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Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression

BACKGROUND: Traumatic Heterotopic Ossification (tHO) is one of complications of elbow fractures to the detriment of patients’ rehabilitation, and the severity of tHO corresponds to the size of ectopic bone. It has yet to be elucidated which proteins and pathways underlying the progression of tHO, an...

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Autores principales: Wei, Zhenyuan, Guo, Shang, Wang, Hongwei, Zhao, Yang, Yan, Jiren, Zhang, Chi, Zhong, Biao
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Chinese Speaking Orthopaedic Society 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9117278/
https://www.ncbi.nlm.nih.gov/pubmed/35615641
http://dx.doi.org/10.1016/j.jot.2022.04.003
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author Wei, Zhenyuan
Guo, Shang
Wang, Hongwei
Zhao, Yang
Yan, Jiren
Zhang, Chi
Zhong, Biao
author_facet Wei, Zhenyuan
Guo, Shang
Wang, Hongwei
Zhao, Yang
Yan, Jiren
Zhang, Chi
Zhong, Biao
author_sort Wei, Zhenyuan
collection PubMed
description BACKGROUND: Traumatic Heterotopic Ossification (tHO) is one of complications of elbow fractures to the detriment of patients’ rehabilitation, and the severity of tHO corresponds to the size of ectopic bone. It has yet to be elucidated which proteins and pathways underlying the progression of tHO, and biomarkers to predict the severity of tHO at early stage of the disease also need further investigation. METHODS: In this study, a new rat model with distinct volume of ectopic bone was established first. Then a data-independent acquisition proteomics approach was used to investigate injured site tissues sequentially obtained from these rats (2, 7, 14, and 28 days post-injury). Differentially expressed analysis, functional annotation and co-expression analysis and protein–protein interaction network were performed to explore the pathways and hub proteins in the tHO progression. Clinical samples from a nest case–control study were used to validate the selected proteins for predicting the severity of tHO. RESULTS: The Achilles Tenotomy (AT) induced significantly larger sizes of ectopic bone compared to Partial Achilles Tenotomy (PAT) in rat models. A total of 3547 quantifiable proteins were screened for differential expression analysis among the AT, PAT and control groups. The hierarchical clustering and expression pattern analysis revealed more apparent difference in the pathways such as oxidative phosphorylation, mitochondrial function, and sirtuin signaling between AT and PAT group at the early stage (2 dpi) of tHO. The co-expression analysis identified five hub proteins, UBA1, EIF3E, RPL17, RPL27, and RPS28. qPCR assay, immunoblot assay and immunohistochemistry assay verified that these proteins had higher expression level in the tissue samples of clinically relevant HO patients and clinically irrelevant HO patients than HO negative patients. CONCLUSION: The new established animal model and proteome profile could serve as a solid foundation for the comprehensive investigation of the progression of traumatic heterotopic ossification. And the identified 5 proteins (UBA1, EIF3E, RPL17, RPL27, and RPS28) may serve as potential biomarkers to predict the severity of tHO. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: The proteins identified in this study may be the potential biomarkers and therapeutic targets for predicting and treating the tHO at early stage.
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spelling pubmed-91172782022-05-24 Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression Wei, Zhenyuan Guo, Shang Wang, Hongwei Zhao, Yang Yan, Jiren Zhang, Chi Zhong, Biao J Orthop Translat Original Article BACKGROUND: Traumatic Heterotopic Ossification (tHO) is one of complications of elbow fractures to the detriment of patients’ rehabilitation, and the severity of tHO corresponds to the size of ectopic bone. It has yet to be elucidated which proteins and pathways underlying the progression of tHO, and biomarkers to predict the severity of tHO at early stage of the disease also need further investigation. METHODS: In this study, a new rat model with distinct volume of ectopic bone was established first. Then a data-independent acquisition proteomics approach was used to investigate injured site tissues sequentially obtained from these rats (2, 7, 14, and 28 days post-injury). Differentially expressed analysis, functional annotation and co-expression analysis and protein–protein interaction network were performed to explore the pathways and hub proteins in the tHO progression. Clinical samples from a nest case–control study were used to validate the selected proteins for predicting the severity of tHO. RESULTS: The Achilles Tenotomy (AT) induced significantly larger sizes of ectopic bone compared to Partial Achilles Tenotomy (PAT) in rat models. A total of 3547 quantifiable proteins were screened for differential expression analysis among the AT, PAT and control groups. The hierarchical clustering and expression pattern analysis revealed more apparent difference in the pathways such as oxidative phosphorylation, mitochondrial function, and sirtuin signaling between AT and PAT group at the early stage (2 dpi) of tHO. The co-expression analysis identified five hub proteins, UBA1, EIF3E, RPL17, RPL27, and RPS28. qPCR assay, immunoblot assay and immunohistochemistry assay verified that these proteins had higher expression level in the tissue samples of clinically relevant HO patients and clinically irrelevant HO patients than HO negative patients. CONCLUSION: The new established animal model and proteome profile could serve as a solid foundation for the comprehensive investigation of the progression of traumatic heterotopic ossification. And the identified 5 proteins (UBA1, EIF3E, RPL17, RPL27, and RPS28) may serve as potential biomarkers to predict the severity of tHO. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: The proteins identified in this study may be the potential biomarkers and therapeutic targets for predicting and treating the tHO at early stage. Chinese Speaking Orthopaedic Society 2022-05-14 /pmc/articles/PMC9117278/ /pubmed/35615641 http://dx.doi.org/10.1016/j.jot.2022.04.003 Text en © 2022 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Original Article
Wei, Zhenyuan
Guo, Shang
Wang, Hongwei
Zhao, Yang
Yan, Jiren
Zhang, Chi
Zhong, Biao
Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title_full Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title_fullStr Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title_full_unstemmed Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title_short Comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
title_sort comparative proteomic analysis identifies differentially expressed proteins and reveals potential mechanisms of traumatic heterotopic ossification progression
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9117278/
https://www.ncbi.nlm.nih.gov/pubmed/35615641
http://dx.doi.org/10.1016/j.jot.2022.04.003
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