BACKGROUND: Tubular atrophy and interstitial fibrosis are well-recognized sequelae of chronic proteinuria; however, little is known regarding the molecular pathways activated within tubulointerstitium in chronic proteinuric nephropathies. METHODS: To investigate the molecular mechanisms of proteinuria-associated tubulointerstitial (TI) disease, doxorubicin nephropathy was induced in rats. Progression of disease was monitored with weekly urinary biomarker assays. Because histopathology revealed multifocal TI injury, immunodirected laser capture microdissection was used to identify and isolate injured proximal tubules, as indicated by kidney injury molecule-1 immunolabeling. Adjacent interstitial cells were harvested separately. Gene expression microarray, manual annotation of gene lists, and Gene Set Enrichment Analysis were performed. A subset of the regulated transcripts was validated by quantitative PCR and immunohistochemistry. RESULTS: Severe proteinuria preceded tubular injury biomarkers by 1 week. Histology revealed multifocal, mild TI damage at 3 weeks, which progressed in severity at 5 weeks. Affymetrix microarray analysis revealed tissue-specific regulation of gene expression. Manual annotation of gene lists, gene set enrichment analysis, and urinary biomarker assays revealed similarities to pathways activated in direct TI injuries. This suggests commonalities amongst the molecular mechanisms of TI injury secondary to proteinuria, ischemia-reperfusion, and nephrotoxicity.
BACKGROUND: Tubular atrophy and interstitial fibrosis are well-recognized sequelae of chronic proteinuria; however, little is known regarding the molecular pathways activated within tubulointerstitium in chronic proteinuric nephropathies. METHODS: To investigate the molecular mechanisms of proteinuria-associated tubulointerstitial (TI) disease, doxorubicinnephropathy was induced in rats. Progression of disease was monitored with weekly urinary biomarker assays. Because histopathology revealed multifocal TI injury, immunodirected laser capture microdissection was used to identify and isolate injured proximal tubules, as indicated by kidney injury molecule-1 immunolabeling. Adjacent interstitial cells were harvested separately. Gene expression microarray, manual annotation of gene lists, and Gene Set Enrichment Analysis were performed. A subset of the regulated transcripts was validated by quantitative PCR and immunohistochemistry. RESULTS: Severe proteinuria preceded tubular injury biomarkers by 1 week. Histology revealed multifocal, mild TI damage at 3 weeks, which progressed in severity at 5 weeks. Affymetrix microarray analysis revealed tissue-specific regulation of gene expression. Manual annotation of gene lists, gene set enrichment analysis, and urinary biomarker assays revealed similarities to pathways activated in direct TI injuries. This suggests commonalities amongst the molecular mechanisms of TI injury secondary to proteinuria, ischemia-reperfusion, and nephrotoxicity.
Authors: Aly M Abdelrahman; Yousuf M Al Suleimani; Priyadarsini Manoj; Mohammed Ashique; Badreldin H Ali; Nicole Schupp Journal: Naunyn Schmiedebergs Arch Pharmacol Date: 2019-09-09 Impact factor: 3.000
Authors: Csaba Imre Szalay; Katalin Erdélyi; Gábor Kökény; Enikő Lajtár; Mária Godó; Csaba Révész; Tamás Kaucsár; Norbert Kiss; Márta Sárközy; Tamás Csont; Tibor Krenács; Gábor Szénási; Pál Pacher; Péter Hamar Journal: PLoS One Date: 2015-06-18 Impact factor: 3.240
Authors: Beshay N Zordoky; M Judith Radin; Lois Heller; Anthony Tobias; Ilze Matise; Fred S Apple; Sylvia A McCune; Leslie C Sharkey Journal: Cardiooncology Date: 2016-03-15
Authors: Abubakar Danmaigoro; Gayathri Thevi Selvarajah; Mohd Hezmee Mohd Noor; Rozi Mahmud; Md Zuki Abu Bakar Journal: Adv Pharmacol Sci Date: 2018-06-24