Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin

mHsp60-mHsp10 assists the folding of mitochondrial matrix proteins without the negative ATP binding inter-ring cooperativity of GroEL-GroES. Here we report the crystal structure of an ATP (ADP:BeF(3)-bound) ground-state mimic double-ring mHsp60(14)-(mHsp10(7))(2) football complex, and the cryo-EM st...

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Autores principales: Gomez-Llorente, Yacob, Jebara, Fady, Patra, Malay, Malik, Radhika, Nisemblat, Shahar, Chomsky-Hecht, Orna, Parnas, Avital, Azem, Abdussalam, Hirsch, Joel A., Ubarretxena-Belandia, Iban
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7174398/
https://www.ncbi.nlm.nih.gov/pubmed/32317635
http://dx.doi.org/10.1038/s41467-020-15698-8
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author Gomez-Llorente, Yacob
Jebara, Fady
Patra, Malay
Malik, Radhika
Nisemblat, Shahar
Chomsky-Hecht, Orna
Parnas, Avital
Azem, Abdussalam
Hirsch, Joel A.
Ubarretxena-Belandia, Iban
author_facet Gomez-Llorente, Yacob
Jebara, Fady
Patra, Malay
Malik, Radhika
Nisemblat, Shahar
Chomsky-Hecht, Orna
Parnas, Avital
Azem, Abdussalam
Hirsch, Joel A.
Ubarretxena-Belandia, Iban
author_sort Gomez-Llorente, Yacob
collection PubMed
description mHsp60-mHsp10 assists the folding of mitochondrial matrix proteins without the negative ATP binding inter-ring cooperativity of GroEL-GroES. Here we report the crystal structure of an ATP (ADP:BeF(3)-bound) ground-state mimic double-ring mHsp60(14)-(mHsp10(7))(2) football complex, and the cryo-EM structures of the ADP-bound successor mHsp60(14)-(mHsp10(7))(2) complex, and a single-ring mHsp60(7)-mHsp10(7) half-football. The structures explain the nucleotide dependence of mHsp60 ring formation, and reveal an inter-ring nucleotide symmetry consistent with the absence of negative cooperativity. In the ground-state a two-fold symmetric H-bond and a salt bridge stitch the double-rings together, whereas only the H-bond remains as the equatorial gap increases in an ADP football poised to split into half-footballs. Refolding assays demonstrate obligate single- and double-ring mHsp60 variants are active, and complementation analysis in bacteria shows the single-ring variant is as efficient as wild-type mHsp60. Our work provides a structural basis for active single- and double-ring complexes coexisting in the mHsp60-mHsp10 chaperonin reaction cycle.
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spelling pubmed-71743982020-04-28 Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin Gomez-Llorente, Yacob Jebara, Fady Patra, Malay Malik, Radhika Nisemblat, Shahar Chomsky-Hecht, Orna Parnas, Avital Azem, Abdussalam Hirsch, Joel A. Ubarretxena-Belandia, Iban Nat Commun Article mHsp60-mHsp10 assists the folding of mitochondrial matrix proteins without the negative ATP binding inter-ring cooperativity of GroEL-GroES. Here we report the crystal structure of an ATP (ADP:BeF(3)-bound) ground-state mimic double-ring mHsp60(14)-(mHsp10(7))(2) football complex, and the cryo-EM structures of the ADP-bound successor mHsp60(14)-(mHsp10(7))(2) complex, and a single-ring mHsp60(7)-mHsp10(7) half-football. The structures explain the nucleotide dependence of mHsp60 ring formation, and reveal an inter-ring nucleotide symmetry consistent with the absence of negative cooperativity. In the ground-state a two-fold symmetric H-bond and a salt bridge stitch the double-rings together, whereas only the H-bond remains as the equatorial gap increases in an ADP football poised to split into half-footballs. Refolding assays demonstrate obligate single- and double-ring mHsp60 variants are active, and complementation analysis in bacteria shows the single-ring variant is as efficient as wild-type mHsp60. Our work provides a structural basis for active single- and double-ring complexes coexisting in the mHsp60-mHsp10 chaperonin reaction cycle. Nature Publishing Group UK 2020-04-21 /pmc/articles/PMC7174398/ /pubmed/32317635 http://dx.doi.org/10.1038/s41467-020-15698-8 Text en © The Author(s) 2020 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Gomez-Llorente, Yacob
Jebara, Fady
Patra, Malay
Malik, Radhika
Nisemblat, Shahar
Chomsky-Hecht, Orna
Parnas, Avital
Azem, Abdussalam
Hirsch, Joel A.
Ubarretxena-Belandia, Iban
Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title_full Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title_fullStr Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title_full_unstemmed Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title_short Structural basis for active single and double ring complexes in human mitochondrial Hsp60-Hsp10 chaperonin
title_sort structural basis for active single and double ring complexes in human mitochondrial hsp60-hsp10 chaperonin
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7174398/
https://www.ncbi.nlm.nih.gov/pubmed/32317635
http://dx.doi.org/10.1038/s41467-020-15698-8
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