A toxicologist's guide to biomarkers of hepatic response.

Biological markers (biomarkers) are used to recognize, characterize and monitor treatment-related responses following exposure to xenobiotics. Biomarkers serve three primary applications in toxicology: 1) to confirm exposure to a deleterious agent, 2) to provide a system for monitoring individual susceptibility to a toxicant, and 3) to quantitatively assess deleterious effects of a toxicant to an organism or individual. Because the liver is a general target for adverse effects of drugs and other chemicals, biomarkers of untoward hepatic response to xenobiotics are of particular interest to the pharmaceutical toxicologist. General requirements for the latter category of biomarkers are sample availability, target organ specificity, sensitivity for the toxicity of interest, accessibility, a relatively short half-life, and available detection systems. Biomarkers that can be assayed in biological fluids from both human and animal subjects are particularly desirable. Histologically, acute and subacute hepatic toxicity commonly involves necrosis, steatosis, cholestasis, vascular disorders, or multiple lesions. The purpose of this review is to summarize reported applications using clinical analytes and biochemical indicators of hepatic dysfunction with emphasis on those that show promise of supplementing or improving upon standard laboratory procedures. Liver function markers refer to peripheral indicators of hepatic synthetic and secretory activities, enterohepatic function, or perturbations of the hepatic uptake and clearance of circulating biomolecules. Liver injury biomarkers include various peripheral proteins released in response to a cellular damage or locally, proteins that are significantly altered within the liver. These include both circulating cytosolic, mitochondrial, or canalicular membrane markers, and the up-regulation or depletion of radical scavengers, modulators, and stabilizers of intracellular damage. Subsequent recovery from a toxic insult involves repair, regenerative, and proliferative responses that constitute the third class of biomarkers. Of these, protein markers found either in sera, plasma, or urine either during or just prior to the early manifestation of histological hepatic lesions are of greatest interest. Examples of a number of these markers, their documented applications in humans or animals, and potential advantages as well as limitations are presented.

Induction of hepatic microsomal drug-metabolizing enzymes by inhibitors of 5-lipoxygenase (5-LO): studies in rats and 5-LO knockout mice.

The effect of 5-lipoxygenase (5-LO) inhibitors on the hepatic microsomal mixed-function oxidase (MFO) system of rodents was investigated. After establishing the relative in vitro and in vivo potencies of the 3 test compounds, male Crl:CD (SD) BR rats received CJ-11,802 (0, 10, 50, or 200 mg/kg/day), zileuton (0, 10, 60, or 300 mg/kg/day) or ZD2138 (0 or 200 mg/kg/day) once daily by oral gavage for 14 (zileuton and ZD2138) or 30 (CJ-11,802) consecutive days. Controls were given an equivalent volume of 0.5% methylcellulose vehicle. At necropsy, all livers were weighed, and sections from representative animals (control and highest dose for each compound) were utilized to prepare hepatic microsomal fractions, which were assayed for cytochrome P-450 (CYP) content and the activities of cytochrome c reductase (CRed), para-nitroanisole O-demethylase (p-NOD), ethoxyresorufin O-deethylase (EROD), and pentoxyresorufin O-dealkylase (PROD). A dose-related increase in liver weight occurred in rats given CJ-11,802 and zileuton, while animals administered ZD2138 were unaffected. Rats given CJ-11,802 (200 mg/kg/day) and zileuton (300 mg/kg/day) had increases in CYP, EROD, PROD, CRed and p-NOD compared to corresponding controls, while only the latter two activities were elevated in animals administered ZD2138. To determine if induction of the hepatic microsomal MFO system was related to 5-LO inhibition, male DBA wild-type and 5-LO knockout mice were administered either CJ-11,802 (200 mg/kg/day) or vehicle by oral gavage for 14 consecutive days. At necropsy, liver weight, CYP content, and CRed activity were measured and all were increased similarly in the treated wild-type and knockout mice compared to corresponding controls, indicating that induction was not related to inhibiting 5-LO.

The relationship among microsomal enzyme induction, liver weight and histological change in beagle dog toxicology studies.

The present study represents a retrospective analysis of hepatic microsomal enzyme induction data collected over a period of years for the beagle dog. Comparisons were completed for up to six enzyme activities and P450 content versus histopathological examination of the liver for hepatic changes and serum chemistry data analysis for markers indicative of hepatic injury. In addition, qualitative comparisons were made for these compounds to data reported in the rat by the same authors. In this analysis of canine study data for nine different compounds comprising five different pharmacological classes, significant elevations in several microsomal enzyme activities were observed under study conditions that did not result in liver weight increases, histological changes or serum chemistry changes that would be indicative of hepatocellular or hepatobiliary damage. Despite some species differences in cytochrome P450 homologues, for this compound set, there was clearly a general association between the response in dog liver and that of the rat liver. Compounds that elicited significant increases in more than one canine P450 endpoints were also likely to produce an inductive response in rat liver; however, the magnitude of the response and the P450 endpoint involved were not always identical. We conclude that hepatic drug-metabolizing enzyme induction in the beagle dog liver is typically a benign adaptive response, which parallels that reported previously in the rat.

A comparison of the direct and reporter antigen popliteal lymph node assay for the detection of immunomodulation by low molecular weight compounds.

The direct popliteal lymph node assay (PLNA) is a predictive test used to detect the immune-stimulating potential of pharmaceuticals and other low molecular weight compounds (LMWCs) with known autoimmunogenic or sensitizing properties. Two limitations in the PLNA are the existence of false negatives and the inability of the assay to provide mechanistic information. Recently the direct PLNA was modified by incorporating reporter antigens (RA), either TNP-Ficoll or TNP-OVA. In the RA-PLNA, immune stimulation is detected by measuring IgM or IgG TNP-specific antibody-forming cells (AFC) using an enzyme-linked immunospot (ELISPOT) assay. The RA-PLNA, when using potent, known autoimmunogenic compounds, may provide greater sensitivity compared to the direct PLNA and might distinguish LMWCs that have intrinsic adjuvant activity from those that create neo-antigens, using TNP-OVA and TNP-Ficoll, respectively. The purpose of this study was to rigorously compare the two assays. Our first objective was to investigate the interlaboratory reproducibility of the RA-PLNA using four autoimmunogenic LMWC models, plus one negative control LMWC. Subsequently, we tested seven LMWCs with known sensitizing properties and compared the results from the direct and modified assay. The test group included LMWCs thought to be mechanistically distinct and similar to compounds typically encountered in preclinical safety assessment. All control and treatment AFC plaques were collected (76 total), pooled, coded to conceal their source, and counted. The interlaboratory reproducibility of the RA-PLNA was demonstrated with the model autoimmunogenic compounds HgCl2, diphenylhydantoin, D-penicillamine, and the negative control compound phenobarbital, by detecting TNP-specific IgM and polyclonal IgG production to both reporter antigens. Additionally, the sensitizing effects of streptozotocin were identified using an IgG2a ELISPOT with both TNP-OVA and TNP-Ficoll. With the extended test group, the sensitizing effects of aniline, a false negative LMWC in the direct PLNA, was not detected in this study when using the direct PLNA. However, there was an increase of IgG1 AFCs using TNP-OVA, when compared to control (508 +/- 113 vs. 12 +/- 4 respectively). Glafenine, diclofenac, and ibuprofen, all associated with drug-induced anaphylaxis in humans, produced significant increases in IgG1 production to TNP-OVA. Of these three LMWCs, only diclofenac, which has been documented to induce neo-antigen formation, was detected with TNP-Ficoll. Hydralazine immunomodulation could be detected only with the direct PLNA although significant increases in IgM were identified with the co-injection of either reporter antigen. Isoniazid and methyldopa consistently produced negative responses in both assays. In summary, this study has demonstrated acceptable interlaboratory reproducibility of the RA-PLNA, using model autoimmunogenic LMWCs. Additionally, it demonstrated that an advantage of the RA-PLNA was that it identified all anaphylactic-associated LMWCs tested, detected the false negative compound aniline, and revealed what is thought to be the mechanism(s) associated with diclofenac-induced immunostimulation.

In vitro toxicity of zamifenacin (UK-76,654) and metabolites in primary hepatocyte cultures.

1. We compared the sensitivities of primary hepatocytes from rat, dog and monkey to zamifenacin and two major metabolites, the methylenedioxy ring-opened catechol, UK-80,178 and its methylated product, UK-82,201. Toxicity was determined both via neutral red uptake and enzyme leakage data. 2. Canine hepatocytes were most sensitive to the cytotoxic effects of zamifenacin during 24-h exposure. Significant decreases in medium concentrations of zamifenacin in the presence of primary hepatocytes verified cellular uptake during the initial 2-h incubation. All three cell types were much more sensitive to UK-82,201 than to the catechol metabolite or parent drug. 3. The rapid onset of cytotoxicity indicated by elevations of alanine aminotransferase (ALT), aspartate aminotransferase (AST) and other markers in the medium after UK-82,201 exposure, the delayed but substantial cytotoxic response to the parent drug which was suggestive of biotransformation to a reactive moiety, in vivo and in vitro drug metabolism results and subacute toxicology data suggest that dog may more effectively transform zamifenacin into UK-82,201, which is relatively hepatotoxic. 4. Because the catechol was generally less toxic than the O-methylated product, species that eliminate zamifenacin primarily as the catechol or its conjugate may be less affected by the potential hepatotoxicity of the methylated product. Our studies show that dog is the most sensitive species due to metabolism of the common catechol metabolite. The low incidence of potential hepatotoxicity in the clinic points to rare but important differences in the metabolism of Zamifencin. We conclude that the findings in dog were not predictive of subsequent effects in man.

The relationship among microsomal enzyme induction, liver weight and histological change in rat toxicology studies.

The purpose of this study was to determine what histological changes, if any, accompany liver enlargement and microsomal enzyme induction in rats administered high doses of therapeutic agents in preclinical toxicology studies. This was accomplished by evaluating a database derived from a series of 11 induction studies in rats with 10 novel compounds comprising five therapeutic classes. Results from serum enzyme chemistry analyses, gross organ weight changes, and histological analyses of the liver sections were evaluated and compared with the magnitude and extent of hepatic cytochrome P450 induction. All compounds were administrated via oral intubation once a day for the duration of the study using multiple doses, each proportionally based on body weight. During the course of these studies, serum clinical chemistry data and clinical observations were recorded. After necropsy, histopathology observations were made, and hepatic microsomes were assayed for cytochrome P450 content and associated drug-metabolizing enzymes. In some cases, cyanide-insensitive beta-oxidation of palmitoyl CoA was also assayed. Liver weight increases of 20% or greater were associated with histological evidence of hypertrophy, but neither the severity of hypertrophy nor the magnitude of liver weight increase correlated with the magnitude of drug-metabolizing enzyme elevations. Hypertrophy alone was not associated with serum enzyme increases. While there was a correlation between the incidence of increased liver weights and microsomal enzyme induction, the magnitudes of these increases were not related. Decreased serum triglycerides were often associated with elevated beta-oxidation attributed to hepatic peroxisome proliferation. It was concluded that, while slight ALT elevations occasionally were observed, hepatic microsomal enzyme induction was generally not accompanied by substantial morphological changes or elevated serum enzyme levels considered indicative of liver injury.

Serum transaminase elevations as indicators of hepatic injury following the administration of drugs.

During the preclinical, early clinical, late-stage clinical, and postmarketing phases of the pharmaceutical discovery and development process, one important aspect of drug safety assessment involves monitoring for possible drug-induced hepatic injury. Hepatic injuries vary in nature from direct, intrinsic effects that are observed in most recipients and more than one species to rare idiosyncratic responses seen only in a few clinical subjects. Histological types of injuries vary from hepatocellular to hepatobiliary with multiple cellular effects characteristic of each type. Of the various clinical laboratory markers for hepatic injury, serum transaminases, especially alanine aminotransferase (ALT), are the most universally important indicators for studies ranging from early preclinical animal testing to postmarketing patient monitoring. This review examines the characteristics of hepatic toxicity that result in serum ALT changes, the differences in the etiology of hepatic responses which govern when liver injury is most likely to be detected during the four phases of the drug discovery and development process, and those modulating factors which affect the utility of ALT as a dependable marker of hepatic injury in clinical populations. The paper concludes with a summary of some ancillary methods for early preclinical screening such as in vitro metabolism and toxicity assays, gene and protein expression analysis, and some strategies for enhancing the probability for the early detection of idiosyncratic hepatotoxic responses which are infrequent but significant factors in the safety assessment process.

Ethylmorphine N-demethylase activity as a marker for cytochrome P450 CYP3A activity in rat hepatic microsomes.

The purpose of this study was to evaluate the selectivity and sensitivity of ethylmorphine N-demethylase (EMD) as an indicator of chemically-induced cytochrome P450 CYP3A activity in liver microsomes of rats following treatment with selective enzyme inducers. Male and female Sprague-Dawley (CD) rats were dosed with either pregnenolone-16alpha-carbonitrile (PCN; 50 mg/kg per day for 5 days), phenobarbital (PB; 100 mg/kg per day for 4 days), beta-naphthoflavone (betaNF; 100 mg/kg per day for 3 days), clofibrate (CF; 300 mg/kg per day for 14 days), isoniazid (ISO; 100 mg/kg per day for 3 days), or dexamethasone (DEX; 50 mg/kg per day for 4 days). Microsomes were isolated, frozen and subsequently assayed for protein, cytochrome P450 content and EMD activity. In males, significant elevations (P < 0.01) in EMD activity were observed in microsomes from PB-, DEX- and PCN-dosed animals compared with untreated controls. Microsomes from ISO- and betaNF-dosed males showed a reduction (P < 0.05) in EMD activity when compared with control microsomes, and CF was without effect. In females, EMD activities were significantly increased in microsomes from PCN, DEX and PB-dosed but not betaNF, ISO, or CF-dosed animals. As expected on the basis of sex-related differences in gene expression, EMD activities in untreated animals were considerably higher in males than females, attributable to constitutive CYP3A and CYP2C11 activities. The selectivity of EMD for induced CYP3A was confirmed on the basis of inhibition studies with selected steroid substrates of CYP3A, polyclonal anti-CYP3A1 antibodies and triacetyloleandomycin (TAO), a selective inhibitor of CYP3A. In conclusion, for both sexes, the greatest elevations (approximately 3-13-fold) in EMD activity were observed in microsomes from rats dosed with DEX, a potent archetypal inducer with lesser but significant increases noted for PCN and PB, indicating that EMD is a reliable indicator of induced rat hepatic cytochrome P450 CYP3A activity.

Hepatic microsomal enzyme induction, beta-oxidation, and cell proliferation following administration of clofibrate, gemfibrozil, or bezafibrate in the CD rat.

Male and female CD rats were administered one of two dose levels of clofibrate, gemfibrozil, or bezafibrate daily by oral gavage for a period of 14 days in order to establish an empirical data base using the Charles River CD rat with a single class of drugs against which the potency of novel proprietary compounds could be compared. Subsequent gross examination of the liver indicated significant and dose-related increases in relative and absolute liver weights in males following clofibrate and gemfibrozil. In females, absolute and relative liver weights were significantly elevated to a similar degree with either dose of gemfibrozil, and absolute liver weights were higher in clofibrate-dosed animals. Bezafibrate had no effect on female liver weights. Clofibrate and gemfibrozil increased hepatic palmitoyl CoA beta-oxidation in both sexes; however, clofibrate had the greater effect in males and gemfibrozil had the least effect in females. Bezafibrate treatment resulted in a very pronounced elevation of palmitoyl CoA beta-oxidation in the males but had no similar effect in the females. Concurrent ELISA analysis for cytochrome CYP4A revealed very good correspondence between beta-oxidation and cytochrome induction for each of the three compounds in males, but other cytochromes were not greatly affected, except CYP1A1 which was elevated in bezafibrate-dosed females. For males, further analysis for markers of cellular proliferation, namely cyclin-dependent kinases (CDK) and proliferating cell nuclear antigen (PCNA), indicated dose-related increases for both with clofibrate, increases at the high dose for gemfibrozil, and, for PCNA, a dose-related increase for bezafibrate. In females, both markers for cell proliferation showed either slight or no increases following any of the three drug treatments. These results demonstrate clear sex-dependent differences in terms of relative potency in the hepatic response of the Sprague-Dawley-derived rat to these peroxisome proliferators. Bezafibrate is most potent and gemfibrozil is least potent in stimulating peroxisome-associated beta-oxidation and cytochrome P450 4A induction in the males. Even though gemfibrozil significantly increased liver weights, beta-oxidation and cytochrome P450 4A in the females increased only after clofibrate treatment, although to a lesser degree than in the males administered the same dose. Similar sex-related differences were observed for cell proliferation. In conclusion, sex-related differences were noted in the potency to stimulate acyl Co-A oxidation, its association with hepatomegaly, and the stimulation of cell proliferation, but CYP4A induction always accompanied any substantial drug-dependent increases in beta-oxidation.

Tetracycline-induced steatosis in primary canine hepatocyte cultures.

Primary hepatocyte cultures prepared from male beagle dog liver were used to determine susceptibility of the canine liver to tetracycline-induced steatosis. The effects of the drug on mitochondrial lipid metabolism and intracellular triglyceride accumulation were monitored at the same time that steatosis was detected by light microscopy and quantitated using lipid-specific stains. Exposure of primary canine hepatocyte cultures to tetracycline for 24-48 h resulted in concentration-dependent, significant increases in the Oil Red O-stained lipid inclusions. Microscopic examination of the total stained areas suggested that increases over control levels were due primarily to the increase in the size of the lipid inclusions rather than in the number. Biochemical analyses for triglyceride content and histological staining with Nile red, another neutral lipid-specific dye, confirmed a specific increase in intracellular triglyceride following a 24-h exposure to noncytotoxic levels of tetracycline beta-oxidation studies based on the oxidation of [14C]palmitic acid or [14C]palmitoyl carnitine demonstrated a concentration-dependent inhibition of mitochondrial but not peroxisomal beta-oxidation in hepatocytes after a 24-h exposure to tetracycline. In vitro incubation of tetracycline with mitochondria isolated from dog liver showed similar concentration-dependent inhibition. This study clearly indicates that the canine hepatocyte is susceptible to tetracycline-induced steatosis. Triglyceride accumulation was concomitant with the inhibition of mitochondrial lipid metabolism, indicating that this is a primary mechanism leading to steatosis in dog hepatocytes following tetracycline exposure.

Effects of hexachlorophene on myelin marker enzymes in rat oligodendrocytes.

The antibacterial substance hexachlorophene (HCP) can affect myelin formation or integrity leading to intramyelinic oedema and vacuolation in the central nervous system through an unknown mechanism. These studies were conducted to investigate the direct, dose-dependent effects of HCP on myelin membrane markers in cultured oligodendrocytes (OLG) isolated from 4-7-day-old rat pups and cultured in vitro for up to 5 wk. 2-wk-old OLG cultures were exposed to 0, 0.24 or 0.74 mum HCP for 48 hr. At 48 hr and again at 5, 12 and 19 days after the end of dosing the myelin markers galactosylceramide (GalC), myelin basic protein (MBP), and 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNPase) were quantified by ELISA or biochemical techniques. DNA was measured to estimate total cell mass and astrocyte contamination was determined by an ELISA procedure using anti-glial fibrillary acidic protein (GFAP) as the primary antibody. Because of the use of a selective culture medium, astrocyte contamination was initially low and continued to decrease from wk 2 to 4 as determined by GFAP binding. CNPase, GalC and MBP levels were similar in control and low-dose (0.24 mum HCP) cultures with a general increase in MBP and CNPase over time. Cultures exposed to 0.74 mum HCP showed a decline in GalC proportional to decreased DNA content with time, but levels of MBP and CNPase increased after dosing and were always greater than the corresponding levels in control or low-dose cultures. These studies suggest a direct, dose-related toxic effect of HCP accompanied by a stimulation of MBP and CNPase but not of GalC production in the membranes of the recovering OLG following removal of HCP.

Preclinical toxicology studies with azithromycin: genetic toxicology evaluation.

Azithromycin was subjected to a series of three in vitro and one in vivo genetic toxicology assays for the detection of drug-associated gene or chromosomal effects. In the Ames Salmonella typhimurium tester strains TA1535, TA1537, TA98 and TA100, the presence of azithromycin was not associated with any increase in the number of his- revertants. Urine from mice dosed with up to 200 mg/kg of azithromycin also had no effect on the number of revertants in these same strains suggesting the absence of mutagenic excretory products following oral exposure. When tested up to the cytotoxic level of 240 micrograms/ml, azithromycin caused no increase in the mutant frequency at the thymidine kinase locus of L5178Y/TK cells. Both the mammalian and microbial gene mutation assays included the presence of rat-liver postmitochondrial (S9) fraction for the detection of mutagenic biotransformation products. Mitogen-stimulated human lymphocytes cultured in the presence of 2.5-7.5 micrograms/ml azithromycin for 24 h or 30.0-40.0 micrograms/ml azithromycin for 3 h in the presence of rat S9 had chromosomal aberration frequencies that were no different than negative control cells even though slight to moderate mitotic suppression was associated with these concentrations. In vivo assessment of this compound was completed in male and female mice with a single oral dose of 200 mg/kg followed by sacrifice at 6, 24 or 48 h later and metaphase analysis of bone marrow for chromosomal aberrations. No statistically significant elevations of chromosomally aberrant cells were found. We conclude that azithromycin does not cause gene mutations in microbial or mammalian cells, or chromosomal aberrations in cultured human lymphocytes or in mouse bone marrow in vivo.

Comparison of the effects of the new azalide antibiotic, azithromycin, and erythromycin estolate on rat liver cytochrome P-450.

Erythromycin and some other macrolide antibiotics can first induce a cytochrome P-450 isozyme similar to the one induced in rats by pregnenolone-16 alpha-carbonitrile and then inhibit it by forming a stable cytochrome P-450-metabolite complex. The purpose of this study was to compare azithromycin, a novel 15-membered ring azalide, and erythromycin estolate for the potential to cause hepatic microsomal enzyme induction and inhibition in Sprague-Dawley rats. The daily oral administration of 800 mg of erythromycin estolate per kg for 7 days resulted in statistically significant elevations of NADPH-cytochrome c reductase, erythromycin N-demethylase (3.2-fold), and total cytochrome P-450 content. Approximately 40% of cytochrome P-450 was complexed with erythromycin metabolite. In contrast, the daily administration of 200 mg of azithromycin per kg for 7 days caused significant elevations of N-demethylase (2.5-fold) only and did not produce any increases in total cytochrome P-450 content or NADPH-cytochrome c reductase. No complexed cytochrome P-450 was detected in the azithromycin-dosed rats despite liver concentrations of azithromycin that were 118 times greater than the liver concentrations of erythromycin estolate in erythromycin estolate-dosed rats. Although the short-term oral administration of azithromycin produced hepatic accumulation of the drug and elevated azithromycin demethylase activity, there was no other evidence of hepatic cytochrome P-450 induction or inactivation via cytochrome-metabolite complex formation. In contrast to erythromycin estolate, azithromycin is not expected to inhibit its own metabolism or that of other drugs via this pathway.

Metabolism and cytotoxicity of acetaminophen in hepatocyte cultures from rat, rabbit, dog, and monkey.

Acetaminophen (APAP)-induced cytotoxicity and metabolism were studied in hepatocyte cultures isolated from the rat, rabbit, dog, and monkey. Cytotoxicity was evaluated by morphological examination and by alanine aminotransferase and aspartate aminotransferase released into the cell culture medium. The toxicity results obtained by these two methods were in agreement and can be explained by the biotransformation of APAP in each species. Rat and dog hepatocyte cultures contained the most APAP-sulfate conjugates, while the rabbit, dog, and monkey hepatocyte cultures contained the most APAP-glucuronide conjugates. The percentage of APAP-glutathione conjugate was very low in all species, indicating that either very little of the toxic APAP metabolite, N-acetylbenzoquinoneimine, was formed, or in the species susceptible to N-acetylbenzoquinoneimine-induced cytotoxicity, the glutathione S-transferase activity or the amount of glutathione was low. Rabbit hepatocytes transformed the most APAP during both short and long periods of exposure. Of the four species, the dog hepatocytes exhibited the highest level of APAP-induced cytotoxicity. The sensitivity of dog hepatocytes to APAP may be due to their low conjugating enzyme activity. Rat hepatocytes utilized all three pathways of APAP-biotransformation to prevent APAP-induced cytotoxicity. Monkey hepatocyte cultures had a very large capacity to transform APAP to a glucuronide conjugate and a very high level of glutathione S-transferase activity, and therefore did not exhibit any cytotoxicity. These studies indicate that the competing pathways of APAP conjugation in hepatocyte cultures from different species explain the differences observed in APAP-induced cytotoxicity.

The critical influence of temperature upon trifluorothymidine resistance in mouse lymphoma L5178Y/TK 3.7.2C cells.

L5178Y/TK 3.7.2C cells are used for the assessment of chemical mutagenesis caused by presumptive TK gene mutations or multiple loci mutations affecting the TK locus that result in dose-related increases in resistance to the toxic thymidine analog, trifluorothymidine (TFT). This study was based upon our general observation that the incidence of TFTres in these cells could vary with the incubation temperature. As a result of these studies, we found that: (1) a substantial proportion of presumptive TK-/- variants produced by the mutagens 2-aminofluorene (2-AF), N-acetylaminofluorene (AAF), benzo[a]pyrene (B[a]P), 3-methylcholanthrene (3MCA), hycanthone methanesulfonate (Hyc), or methyl methanesulfonate (MMS) are more resistant to TFT at 37 degrees C than at 28 degrees C (or 39 degrees C than at 33 degrees C), (2) the loss of resistance to TFT was most notable in the small-colony variant population, (3) mutagen-derived variants become less resistant as the TFT concentration is increased from 4 micrograms/ml to 50 micrograms/ml, an effect that is more pronounced at 28 degrees C than at 37 degrees C, and (4) stock 3.7.2C cells develop a persistent TFTres due to sharply decreased TK activity when exposed to 40 degrees C for at least 24 h. These data demonstrate two different responses by these cells with respect to temperature stability at the TK locus and suggest that the degree of TFTres is influenced by both temperature and concentration of selective agent in this presumptive gene/chromosomal mutation assay.

Selective membrane toxicity of aminoglycoside antibiotics in membrane vesicles isolated from proximal renal tubules of the rat.

A considerable body of evidence suggests that the nephrotoxic potential of aminoglycoside antibiotics may be associated with the degree of membrane binding and subsequent membrane damage in the renal tubules. In this study, we isolated functional basolateral and luminal membrane vesicles from rat renal cortex, incubated each membrane type in the presence of 1 mM concentrations of either neomycin, netilmicin, gentamicin, hydroxygentamicin, or amikacin, and monitored the activities of the marker enzymes alkaline phosphatase (ALP) and lambda-glutamyltransferase (GGT) (luminal) or ouabain-sensitive Na+,K+-ATPase (basolateral) to determine if there were any selective drug-related alterations of enzyme activities. While none of the five aminoglycosides had any substantive effect upon enzyme activities of luminal vesicles, all five drugs inhibited the basolateral marker enzyme. Neomycin produced the greatest inhibition, hydroxygentamicin and amikacin the least, and gentamicin and netilmicin were intermediate in the inhibition of the enzyme. These results are in accordance with the known relative nephrotoxicity of these same drugs and indicate the usefulness of isolated renal membrane vesicles for in vitro toxicological studies of novel aminoglycosides.

Further characterization of serum alkaline phosphatase from male and female beagle dogs.

Alkaline phosphatase (AP) from the sera of both male and female beagle dogs was partially purified and then analyzed for the presence of AP isoenzymes having intestinal or osseous characteristics as detected by bromotetramisole inhibition or wheat germ lectin agarose electrophoresis, respectively. The sera from both sexes were similar in regard to the presence of AP isoenzymes with intestinal (16 vs. 20%) or osseous (19 vs. 23%) characteristics, but serum AP from the male had a greater sialic acid content and only the male serum contained a detectable constitutive acidic (pI = 3.4) AP isoenzyme. This was similar to a serum AP isoenzyme previously found elevated in the sera of dogs afflicted with hyperadrenocorticalism or of dogs treated with certain corticosteroids.

Differences in the constitutive forms of hepatic cytochrome P-450 in male and female adult beagle dogs.

Cytochrome P-450 isoenzymes were prepared from the solubilized liver microsomes of untreated adult male and female dogs, then separated into groups by high-performance liquid chromatography (HPLC). Partial purification was also completed through DEAE-52 cellulose and phosphocellulose ion-exchange chromatography. For comparison, solubilized hepatic cytochromes P-450 were obtained from rats dosed with phenobarbital (PB), beta-naphthoflavone (BNF) or pregnenolone-16 alpha-carbonitrile. Minimal molecular masses of cytochrome P-450 subpopulations were determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis. HPLC and ion-exchange chromatography results suggested the presence of two or three major and several minor cytochrome P-450 subpopulations. Three distinct groups were predominant in the female and two major and two or three minor subpopulations were found in the male. One of two isoenzymes prominent in BNF-dosed rats was present in the male but was missing in the female dog; another minor canine cytochrome similar to one found in PB-dosed rats was missing from the male. These data indicate qualitative and quantitative sex-dependent differences in the constitutive cytochrome P-450 populations of the dog and suggest that HPLC analysis may be useful for the interpretation of toxicological studies where microsomal enzyme induction is suspected.

Characterization of alkaline phosphatase in canine serum.

On the basis of carbohydrate structure, normal dog serum contains three basic types of serum alkaline phosphatase (SAP) corresponding to (1) highly branched complex (non-concanavalin A-binding), (2) complex, or (3) high-mannose (both concanavalin A-binding) oligosaccharide structures. Subsequent binding experiments with monoclonal antibody to intestinal alkaline phosphatase (AP) and bromotetramisole inhibition studies clearly indicated the presence of intestinal-like SAP. Concanavalin A (Con-A) binding characteristics suggested the presence of a bone-like SAP. Con-A-binding and isoelectric focusing results revealed the presence of two (type Ib and IIb) major SAP isoenzymes thought to be of hepatic origin. SAP isoenzymes appear to be modified when compared to tissue AP, particularly in regard to molecular size and, in some cases, carbohydrate structure.

The mutagenicity of 5-azacytidine and other inhibitors of replicative DNA synthesis in the L5178Y mouse lymphoma cell.

The mutagenic potential of the cytidine analog, 5-azacytidine (Aza Cyd), was tested at the thymidine kinase (TK) gene locus of L5178Y mouse lymphoma cells. 3-h exposure to as little as 20 ng/ml Aza Cyd yielded a substantial increase in TK-deficient L5178Y cells as measured by drug-induced resistance to trifluorothymidine (TFTres) 48 h later. This mutagenic effect was diminished up to 75% when Aza Cyd was tested in the presence of either enzymatically active or heat-denatured 9000 X g supernatant prepared from rat liver homogenate. The mutagenicity of Aza Cyd was also decreased in the presence of 1-5 X 10(-3) M thymidine and eliminated in the presence of greater than 1 X 10(-5) M cytidine. Two L5178Y TK-deficient cell lines had no selective survival advantage compared to TK-competent L5178Y cell stock when plated in soft-agar medium that contained Aza Cyd. Four other specific inhibitors of scheduled DNA synthesis in mammalian cells, deoxyadenosine, aphidicolin, 1-beta-D-arabinofuranosylcytosine, and hydroxyurea were also L5178Y/TK mutagens. These data along with other published results suggest that chemicals known to disrupt nucleotide biosynthesis, alter deoxyribonucleotide pools, or directly inhibit DNA polymerase can cause stable, heritable increases in TFT resistance through mechanisms dependent upon altered replicative DNA synthesis, yet not necessarily dependent upon DNA incorporation or the binding of these mutagenic agents to nuclear DNA.