexandra N. Jauregui, Sandra Merscher-Gomez, Dony Maiguel, Cristina Muresan, Alla Mitrofanova, Ana Diez-Sampedro, Joel Szust, Tae Hyun Yoo, Rodrigo Villarreal, Christopher Pedigo, R. Damaris Molano, Kevin Johnson, Barbara Kahn, Bjoern Hartleben, Tobias B. Huber, Jharna Saha, George W. Burke, E. Dale Abel, Frank C. BrosiusAlessia Fornoni

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

Podocytes are a major component of the glomerular filtration barrier, and their ability to sense insulin is essential to prevent proteinuria. Here we identify the insulin downstream effector GLUT4 as a key modulator of podocyte function in diabetic nephropathy (DN). Mice with a podocyte-specific deletion of GLUT4 (G4 KO) did not develop albuminuria despite having larger and fewer podocytes than wildtype (WT) mice. Glomeruli from G4 KO mice were protected from diabetes-induced hypertrophy, mesangial expansion, and albuminuria and failed to activate the mammalian target of rapamycin (mTOR) pathway. In order to investigate whether the protection observed in G4 KO mice was due to the failure to activate mTOR, we used three independent in vivo experiments. G4 KO mice did not develop lipopolysaccharide-induced albuminuria, which requires mTOR activation. On the contrary, G4 KO mice as well as WT mice treated with the mTOR inhibitor rapamycin developed worse adriamycininduced nephropathy than WT mice, consistent with the fact that adriamycin toxicity is augmented by mTOR inhibition. In summary, GLUT4 deficiency in podocytes affects podocyte nutrient sensing, results in fewer and larger cells, and protects mice from the development of DN. This is the first evidence that podocyte hypertrophy concomitant with podocytopenia may be associated with protection from proteinuria.

Original language	English (US)
Pages (from-to)	701-714
Number of pages	14
Journal	Diabetes
Volume	63
Issue number	2
DOIs	https://doi.org/10.2337/db13-0752
State	Published - Feb 2014
Externally published	Yes

ASJC Scopus subject areas

Internal Medicine
Endocrinology, Diabetes and Metabolism

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Guzman, J., Jauregui, A. N., Merscher-Gomez, S., Maiguel, D., Muresan, C., Mitrofanova, A., Diez-Sampedro, A., Szust, J., Yoo, T. H., Villarreal, R., Pedigo, C., Molano, R. D., Johnson, K., Kahn, B., Hartleben, B., Huber, T. B., Saha, J., Burke, G. W., Abel, E. D., ... Fornoni, A. (2014). Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy. Diabetes, 63(2), 701-714. https://doi.org/10.2337/db13-0752

Guzman, J, Jauregui, AN, Merscher-Gomez, S, Maiguel, D, Muresan, C, Mitrofanova, A, Diez-Sampedro, A, Szust, J, Yoo, TH, Villarreal, R, Pedigo, C, Molano, RD, Johnson, K, Kahn, B, Hartleben, B, Huber, TB, Saha, J, Burke, GW, Abel, ED, Brosius, FC & Fornoni, A 2014, 'Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy', Diabetes, vol. 63, no. 2, pp. 701-714. https://doi.org/10.2337/db13-0752

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title = "Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy",

abstract = "Podocytes are a major component of the glomerular filtration barrier, and their ability to sense insulin is essential to prevent proteinuria. Here we identify the insulin downstream effector GLUT4 as a key modulator of podocyte function in diabetic nephropathy (DN). Mice with a podocyte-specific deletion of GLUT4 (G4 KO) did not develop albuminuria despite having larger and fewer podocytes than wildtype (WT) mice. Glomeruli from G4 KO mice were protected from diabetes-induced hypertrophy, mesangial expansion, and albuminuria and failed to activate the mammalian target of rapamycin (mTOR) pathway. In order to investigate whether the protection observed in G4 KO mice was due to the failure to activate mTOR, we used three independent in vivo experiments. G4 KO mice did not develop lipopolysaccharide-induced albuminuria, which requires mTOR activation. On the contrary, G4 KO mice as well as WT mice treated with the mTOR inhibitor rapamycin developed worse adriamycininduced nephropathy than WT mice, consistent with the fact that adriamycin toxicity is augmented by mTOR inhibition. In summary, GLUT4 deficiency in podocytes affects podocyte nutrient sensing, results in fewer and larger cells, and protects mice from the development of DN. This is the first evidence that podocyte hypertrophy concomitant with podocytopenia may be associated with protection from proteinuria.",

author = "Johanna Guzman and Jauregui, {Alexandra N.} and Sandra Merscher-Gomez and Dony Maiguel and Cristina Muresan and Alla Mitrofanova and Ana Diez-Sampedro and Joel Szust and Yoo, {Tae Hyun} and Rodrigo Villarreal and Christopher Pedigo and Molano, {R. Damaris} and Kevin Johnson and Barbara Kahn and Bjoern Hartleben and Huber, {Tobias B.} and Jharna Saha and Burke, {George W.} and Abel, {E. Dale} and Brosius, {Frank C.} and Alessia Fornoni",

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doi = "10.2337/db13-0752",

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T1 - Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy

AU - Guzman, Johanna

AU - Jauregui, Alexandra N.

AU - Merscher-Gomez, Sandra

AU - Maiguel, Dony

AU - Muresan, Cristina

AU - Mitrofanova, Alla

AU - Diez-Sampedro, Ana

AU - Szust, Joel

AU - Yoo, Tae Hyun

AU - Villarreal, Rodrigo

AU - Pedigo, Christopher

AU - Molano, R. Damaris

AU - Johnson, Kevin

AU - Kahn, Barbara

AU - Hartleben, Bjoern

AU - Huber, Tobias B.

AU - Saha, Jharna

AU - Burke, George W.

AU - Abel, E. Dale

AU - Brosius, Frank C.

AU - Fornoni, Alessia

PY - 2014/2

Y1 - 2014/2

N2 - Podocytes are a major component of the glomerular filtration barrier, and their ability to sense insulin is essential to prevent proteinuria. Here we identify the insulin downstream effector GLUT4 as a key modulator of podocyte function in diabetic nephropathy (DN). Mice with a podocyte-specific deletion of GLUT4 (G4 KO) did not develop albuminuria despite having larger and fewer podocytes than wildtype (WT) mice. Glomeruli from G4 KO mice were protected from diabetes-induced hypertrophy, mesangial expansion, and albuminuria and failed to activate the mammalian target of rapamycin (mTOR) pathway. In order to investigate whether the protection observed in G4 KO mice was due to the failure to activate mTOR, we used three independent in vivo experiments. G4 KO mice did not develop lipopolysaccharide-induced albuminuria, which requires mTOR activation. On the contrary, G4 KO mice as well as WT mice treated with the mTOR inhibitor rapamycin developed worse adriamycininduced nephropathy than WT mice, consistent with the fact that adriamycin toxicity is augmented by mTOR inhibition. In summary, GLUT4 deficiency in podocytes affects podocyte nutrient sensing, results in fewer and larger cells, and protects mice from the development of DN. This is the first evidence that podocyte hypertrophy concomitant with podocytopenia may be associated with protection from proteinuria.

AB - Podocytes are a major component of the glomerular filtration barrier, and their ability to sense insulin is essential to prevent proteinuria. Here we identify the insulin downstream effector GLUT4 as a key modulator of podocyte function in diabetic nephropathy (DN). Mice with a podocyte-specific deletion of GLUT4 (G4 KO) did not develop albuminuria despite having larger and fewer podocytes than wildtype (WT) mice. Glomeruli from G4 KO mice were protected from diabetes-induced hypertrophy, mesangial expansion, and albuminuria and failed to activate the mammalian target of rapamycin (mTOR) pathway. In order to investigate whether the protection observed in G4 KO mice was due to the failure to activate mTOR, we used three independent in vivo experiments. G4 KO mice did not develop lipopolysaccharide-induced albuminuria, which requires mTOR activation. On the contrary, G4 KO mice as well as WT mice treated with the mTOR inhibitor rapamycin developed worse adriamycininduced nephropathy than WT mice, consistent with the fact that adriamycin toxicity is augmented by mTOR inhibition. In summary, GLUT4 deficiency in podocytes affects podocyte nutrient sensing, results in fewer and larger cells, and protects mice from the development of DN. This is the first evidence that podocyte hypertrophy concomitant with podocytopenia may be associated with protection from proteinuria.

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Podocyte-specific GLUT4-deficient mice have fewer and larger podocytes and are protected from diabetic nephropathy

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