Universal Toxicity Gene Signatures for Early Identification of Drug-Induced Tissue Injuries in Rats.

A new safety testing paradigm that relies on gene expression biomarker panels was developed to easily and quickly identify drug-induced injuries across tissues in rats prior to drug candidate selection. Here, we describe the development, qualification, and implementation of gene expression signatures that diagnose tissue degeneration/necrosis for use in early rat safety studies. Approximately 400 differentially expressed genes were first identified that were consistently regulated across 4 prioritized tissues (liver, kidney, heart, and skeletal muscle), following injuries induced by known toxicants.

A panel of urinary biomarkers to monitor reversibility of renal injury and a serum marker with improved potential to assess renal function.

The Predictive Safety Testing Consortium's first regulatory submission to qualify kidney safety biomarkers revealed two deficiencies. To address the need for biomarkers that monitor recovery from agent-induced renal damage, we scored changes in the levels of urinary biomarkers in rats during recovery from renal injury induced by exposure to carbapenem A or gentamicin. All biomarkers responded to histologic tubular toxicities to varied degrees and with different kinetics.

Diagnosis of drug-induced renal tubular toxicity using global gene expression profiles.

Toxicogenomics can measure the expression of thousands of genes to identify changes associated with drug induced toxicities. It is expected that toxicogenomics can be an alternative or complementary approach in preclinical drug safety evaluation to identify or predict drug induced toxicities. One of the major concerns in applying toxicogenomics to diagnose or predict drug induced organ toxicity, is how generalizable the statistical classification model is when derived from small datasets? Here we presented that a diagnosis of kidney proximal tubule toxicity, measured by pathology, can successfully be achieved even with a study design of limited number of training studies or samples.

5-fluorouracil forward mutation assay in Salmonella: determination of mutational target and spontaneous mutational spectra.

A forward mutation assay in Salmonella typhimurium that selects for 5-fluoruracil (FU) resistance has been developed. The two genes possibly involved in FU resistance, the uracil phosphoribosyl transferase gene (upp) and the uracil transport protein (uraA), have been cloned from S. typhimurium and sequenced.

Induced mutation spectra at the upp locus in Salmonella typhimurium: response of the target gene in the FU assay to mechanistically different mutagens.

A novel forward mutation assay has been developed in Salmonella typhimurium based on resistance to 5-fluorouracil (FU). The mutational target in the FU assay was determined to be the uracil phosphoribosyl transferase (upp) gene. To validate the upp gene as a suitable target for monitoring a variety of induced mutations, the mutational specificity was determined for five mechanistically different mutagens.

A low volume, high-throughput forward mutation assay in Salmonella typhimurium based on fluorouracil resistance.

A forward mutation assay based on 5-fluorouracil (FU) resistance has been developed using a strain of Salmonella typhimurium derived from the Ames strain TA100. The sensitivity of the assay benefits from the genetic characteristics present in the standard Ames strain that enhances the response to genotoxic agents. A mutation conferring resistance to 5-fluorouridine was also introduced into the test strain to avoid unwanted toxicity resulting from cross-feeding of 5-fluorouridine between wild-type and FU-resistant (FU(R)) cells during selection with FU.

Genotoxicity of naturally occurring indole compounds: correlation between covalent DNA binding and other genotoxicity tests.

3-Methylindole (3MI), melatonin (Mel), serotonin (Ser), and tryptamine (Tryp) were evaluated in vitro for their potential to induce DNA adducts, DNA strand breaks, chromosomal aberrations (Abs), inhibition of DNA synthesis, and mutations. All compounds produced DNA adducts in calf thymus DNA in the presence of rat liver S9. In cultured rat hepatocytes, all produced DNA adducts but none induced DNA strand breaks.

Detection of DNA adducts using a quantitative long PCR technique and the fluorogenic 5' nuclease assay (TaqMan).

The detection of DNA adducts is an important component in assessing the mutagenic potential of exogenous and endogenous compounds. Here, we report an in vitro quantitative long PCR (XL-PCR) assay to measure DNA adducts in human genomic DNA based on their ability to block and inhibit PCR amplification. Human genomic DNA was exposed to test compounds and then a target sequence was amplified by XL-PCR.

Suppression of spontaneous and hydrogen peroxide-induced mutagenesis by the antioxidant ascorbate in mismatch repair-deficient human colon cancer cells.

Genomic instability associated with deficiencies in mismatch repair (MMR) plays a critical role in tumorigenesis. Here we have investigated the contribution of oxidative damage to this instability in MMR-defective cells. Treatment with H(2)O(2) produced less cytotoxicity in MMR-deficient cells than in those proficient in MMR, supporting a role for MMR in the recognition and/or processing of oxidative damage.

Use of real-time gene-specific polymerase chain reaction to measure RNA expression of three family members of rat cytochrome P450 4A.

Exposure of rats to peroxisome proliferators induces members of the cytochrome P450 4A (CYP4A) family. In rats, the CYP4A family consists of four related genes, CYP4A1, CYP4A2, CYP4A3, and CYP4A8. We are specifically interested in examining CYP4A1, CYP4A2, and CYP4A3, each of which is expressed in a tissue-dependent and sex-dependent manner.

Extent of CpG methylation is not proportional to the in vivo spontaneous mutation frequency at transgenic loci in Big Blue rodents.

The lacI transgene used in the Big Blue (BB) mouse and rat mutation assays typically displays spontaneous mutation frequencies in the 5x10(-5) range. Recently, the bone marrow and bladder of the Big Blue rat were reported to have, by an order of magnitude, the lowest spontaneous mutation frequencies ever observed for lacI in a transgenic animal, approaching the value for endogenous targets such as hprt ( approximately 10(-6)). Since spontaneous mutations in transgenes have been attributed in part to deamination of 5-methylcytosine in CpG sequences, we have investigated the methylation status of the lacI transgene in bone marrow of BB rats and compared it to that present in other tissues including liver, spleen, and breast.

Specificity of mutations induced by the food-associated heterocyclic amine 2-amino-1-methyl-6-phenylimidazo-[4,5-b]-pyridine in colon cancer cell lines defective in mismatch repair.

Recently, we have shown a hypermutable response to the food-associated heterocyclic amine 2-amino-1-methyl-6-phenylimidazo-[4,5-b]-pyridine (PhIP) in human cells defective in mismatch repair (MMR). These findings suggest that exogenous compounds such as PhIP may play an important role in the generation of tumors in MMR-defective individuals. The specificity of mutations induced by PhIP exposure at the endogenous HPRT locus was determined in cell lines defective in MMR to better understand the mutagenic effects of PhIP in MMR-defective individuals and to gain insight into the molecular mechanism of carcinogenesis induced by PhIP.

Biomarkers of exposure and effect as indicators of potential carcinogenic risk arising from in vivo metabolism of ethylene to ethylene oxide.

The purposes of the present study were: (i) to investigate the potential use of several biomarkers as quantitative indicators of the in vivo conversion of ethylene (ET) to ethylene oxide (EO); (ii) to produce molecular dosimetry data that might improve assessment of human risk from exogenous ET exposures. Groups (n = 7/group) of male F344 rats and B6C3F1 mice were exposed by inhalation to 0 and 3000 p. p.

In vivo transgenic mutation assays.

Transgenic rodent gene mutation models provide quick and statistically reliable assays for mutations in the DNA from any tissue. For regulatory applications, assays should be based on neutral genes, be generally available in several laboratories, and be readily transferable. Five or fewer repeated treatments are inadequate to conclude that a compound is negative but more than 90 daily treatments may risk complications.

Relationships between exposure, cell loss and proliferation, and manifestation of Hprt mutant T cells following treatment of preweanling, weanling, and adult male mice with N-ethyl-N-nitrosourea.

Experiments were performed to characterize the age-related patterns of appearance and frequency of hypoxanthine-guanine phosphoribosyl transferase (Hprt) mutant T lymphocytes in thymus and spleen following exposure of preweanling (12-day-old), weanling (22-day-old), and young adult (8-week-old) male B6C3F1 mice to ethylnitrosourea (ENU). Mice were given single i.p.

Analysis of sequence alterations in a defined DNA region: comparison of temperature-modulated heteroduplex analysis and denaturing gradient gel electrophoresis.

The ability to detect DNA sequence heterogeneity quickly and reliably is becoming increasingly important as more genes involved in disease processes are discovered. We have assessed the ability of a high pressure liquid chromatography technique (HPLC) termed temperature-modulated heteroduplex analysis (TMHA) to detect a collection of 20 point mutations distributed throughout a 279 base pair fragment spanning the exon 8 region of the human HPRT gene. All mutant/wild type heteroduplexes formed from mutations in the lowest temperature melting domain of the fragment were easily resolved from the corresponding mutant and wt homoduplexes, while those generated from mutants in the next higher melting domain barely resolved from their parental homoduplexes.

A novel assay for allelic discrimination that combines the fluorogenic 5' nuclease polymerase chain reaction (TaqMan) and mismatch amplification mutation assay.

Recently much attention has been focused on single nucleotide polymorphisms (SNPs) within fundamentally important genes, such as those involved in metabolism, cell growth regulation, and other disease-associated genes. Methodologies for discriminating different alleles need to be specific (robust detection of an altered sequence in the presence of wild-type DNA) and preferably, amenable to high throughput screening. We have combined the fluorogenic 5' nuclease polymerase chain reaction (TaqMan) and the mismatch amplification mutation assay (MAMA) to form a novel assay, TaqMAMA, that can quickly and specifically detect single base changes in genomic DNA.

Detection of cyclophosphamide-induced mutations at the Hprt but not the lacI locus in splenic lymphocytes of exposed mice.

The relative sensitivities and specificities of the endogenous Hprt gene and the lacI transgene as mutational targets were evaluated in splenic lymphocytes from male standard B6C3F1 mice (only Hprt assayed) and from lacI transgenic B6C3F1 mice treated at 6-7 weeks- of-age with the indirect-acting agent, cyclophosphamide (CP). To define the effects of the time elapsed since CP treatment on Hprt mutant frequencies (Mfs), nontransgenic mice were given single i.p.

Specificity of mutations induced by methyl methanesulfonate in mismatch repair-deficient human cancer cell lines.

Recently, we showed that the cytotoxic and mutagenic response in human cells to the model SN2 alkylating agent methyl methanesulfonate (MMS) can be modulated by the mismatch repair (MMR) pathway. That is, human cancer cell lines defective in MMR are more resistant to the cytotoxic effects of MMS exposure and suffer more induced mutations at the HPRT locus than MMR-proficient cell lines. Since MMS produces little O6-methylguanine (O6-meG), the observed hypermutability and resistance to cytotoxicity in MMR-defective cells likely results from lesions other than O6-meG.

Cytotoxic and mutagenic response of mismatch repair-defective human cancer cells exposed to a food-associated heterocyclic amine.

The cytotoxic and mutagenic effects of 2-amino-1-methyl-6-phenylimidazo-[4,5-b]-pyridine (PhIP), a food-associated heterocyclic amine, were measured in three human cancer cell lines possessing different mismatch repair (MMR) defects and in matched cell lines corrected for the MMR deficiencies by specific chromosome transfer. Cells deficient in MMR were more resistant to PhIP-induced cytotoxicity and displayed approximately 3-fold more induced mutations at the hypoxanthine-guanine phosphoribosyl transferase locus. These results suggest that defects in MMR carried by patients with hereditary nonpolyposis colorectal cancer syndrome may result in enhanced sensitivity to certain dietary and environmental carcinogens such as PhIP.

Culture and propagation of Hprt mutant T-lymphocytes isolated from mouse spleen.

The optimization of the mouse lymphocyte Hprt mutation assay has been impeded by the relatively poor growth potential of mouse T-cells in vitro, which leads to low cloning efficiencies (CEs) and limited expansion of Hprt mutant clones for molecular analysis of mutations occurring in control and treated mice. In this study, the addition and manipulation of concanavalin A (Con A), mouse interleukin-2 (IL-2), and a commercially available culture supplement, rat T-STIM with Con A, were used to identify growth conditions producing relatively high CEs for mouse T-cells. Supplementation of medium with 10% rat T-STIM, along with appropriate amounts of Con A for priming and exogenous IL-2 for cloning, resulted in average CEs of 15-16% in lymphocytes isolated from spleens of control mice (n = 32) or mice exposed to 1,3-butadiene (n = 27).

A comparative study of in vivo mutation assays: analysis of hprt, lacI, cII/cI and as mutational targets for N-nitroso-N-methylurea and benzo[a]pyrene in Big Blue mice.

We have compared the response of the native hprt gene and the lacI, cII, and cI transgenes in Big Blue B6C3F1 mice following treatment with either N-nitroso-N-methylurea (MNU) or benzo[a]pyrene (BaP). Three weeks after mutagen treatment splenic T cells were isolated from the animals, and samples were either cultured to measure mutation at the native hprt locus or used to extract genomic DNA for transgene mutation analysis. Phage rescued from extracted DNA were plated in the presence of 5-bromo-4-chloro-3-indolyl-beta-d-galactopyranoside (X-gal) to score lacI mutations, or plated on a hflAB lawn to score cII and cI mutants.

Genetic instability in human T-lymphocytes.

Mutations arising in vivo in the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene of T-lymphocytes provide a measure of mutation induction in human somatic cells. Studies of measured background HPRT mutant frequency (MF) values show wide inter-individual variation. At the extremes are individuals with 'outlier' MF values, i.

DNA synthesis inhibition as an indirect mechanism of chromosome aberrations: comparison of DNA-reactive and non-DNA-reactive clastogens.

Positive results in the in vitro assay for chromosome aberrations sometimes occur with test chemicals that apparently do not react with DNA, being negative in tests for mutation in bacteria, for DNA strand breaks, and for covalent binding to DNA. These chromosome aberrations typically occur over a narrow concentration range at toxic doses, and with mitotic inhibition. Indirect mechanisms, including oxidative damage, cytotoxicity and inhibition of DNA synthesis induced by chemical exposure, may be involved.