Your search keyword '"Sara McClarty"' showing total 5 results

1. Correction: Urinary MicroRNA Profiling in the Nephropathy of Type 1 Diabetes.

Author

Christos Argyropoulos, Kai Wang, Sara McClarty, David Huang, Jose Bernardo, Demetrius Ellis, Trevor Orchard, David Galas, and John Johnson

Subjects

Medicine, Science

Published

2013

2. Urinary microRNA profiling in the nephropathy of type 1 diabetes.

Author

Christos Argyropoulos, Kai Wang, Sara McClarty, David Huang, Jose Bernardo, Demetrius Ellis, Trevor Orchard, David Galas, and John Johnson

Subjects

Medicine, Science

Abstract

Patients with Type 1 Diabetes (T1D) are particularly vulnerable to development of Diabetic nephropathy (DN) leading to End Stage Renal Disease. Hence a better understanding of the factors affecting kidney disease progression in T1D is urgently needed. In recent years microRNAs have emerged as important post-transcriptional regulators of gene expression in many different health conditions. We hypothesized that urinary microRNA profile of patients will differ in the different stages of diabetic renal disease.We studied urine microRNA profiles with qPCR in 40 T1D with >20 year follow up 10 who never developed renal disease (N) matched against 10 patients who went on to develop overt nephropathy (DN), 10 patients with intermittent microalbuminuria (IMA) matched against 10 patients with persistent (PMA) microalbuminuria. A Bayesian procedure was used to normalize and convert raw signals to expression ratios. We applied formal statistical techniques to translate fold changes to profiles of microRNA targets which were then used to make inferences about biological pathways in the Gene Ontology and REACTOME structured vocabularies. A total of 27 microRNAs were found to be present at significantly different levels in different stages of untreated nephropathy. These microRNAs mapped to overlapping pathways pertaining to growth factor signaling and renal fibrosis known to be targeted in diabetic kidney disease.Urinary microRNA profiles differ across the different stages of diabetic nephropathy. Previous work using experimental, clinical chemistry or biopsy samples has demonstrated differential expression of many of these microRNAs in a variety of chronic renal conditions and diabetes. Combining expression ratios of microRNAs with formal inferences about their predicted mRNA targets and associated biological pathways may yield useful markers for early diagnosis and risk stratification of DN in T1D by inferring the alteration of renal molecular processes.

Published

2013

3. Comparing the MicroRNA spectrum between serum and plasma.

Author

Kai Wang, Yue Yuan, Ji-Hoon Cho, Sara McClarty, David Baxter, and David J Galas

Subjects

Medicine, Science

Abstract

MicroRNAs (miRNAs) are small, non-coding RNAs that regulate various biological processes, primarily through interaction with messenger RNAs. The levels of specific, circulating miRNAs in blood have been shown to associate with various pathological conditions including cancers. These miRNAs have great potential as biomarkers for various pathophysiological conditions. In this study we focused on different sample types' effects on the spectrum of circulating miRNA in blood. Using serum and corresponding plasma samples from the same individuals, we observed higher miRNA concentrations in serum samples compared to the corresponding plasma samples. The difference between serum and plasma miRNA concentration showed some associations with miRNA from platelets, which may indicate that the coagulation process may affect the spectrum of extracellular miRNA in blood. Several miRNAs also showed platform dependent variations in measurements. Our results suggest that there are a number of factors that might affect the measurement of circulating miRNA concentration. Caution must be taken when comparing miRNA data generated from different sample types or measurement platforms.

Published

2012

4. Urinary MicroRNA Profiling in the Nephropathy of Type 1 Diabetes

Author

John E. Johnson, Sara McClarty, Trevor J. Orchard, Jose Enrique Bernardo, Christos Argyropoulos, Demetrius Ellis, David C.S. Huang, Kai Wang, and David J. Galas

Subjects

medicine.medical_specialty, Type 1 diabetes, Multidisciplinary, Statement (logic), business.industry, Science, lcsh:R, lcsh:Medicine, Correction, medicine.disease, Bioinformatics, Nephropathy, medicine, Medicine, lcsh:Q, lcsh:Science, Microrna profiling, Psychiatry, business

Abstract

A second grant from the NIH was incorrectly omitted from the Funding statement. The grant number is {"type":"entrez-nucleotide","attrs":{"text":"DK047874","term_id":"187373933","term_text":"DK047874"}}DK047874.

Published

2013

5. Comparing the MicroRNA Spectrum between Serum and Plasma

Author

Sara McClarty, Yue Yuan, Ji-Hoon Cho, Kai Wang, David J. Galas, David Baxter, and Luxembourg Centre for Systems Biomedicine (LCSB): Experimental Neurobiology (Balling Group) [research center]

Subjects

Adult, Blood Platelets, Male, Serum, Circulating mirnas, Erythrocytes, Biophysics, lcsh:Medicine, Multidisciplinary, general & others [F99] [Life sciences], Biology, Biochemistry, Plasma, Young Adult, Multidisciplinaire, généralités & autres [F99] [Sciences du vivant], Diagnostic Medicine, Nucleic Acids, microRNA, Blood plasma, Pathology, Leukocytes, Extracellular, Humans, Platelet, lcsh:Science, Multidisciplinary, Plasma samples, Systems Biology, lcsh:R, Serum samples, MicroRNAs, Immunology, RNA, Medicine, Female, lcsh:Q, RNA extraction, Biomarkers, Research Article, General Pathology, Test Evaluation

Abstract

MicroRNAs (miRNAs) are small, non-coding RNAs that regulate various biological processes, primarily through interaction with messenger RNAs. The levels of specific, circulating miRNAs in blood have been shown to associate with various pathological conditions including cancers. These miRNAs have great potential as biomarkers for various pathophysiological conditions. In this study we focused on different sample types’ effects on the spectrum of circulating miRNA in blood. Using serum and corresponding plasma samples from the same individuals, we observed higher miRNA concentrations in serum samples compared to the corresponding plasma samples. The difference between serum and plasma miRNA concentration showed some associations with miRNA from platelets, which may indicate that the coagulation process may affect the spectrum of extracellular miRNA in blood. Several miRNAs also showed platform dependent variations in measurements. Our results suggest that there are a number of factors that might affect the measurement of circulating miRNA concentration. Caution must be taken when comparing miRNA data generated from different sample types or measurement platforms.

Published

2012