Davoud Mohtat scite author profile

OBJECTIVEDiabetic kidney disease (DKD) is the single leading cause of kidney failure in the U.S., for which a cure has not yet been found. The aim of our study was to provide an unbiased catalog of gene-expression changes in human diabetic kidney biopsy samples.RESEARCH DESIGN AND METHODSAffymetrix expression arrays were used to identify differentially regulated transcripts in 44 microdissected human kidney samples. DKD samples were significant for their racial diversity and decreased glomerular filtration rate (~25–35 mL/min). Stringent statistical analysis, using the Benjamini-Hochberg corrected two-tailed t test, was used to identify differentially expressed transcripts in control and diseased glomeruli and tubuli. Two different web-based algorithms were used to define differentially regulated pathways.RESULTSWe identified 1,700 differentially expressed probesets in DKD glomeruli and 1,831 in diabetic tubuli, and 330 probesets were commonly differentially expressed in both compartments. Pathway analysis highlighted the regulation of Ras homolog gene family member A, Cdc42, integrin, integrin-linked kinase, and vascular endothelial growth factor signaling in DKD glomeruli. The tubulointerstitial compartment showed strong enrichment for inflammation-related pathways. The canonical complement signaling pathway was determined to be statistically differentially regulated in both DKD glomeruli and tubuli and was associated with increased glomerulosclerosis even in a different set of DKD samples.CONCLUSIONSOur studies have cataloged gene-expression regulation and identified multiple novel genes and pathways that may play a role in the pathogenesis of DKD or could serve as biomarkers.

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Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

Mohtat

et al. 2013

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BackgroundOne in eleven people is affected by chronic kidney disease, a condition characterized by kidney fibrosis and progressive loss of kidney function. Epidemiological studies indicate that adverse intrauterine and postnatal environments have a long-lasting role in chronic kidney disease development. Epigenetic information represents a plausible carrier for mediating this programming effect. Here we demonstrate that genome-wide cytosine methylation patterns of healthy and chronic kidney disease tubule samples obtained from patients show significant differences.ResultsWe identify differentially methylated regions and validate these in a large replication dataset. The differentially methylated regions are rarely observed on promoters, but mostly overlap with putative enhancer regions, and they are enriched in consensus binding sequences for important renal transcription factors. This indicates their importance in gene expression regulation. A core set of genes that are known to be related to kidney fibrosis, including genes encoding collagens, show cytosine methylation changes correlating with downstream transcript levels.ConclusionsOur report raises the possibility that epigenetic dysregulation plays a role in chronic kidney disease development via influencing core pro-fibrotic pathways and can aid the development of novel biomarkers and future therapeutics.

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Long‐term outcome of early versus delayed rasagiline treatment in early Parkinson's disease

Hauser¹,

Lew²,

Hurtig³

et al. 2009

Movement Disorders

123

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The purpose of this study to compare the long-term clinical outcome of early versus delayed rasagiline treatment in early Parkinson's disease (PD). Subjects (N = 404) were randomly assigned to initial treatment with rasagiline (early-start group) or placebo for 6 months followed by rasagiline (delayed-start group) in the TEMPO study. Subjects who chose to participate in an open-label extension (N = 306) continued to receive rasagiline as well as other PD medications as needed. Average (+/-SD) duration in the study was 3.6 +/- 2.1 years; 177 subjects received rasagiline for > or =5.0 years. Over the entire 6.5-year follow-up period, the adjusted mean difference in change from baseline in total UPDRS scores was 2.5 units (SE 1.1; P = 0.021) or 16% (SE 5.7; P = 0.006) in favor of the early-start versus delayed-start rasagiline group. Although the interaction between treatment and time was significant, values for the early-start group were better than the delayed-start group across all time points. Significantly less worsening (percent change) in total UPDRS scores was observed in the early-start group at the time points 0.5, 1.5, 2.0, 3.0, 4.5, 5.0, and 5.5 years (P < 0.05). Compared to delayed start, early initiation of rasagiline provided long-term clinical benefit, even in the face of treatment with other dopaminergic agents. This might reflect enduring benefits due to neuroprotection or effects on compensatory mechanisms in early PD.

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Kidney Cancer Is Characterized by Aberrant Methylation of Tissue-Specific Enhancers That Are Prognostic for Overall Survival

Mohtat

et al. 2014

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Purpose Even though recent studies have shown that genetic changes at enhancers can influence carcinogenesis, most methylomic studies have focused on changes at promoters. We used renal cell carcinoma (RCC), an incurable malignancy associated with mutations in epigenetic regulators, as a model to study genome wide patterns of DNA methylation at a high resolution. Experimental Design and Results Analysis of 1.3 million CpGs by the HELP assay in RCC and healthy microdissected renal tubular controls demonstrated that the RCC samples were characterized by widespread hypermethylation that preferentially affected gene bodies. Aberrant methylation was particularly enriched in kidney specific enhancer regions associated with H3K4Me1 marks. Various important underexpressed genes such as SMAD6 were associated with aberrantly methylated, intronic enhancers and these changes were validated in an independent cohort. MOTIF analysis of aberrantly hypermethylated regions revealed enrichment for binding sites of AP2alpha, AHR, HAIRY, ARNT and HIF-1 transcription factors, reflecting contributions of dysregulated hypoxia signaling pathways in RCC. The functional importance of this aberrant hypermethylation was demonstrated by selective sensitivity of RCC cells to low levels of decitabine. Most importantly, methylation of enhancers was predictive of adverse prognosis in 405 cases of RCC in multivariate analysis. Additionally, parallel copy number analysis from MspI representations demonstrated novel cnvs that were validated in independent cohort of patients. Conclusions Our study is the first high resolution methylome analysis of RCC; demonstrates that many kidney specific enhancers are targeted by aberrant hypermethylation and reveals the prognostic importance of these epigenetic changes in an independent cohort.

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Fine Tuning Gene Expression: The Epigenome

Mohtat

Suszták

2010

Seminars in Nephrology

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An epigenetic trait is a stably inherited phenotype resulting from changes in a chromosome without alterations in the DNA sequence. Epigenetic modifications, such as; DNA methylation, together with covalent modification of histones, are thought to alter chromatin density and accessibility of the DNA to cellular machinery, thereby modulating the transcriptional potential of the underlying DNA sequence. As epigenetic marks under environmental influence, epigenetics provides an added layer of variation that might mediate the relationship between genotype and internal and external environmental factors. Integration of our knowledge in genetics, epigenomics and genomics with the use of systems biology tools may present investigators with new powerful tools to study many complex human diseases such as kidney disease.

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Davoud Mohtat

Transcriptome Analysis of Human Diabetic Kidney Disease

Cytosine methylation changes in enhancer regions of core pro-fibrotic genes characterize kidney fibrosis development

Long‐term outcome of early versus delayed rasagiline treatment in early Parkinson's disease

Kidney Cancer Is Characterized by Aberrant Methylation of Tissue-Specific Enhancers That Are Prognostic for Overall Survival

Fine Tuning Gene Expression: The Epigenome

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