Discriminating Different Classes of Toxicants by Transcript Profiling

Steiner, Guido; Suter, Laura; Boess, Franziska; Gasser, Rodolfo; Vera, M.; Albertini, Silvio; Ruepp, Stefan

doi:10.1289/txg.7036

Cited by 80 publications

(63 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Models of transcript profiling for discrimination of toxic and nontoxic compounds in liver and other organs have also been developed in rodents (18), confirming the hypothesis that predictive modeling for classification of toxic agents and carcinogens is feasible. Here we used toxicogenomic approaches in human mesothelial cells, a cell type exquisitely sensitive to asbestos (19) and human contact-inhibited ovarian epithelial cells, a cell type not linked to carcinogenesis by asbestos, to determine whether the magnitude of altered gene expression by insoluble particulates correlated with their toxicity to cells and documented pathogenicity in humans.…”

Section: Discussionmentioning

confidence: 62%

Alterations in Gene Expression in Human Mesothelial Cells Correlate with Mineral Pathogenicity

Shukla

MacPherson²,

Hillegass³

et al. 2009

Am J Respir Cell Mol Biol

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 62%

Alterations in Gene Expression in Human Mesothelial Cells Correlate with Mineral Pathogenicity

Shukla

MacPherson²,

Hillegass³

et al. 2009

Am J Respir Cell Mol Biol

View full text Add to dashboard Cite

“…The value created from mining vast amounts of gene expression data has allowed the linking of gene expression changes with traditional measurements of pharmacological and toxicological activity. This connection of traditional and novel data provides context and meaning to the alterations in gene expression caused by a candidate drug or chemical (Amin et al, 2002;Bushel et al, 2002;Hamadeh et al, 2002aHamadeh et al, , 2002bSteiner et al, 2004;Fielden et al, 2005;Ruepp et al, 2005). Further, this database has been mined using rigorous, statistical approaches based on sophisticated classification algorithms and logistic regression producing a library of linear, robust binary classifiers (Ganter et al, 2005;Natsoulis et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

NSAID-Induced Acute Phase Response is Due to Increased Intestinal Permeability and Characterized by Early and Consistent Alterations in Hepatic Gene Expression

Tugendreich

Pearson

Sagartz³

et al. 2006

Toxicol Pathol

View full text Add to dashboard Cite

Toxicogenomics using a reference database can provide a better understanding and prediction of toxicity, largely by creating biomarkers that tie gene expression to actual pathology events. During the course of building a toxicogenomic database, an observation was made that a number of non-steroidal anti-inflammatory compounds (NSAIDs) at supra-pharmacologic doses induced an acute phase response (APR) and displayed hepatic gene expression patterns similar to that of intravenous lipopolysaccharide (LPS). Since NSAIDs are known to cause injury along the gastrointestinal tract, it has been suggested that NSAIDs increase intestinal permeability, allowing LPS and/or bacteria into the systemic circulation and stimulating an APR detectable in the liver. A short term study was subsequently conducted examining the effects of aspirin, indomethacin, ibuprofen, and rofecoxib to rats and a variety of endpoints were examined that included serum levels of inflammatory cytokines, histologic evaluation, and hepatic gene expression. Both indomethacin and ibuprofen injured the gastrointestinal tract, induced an APR, and increased serum levels of LPS, while rofecoxib and aspirin did not affect the GI tract or induce an APR. In treatments that eventually showed a systemic inflammatory response, hepatic expression of many inflammatory genes was noted as early as 6 hours after treatment well before alterations in traditional clinical pathology markers were detected. This finding led to the creation of a hepatic gene expression biomarker of APR that was effectively shown to be an early identifier of imminent inflammatory injury. In terms of the relative gastrointestinal safety and the NSAIDs studied, an important safety distinction can be made between the presumptive efficacious dose and the APR-inducing dose for indomethacin (1-2-fold), ibuprofen (5-fold), and rofecoxib (∼250-fold). Our data support the notion that NSAID-induced intestinal injury results in leakage of commensural bacteria and/or LPS into the circulation, provoking a systemic inflammatory response and that hepatic gene expression-based biomarkers can be used as early and sensitive biomarkers of APR onset.[The table referenced in this paper is not printed in this issue of Toxicologic Pathology. It is available as a downloadable text file in the online edition of Toxicologic Pathology, 34(2). In order to access the full article online, you must have either an individual subscription or a member subscription accessed through www.toxpath.org.]

show abstract

“…To classify individual gene expression profiles, previous liver gene expression profiles from male Wistar rats were used to generate a predictive support vector machine (SVM)-based predictive model for the following hepatotoxic categories: control/nontoxic, direct acting, peroxisome proliferation, cholestasis and steatosis [Lee, 1995]. Subsequently, gene expression profiles from the livers of control and treated rats were compared with the SVM Hepatotox_SVM_OVA_Versionl [Steiner et al 2004], and classified according to confidence.…”

Section: Methodsmentioning

confidence: 99%

Increased levels of urinary phenylacetylglycine associated with mitochondrial toxicity in a model of drug-induced phospholipidosis

Doessegger

Schmitt

Lenz

et al. 2013

Therapeutic Advances in Drug Safety

Self Cite

View full text Add to dashboard Cite

Background: Phospholipidosis (PLD) is a lysosomal storage disorder induced by a class of cationic amphiphilic drugs. However, drug-induced PLD is reversible. Evidence of PLD from animal studies with some compounds has led to discontinuation of development. Regulatory authorities are likely to request additional studies when PLD is linked to toxicity. Objective: We conducted a trial to investigate urinary phenylacetylglycine (uPAG) as a biomarker for PLD. Materials and methods: Five groups of 12 male Wistar rats were dosed once with vehicle, 300 mg/kg or 1500 mg/kg of compound A (known to induce PLD), or 300 mg/kg or 1000 mg/ kg of compound B (similar structure, but does not induce PLD) to achieve similar plasma exposures. Following dosing, urine and blood samples underwent nuclear magnetic resonance (NMR), proteomic, and biochemical analyses. Necropsies were performed at 48 and 168 h, organ histopathology evaluated, and gene expression in liver analyzed by microarray. Electron microscopic examination of peripheral lymphocytes was performed. Results: For compound A, uPAG increased with dose, correlating with lamellar inclusion bodies formation in peripheral lymphocytes. NMR analysis showed decreased tricarboxylic acid cycle intermediates, inferring mitochondrial toxicity. Mitochondrial dysfunction was suggested by uPAG increase, resulting from a switch to anaerobic metabolism or disruption of the urea cycle. Discussion and conclusion: uPAG shows utility as a noninvasive biomarker for mitochondrial toxicity associated with drug-induced PLD, providing a mechanistic hypothesis for toxicity associated with PLD likely resulting from combined direct and indirect mitochondrial toxicity via impairment of the proton motor force and alteration of fatty acid catabolism.

show abstract

Discriminating Different Classes of Toxicants by Transcript Profiling

Cited by 80 publications

References 54 publications

Alterations in Gene Expression in Human Mesothelial Cells Correlate with Mineral Pathogenicity

Alterations in Gene Expression in Human Mesothelial Cells Correlate with Mineral Pathogenicity

NSAID-Induced Acute Phase Response is Due to Increased Intestinal Permeability and Characterized by Early and Consistent Alterations in Hepatic Gene Expression

Increased levels of urinary phenylacetylglycine associated with mitochondrial toxicity in a model of drug-induced phospholipidosis

Contact Info

Product

Resources

About