ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.

ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.

ZASP is a cytoskeletal PDZ-LIM protein predominantly expressed in striated muscle. It forms multiprotein complexes and plays a pivotal role in the structural integrity of sarcomeres. Mutations in the ZASP protein are associated with myofibrillar myopathy, left ventricular non-compaction and dilated...

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Autores principales: Valentina C Martinelli, W Buck Kyle, Snezana Kojic, Nicola Vitulo, Zhaohui Li, Anna Belgrano, Paolo Maiuri, Lawrence Banks, Matteo Vatta, Giorgio Valle, Georgine Faulkner
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Lenguaje:EN
Publicado: Public Library of Science (PLoS) 2014
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Acceso en línea:https://doaj.org/article/a3314c54bdc94d7eb18d922eb9cc8b75
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spelling oai:doaj.org-article:a3314c54bdc94d7eb18d922eb9cc8b752021-11-18T08:27:15ZZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.1932-620310.1371/journal.pone.0092259https://doaj.org/article/a3314c54bdc94d7eb18d922eb9cc8b752014-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24647531/pdf/?tool=EBIhttps://doaj.org/toc/1932-6203ZASP is a cytoskeletal PDZ-LIM protein predominantly expressed in striated muscle. It forms multiprotein complexes and plays a pivotal role in the structural integrity of sarcomeres. Mutations in the ZASP protein are associated with myofibrillar myopathy, left ventricular non-compaction and dilated cardiomyopathy. The ablation of its murine homologue Cypher results in neonatal lethality. ZASP has several alternatively spliced isoforms, in this paper we clarify the nomenclature of its human isoforms as well as their dynamics and expression pattern in striated muscle. Interaction is demonstrated between ZASP and two new binding partners both of which have roles in signalling, regulation of gene expression and muscle differentiation; the mechanosensing protein Ankrd2 and the tumour suppressor protein p53. These proteins and ZASP form a triple complex that appears to facilitate poly-SUMOylation of p53. We also show the importance of two of its functional domains, the ZM-motif and the PDZ domain. The PDZ domain can bind directly to both Ankrd2 and p53 indicating that there is no competition between it and p53 for the same binding site on Ankrd2. However there is competition for this binding site between p53 and a region of the ZASP protein lacking the PDZ domain, but containing the ZM-motif. ZASP is negative regulator of p53 in transactivation experiments with the p53-responsive promoters, MDM2 and BAX. Mutations in the ZASP ZM-motif induce modification in protein turnover. In fact, two mutants, A165V and A171T, were not able to bind Ankrd2 and bound only poorly to alpha-actinin2. This is important since the A165V mutation is responsible for zaspopathy, a well characterized autosomal dominant distal myopathy. Although the mechanism by which this mutant causes disease is still unknown, this is the first indication of how a ZASP disease associated mutant protein differs from that of the wild type ZASP protein.Valentina C MartinelliW Buck KyleSnezana KojicNicola VituloZhaohui LiAnna BelgranoPaolo MaiuriLawrence BanksMatteo VattaGiorgio ValleGeorgine FaulknerPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 9, Iss 3, p e92259 (2014)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Valentina C Martinelli
W Buck Kyle
Snezana Kojic
Nicola Vitulo
Zhaohui Li
Anna Belgrano
Paolo Maiuri
Lawrence Banks
Matteo Vatta
Giorgio Valle
Georgine Faulkner
ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
description ZASP is a cytoskeletal PDZ-LIM protein predominantly expressed in striated muscle. It forms multiprotein complexes and plays a pivotal role in the structural integrity of sarcomeres. Mutations in the ZASP protein are associated with myofibrillar myopathy, left ventricular non-compaction and dilated cardiomyopathy. The ablation of its murine homologue Cypher results in neonatal lethality. ZASP has several alternatively spliced isoforms, in this paper we clarify the nomenclature of its human isoforms as well as their dynamics and expression pattern in striated muscle. Interaction is demonstrated between ZASP and two new binding partners both of which have roles in signalling, regulation of gene expression and muscle differentiation; the mechanosensing protein Ankrd2 and the tumour suppressor protein p53. These proteins and ZASP form a triple complex that appears to facilitate poly-SUMOylation of p53. We also show the importance of two of its functional domains, the ZM-motif and the PDZ domain. The PDZ domain can bind directly to both Ankrd2 and p53 indicating that there is no competition between it and p53 for the same binding site on Ankrd2. However there is competition for this binding site between p53 and a region of the ZASP protein lacking the PDZ domain, but containing the ZM-motif. ZASP is negative regulator of p53 in transactivation experiments with the p53-responsive promoters, MDM2 and BAX. Mutations in the ZASP ZM-motif induce modification in protein turnover. In fact, two mutants, A165V and A171T, were not able to bind Ankrd2 and bound only poorly to alpha-actinin2. This is important since the A165V mutation is responsible for zaspopathy, a well characterized autosomal dominant distal myopathy. Although the mechanism by which this mutant causes disease is still unknown, this is the first indication of how a ZASP disease associated mutant protein differs from that of the wild type ZASP protein.
format article
author Valentina C Martinelli
W Buck Kyle
Snezana Kojic
Nicola Vitulo
Zhaohui Li
Anna Belgrano
Paolo Maiuri
Lawrence Banks
Matteo Vatta
Giorgio Valle
Georgine Faulkner
author_facet Valentina C Martinelli
W Buck Kyle
Snezana Kojic
Nicola Vitulo
Zhaohui Li
Anna Belgrano
Paolo Maiuri
Lawrence Banks
Matteo Vatta
Giorgio Valle
Georgine Faulkner
author_sort Valentina C Martinelli
title ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
title_short ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
title_full ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
title_fullStr ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
title_full_unstemmed ZASP interacts with the mechanosensing protein Ankrd2 and p53 in the signalling network of striated muscle.
title_sort zasp interacts with the mechanosensing protein ankrd2 and p53 in the signalling network of striated muscle.
publisher Public Library of Science (PLoS)
publishDate 2014
url https://doaj.org/article/a3314c54bdc94d7eb18d922eb9cc8b75
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