Eyeing the Cyr61/CTGF/NOV (CCN) group of genes in development and diseases: highlights of their structural likenesses and functional dissimilarities

“CCN” is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically distinct extracellular matrix (ECM) proteins [i.e., cysteine-rich 61 (CYR61), connective tissue growth factor (CTGF), and nephroblastoma-overexpr...

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Published inHuman genomics Vol. 9; no. 1; p. 24
Main Authors Krupska, Izabela, Bruford, Elspeth A., Chaqour, Brahim
Format Journal Article
LanguageEnglish
Published London BioMed Central 23.09.2015
Subjects
Amino Acid Sequence
Animals
Bioinformatics
Biomedical and Life Sciences
Biomedicine
CCN Intercellular Signaling Proteins - classification
CCN Intercellular Signaling Proteins - genetics
CCN Intercellular Signaling Proteins - physiology
Disease - etiology
Disease - genetics
Exons
Gene Expression Regulation, Developmental
Genetic Predisposition to Disease
Human Genetics
Humans
Introns
Molecular Sequence Data
Proteomics
Review
Idiopathic Pulmonary Fibrosis
Abdominal Aortic Aneurysm
Proliferative Diabetic Retinopathy
Matricellular Protein
Connective Tissue Growth Factor
Online AccessGet full text
ISSN1479-7364
1473-9542
1479-7364
DOI10.1186/s40246-015-0046-y

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Abstract “CCN” is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically distinct extracellular matrix (ECM) proteins [i.e., cysteine-rich 61 (CYR61), connective tissue growth factor (CTGF), and nephroblastoma-overexpressed (NOV)]. Although “CCN” genes are unlikely to have arisen from a common ancestral gene, their encoded proteins share multimodular structures in which most cysteine residues are strictly conserved in their positions within several structural motifs. The CCN genes can be subdivided into members developmentally indispensable for embryonic viability (e.g., CCN1, 2 and 5), each assuming unique tissue-specific functions, and members not essential for embryonic development (e.g., CCN3, 4 and 6), probably due to a balance of functional redundancy and specialization during evolution. The temporo-spatial regulation of the CCN genes and the structural information contained within the sequences of their encoded proteins reflect diversity in their context and tissue-specific functions. Genetic association studies and experimental anomalies, replicated in various animal models, have shown that altered CCN gene structure or expression is associated with “injury” stimuli—whether mechanical (e.g., trauma, shear stress) or chemical (e.g., ischemia, hyperglycemia, hyperlipidemia, inflammation). Consequently, increased organ-specific susceptibility to structural damages ensues. These data underscore the critical functions of CCN proteins in the dynamics of tissue repair and regeneration and in the compensatory responses preceding organ failure. A better understanding of the regulation and mode of action of each CCN member will be useful in developing specific gain- or loss-of-function strategies for therapeutic purposes.
AbstractList “CCN” is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically distinct extracellular matrix (ECM) proteins [i.e., cysteine-rich 61 (CYR61), connective tissue growth factor (CTGF), and nephroblastoma-overexpressed (NOV)]. Although “CCN” genes are unlikely to have arisen from a common ancestral gene, their encoded proteins share multimodular structures in which most cysteine residues are strictly conserved in their positions within several structural motifs. The CCN genes can be subdivided into members developmentally indispensable for embryonic viability (e.g., CCN1, 2 and 5), each assuming unique tissue-specific functions, and members not essential for embryonic development (e.g., CCN3, 4 and 6), probably due to a balance of functional redundancy and specialization during evolution. The temporo-spatial regulation of the CCN genes and the structural information contained within the sequences of their encoded proteins reflect diversity in their context and tissue-specific functions. Genetic association studies and experimental anomalies, replicated in various animal models, have shown that altered CCN gene structure or expression is associated with “injury” stimuli—whether mechanical (e.g., trauma, shear stress) or chemical (e.g., ischemia, hyperglycemia, hyperlipidemia, inflammation). Consequently, increased organ-specific susceptibility to structural damages ensues. These data underscore the critical functions of CCN proteins in the dynamics of tissue repair and regeneration and in the compensatory responses preceding organ failure. A better understanding of the regulation and mode of action of each CCN member will be useful in developing specific gain- or loss-of-function strategies for therapeutic purposes.
"CCN" is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically distinct extracellular matrix (ECM) proteins [i.e., cysteine-rich 61 (CYR61), connective tissue growth factor (CTGF), and nephroblastoma-overexpressed (NOV)]. Although "CCN" genes are unlikely to have arisen from a common ancestral gene, their encoded proteins share multimodular structures in which most cysteine residues are strictly conserved in their positions within several structural motifs. The CCN genes can be subdivided into members developmentally indispensable for embryonic viability (e.g., CCN1, 2 and 5), each assuming unique tissue-specific functions, and members not essential for embryonic development (e.g., CCN3, 4 and 6), probably due to a balance of functional redundancy and specialization during evolution. The temporo-spatial regulation of the CCN genes and the structural information contained within the sequences of their encoded proteins reflect diversity in their context and tissue-specific functions. Genetic association studies and experimental anomalies, replicated in various animal models, have shown that altered CCN gene structure or expression is associated with "injury" stimuli--whether mechanical (e.g., trauma, shear stress) or chemical (e.g., ischemia, hyperglycemia, hyperlipidemia, inflammation). Consequently, increased organ-specific susceptibility to structural damages ensues. These data underscore the critical functions of CCN proteins in the dynamics of tissue repair and regeneration and in the compensatory responses preceding organ failure. A better understanding of the regulation and mode of action of each CCN member will be useful in developing specific gain- or loss-of-function strategies for therapeutic purposes."CCN" is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically distinct extracellular matrix (ECM) proteins [i.e., cysteine-rich 61 (CYR61), connective tissue growth factor (CTGF), and nephroblastoma-overexpressed (NOV)]. Although "CCN" genes are unlikely to have arisen from a common ancestral gene, their encoded proteins share multimodular structures in which most cysteine residues are strictly conserved in their positions within several structural motifs. The CCN genes can be subdivided into members developmentally indispensable for embryonic viability (e.g., CCN1, 2 and 5), each assuming unique tissue-specific functions, and members not essential for embryonic development (e.g., CCN3, 4 and 6), probably due to a balance of functional redundancy and specialization during evolution. The temporo-spatial regulation of the CCN genes and the structural information contained within the sequences of their encoded proteins reflect diversity in their context and tissue-specific functions. Genetic association studies and experimental anomalies, replicated in various animal models, have shown that altered CCN gene structure or expression is associated with "injury" stimuli--whether mechanical (e.g., trauma, shear stress) or chemical (e.g., ischemia, hyperglycemia, hyperlipidemia, inflammation). Consequently, increased organ-specific susceptibility to structural damages ensues. These data underscore the critical functions of CCN proteins in the dynamics of tissue repair and regeneration and in the compensatory responses preceding organ failure. A better understanding of the regulation and mode of action of each CCN member will be useful in developing specific gain- or loss-of-function strategies for therapeutic purposes.
ArticleNumber 24
Author Bruford, Elspeth A.
Krupska, Izabela
Chaqour, Brahim
Author_xml – sequence: 1
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  surname: Krupska
  fullname: Krupska, Izabela
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  surname: Bruford
  fullname: Bruford, Elspeth A.
  organization: HUGO Gene Nomenclature Committee, European Molecular Biology Laboratory, European Bioinformatics Institute, Wellcome Genome Campus
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  email: bchaqour@downstate.edu
  organization: Department of Cell Biology, Downstate Medical Center, Department of Ophthalmology, Downstate Medical Center, State University of New York (SUNY) Eye Institute Downstate Medical Center
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Keywords Idiopathic Pulmonary Fibrosis
Abdominal Aortic Aneurysm
Proliferative Diabetic Retinopathy
Matricellular Protein
Connective Tissue Growth Factor
Language English
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PublicationDate 2015-09-23
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PublicationDate_xml – month: 09
  year: 2015
  text: 2015-09-23
  day: 23
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PublicationTitle Human genomics
PublicationTitleAbbrev Hum Genomics
PublicationTitleAlternate Hum Genomics
PublicationYear 2015
Publisher BioMed Central
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Snippet “CCN” is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically...
"CCN" is an acronym referring to the first letter of each of the first three members of this original group of mammalian functionally and phylogenetically...
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SubjectTerms Amino Acid Sequence
Animals
Bioinformatics
Biomedical and Life Sciences
Biomedicine
CCN Intercellular Signaling Proteins - classification
CCN Intercellular Signaling Proteins - genetics
CCN Intercellular Signaling Proteins - physiology
Disease - etiology
Disease - genetics
Exons
Gene Expression Regulation, Developmental
Genetic Predisposition to Disease
Human Genetics
Humans
Introns
Molecular Sequence Data
Proteomics
Review
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Title Eyeing the Cyr61/CTGF/NOV (CCN) group of genes in development and diseases: highlights of their structural likenesses and functional dissimilarities
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Volume 9
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