BackgroundIgA nephropathy (IgAN) involves mesangial matrix expansion, but the proteomic composition of this matrix is unknown. The present study aimed to characterize changes in extracellular matrix in IgAN.MethodsIn the present study we used mass spectrometry-based proteomics in order to quantitatively compare protein abundance between glomeruli of patients with IgAN (n = 25) and controls with normal biopsy findings (n = 15).ResultsUsing a previously published paper by Lennon et al. and cross-referencing with the Matrisome database we identified 179 extracellular matrix proteins. In the comparison between IgAN and controls, IgAN glomeruli showed significantly higher abundance of extracellular matrix structural proteins (e.g periostin, vitronectin, and extracellular matrix protein 1) and extracellular matrix associated proteins (e.g. azurocidin, myeloperoxidase, neutrophil elastase, matrix metalloproteinase-9 and matrix metalloproteinase 2). Periostin (fold change 3.3) and azurocidin (3.0) had the strongest fold change between IgAN and controls; periostin was also higher in IgAN patients who progressed to ESRD as compared to patients who did not.ConclusionIgAN is associated with widespread changes of the glomerular extracellular matrix proteome. Proteins important in glomerular sclerosis or inflammation seem to be most strongly increased and periostin might be an important marker of glomerular damage in IgAN.
We have investigated a family where two siblings had a developmental disorder associated with polycystic dysplastic kidney disease that was incompatible with postnatal survival. Additional features observed were ductal plate malformation in the liver, dysplasia of the pancreas, and (in one individual) complete situs inversus and polymicrogyria of the cingulate gyri. The autopsy findings were compatible with renal-hepatic-pancreatic dysplasia, a condition with unknown genetic cause at the time of autopsy but with similarities to the MeckelGruber/Joubert group of recessive ciliopathies. Consanguinity between the parents made it likely that the mutated gene (with known or potential function in cilia) was located within a rather large region of homozygosity in the affected individuals (identical by descent). Using genetic markers (50K single nucleotide polymorphism microarrays), we found a single large homozygous region of 21.16 Mb containing ϳ200 genes on the long arm of chromosome 3. This region contained two known ciliopathy genes: NPHP3 (adolescent nephronophthisis) and IQCB1 (NPHP5), which is associated with Senior-Löken syndrome. In NPHP3, homozygosity for a deletion of the conserved splice acceptor dinucleotide (AG) preceding exon 20 was found. Our finding confirms the recent report that NPHP3-null mutations cause renal-hepatic-pancreatic dysplasia. Also, our case illustrates that genes for rare and genetically heterogeneous recessive conditions may be identified by homozygosity mapping using single nucleotide polymorphism arrays in the routine clinical setting.
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