Project description:Autosomal dominant polycystic kidney disease (ADPKD) is characterized by the formation of multiple fluid-filled cysts that destroy the kidney architecture resulting in end-stage renal failure. Mutations in the ADPKD genes PKD1 and PKD2 account for nearly all the cases of ADPKD. Increased cell proliferation is one of the key features of the disease. Several studies indicated that polycystin-1, the product of PKD1, regulates cellular proliferation through various signaling pathways, but little is known about the role played by polycystin-2, the product of PKD2. Recently, it was reported that as with polycystin-1, polycystin-2 can acts as a negative regulator of cell growth by modulating the levels of the cyclin-dependent kinase inhibitor, p21 and the activity of the cyclin-dependent kinase 2, Cdk2. In this study we utilized different kidney cell lines expressing wild-type and mutant PKD2 as well as primary tubular epithelial cells isolated from a PKD transgenic rat to further explore the contribution of the p21/Cdk2 pathway in ADPKD proliferation. Surprisingly, over-expression of wild-type PKD2 in renal cell lines failed to inactivate Cdk2 activity and consequently had no effect on cell proliferation. On the other hand, expression of mutated PKD2 augmented proliferation only in the primary tubular epithelial cells of a rat model but this was independent of STAT-1/p21 pathway. Genome-wide expression analysis in these cells revealed that expression of the cyclin-dependent kinase inhibitor, p57 is downregulated, while p21 remains unchanged. This p57 reduction is accompanied by an increase in Cdk2 levels. Our results indicate the probable involvement of p57 on epithelial cell proliferation in polycystic kidney disease. In addition, it confirms that PKD2-induced proliferation is a multifactorial process. We used microarrays to study the modulation of gene expression by mutated PKD2 in the primary tubular epithelial cells of a transgenic rat mode Keywords: transgene Gene expression in the primary tubular epithelial of a transgenic rat mode with mutated PKD2 was compared with that of SD control rats

Project description:Caffeine and trigonelline are the major bioactive compounds in coffee. Caffeine alone or combined with other coffee compounds shows hepatoprotective effects. However, molecular mechanisms underlying such hepatoprotective effects remain unclear. We therefore addressed molecular effects of caffeine and trigonelline on human hepatocytes using quantitative proteomics followed by bioinformatic analyses to obtain topological and functional significance. HepG2 cells were treated with 100 μM caffeine or trigonelline for 24-h and evaluated by quantitative proteomics using nanoLC-ESI-LTQ-Orbitrap MS/MS. A total of 27 and 26 significantly altered proteins were identified in caffeine-treated and trigonelline-treated cells, respectively, compared with control cells. Topological analyses revealed that ribosomal and translation regulatory proteins predominantly served as the hub proteins associated with protein clusters. Functional analyses also revealed that these two bioactive compounds shared some molecular mechanisms via induction of translational processes. There were also other unique molecular functions and biological processes triggered or suppressed by either caffeine or trigonelline. These data highlight common and unique molecular mechanisms underlying the hepatoprotective effects of caffeine and trigonelline that may be useful for future clinical applications.

Project description:described in: Pharmacokinetic-pharmacodynamic modeling of caffeine: Tolerance to pressor effects Shi J, Benowitz NL, Denaro CP and Sheiner LB. ;Clin. Pharmacol. Ther. 1993 Jan;53(1):6-14. PMID:8422743; Abstract: We propose a parametric pharmacokinetic-pharmacodynamic model for caffeine that quantifies the development of tolerance to the pressor effect of the drug and characterizes the mean behavior and inter-individual variation of both pharmacokinetics and pressor effect. Our study in a small group of subjects indicates that acute tolerance develops to the pressor effect of caffeine and that both the pressor effect and tolerance occur after some time delay relative to changes in plasma caffeine concentration. The half-life of equilibration of effect with plasma caffeine concentration is about 20 minutes. The half-life of development and regression of tolerance is estimated to be about 1 hour, and the model suggests that tolerance, at its fullest, causes more than a 90 percent reduction of initial (nontolerant) effect. Whereas tolerance to the pressor effect of caffeine develops in habitual coffee drinkers, the pressor response is regained after relatively brief periods of abstinence. Because of the rapid development and regression of tolerance, the pressor response to caffeine depends on how much caffeine is consumed, the schedule of consumption, and the elimination half-life of caffeine. Caffeine intake in this version is modelled as cups of coffee drunk at regular intervals (parameter t_interval). The amount of caffeine per cup is determined by the parameter cupsize. The body weight of the person drinking is given by the parameter bodyweight. The even coffee cup occures delayed to the drinking of each cup, as the availability of the caffeine in the digestive tract is assumed to be delayed to the ingestion by the time t_lag. This model originates from BioModels Database: A Database of Annotated Published Models. It is copyright (c) 2005-2011 The BioModels.net Team.For more information see the terms of use.To cite BioModels Database, please use: Li C, Donizelli M, Rodriguez N, Dharuri H, Endler L, Chelliah V, Li L, He E, Henry A, Stefan MI, Snoep JL, Hucka M, Le Novère N, Laibe C (2010) BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models. BMC Syst Biol., 4:92.

Project description:Interventions: Drinking three cups of coffee with 100 mg caffeine in hot water 100 mL in one day, beginning on the morning after surgery at 7.00, 12.00, 17.00 within 30 minutes under the supervision (a nurse or a doctor).,Drinking three cups of coffee with 50 mg caffeine in hot water 100 mL in one day, beginning on the morning after surgery at 7.00, 12.00, 17.00 within 30 minutes under the supervision (a nurse or a doctor).;Active Comparator Other,Active Comparator Other;100 mg caffeine,50 mg caffeine Primary outcome(s): the time to first flatus after drink coffee based on the patient own statements Study Design: Randomized

Project description:Postoperative bowel paralysis is common after abdominal operations, including colectomy. As a result, hospitalization may be prolonged leading to increased cost. A recent randomized controlled trial from the University of Heidelberg showed that consumption of regular black coffee after colectomy is safe and associated with a significantly faster resumption of intestinal motility (Müller 2012). The mechanism how coffee stimulates intestinal motility is unknown but caffeine seems to be the most likely stimulating agent. Thus, this trial addresses the question: Does caffeine reduce postoperative bowel paralysis after elective laparoscopic colectomy? Patients after laparoscopic colectomy will receive either 100 mg caffeine, 200 mg caffeine, or 250mg corn starch (placebo) 3 times daily in identically looking gelatin capsules. The study is a randomized, controlled trial, with blinding of physicians, patients and nursing stuff (evaluating the endpoints). Primary endpoint will be the time to first bowel movement.

Project description:Interventions: 12 g Americano coffee mixed in 100 ml warm water (100 mg of caffeine) 3 times a day at 7.00, 12.00, and 17.00,Synthetic coffee product mixed in 100 ml warm water 3 times a day at 7.00, 12.00, and 17.00;Active Comparator Dietary Supplement,Active Comparator Dietary Supplement;coffee,Placebo Primary outcome(s): the first farting 72 hours after a surgery operation Timing Observation Study Design: Randomized

Project description:This SuperSeries is composed of the following subset Series: GSE34979: Array-based CGH analysis of ccRCC derived cell lines GSE34981: miRNA transcript levels in ccRCC-derived cell lines and proximal tubular epithelial cell samples Refer to individual Series

Project description:The present study aims to assess the potential changes in microRNAs of proximal renal tubular cells in response to the adhesion of calcium oxalate monohydrate (COM) crystals. microRNA microarray was applied to evaluate the expression of HK-2 cells exposed to COM crystals for 0 and 24 hours.

Project description:The goal of this study was to identifiy cellular pathways modified by calcium storing in cells presenting a glycolytic metabolism and a poor mitochondrial biogenesis. Keywords: calcium stress response in RO82 W-1 cells In duplicate, cells treated with ionomycin or BAPTA/AM during 96h compared to equivalent DMSO treated cells

Project description:Despite numerous studies reporting deregulated microRNA (miRNA) and gene expression patterns in clear cell renal cell carcinoma (ccRCC), no direct comparisons have been made to its presumed normal counterpart; the renal proximal epithelial tubular cells (PTEC). The aim of this study was to determine the miRNA expression profiles of ten clear cell renal cell carcinoma-derived cell lines and short-term cultures of PTEC, and to correlate these with their gene expression, and copy-number profiles. Using microarray-based methods, a significantly altered expression level in ccRCC cell lines was observed for 23 miRNAs and 1630 genes. The set of miRNAs with significantly decreased expression levels include all members of the miR-200 family known to be involved in the epithelial to mesenchymal transition (EMT) process. Expression levels of 13 of the 47 validated target genes for the downregulated miRNAs were increased more than two-fold. Our data reinforce the importance of the EMT process in the development of ccRCC. For mRNA expression data of these cell lines see GEO Series accession number GSE20491. MicroRNA profiling was performed on two proximal tubular epithelial cell samples (both cell samples were hybridized twice (biological duplicates)) and ten clear cell renal cell carcinoma- derived cell lines (one of which; RCC-JF in duplicate)