Laminin β2 variants associated with isolated nephropathy that impact matrix regulation

Laminin β2 variants associated with isolated nephropathy that impact matrix regulation

Mutations in LAMB2, encoding laminin β2, cause Pierson syndrome and occasionally milder nephropathy without extrarenal abnormalities. The most deleterious missense mutations that have been identified affect primarily the N-terminus of laminin β2. On the other hand, those associated with isolated nep...

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Main Authors: Yamato Kikkawa, Taeko Hashimoto, Keiichi Takizawa, Seiya Urae, Haruka Masuda, Masumi Matsunuma, Yuji Yamada, Keisuke Hamada, Motoyoshi Nomizu, Helen Liapis, Masataka Hisano, Yuko Akioka, Kenichiro Miura, Motoshi Hattori, Jeffrey H. Miner, Yutaka Harita
Format: Article
Language:English
Published: American Society for Clinical investigation 2021-03-01
Series:JCI Insight
Subjects:
Cell biology
Nephrology
Online Access:https://doi.org/10.1172/jci.insight.145908
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spelling doaj-04282997f5944b87a6b1ddb1678242ad2021-08-02T21:53:01ZengAmerican Society for Clinical investigationJCI Insight2379-37082021-03-0166Laminin β2 variants associated with isolated nephropathy that impact matrix regulationYamato KikkawaTaeko HashimotoKeiichi TakizawaSeiya UraeHaruka MasudaMasumi MatsunumaYuji YamadaKeisuke HamadaMotoyoshi NomizuHelen LiapisMasataka HisanoYuko AkiokaKenichiro MiuraMotoshi HattoriJeffrey H. MinerYutaka HaritaMutations in LAMB2, encoding laminin β2, cause Pierson syndrome and occasionally milder nephropathy without extrarenal abnormalities. The most deleterious missense mutations that have been identified affect primarily the N-terminus of laminin β2. On the other hand, those associated with isolated nephropathy are distributed across the entire molecule, and variants in the β2 LEa-LF-LEb domains are exclusively found in cases with isolated nephropathy. Here we report the clinical features of mild isolated nephropathy associated with 3 LAMB2 variants in the LEa-LF-LEb domains (p.R469Q, p.G699R, and p.R1078C) and their biochemical characterization. Although Pierson syndrome missense mutations often inhibit laminin β2 secretion, the 3 recombinant variants were secreted as efficiently as WT. However, the β2 variants lost pH dependency for heparin binding, resulting in aberrant binding under physiologic conditions. This suggests that the binding of laminin β2 to negatively charged molecules is involved in glomerular basement membrane (GBM) permselectivity. Moreover, the excessive binding of the β2 variants to other laminins appears to lead to their increased deposition in the GBM. Laminin β2 also serves as a potentially novel cell-adhesive ligand for integrin α4β1. Our findings define biochemical functions of laminin β2 variants influencing glomerular filtration that may underlie the pathogenesis of isolated nephropathy caused by LAMB2 abnormalities.https://doi.org/10.1172/jci.insight.145908Cell biologyNephrology
collection DOAJ
language English
format Article
sources DOAJ
author Yamato Kikkawa
Taeko Hashimoto
Keiichi Takizawa
Seiya Urae
Haruka Masuda
Masumi Matsunuma
Yuji Yamada
Keisuke Hamada
Motoyoshi Nomizu
Helen Liapis
Masataka Hisano
Yuko Akioka
Kenichiro Miura
Motoshi Hattori
Jeffrey H. Miner
Yutaka Harita
spellingShingle Yamato Kikkawa
Taeko Hashimoto
Keiichi Takizawa
Seiya Urae
Haruka Masuda
Masumi Matsunuma
Yuji Yamada
Keisuke Hamada
Motoyoshi Nomizu
Helen Liapis
Masataka Hisano
Yuko Akioka
Kenichiro Miura
Motoshi Hattori
Jeffrey H. Miner
Yutaka Harita
Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
JCI Insight
Cell biology
Nephrology
author_facet Yamato Kikkawa
Taeko Hashimoto
Keiichi Takizawa
Seiya Urae
Haruka Masuda
Masumi Matsunuma
Yuji Yamada
Keisuke Hamada
Motoyoshi Nomizu
Helen Liapis
Masataka Hisano
Yuko Akioka
Kenichiro Miura
Motoshi Hattori
Jeffrey H. Miner
Yutaka Harita
author_sort Yamato Kikkawa
title Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
title_short Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
title_full Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
title_fullStr Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
title_full_unstemmed Laminin β2 variants associated with isolated nephropathy that impact matrix regulation
title_sort laminin β2 variants associated with isolated nephropathy that impact matrix regulation
publisher American Society for Clinical investigation
series JCI Insight
issn 2379-3708
publishDate 2021-03-01
description Mutations in LAMB2, encoding laminin β2, cause Pierson syndrome and occasionally milder nephropathy without extrarenal abnormalities. The most deleterious missense mutations that have been identified affect primarily the N-terminus of laminin β2. On the other hand, those associated with isolated nephropathy are distributed across the entire molecule, and variants in the β2 LEa-LF-LEb domains are exclusively found in cases with isolated nephropathy. Here we report the clinical features of mild isolated nephropathy associated with 3 LAMB2 variants in the LEa-LF-LEb domains (p.R469Q, p.G699R, and p.R1078C) and their biochemical characterization. Although Pierson syndrome missense mutations often inhibit laminin β2 secretion, the 3 recombinant variants were secreted as efficiently as WT. However, the β2 variants lost pH dependency for heparin binding, resulting in aberrant binding under physiologic conditions. This suggests that the binding of laminin β2 to negatively charged molecules is involved in glomerular basement membrane (GBM) permselectivity. Moreover, the excessive binding of the β2 variants to other laminins appears to lead to their increased deposition in the GBM. Laminin β2 also serves as a potentially novel cell-adhesive ligand for integrin α4β1. Our findings define biochemical functions of laminin β2 variants influencing glomerular filtration that may underlie the pathogenesis of isolated nephropathy caused by LAMB2 abnormalities.
topic Cell biology
Nephrology
url https://doi.org/10.1172/jci.insight.145908
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