Cellular basis of diabetic nephropathy: IV Antioxidant enzyme mRNA expression levels in skin fibroblasts of type 1 diabetic sibling pairs

Maria Luiza Caramori; Youngki Kim; Paola Fioretto; Chunmei Huang; Stephen S. Rich; Michael E. Miller; Gregory B. Russell; Michael Mauer

doi:10.1093/ndt/gfl434

Cellular basis of diabetic nephropathy: IV Antioxidant enzyme mRNA expression levels in skin fibroblasts of type 1 diabetic sibling pairs

Maria Luiza Caramori, Youngki Kim, Paola Fioretto, Chunmei Huang, Stephen S. Rich, Michael E. Miller, Gregory B. Russell, Michael Mauer

Research output: Contribution to journal › Article › peer-review

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Abstract

Background. Blunted cultured skin fibroblast (SF) antioxidant enzyme responses to hyperglycaemia are associated with diabetic nephropathy risk. The present study explores whether this association is, at least in part, genetically determined. Methods. We measured glomerular structure and SF mRNA expression for catalase and glutathione peroxidase in 21 sibling pairs concordant for type 1 diabetes. All patients had four or more (mean 21.5) years of diabetes and glomerular filtration rate >40 ml/min/1.73 m 2. Thirty-four patients were normoalbuminuric, four were microalbuminuric, three were proteinuric and one was not classifiable. Heritability of patient characteristics was assessed by intra-class correlation and by a genetic variance component model. Results. Mesangial fractional volume, mesangial matrix fractional volume, glomerular basement membrane width and surface density of peripheral glomerular basement membrane per glomerulus were significantly correlated in these sibling pairs. Catalase mRNA expression levels were also related and highly heritable in these sibling pairs. The association between sibship and glutathione peroxidase mRNA expression levels did not reach statistical significance. Conclusions. This study suggests that SF catalase mRNA expression levels, known to be associated with diabetic nephropathy risk, are in part genetically determined.

Original language	English (US)
Pages (from-to)	3122-3126
Number of pages	5
Journal	Nephrology Dialysis Transplantation
Volume	21
Issue number	11
DOIs	https://doi.org/10.1093/ndt/gfl434
State	Published - Nov 2006

Bibliographical note

Funding Information:
Acknowledgements. Dr Caramori was supported by the Foundation for the Coordination of Higher Education and Graduate Training (CAPES) from the Brazilian Government and by a Research Fellowship grant from the Juvenile Diabetes Research Foundation International (JDRFI). Dr Fioretto was a recipient of a JDRFI Research Fellowship grant and Career Development Award. Dr Huang was supported by a mentor-based fellowship grant from the American Diabetes Association. This work was supported by grants from National Institute of Health (DK 13083 and DK 54638) and National Center for Research Resources (M01-RR00400). We thank Mr Thomas Groppoli for performing the morphometric studies and Mr Paul Walker for helping with the RT–PCR studies.

Keywords

Genetics of diabetic nephropathy
Glomerular structure
Type 1 diabetes

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title = "Cellular basis of diabetic nephropathy: IV Antioxidant enzyme mRNA expression levels in skin fibroblasts of type 1 diabetic sibling pairs",

abstract = "Background. Blunted cultured skin fibroblast (SF) antioxidant enzyme responses to hyperglycaemia are associated with diabetic nephropathy risk. The present study explores whether this association is, at least in part, genetically determined. Methods. We measured glomerular structure and SF mRNA expression for catalase and glutathione peroxidase in 21 sibling pairs concordant for type 1 diabetes. All patients had four or more (mean 21.5) years of diabetes and glomerular filtration rate >40 ml/min/1.73 m 2. Thirty-four patients were normoalbuminuric, four were microalbuminuric, three were proteinuric and one was not classifiable. Heritability of patient characteristics was assessed by intra-class correlation and by a genetic variance component model. Results. Mesangial fractional volume, mesangial matrix fractional volume, glomerular basement membrane width and surface density of peripheral glomerular basement membrane per glomerulus were significantly correlated in these sibling pairs. Catalase mRNA expression levels were also related and highly heritable in these sibling pairs. The association between sibship and glutathione peroxidase mRNA expression levels did not reach statistical significance. Conclusions. This study suggests that SF catalase mRNA expression levels, known to be associated with diabetic nephropathy risk, are in part genetically determined.",

keywords = "Genetics of diabetic nephropathy, Glomerular structure, Type 1 diabetes",

author = "Caramori, {Maria Luiza} and Youngki Kim and Paola Fioretto and Chunmei Huang and Rich, {Stephen S.} and Miller, {Michael E.} and Russell, {Gregory B.} and Michael Mauer",

note = "Funding Information: Acknowledgements. Dr Caramori was supported by the Foundation for the Coordination of Higher Education and Graduate Training (CAPES) from the Brazilian Government and by a Research Fellowship grant from the Juvenile Diabetes Research Foundation International (JDRFI). Dr Fioretto was a recipient of a JDRFI Research Fellowship grant and Career Development Award. Dr Huang was supported by a mentor-based fellowship grant from the American Diabetes Association. This work was supported by grants from National Institute of Health (DK 13083 and DK 54638) and National Center for Research Resources (M01-RR00400). We thank Mr Thomas Groppoli for performing the morphometric studies and Mr Paul Walker for helping with the RT–PCR studies.",

year = "2006",

month = nov,

doi = "10.1093/ndt/gfl434",

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T1 - Cellular basis of diabetic nephropathy

T2 - IV Antioxidant enzyme mRNA expression levels in skin fibroblasts of type 1 diabetic sibling pairs

AU - Caramori, Maria Luiza

AU - Kim, Youngki

AU - Fioretto, Paola

AU - Huang, Chunmei

AU - Rich, Stephen S.

AU - Miller, Michael E.

AU - Russell, Gregory B.

AU - Mauer, Michael

N1 - Funding Information: Acknowledgements. Dr Caramori was supported by the Foundation for the Coordination of Higher Education and Graduate Training (CAPES) from the Brazilian Government and by a Research Fellowship grant from the Juvenile Diabetes Research Foundation International (JDRFI). Dr Fioretto was a recipient of a JDRFI Research Fellowship grant and Career Development Award. Dr Huang was supported by a mentor-based fellowship grant from the American Diabetes Association. This work was supported by grants from National Institute of Health (DK 13083 and DK 54638) and National Center for Research Resources (M01-RR00400). We thank Mr Thomas Groppoli for performing the morphometric studies and Mr Paul Walker for helping with the RT–PCR studies.

PY - 2006/11

Y1 - 2006/11

N2 - Background. Blunted cultured skin fibroblast (SF) antioxidant enzyme responses to hyperglycaemia are associated with diabetic nephropathy risk. The present study explores whether this association is, at least in part, genetically determined. Methods. We measured glomerular structure and SF mRNA expression for catalase and glutathione peroxidase in 21 sibling pairs concordant for type 1 diabetes. All patients had four or more (mean 21.5) years of diabetes and glomerular filtration rate >40 ml/min/1.73 m 2. Thirty-four patients were normoalbuminuric, four were microalbuminuric, three were proteinuric and one was not classifiable. Heritability of patient characteristics was assessed by intra-class correlation and by a genetic variance component model. Results. Mesangial fractional volume, mesangial matrix fractional volume, glomerular basement membrane width and surface density of peripheral glomerular basement membrane per glomerulus were significantly correlated in these sibling pairs. Catalase mRNA expression levels were also related and highly heritable in these sibling pairs. The association between sibship and glutathione peroxidase mRNA expression levels did not reach statistical significance. Conclusions. This study suggests that SF catalase mRNA expression levels, known to be associated with diabetic nephropathy risk, are in part genetically determined.

AB - Background. Blunted cultured skin fibroblast (SF) antioxidant enzyme responses to hyperglycaemia are associated with diabetic nephropathy risk. The present study explores whether this association is, at least in part, genetically determined. Methods. We measured glomerular structure and SF mRNA expression for catalase and glutathione peroxidase in 21 sibling pairs concordant for type 1 diabetes. All patients had four or more (mean 21.5) years of diabetes and glomerular filtration rate >40 ml/min/1.73 m 2. Thirty-four patients were normoalbuminuric, four were microalbuminuric, three were proteinuric and one was not classifiable. Heritability of patient characteristics was assessed by intra-class correlation and by a genetic variance component model. Results. Mesangial fractional volume, mesangial matrix fractional volume, glomerular basement membrane width and surface density of peripheral glomerular basement membrane per glomerulus were significantly correlated in these sibling pairs. Catalase mRNA expression levels were also related and highly heritable in these sibling pairs. The association between sibship and glutathione peroxidase mRNA expression levels did not reach statistical significance. Conclusions. This study suggests that SF catalase mRNA expression levels, known to be associated with diabetic nephropathy risk, are in part genetically determined.

KW - Genetics of diabetic nephropathy

KW - Glomerular structure

KW - Type 1 diabetes

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JO - Nephrology Dialysis Transplantation

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ER -

Cellular basis of diabetic nephropathy: IV Antioxidant enzyme mRNA expression levels in skin fibroblasts of type 1 diabetic sibling pairs

Abstract

Bibliographical note

Keywords

UN SDGs

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