HMGCS2 and AMACR as potential targets linking mitochondrial dysfunction and ulcerative colitis

Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitoch...

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Published inScientific reports Vol. 14; no. 1; pp. 31783 - 15
Main Authors Zhu, Rui, Bai, Xinyu, Li, Zhangqin, Liang, Hao, Song, Huixian, Chen, Lifang, Miao, Yinglei, Zhang, Fengrui, Niu, Junkun
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 30.12.2024
Nature Publishing Group
Nature Portfolio
Subjects
631/114/129
631/114/1305
692/4020
692/53
692/699
Animals
Colitis, Ulcerative - genetics
Colitis, Ulcerative - metabolism
Colitis, Ulcerative - pathology
Gene expression
Gene Expression Profiling
Gene Regulatory Networks
Genes
Homeostasis
Humanities and Social Sciences
Humans
Immune infiltration
Inflammatory bowel disease
Inflammatory bowel diseases
Intestinal Mucosa - metabolism
Intestinal Mucosa - pathology
Intestine
Machine Learning
Mice
Mitochondria
Mitochondria - genetics
Mitochondria - metabolism
Mucosa
multidisciplinary
Science
Science (multidisciplinary)
Structure-function relationships
Ulcerative colitis
WGCNA
Mitochondria
WGCNA
Machine learning
Immune infiltration
Ulcerative colitis
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Abstract Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitochondria in UC is warranted. The study focusing on the GSE87466 dataset for differential gene expression analysis. Mitochondria-related genes were sourced from the MitoCart3.0 database. Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify hub genes. The intersection of DEGs, hub genes, and mitochondria-related genes facilitated the identification of 14 mitochondria-related differentially expressed genes (MitoDEGs). Three machine learning algorithms were then applied to select signature MitoDEGs specific to UC: HMGCS2 and AMACR. They have decreased expression in UC patients and have a high diagnostic value for UC. In the inflammatory environment, knockout of both HMGCS2 and AMACR showed disruption of mitochondrial structure and function. Among them, the AMACR knockdown group had an increased number of damaged mitochondria and a significant reduction in the length, area and circumference of MAMs. Therefore, the study identified two new signature MitoDEGs in UC. HMGCS2 and AMACR provide insights into the interplay between mitochondrial dysfunction and UC intestinal mucosal homeostasis.
AbstractList Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitochondria in UC is warranted. The study focusing on the GSE87466 dataset for differential gene expression analysis. Mitochondria-related genes were sourced from the MitoCart3.0 database. Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify hub genes. The intersection of DEGs, hub genes, and mitochondria-related genes facilitated the identification of 14 mitochondria-related differentially expressed genes (MitoDEGs). Three machine learning algorithms were then applied to select signature MitoDEGs specific to UC: HMGCS2 and AMACR. They have decreased expression in UC patients and have a high diagnostic value for UC. In the inflammatory environment, knockout of both HMGCS2 and AMACR showed disruption of mitochondrial structure and function. Among them, the AMACR knockdown group had an increased number of damaged mitochondria and a significant reduction in the length, area and circumference of MAMs. Therefore, the study identified two new signature MitoDEGs in UC. HMGCS2 and AMACR provide insights into the interplay between mitochondrial dysfunction and UC intestinal mucosal homeostasis.Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitochondria in UC is warranted. The study focusing on the GSE87466 dataset for differential gene expression analysis. Mitochondria-related genes were sourced from the MitoCart3.0 database. Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify hub genes. The intersection of DEGs, hub genes, and mitochondria-related genes facilitated the identification of 14 mitochondria-related differentially expressed genes (MitoDEGs). Three machine learning algorithms were then applied to select signature MitoDEGs specific to UC: HMGCS2 and AMACR. They have decreased expression in UC patients and have a high diagnostic value for UC. In the inflammatory environment, knockout of both HMGCS2 and AMACR showed disruption of mitochondrial structure and function. Among them, the AMACR knockdown group had an increased number of damaged mitochondria and a significant reduction in the length, area and circumference of MAMs. Therefore, the study identified two new signature MitoDEGs in UC. HMGCS2 and AMACR provide insights into the interplay between mitochondrial dysfunction and UC intestinal mucosal homeostasis.
Abstract Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitochondria in UC is warranted. The study focusing on the GSE87466 dataset for differential gene expression analysis. Mitochondria-related genes were sourced from the MitoCart3.0 database. Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify hub genes. The intersection of DEGs, hub genes, and mitochondria-related genes facilitated the identification of 14 mitochondria-related differentially expressed genes (MitoDEGs). Three machine learning algorithms were then applied to select signature MitoDEGs specific to UC: HMGCS2 and AMACR. They have decreased expression in UC patients and have a high diagnostic value for UC. In the inflammatory environment, knockout of both HMGCS2 and AMACR showed disruption of mitochondrial structure and function. Among them, the AMACR knockdown group had an increased number of damaged mitochondria and a significant reduction in the length, area and circumference of MAMs. Therefore, the study identified two new signature MitoDEGs in UC. HMGCS2 and AMACR provide insights into the interplay between mitochondrial dysfunction and UC intestinal mucosal homeostasis.
Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a potential contributor to this imbalance, it remains an incomplete understanding. Consequently, further investigation into the role of mitochondria in UC is warranted. The study focusing on the GSE87466 dataset for differential gene expression analysis. Mitochondria-related genes were sourced from the MitoCart3.0 database. Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify hub genes. The intersection of DEGs, hub genes, and mitochondria-related genes facilitated the identification of 14 mitochondria-related differentially expressed genes (MitoDEGs). Three machine learning algorithms were then applied to select signature MitoDEGs specific to UC: HMGCS2 and AMACR. They have decreased expression in UC patients and have a high diagnostic value for UC. In the inflammatory environment, knockout of both HMGCS2 and AMACR showed disruption of mitochondrial structure and function. Among them, the AMACR knockdown group had an increased number of damaged mitochondria and a significant reduction in the length, area and circumference of MAMs. Therefore, the study identified two new signature MitoDEGs in UC. HMGCS2 and AMACR provide insights into the interplay between mitochondrial dysfunction and UC intestinal mucosal homeostasis.
ArticleNumber 31783
Author Song, Huixian
Bai, Xinyu
Li, Zhangqin
Niu, Junkun
Zhang, Fengrui
Liang, Hao
Chen, Lifang
Miao, Yinglei
Zhu, Rui
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Issue 1
Keywords Mitochondria
WGCNA
Machine learning
Immune infiltration
Ulcerative colitis
Language English
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Snippet Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been identified as a...
Abstract Ulcerative colitis (UC) is characterised notably by an imbalance in intestinal mucosal homeostasis. Although mitochondrial dysfunction has been...
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SubjectTerms 631/114/129
631/114/1305
692/4020
692/53
692/699
Animals
Colitis, Ulcerative - genetics
Colitis, Ulcerative - metabolism
Colitis, Ulcerative - pathology
Gene expression
Gene Expression Profiling
Gene Regulatory Networks
Genes
Homeostasis
Humanities and Social Sciences
Humans
Immune infiltration
Inflammatory bowel disease
Inflammatory bowel diseases
Intestinal Mucosa - metabolism
Intestinal Mucosa - pathology
Intestine
Machine Learning
Mice
Mitochondria
Mitochondria - genetics
Mitochondria - metabolism
Mucosa
multidisciplinary
Science
Science (multidisciplinary)
Structure-function relationships
Ulcerative colitis
WGCNA
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Title HMGCS2 and AMACR as potential targets linking mitochondrial dysfunction and ulcerative colitis
URI https://link.springer.com/article/10.1038/s41598-024-82900-y
https://www.ncbi.nlm.nih.gov/pubmed/39738583
https://www.proquest.com/docview/3150194883
https://www.proquest.com/docview/3150521594
https://pubmed.ncbi.nlm.nih.gov/PMC11686238
https://doaj.org/article/943dd804918148f381bca7ca45bb7678
Volume 14
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