Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases

Diseases of the glomerular basement membrane (GBM), such as Goodpasture’s disease (GP) and Alport syndrome (AS), are a major cause of chronic kidney failure and an unmet medical need. Collagen IV(α345) is an important architectural element of the GBM that was discovered in previous research on GP an...

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Autores principales: Pokidysheva, Elena N., Seeger, Harald, Pedchenko, Vadim, Chetyrkin, Sergei, Bergmann, Carsten, Abrahamson, Dale, Cui, Zhao Wei, Delpire, Eric, Fervenza, Fernando C., Fidler, Aaron L., Fogo, Agnes B., Gaspert, Ariana, Grohmann, Maik, Gross, Oliver, Haddad, George, Harris, Raymond C., Kashtan, Clifford, Kitching, A. Richard, Lorenzen, Johan M., McAdoo, Stephen, Pusey, Charles D., Segelmark, Marten, Simmons, Alicia, Voziyan, Paul A., Wagner, Timo, Wüthrich, Rudolf P., Zhao, Ming-Hui, Boudko, Sergei P., Kistler, Andreas D., Hudson, Billy G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2021
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8100070/
https://www.ncbi.nlm.nih.gov/pubmed/33774048
http://dx.doi.org/10.1016/j.jbc.2021.100590
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author Pokidysheva, Elena N.
Seeger, Harald
Pedchenko, Vadim
Chetyrkin, Sergei
Bergmann, Carsten
Abrahamson, Dale
Cui, Zhao Wei
Delpire, Eric
Fervenza, Fernando C.
Fidler, Aaron L.
Fogo, Agnes B.
Gaspert, Ariana
Grohmann, Maik
Gross, Oliver
Haddad, George
Harris, Raymond C.
Kashtan, Clifford
Kitching, A. Richard
Lorenzen, Johan M.
McAdoo, Stephen
Pusey, Charles D.
Segelmark, Marten
Simmons, Alicia
Voziyan, Paul A.
Wagner, Timo
Wüthrich, Rudolf P.
Zhao, Ming-Hui
Boudko, Sergei P.
Kistler, Andreas D.
Hudson, Billy G.
author_facet Pokidysheva, Elena N.
Seeger, Harald
Pedchenko, Vadim
Chetyrkin, Sergei
Bergmann, Carsten
Abrahamson, Dale
Cui, Zhao Wei
Delpire, Eric
Fervenza, Fernando C.
Fidler, Aaron L.
Fogo, Agnes B.
Gaspert, Ariana
Grohmann, Maik
Gross, Oliver
Haddad, George
Harris, Raymond C.
Kashtan, Clifford
Kitching, A. Richard
Lorenzen, Johan M.
McAdoo, Stephen
Pusey, Charles D.
Segelmark, Marten
Simmons, Alicia
Voziyan, Paul A.
Wagner, Timo
Wüthrich, Rudolf P.
Zhao, Ming-Hui
Boudko, Sergei P.
Kistler, Andreas D.
Hudson, Billy G.
author_sort Pokidysheva, Elena N.
collection PubMed
description Diseases of the glomerular basement membrane (GBM), such as Goodpasture’s disease (GP) and Alport syndrome (AS), are a major cause of chronic kidney failure and an unmet medical need. Collagen IV(α345) is an important architectural element of the GBM that was discovered in previous research on GP and AS. How this collagen enables GBM to function as a permselective filter and how structural defects cause renal failure remain an enigma. We found a distinctive genetic variant of collagen IV(α345) in both a familial GP case and four AS kindreds that provided insights into these mechanisms. The variant is an 8-residue appendage at the C-terminus of the α3 subunit of the α345 hexamer. A knock-in mouse harboring the variant displayed GBM abnormalities and proteinuria. This pathology phenocopied AS, which pinpointed the α345 hexamer as a focal point in GBM function and dysfunction. Crystallography and assembly studies revealed underlying hexamer mechanisms, as described in Boudko et al. and Pedchenko et al. Bioactive sites on the hexamer surface were identified where pathogenic pathways of GP and AS converge and, potentially, that of diabetic nephropathy (DN). We conclude that the hexamer functions include signaling and organizing macromolecular complexes, which enable GBM assembly and function. Therapeutic modulation or replacement of α345 hexamer could therefore be a potential treatment for GBM diseases, and this knock-in mouse model is suitable for developing gene therapies.
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spelling pubmed-81000702021-05-13 Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases Pokidysheva, Elena N. Seeger, Harald Pedchenko, Vadim Chetyrkin, Sergei Bergmann, Carsten Abrahamson, Dale Cui, Zhao Wei Delpire, Eric Fervenza, Fernando C. Fidler, Aaron L. Fogo, Agnes B. Gaspert, Ariana Grohmann, Maik Gross, Oliver Haddad, George Harris, Raymond C. Kashtan, Clifford Kitching, A. Richard Lorenzen, Johan M. McAdoo, Stephen Pusey, Charles D. Segelmark, Marten Simmons, Alicia Voziyan, Paul A. Wagner, Timo Wüthrich, Rudolf P. Zhao, Ming-Hui Boudko, Sergei P. Kistler, Andreas D. Hudson, Billy G. J Biol Chem Research Article Diseases of the glomerular basement membrane (GBM), such as Goodpasture’s disease (GP) and Alport syndrome (AS), are a major cause of chronic kidney failure and an unmet medical need. Collagen IV(α345) is an important architectural element of the GBM that was discovered in previous research on GP and AS. How this collagen enables GBM to function as a permselective filter and how structural defects cause renal failure remain an enigma. We found a distinctive genetic variant of collagen IV(α345) in both a familial GP case and four AS kindreds that provided insights into these mechanisms. The variant is an 8-residue appendage at the C-terminus of the α3 subunit of the α345 hexamer. A knock-in mouse harboring the variant displayed GBM abnormalities and proteinuria. This pathology phenocopied AS, which pinpointed the α345 hexamer as a focal point in GBM function and dysfunction. Crystallography and assembly studies revealed underlying hexamer mechanisms, as described in Boudko et al. and Pedchenko et al. Bioactive sites on the hexamer surface were identified where pathogenic pathways of GP and AS converge and, potentially, that of diabetic nephropathy (DN). We conclude that the hexamer functions include signaling and organizing macromolecular complexes, which enable GBM assembly and function. Therapeutic modulation or replacement of α345 hexamer could therefore be a potential treatment for GBM diseases, and this knock-in mouse model is suitable for developing gene therapies. American Society for Biochemistry and Molecular Biology 2021-03-26 /pmc/articles/PMC8100070/ /pubmed/33774048 http://dx.doi.org/10.1016/j.jbc.2021.100590 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Article
Pokidysheva, Elena N.
Seeger, Harald
Pedchenko, Vadim
Chetyrkin, Sergei
Bergmann, Carsten
Abrahamson, Dale
Cui, Zhao Wei
Delpire, Eric
Fervenza, Fernando C.
Fidler, Aaron L.
Fogo, Agnes B.
Gaspert, Ariana
Grohmann, Maik
Gross, Oliver
Haddad, George
Harris, Raymond C.
Kashtan, Clifford
Kitching, A. Richard
Lorenzen, Johan M.
McAdoo, Stephen
Pusey, Charles D.
Segelmark, Marten
Simmons, Alicia
Voziyan, Paul A.
Wagner, Timo
Wüthrich, Rudolf P.
Zhao, Ming-Hui
Boudko, Sergei P.
Kistler, Andreas D.
Hudson, Billy G.
Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title_full Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title_fullStr Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title_full_unstemmed Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title_short Collagen IV(α345) dysfunction in glomerular basement membrane diseases. I. Discovery of a COL4A3 variant in familial Goodpasture’s and Alport diseases
title_sort collagen iv(α345) dysfunction in glomerular basement membrane diseases. i. discovery of a col4a3 variant in familial goodpasture’s and alport diseases
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8100070/
https://www.ncbi.nlm.nih.gov/pubmed/33774048
http://dx.doi.org/10.1016/j.jbc.2021.100590
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