Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury

Hak Joo Lee; Meenalakshmi M. Mariappan; Luke Norton; Terry Bakewell; Denis Feliers; Sae Byeol Oh; Andrew Donati; Cherubina S. Rubannelsonkumar; Manjeri A. Venkatachalam; Stephen E. Harris; Isabelle Rubera; Michel Tauc; Goutam Ghosh Choudhury; C. Ronald Kahn; Kumar Sharma; Ralph A. DeFronzo; Balakuntalam S. Kasinath

doi:10.1172/JCI.INSIGHT.143619

Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury

Hak Joo Lee, Meenalakshmi M. Mariappan, Luke Norton, Terry Bakewell, Denis Feliers, Sae Byeol Oh, Andrew Donati, Cherubina S. Rubannelsonkumar, Manjeri A. Venkatachalam, Stephen E. Harris, Isabelle Rubera, Michel Tauc, Goutam Ghosh Choudhury, C. Ronald Kahn, Kumar Sharma, Ralph A. DeFronzo, Balakuntalam S. Kasinath

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Resumen

The role of insulin receptor (IR) activated by hyperinsulinemia in obesity-induced kidney injury is not well understood. We hypothesized that activation of kidney proximal tubule epithelial IR contributes to obesity-induced kidney injury. We administered normal-fat diet (NFD) or high-fat diet (HFD) to control and kidney proximal tubule IR-knockout (KPTIRKO) mice for 4 months. Renal cortical IR expression was decreased by 60% in male and female KPTIRKO mice. Baseline serum glucose, serum creatinine, and the ratio of urinary albumin to creatinine (ACR) were similar in KPTIRKO mice compared to those of controls. On HFD, weight gain and increase in serum cholesterol were similar in control and KPTIRKO mice; blood glucose did not change. HFD increased the following parameters in the male control mice: renal cortical contents of phosphorylated IR and Akt, matrix proteins, urinary ACR, urinary kidney injury molecule-1-to-creatinine ratio, and systolic blood pressure. Renal cortical generation of hydrogen sulfide was reduced in HFD-fed male control mice. All of these parameters were ameliorated in male KPTIRKO mice. Interestingly, female mice were resistant to HFD-induced kidney injury in both genotypes. We conclude that HFD-induced kidney injury requires renal proximal tubule IR activation in male mice.

Idioma original	English (US)
Número de artículo	e143619
Publicación	JCI Insight
Volumen	6
N.º	3
DOI	https://doi.org/10.1172/JCI.INSIGHT.143619
Estado	Published - feb 8 2021

ASJC Scopus subject areas

General Medicine

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Lee, H. J., Mariappan, M. M., Norton, L., Bakewell, T., Feliers, D., Oh, S. B., Donati, A., Rubannelsonkumar, C. S., Venkatachalam, M. A., Harris, S. E., Rubera, I., Tauc, M., Choudhury, G. G., Kahn, C. R., Sharma, K., DeFronzo, R. A., & Kasinath, B. S. (2021). Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury. JCI Insight, 6(3), Artículo e143619. https://doi.org/10.1172/JCI.INSIGHT.143619

Lee, HJ, Mariappan, MM, Norton, L, Bakewell, T, Feliers, D, Oh, SB, Donati, A, Rubannelsonkumar, CS, Venkatachalam, MA , Harris, SE, Rubera, I, Tauc, M, Choudhury, GG, Kahn, CR, Sharma, K , DeFronzo, RA & Kasinath, BS 2021, 'Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury', JCI Insight, vol. 6, n.º 3, e143619. https://doi.org/10.1172/JCI.INSIGHT.143619

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title = "Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury",

abstract = "The role of insulin receptor (IR) activated by hyperinsulinemia in obesity-induced kidney injury is not well understood. We hypothesized that activation of kidney proximal tubule epithelial IR contributes to obesity-induced kidney injury. We administered normal-fat diet (NFD) or high-fat diet (HFD) to control and kidney proximal tubule IR-knockout (KPTIRKO) mice for 4 months. Renal cortical IR expression was decreased by 60% in male and female KPTIRKO mice. Baseline serum glucose, serum creatinine, and the ratio of urinary albumin to creatinine (ACR) were similar in KPTIRKO mice compared to those of controls. On HFD, weight gain and increase in serum cholesterol were similar in control and KPTIRKO mice; blood glucose did not change. HFD increased the following parameters in the male control mice: renal cortical contents of phosphorylated IR and Akt, matrix proteins, urinary ACR, urinary kidney injury molecule-1-to-creatinine ratio, and systolic blood pressure. Renal cortical generation of hydrogen sulfide was reduced in HFD-fed male control mice. All of these parameters were ameliorated in male KPTIRKO mice. Interestingly, female mice were resistant to HFD-induced kidney injury in both genotypes. We conclude that HFD-induced kidney injury requires renal proximal tubule IR activation in male mice.",

author = "Lee, {Hak Joo} and Mariappan, {Meenalakshmi M.} and Luke Norton and Terry Bakewell and Denis Feliers and Oh, {Sae Byeol} and Andrew Donati and Rubannelsonkumar, {Cherubina S.} and Venkatachalam, {Manjeri A.} and Harris, {Stephen E.} and Isabelle Rubera and Michel Tauc and Choudhury, {Goutam Ghosh} and Kahn, {C. Ronald} and Kumar Sharma and DeFronzo, {Ralph A.} and Kasinath, {Balakuntalam S.}",

note = "Publisher Copyright: {\textcopyright} 2021, Lee et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License.",

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doi = "10.1172/JCI.INSIGHT.143619",

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AU - Lee, Hak Joo

AU - Mariappan, Meenalakshmi M.

AU - Norton, Luke

AU - Bakewell, Terry

AU - Feliers, Denis

AU - Oh, Sae Byeol

AU - Donati, Andrew

AU - Rubannelsonkumar, Cherubina S.

AU - Venkatachalam, Manjeri A.

AU - Harris, Stephen E.

AU - Rubera, Isabelle

AU - Tauc, Michel

AU - Choudhury, Goutam Ghosh

AU - Kahn, C. Ronald

AU - Sharma, Kumar

AU - DeFronzo, Ralph A.

AU - Kasinath, Balakuntalam S.

PY - 2021/2/8

Y1 - 2021/2/8

N2 - The role of insulin receptor (IR) activated by hyperinsulinemia in obesity-induced kidney injury is not well understood. We hypothesized that activation of kidney proximal tubule epithelial IR contributes to obesity-induced kidney injury. We administered normal-fat diet (NFD) or high-fat diet (HFD) to control and kidney proximal tubule IR-knockout (KPTIRKO) mice for 4 months. Renal cortical IR expression was decreased by 60% in male and female KPTIRKO mice. Baseline serum glucose, serum creatinine, and the ratio of urinary albumin to creatinine (ACR) were similar in KPTIRKO mice compared to those of controls. On HFD, weight gain and increase in serum cholesterol were similar in control and KPTIRKO mice; blood glucose did not change. HFD increased the following parameters in the male control mice: renal cortical contents of phosphorylated IR and Akt, matrix proteins, urinary ACR, urinary kidney injury molecule-1-to-creatinine ratio, and systolic blood pressure. Renal cortical generation of hydrogen sulfide was reduced in HFD-fed male control mice. All of these parameters were ameliorated in male KPTIRKO mice. Interestingly, female mice were resistant to HFD-induced kidney injury in both genotypes. We conclude that HFD-induced kidney injury requires renal proximal tubule IR activation in male mice.

AB - The role of insulin receptor (IR) activated by hyperinsulinemia in obesity-induced kidney injury is not well understood. We hypothesized that activation of kidney proximal tubule epithelial IR contributes to obesity-induced kidney injury. We administered normal-fat diet (NFD) or high-fat diet (HFD) to control and kidney proximal tubule IR-knockout (KPTIRKO) mice for 4 months. Renal cortical IR expression was decreased by 60% in male and female KPTIRKO mice. Baseline serum glucose, serum creatinine, and the ratio of urinary albumin to creatinine (ACR) were similar in KPTIRKO mice compared to those of controls. On HFD, weight gain and increase in serum cholesterol were similar in control and KPTIRKO mice; blood glucose did not change. HFD increased the following parameters in the male control mice: renal cortical contents of phosphorylated IR and Akt, matrix proteins, urinary ACR, urinary kidney injury molecule-1-to-creatinine ratio, and systolic blood pressure. Renal cortical generation of hydrogen sulfide was reduced in HFD-fed male control mice. All of these parameters were ameliorated in male KPTIRKO mice. Interestingly, female mice were resistant to HFD-induced kidney injury in both genotypes. We conclude that HFD-induced kidney injury requires renal proximal tubule IR activation in male mice.

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Proximal tubular epithelial insulin receptor mediates high-fat diet-induced kidney injury

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