Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome

Jin Ju Kim; Judith M. David; Sydney S. Wilbon; Javier V. Santos; Devang M. Patel; Anis Ahmad; Alla Mitrofanova; Xiaochen Liu; Shamroop K. Mallela; Gloria M. Ducasa; Mengyuan Ge; Alexis J. Sloan; Hassan Al-Ali; Marcia Boulina; Armando J. Mendez; Gabriel N. Contreras; Marco Prunotto; Anjum Sohail; Rafael Fridman; Jeffrey H. Miner; Sandra Merscher; Alessia Fornoni

doi:10.1016/j.ebiom.2020.103162

Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome

Jin Ju Kim, Judith M. David, Sydney S. Wilbon, Javier V. Santos, Devang M. Patel, Anis Ahmad, Alla Mitrofanova, Xiaochen Liu, Shamroop K. Mallela, Gloria M. Ducasa, Mengyuan Ge, Alexis J. Sloan, Hassan Al-Ali, Marcia Boulina, Armando J. Mendez, Gabriel N. Contreras, Marco Prunotto, Anjum Sohail, Rafael Fridman, Jeffrey H. MinerSandra Merscher, Alessia Fornoni

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

19 Scopus citations

Abstract

Background: Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that is activated by collagens that is involved in the pathogenesis of fibrotic disorders. Interestingly, de novo production of the collagen type I (Col I) has been observed in Col4a3 knockout mice, a mouse model of Alport Syndrome (AS mice). Deletion of the DDR1 in AS mice was shown to improve survival and renal function. However, the mechanisms driving DDR1-dependent fibrosis remain largely unknown. Methods: Podocyte pDDR1 levels, Collagen and cluster of differentiation 36 (CD36) expression was analyzed by Real-time PCR and Western blot. Lipid droplet accumulation and content was determined using Bodipy staining and enzymatic analysis. CD36 and DDR1 interaction was determined by co-immunoprecipitation. Creatinine, BUN, albuminuria, lipid content, and histological and morphological assessment of kidneys harvested from AS mice treated with Ezetimibe and/or Ramipril or vehicle was performed. Findings: We demonstrate that Col I-mediated DDR1 activation induces CD36-mediated podocyte lipotoxic injury. We show that Ezetimibe interferes with the CD36/DDR1 interaction in vitro and prevents lipotoxicity in AS mice thus preserving renal function similarly to ramipril. Interpretation: Our study suggests that Col I/DDR1-mediated lipotoxicity contributes to renal failure in AS and that targeting this pathway may represent a new therapeutic strategy for patients with AS and with chronic kidney diseases (CKD) associated with Col4 mutations. Funding: This study is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101, UL1TR000460 (Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities), F32DK115109, Hoffmann-La Roche and Alport Syndrome Foundation.

Original language	English
Article number	103162
Journal	EBioMedicine
Volume	63
DOIs	https://doi.org/10.1016/j.ebiom.2020.103162
State	Published - Jan 2021

Keywords

Alport syndrome
Discoidin domain receptor
Glomerular basement membrane
Podocyte lipotoxicity

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10.1016/j.ebiom.2020.103162

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Kim, J. J., David, J. M., Wilbon, S. S., Santos, J. V., Patel, D. M., Ahmad, A., Mitrofanova, A., Liu, X., Mallela, S. K., Ducasa, G. M., Ge, M., Sloan, A. J., Al-Ali, H., Boulina, M., Mendez, A. J., Contreras, G. N., Prunotto, M., Sohail, A., Fridman, R., ... Fornoni, A. (2021). Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome. EBioMedicine, 63, Article 103162. https://doi.org/10.1016/j.ebiom.2020.103162

@article{6280b53ec1864c2d81edfa19123ff6d3,

title = "Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome",

abstract = "Background: Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that is activated by collagens that is involved in the pathogenesis of fibrotic disorders. Interestingly, de novo production of the collagen type I (Col I) has been observed in Col4a3 knockout mice, a mouse model of Alport Syndrome (AS mice). Deletion of the DDR1 in AS mice was shown to improve survival and renal function. However, the mechanisms driving DDR1-dependent fibrosis remain largely unknown. Methods: Podocyte pDDR1 levels, Collagen and cluster of differentiation 36 (CD36) expression was analyzed by Real-time PCR and Western blot. Lipid droplet accumulation and content was determined using Bodipy staining and enzymatic analysis. CD36 and DDR1 interaction was determined by co-immunoprecipitation. Creatinine, BUN, albuminuria, lipid content, and histological and morphological assessment of kidneys harvested from AS mice treated with Ezetimibe and/or Ramipril or vehicle was performed. Findings: We demonstrate that Col I-mediated DDR1 activation induces CD36-mediated podocyte lipotoxic injury. We show that Ezetimibe interferes with the CD36/DDR1 interaction in vitro and prevents lipotoxicity in AS mice thus preserving renal function similarly to ramipril. Interpretation: Our study suggests that Col I/DDR1-mediated lipotoxicity contributes to renal failure in AS and that targeting this pathway may represent a new therapeutic strategy for patients with AS and with chronic kidney diseases (CKD) associated with Col4 mutations. Funding: This study is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101, UL1TR000460 (Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities), F32DK115109, Hoffmann-La Roche and Alport Syndrome Foundation.",

keywords = "Alport syndrome, Discoidin domain receptor, Glomerular basement membrane, Podocyte lipotoxicity",

author = "Kim, {Jin Ju} and David, {Judith M.} and Wilbon, {Sydney S.} and Santos, {Javier V.} and Patel, {Devang M.} and Anis Ahmad and Alla Mitrofanova and Xiaochen Liu and Mallela, {Shamroop K.} and Ducasa, {Gloria M.} and Mengyuan Ge and Sloan, {Alexis J.} and Hassan Al-Ali and Marcia Boulina and Mendez, {Armando J.} and Contreras, {Gabriel N.} and Marco Prunotto and Anjum Sohail and Rafael Fridman and Miner, {Jeffrey H.} and Sandra Merscher and Alessia Fornoni",

note = "Funding Information: We thank C. Gu from Massachusetts General Hospital for analyzing actin remodeling in podocytes. AF is supported by the NIH grants R01DK117599 , R01DK104753 , R01CA227493 , U54DK083912 , UM1DK100846 , U01DK116101 and UL1TR000460 ( Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities). AF, SM are supported by Hoffmann-La Roche and Alport Syndrome Foundation . JJK is supported by postdoctoral fellowship of the NIH/NIDDK ( F32DK115109 ). We give a special thanks to the Katz family for continuous support. Funding Information: A.F., and S.M. are inventors on pending or issued patents (PCT/US11/56272, PCT/US12/62594, PCT/US2019/041730, PCT/US2019/032215, PCT/US13/36484 and PCT 62/674,897) aimed to diagnosing or treating proteinuric kidney diseases. They stand to gain royalties from their future commercialization of these patents. A.F. is Vice-President of L&F Health LLC and is consultant for ZyVersa Therapeutics, Inc. ZyVersa Therapeutics, Inc has licensed worldwide rights to develop and commercialize hydroxypropyl-beta-cyclodextrin from L&F Research for the treatment of kidney disease. A.F. is founder of LipoNexT LLC. S.M. is a consultant for Kintai Therapeutics, Inc and holds equity interest in L&F Research. AF and SM are supported by Hoffman-La Roche and by Boehringer Ingelheim. Funding Information: We thank C. Gu from Massachusetts General Hospital for analyzing actin remodeling in podocytes. AF is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101 and UL1TR000460 (Miami Clinical Translational Science Institute,National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities). AF, SM are supported by Hoffmann-La Roche and Alport Syndrome Foundation. JJK is supported by postdoctoral fellowship of the NIH/NIDDK (F32DK115109). We give a special thanks to the Katz family for continuous support. Publisher Copyright: {\textcopyright} 2020",

year = "2021",

month = jan,

doi = "10.1016/j.ebiom.2020.103162",

language = "English",

volume = "63",

journal = "EBioMedicine",

issn = "2352-3964",

}

Kim, JJ, David, JM, Wilbon, SS, Santos, JV, Patel, DM, Ahmad, A, Mitrofanova, A, Liu, X, Mallela, SK, Ducasa, GM, Ge, M, Sloan, AJ, Al-Ali, H, Boulina, M, Mendez, AJ, Contreras, GN, Prunotto, M, Sohail, A, Fridman, R, Miner, JH, Merscher, S & Fornoni, A 2021, 'Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome', EBioMedicine, vol. 63, 103162. https://doi.org/10.1016/j.ebiom.2020.103162

TY - JOUR

T1 - Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome

AU - Kim, Jin Ju

AU - David, Judith M.

AU - Wilbon, Sydney S.

AU - Santos, Javier V.

AU - Patel, Devang M.

AU - Ahmad, Anis

AU - Mitrofanova, Alla

AU - Liu, Xiaochen

AU - Mallela, Shamroop K.

AU - Ducasa, Gloria M.

AU - Ge, Mengyuan

AU - Sloan, Alexis J.

AU - Al-Ali, Hassan

AU - Boulina, Marcia

AU - Mendez, Armando J.

AU - Contreras, Gabriel N.

AU - Prunotto, Marco

AU - Sohail, Anjum

AU - Fridman, Rafael

AU - Miner, Jeffrey H.

AU - Merscher, Sandra

AU - Fornoni, Alessia

N1 - Funding Information: We thank C. Gu from Massachusetts General Hospital for analyzing actin remodeling in podocytes. AF is supported by the NIH grants R01DK117599 , R01DK104753 , R01CA227493 , U54DK083912 , UM1DK100846 , U01DK116101 and UL1TR000460 ( Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities). AF, SM are supported by Hoffmann-La Roche and Alport Syndrome Foundation . JJK is supported by postdoctoral fellowship of the NIH/NIDDK ( F32DK115109 ). We give a special thanks to the Katz family for continuous support. Funding Information: A.F., and S.M. are inventors on pending or issued patents (PCT/US11/56272, PCT/US12/62594, PCT/US2019/041730, PCT/US2019/032215, PCT/US13/36484 and PCT 62/674,897) aimed to diagnosing or treating proteinuric kidney diseases. They stand to gain royalties from their future commercialization of these patents. A.F. is Vice-President of L&F Health LLC and is consultant for ZyVersa Therapeutics, Inc. ZyVersa Therapeutics, Inc has licensed worldwide rights to develop and commercialize hydroxypropyl-beta-cyclodextrin from L&F Research for the treatment of kidney disease. A.F. is founder of LipoNexT LLC. S.M. is a consultant for Kintai Therapeutics, Inc and holds equity interest in L&F Research. AF and SM are supported by Hoffman-La Roche and by Boehringer Ingelheim. Funding Information: We thank C. Gu from Massachusetts General Hospital for analyzing actin remodeling in podocytes. AF is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101 and UL1TR000460 (Miami Clinical Translational Science Institute,National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities). AF, SM are supported by Hoffmann-La Roche and Alport Syndrome Foundation. JJK is supported by postdoctoral fellowship of the NIH/NIDDK (F32DK115109). We give a special thanks to the Katz family for continuous support. Publisher Copyright: © 2020

PY - 2021/1

Y1 - 2021/1

N2 - Background: Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that is activated by collagens that is involved in the pathogenesis of fibrotic disorders. Interestingly, de novo production of the collagen type I (Col I) has been observed in Col4a3 knockout mice, a mouse model of Alport Syndrome (AS mice). Deletion of the DDR1 in AS mice was shown to improve survival and renal function. However, the mechanisms driving DDR1-dependent fibrosis remain largely unknown. Methods: Podocyte pDDR1 levels, Collagen and cluster of differentiation 36 (CD36) expression was analyzed by Real-time PCR and Western blot. Lipid droplet accumulation and content was determined using Bodipy staining and enzymatic analysis. CD36 and DDR1 interaction was determined by co-immunoprecipitation. Creatinine, BUN, albuminuria, lipid content, and histological and morphological assessment of kidneys harvested from AS mice treated with Ezetimibe and/or Ramipril or vehicle was performed. Findings: We demonstrate that Col I-mediated DDR1 activation induces CD36-mediated podocyte lipotoxic injury. We show that Ezetimibe interferes with the CD36/DDR1 interaction in vitro and prevents lipotoxicity in AS mice thus preserving renal function similarly to ramipril. Interpretation: Our study suggests that Col I/DDR1-mediated lipotoxicity contributes to renal failure in AS and that targeting this pathway may represent a new therapeutic strategy for patients with AS and with chronic kidney diseases (CKD) associated with Col4 mutations. Funding: This study is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101, UL1TR000460 (Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities), F32DK115109, Hoffmann-La Roche and Alport Syndrome Foundation.

AB - Background: Discoidin domain receptor 1 (DDR1) is a receptor tyrosine kinase that is activated by collagens that is involved in the pathogenesis of fibrotic disorders. Interestingly, de novo production of the collagen type I (Col I) has been observed in Col4a3 knockout mice, a mouse model of Alport Syndrome (AS mice). Deletion of the DDR1 in AS mice was shown to improve survival and renal function. However, the mechanisms driving DDR1-dependent fibrosis remain largely unknown. Methods: Podocyte pDDR1 levels, Collagen and cluster of differentiation 36 (CD36) expression was analyzed by Real-time PCR and Western blot. Lipid droplet accumulation and content was determined using Bodipy staining and enzymatic analysis. CD36 and DDR1 interaction was determined by co-immunoprecipitation. Creatinine, BUN, albuminuria, lipid content, and histological and morphological assessment of kidneys harvested from AS mice treated with Ezetimibe and/or Ramipril or vehicle was performed. Findings: We demonstrate that Col I-mediated DDR1 activation induces CD36-mediated podocyte lipotoxic injury. We show that Ezetimibe interferes with the CD36/DDR1 interaction in vitro and prevents lipotoxicity in AS mice thus preserving renal function similarly to ramipril. Interpretation: Our study suggests that Col I/DDR1-mediated lipotoxicity contributes to renal failure in AS and that targeting this pathway may represent a new therapeutic strategy for patients with AS and with chronic kidney diseases (CKD) associated with Col4 mutations. Funding: This study is supported by the NIH grants R01DK117599, R01DK104753, R01CA227493, U54DK083912, UM1DK100846, U01DK116101, UL1TR000460 (Miami Clinical Translational Science Institute, National Center for Advancing Translational Sciences and the National Institute on Minority Health and Health Disparities), F32DK115109, Hoffmann-La Roche and Alport Syndrome Foundation.

KW - Alport syndrome

KW - Discoidin domain receptor

KW - Glomerular basement membrane

KW - Podocyte lipotoxicity

UR - http://www.scopus.com/inward/record.url?scp=85097906113&partnerID=8YFLogxK

U2 - 10.1016/j.ebiom.2020.103162

DO - 10.1016/j.ebiom.2020.103162

M3 - Article

C2 - 33340991

AN - SCOPUS:85097906113

SN - 2352-3964

VL - 63

JO - EBioMedicine

JF - EBioMedicine

M1 - 103162

ER -

Discoidin domain receptor 1 activation links extracellular matrix to podocyte lipotoxicity in Alport syndrome

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