Literature DB >> 21455721

Glomerular pathology in Alport syndrome: a molecular perspective.

Dominic Cosgrove1.   

Abstract

We have known for some time that mutations in the genes encoding 3 of the 6 type IV collagen chains are the underlying defect responsible for both X-linked (where the COL4A5 gene is involved) and autosomal (where either COL4A3 or COL4A4 genes are involved) Alport syndrome. The result of these mutations is the absence of the sub-epithelial network of all three chains in the glomerular basement membrane (GBM), resulting, at maturity, in a type IV collagen GBM network comprising only α1(IV) and α2(IV) chains. The altered GBM functions adequately in early life. Eventually, there is onset of proteinuria associated with the classic and progressive irregular thickening, thinning, and splitting of the GBM, which culminates in end-stage renal failure. We have learned much about the molecular events associated with disease onset and progression through the study of animal models for Alport syndrome, and have identified some potential therapeutic approaches that may serve to delay the onset or slow the progression of the disease. This review focuses on where we are in our understanding of the disease, where we need to go to understand the molecular triggers that set the process in motion, and what emergent therapeutic approaches show promise for ameliorating disease progression in the clinic.

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Year:  2011        PMID: 21455721      PMCID: PMC3484979          DOI: 10.1007/s00467-011-1868-z

Source DB:  PubMed          Journal:  Pediatr Nephrol        ISSN: 0931-041X            Impact factor:   3.714


  37 in total

Review 1.  Alport syndrome and the X chromosome: implications of a diagnosis of Alport syndrome in females.

Authors:  Clifford E Kashtan
Journal:  Nephrol Dial Transplant       Date:  2007-03-29       Impact factor: 5.992

2.  Bone marrow-derived cells contribute to podocyte regeneration and amelioration of renal disease in a mouse model of Alport syndrome.

Authors:  Evangelia I Prodromidi; Richard Poulsom; Rosemary Jeffery; Candice A Roufosse; Patrick J Pollard; Charles D Pusey; H Terence Cook
Journal:  Stem Cells       Date:  2006-07-27       Impact factor: 6.277

3.  A novel surgical organ perfusion method for effective ex vivo and in vivo gene transfer into renal glomerular cells.

Authors:  T Parpala-Spårman; O Lukkarinen; P Heikkilä; K Tryggvason
Journal:  Urol Res       Date:  1999-04

4.  Loss of alpha3/alpha4(IV) collagen from the glomerular basement membrane induces a strain-dependent isoform switch to alpha5alpha6(IV) collagen associated with longer renal survival in Col4a3-/- Alport mice.

Authors:  Jeong Suk Kang; Xu-Ping Wang; Jeffrey H Miner; Roy Morello; Yoshikazu Sado; Dale R Abrahamson; Dorin-Bogdan Borza
Journal:  J Am Soc Nephrol       Date:  2006-06-12       Impact factor: 10.121

5.  Deletion of CD151 results in a strain-dependent glomerular disease due to severe alterations of the glomerular basement membrane.

Authors:  Rosa M Baleato; Petrina L Guthrie; Marie-Claire Gubler; Leonie K Ashman; Séverine Roselli
Journal:  Am J Pathol       Date:  2008-09-11       Impact factor: 4.307

6.  Nephroprotective effect of the HMG-CoA-reductase inhibitor cerivastatin in a mouse model of progressive renal fibrosis in Alport syndrome.

Authors:  Marie-Louise Koepke; Manfred Weber; Eckhard Schulze-Lohoff; Bogdan Beirowski; Stephan Segerer; Oliver Gross
Journal:  Nephrol Dial Transplant       Date:  2007-02-06       Impact factor: 5.992

7.  Irradiation prolongs survival of Alport mice.

Authors:  Kan Katayama; Mitsuo Kawano; Ichiro Naito; Hitoshi Ishikawa; Yoshikazu Sado; Nagisa Asakawa; Tomohiro Murata; Kazuki Oosugi; Michiyo Kiyohara; Eiji Ishikawa; Masaaki Ito; Shinsuke Nomura
Journal:  J Am Soc Nephrol       Date:  2008-05-14       Impact factor: 10.121

8.  Laminin compensation in collagen alpha3(IV) knockout (Alport) glomeruli contributes to permeability defects.

Authors:  Dale R Abrahamson; Kathryn Isom; Eileen Roach; Larysa Stroganova; Adrian Zelenchuk; Jeffrey H Miner; Patricia L St John
Journal:  J Am Soc Nephrol       Date:  2007-08-15       Impact factor: 10.121

9.  Integrin beta1-mediated matrix assembly and signaling are critical for the normal development and function of the kidney glomerulus.

Authors:  Keizo Kanasaki; Yoshiko Kanda; Kristin Palmsten; Harikrishna Tanjore; Soo Bong Lee; Valerie S Lebleu; Vincent H Gattone; Raghu Kalluri
Journal:  Dev Biol       Date:  2007-11-12       Impact factor: 3.582

10.  Integrin alpha1beta1 regulates matrix metalloproteinases via P38 mitogen-activated protein kinase in mesangial cells: implications for Alport syndrome.

Authors:  Dominic Cosgrove; Daniel T Meehan; Duane Delimont; Ambra Pozzi; Xiwu Chen; Kathyrn D Rodgers; Richard M Tempero; Marisa Zallocchi; Velidi H Rao
Journal:  Am J Pathol       Date:  2008-02-07       Impact factor: 4.307
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  14 in total

Review 1.  Alport syndrome--insights from basic and clinical research.

Authors:  Jenny Kruegel; Diana Rubel; Oliver Gross
Journal:  Nat Rev Nephrol       Date:  2012-11-20       Impact factor: 28.314

2.  Podocyte p53 Limits the Severity of Experimental Alport Syndrome.

Authors:  Ryosuke Fukuda; Mary Ann Suico; Yukari Kai; Kohei Omachi; Keishi Motomura; Tomoaki Koga; Yoshihiro Komohara; Kosuke Koyama; Tsubasa Yokota; Manabu Taura; Tsuyoshi Shuto; Hirofumi Kai
Journal:  J Am Soc Nephrol       Date:  2015-05-12       Impact factor: 10.121

3.  Diagnosis of Alport syndrome--search for proteomic biomarkers in body fluids.

Authors:  Michael Pohl; Karin Danz; Oliver Gross; Ulrike John; Johannes Urban; Ludwig Patzer; Sandra Habbig; Markus Feldkötter; Oliver Witzke; Mario Walther; Heidrun Rhode
Journal:  Pediatr Nephrol       Date:  2013-06-23       Impact factor: 3.714

4.  Alport syndrome: the effects of spironolactone on proteinuria and urinary TGF-β1.

Authors:  Marisa Giani; Antonio Mastrangelo; Roberta Villa; Stefano Turolo; Giuseppina Marra; Amedea Silvia Tirelli; Helmut Hopfer; Alberto Edefonti
Journal:  Pediatr Nephrol       Date:  2013-06-11       Impact factor: 3.714

Review 5.  The role of cell-extracellular matrix interactions in glomerular injury.

Authors:  Corina M Borza; Ambra Pozzi
Journal:  Exp Cell Res       Date:  2012-03-05       Impact factor: 3.905

Review 6.  An update on the pathomechanisms and future therapies of Alport syndrome.

Authors:  Damien Noone; Christoph Licht
Journal:  Pediatr Nephrol       Date:  2012-08-18       Impact factor: 3.714

7.  Pathological features of proteinuric nephropathy resembling Alport syndrome in a young Pyrenean Mountain dog.

Authors:  Go Sugahara; Ichiro Naito; Yuichi Miyagawa; Takaaki Komiyama; Naoyuki Takemura; Ryosuke Kobayashi; Takayuki Mineshige; Junichi Kamiie; Kinji Shirota
Journal:  J Vet Med Sci       Date:  2015-04-17       Impact factor: 1.267

Review 8.  Chronic Inflammation in Chronic Kidney Disease Progression: Role of Nrf2.

Authors:  Peter Stenvinkel; Glenn M Chertow; Prasad Devarajan; Adeera Levin; Sharon P Andreoli; Sripal Bangalore; Bradley A Warady
Journal:  Kidney Int Rep       Date:  2021-05-04

9.  Challenge in pathologic diagnosis of Alport syndrome: evidence from correction of previous misdiagnosis.

Authors:  Xiao-Dan Yao; Xin Chen; Gao-Yuan Huang; Yan-Ting Yu; Shu-Tian Xu; Yang-Lin Hu; Qing-Wen Wang; Hui-Ping Chen; Cai-Hong Zeng; Da-Xi Ji; Wei-Xin Hu; Zheng Tang; Zhi-Hong Liu
Journal:  Orphanet J Rare Dis       Date:  2012-12-21       Impact factor: 4.123

10.  A mouse Col4a4 mutation causing Alport glomerulosclerosis with abnormal collagen α3α4α5(IV) trimers.

Authors:  Ron Korstanje; Christina R Caputo; Rosalinda A Doty; Susan A Cook; Roderick T Bronson; Muriel T Davisson; Jeffrey H Miner
Journal:  Kidney Int       Date:  2014-02-12       Impact factor: 10.612
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