The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model

The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model

Alport syndrome (AS) is a hereditary glomerular nephritis caused by mutation in one of the type IV collagen genes α3/α4/α5 that encode the heterotrimer COL4A3/4/5. Failure to form a heterotrimer due to mutation leads to the dysfunction of the glomerular basement membrane, and end-stage renal disease...

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Main Authors: Yuya Sannomiya, Shota Kaseda, Misato Kamura, Hiroshi Yamamoto, Hiroyuki Yamada, Masataka Inamoto, Jun Kuwazuru, Saki Niino, Tsuyoshi Shuto, Mary Ann Suico, Hirofumi Kai
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Renal Failure
Subjects:
alport syndrome
discoidin domain receptor 2 (ddr2)
type iv collagen
proteinuria
inflammatory cytokines
fibrosis
Online Access:http://dx.doi.org/10.1080/0886022X.2021.1896548
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spelling doaj-28d44a4ee9d64770bbe74e7703793f732021-03-18T14:42:07ZengTaylor & Francis GroupRenal Failure0886-022X1525-60492021-01-0143151051910.1080/0886022X.2021.18965481896548The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse modelYuya Sannomiya0Shota Kaseda1Misato Kamura2Hiroshi Yamamoto3Hiroyuki Yamada4Masataka Inamoto5Jun Kuwazuru6Saki Niino7Tsuyoshi Shuto8Mary Ann Suico9Hirofumi Kai10Department of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesOno Pharmaceutical Co. LtdOno Pharmaceutical Co. LtdOno Pharmaceutical Co. LtdDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesDepartment of Molecular Medicine Graduate School of Pharmaceutical SciencesAlport syndrome (AS) is a hereditary glomerular nephritis caused by mutation in one of the type IV collagen genes α3/α4/α5 that encode the heterotrimer COL4A3/4/5. Failure to form a heterotrimer due to mutation leads to the dysfunction of the glomerular basement membrane, and end-stage renal disease. Previous reports have suggested the involvement of the receptor tyrosine kinase discoidin domain receptor (DDR) 1 in the progression of AS pathology. However, due to the similarity between DDR1 and DDR2, the role of DDR2 in AS pathology is unclear. Here, we investigated the involvement of DDR2 in AS using the X-linked AS mouse model. Mice were treated subcutaneously with saline or antisense oligonucleotide (ASO; 5 mg/kg or 15 mg/kg per week) for 8 weeks. Renal function parameters and renal histology were analyzed, and the gene expressions of inflammatory cytokines were determined in renal tissues. The expression level of DDR2 was highly elevated in kidney tissues of AS mice. Knockdown of Ddr2 using Ddr2-specific ASO decreased the Ddr2 expression. However, the DDR2 ASO treatment did not improve the proteinuria or decrease the BUN level. DDR2 ASO also did not significantly ameliorate the renal injury, inflammation and fibrosis in AS mice. These results showed that Ddr2 knockdown by ASO had no notable effect on the progression of AS indicating that DDR2 may not be critically involved in AS pathology. This finding may provide useful information and further understanding of the role of DDRs in AS.http://dx.doi.org/10.1080/0886022X.2021.1896548alport syndromediscoidin domain receptor 2 (ddr2)type iv collagenproteinuriainflammatory cytokinesfibrosis
collection DOAJ
language English
format Article
sources DOAJ
author Yuya Sannomiya
Shota Kaseda
Misato Kamura
Hiroshi Yamamoto
Hiroyuki Yamada
Masataka Inamoto
Jun Kuwazuru
Saki Niino
Tsuyoshi Shuto
Mary Ann Suico
Hirofumi Kai
spellingShingle Yuya Sannomiya
Shota Kaseda
Misato Kamura
Hiroshi Yamamoto
Hiroyuki Yamada
Masataka Inamoto
Jun Kuwazuru
Saki Niino
Tsuyoshi Shuto
Mary Ann Suico
Hirofumi Kai
The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
Renal Failure
alport syndrome
discoidin domain receptor 2 (ddr2)
type iv collagen
proteinuria
inflammatory cytokines
fibrosis
author_facet Yuya Sannomiya
Shota Kaseda
Misato Kamura
Hiroshi Yamamoto
Hiroyuki Yamada
Masataka Inamoto
Jun Kuwazuru
Saki Niino
Tsuyoshi Shuto
Mary Ann Suico
Hirofumi Kai
author_sort Yuya Sannomiya
title The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
title_short The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
title_full The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
title_fullStr The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
title_full_unstemmed The role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
title_sort role of discoidin domain receptor 2 in the renal dysfunction of alport syndrome mouse model
publisher Taylor & Francis Group
series Renal Failure
issn 0886-022X
1525-6049
publishDate 2021-01-01
description Alport syndrome (AS) is a hereditary glomerular nephritis caused by mutation in one of the type IV collagen genes α3/α4/α5 that encode the heterotrimer COL4A3/4/5. Failure to form a heterotrimer due to mutation leads to the dysfunction of the glomerular basement membrane, and end-stage renal disease. Previous reports have suggested the involvement of the receptor tyrosine kinase discoidin domain receptor (DDR) 1 in the progression of AS pathology. However, due to the similarity between DDR1 and DDR2, the role of DDR2 in AS pathology is unclear. Here, we investigated the involvement of DDR2 in AS using the X-linked AS mouse model. Mice were treated subcutaneously with saline or antisense oligonucleotide (ASO; 5 mg/kg or 15 mg/kg per week) for 8 weeks. Renal function parameters and renal histology were analyzed, and the gene expressions of inflammatory cytokines were determined in renal tissues. The expression level of DDR2 was highly elevated in kidney tissues of AS mice. Knockdown of Ddr2 using Ddr2-specific ASO decreased the Ddr2 expression. However, the DDR2 ASO treatment did not improve the proteinuria or decrease the BUN level. DDR2 ASO also did not significantly ameliorate the renal injury, inflammation and fibrosis in AS mice. These results showed that Ddr2 knockdown by ASO had no notable effect on the progression of AS indicating that DDR2 may not be critically involved in AS pathology. This finding may provide useful information and further understanding of the role of DDRs in AS.
topic alport syndrome
discoidin domain receptor 2 (ddr2)
type iv collagen
proteinuria
inflammatory cytokines
fibrosis
url http://dx.doi.org/10.1080/0886022X.2021.1896548
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