Activation of H-ras is prevalent in 1,3-butadiene-induced and spontaneously occurring murine Harderian gland tumors

Treatment of B6C3F1 mice with concentrations of 62.5-625 p.p.m. 1,3-butadiene by inhalation for up to 2 years causes a significantly increased incidence of Harderian gland (HG) neoplasms over untreated controls (Melnick,R., Huff,J., Chou,B.J. and Miller,R.A. Cancer Res., 50, 6592-6599, 1990). Since a specific K-ras mutation (codon 13 GGC-->CGC) had previously been described in lung and liver tumors from 1,3-butadiene-treated B6C3F1 mice, we analyzed 23 adenomas and six adenocarcinomas of the HG from mice exposed to 1,3-butadiene for this mutation and mutations in the H-ras gene. We also examined ras activation in 16 spontaneously occurring HG adenomas and one adenocarcinoma. DNA samples were prepared from paraffin-embedded tissues and analyzed by PCR followed by direct sequencing methods. Only one 1,3-butadiene-induced HG tumor contained the K-ras codon 13 mutation previously detected in lung and liver tumors. However, 16/29 HG tumors from the treated B6C3F1 mice contained H-ras codon 61 mutations. The mutations detected were: 12 CAA-->CGA transitions, two CAA-->CTA and two CAA-->AAA transversions. Eleven of 17 spontaneous HG tumors contained mutations in H-ras codon 61: five CAA-->CGA transitions, two CAA-->CTA transversions and four CAA-->AAA transversions. While the spectrum of ras mutations did not differ between the spontaneously occurring and chemically induced tumors, these data indicate that activation of H-ras contributes to the process of HG tumorigenesis in both groups of these neoplasms.

ras proto-oncogene activation in dichloroacetic acid-, trichloroethylene- and tetrachloroethylene-induced liver tumors in B6C3F1 mice

The frequency and mutation spectra of proto-oncogene activation in hepatocellular neoplasms induced by tetrachloroethylene, trichloroethylene and dichloroacetic acid were examined to help define the molecular basis for their carcinogenicity. H-ras codon 61 activation was not significantly different among dichloroacetic acid- and trichloroethylene-induced and combined historical and concurrent control hepatocellular tumors (62%, 51% and 69% respectively). The mutation spectra of H-ras codon 61 mutations showed a significant decrease in AAA and increase in CTA mutations for dichloroacetic acid- and trichloroethylene-induced tumors when compared to combined controls. The H-ras codon 61 mutation frequency for tetrachloroethylene-induced tumors was significantly lower (24%) than that of combined controls and also that of the two other chemicals. Mutations at codons 13 and 117 plus a second exon insert contributed 4% to the total H-ras frequencies for trichloroethylene and tetrachloroethylene. There was also a higher incidence of K-ras activation (13%) in tetrachloroethylene-induced tumors than in the other chemically induced or control tumors. Four liver tumors were found to contain insertions of additional bases within the second exon of K- or H-ras. These findings suggest that exposure to dichloroacetic acid, trichloroethylene and tetrachloroethylene provides a selective growth advantage to spontaneously occurring mutations in codon 61 of H-ras and, at the same time, is responsible for a small number of unique molecular lesions suggestive of either a random genotoxic mode of action or a non-specific result of secondary DNA damage. However, the absence of ras activation in many of the liver neoplasms suggests that alternative mechanisms are also important in B6C3F1 mouse hepatocarcinogenesis.

A novel mechanism of in vivo ras gene activation involving tandem duplication of coding sequences

A series of weakly transforming c-K-ras genes have been detected in spontaneously occurring and chemically induced mouse adenomas. DNA sequence analysis of these weakly transforming ras oncogenes showed that activation occurred by a novel mechanism involving duplication of nine or ten codon segments flanking codon 61 in exon 2. The codon repetitions in exon 2 are directly preceded by a number of potentially recombinogenic DNA sequences which may have been involved in the genesis of the codon repetitions through mechanisms involving recombination or DNA slippage. Duplication of DNA sequences such as those observed in the mouse c-K-ras gene may represent a new mechanism for both tumor suppressor gene inactivation and proto-oncogene activation.

Ras mutations in methylclofenapate-induced B6C3F1 and C57BL/10J mouse liver tumours

The majority of genotoxic carcinogen-induced liver tumours of the sensitive B6C3F1 mouse contain activated H-ras oncogenes. Such mutations also occur in hepatocarcinogenesis-resistant strains. In order to determine whether this is true of non-genotoxic carcinogen-induced tumours, liver tumours induced in B6C3F1 and C57BL/10J mice by methylclofenapate (MCP) were compared. Polymerase chain reaction (PCR) analysis revealed H-ras codon 61 mutations in 11/46 B6C3F1 and 4/31 C57BL/10J liver tumours. The nude mouse tumorigenicity (NMT) assay was used to analyse tumours without codon 61 mutations. Of the 12 B6C3F1 liver tumour DNAs subjected to this assay, one contained a H-ras codon 117 mutation. Further PCR analysis on frozen tumour samples (46 B6C3F1 and 15 C57BL/10J) revealed no codon 12 mutations; one additional codon 117 mutation was identified in a B6C3F1 tumour. Overall, then, H-ras codon 61 mutations were detected in MCP-induced B6C3F1 tumours less frequently than in genotoxin-induced tumours. Two B6C3F1 tumours contained codon 117 mutations similar to those previously found in tumours induced by ciprofibrate, furan and furfural, and in at least one spontaneous tumour. Ras mutations were also detected in some C57BL/10J tumours, providing further evidence that ras oncogenes can participate in hepatocarcinogenesis in resistant mice.

The 528th Combat Stress Control Unit in Somalia in support of Operation Restore Hope

The 528th Combat Stress Control (CSC) Unit activated on December 16, 1992, and deployed to Somalia in support of Operation Restore Hope on January 6, 1993. The experiences of the first 90 days are discussed, to include (1) deployment issues, (2) stresses facing the troops in Somalia, and (3) patient data. The CSC had expected to work with service members traumatized by the sight of starving children and dead bodies. Instead, the stresses were similar to those of low-intensity guerrilla warfare. Overall there were very few soldiers and marines impaired by mental health issues, and minimal psychiatric evacuations from the theater.

Low frequency of H-ras mutations in hepatocellular adenomas and carcinomas and in hepatoblastomas from B6C3F1 mice exposed to oxazepam in the diet

Oxazepam has been the subject of recent toxicological and carcinogenesis studies because it is a commonly prescribed tranquilizer and has been shown to cause tumors in rodents. In this study, male and female B6C3F1 mice received 0, 125, 2500 or 5000 p.p.m. oxazepam in the diet for up to 2 years. Hepatocellular adenomas and carcinomas, as well as hepatoblastomas, which developed in these mice, were examined for the presence of activated ras proto-oncogenes. DNA was isolated from 20 or more tumors from each exposure group and analyzed by oligonucleotide hybridization, single-stranded conformation polymorphism analysis and direct sequencing of PCR-amplified H-ras gene fragments for codon 61 mutations. Thirteen of 37 (35%) hepatocellular adenomas and carcinomas from the 125 p.p.m. exposure group had mutations in codon 61, while mutations were detected in only 2 of 25 or 8% of the liver tumors from the 2500 p.p.m. exposure group and none of the 22 tumors from the 5000 p.p.m. group. This compares to 63% of 126 historical control liver tumors and 55% of 20 liver tumors from unexposed B6C3F1 mice in this study. In addition, 12 hepatoblastomas from the two high dose groups were examined for H-ras mutations at codon 61, but none were detected. No tumor DNAs from any of the exposure groups tested had mutations in codons 12, 13 or 117 of the H-ras gene or codons 12 or 13 of the K-ras gene, the other known hotspots for ras activation in mouse liver tumors. These results, together with those from the National Toxicology Program study showing no evidence of cytotoxicity or genotoxicity by oxazepam, suggest that oxazepam preferentially promotes cells that have activating lesions other than ras.

Role of glutamine-61 in the hydrolysis of GTP by p21H-ras: an experimental and theoretical study

The active GTP-bound form of p21ras is converted to the biologically inactive GDP-bound form by enzymatic hydrolysis and this function serves to regulate the wild-type ras protein. The side chain of the amino acid at position 61 may play a key role in this hydrolysis of GTP by p21. Experimental studies that define properties of the Q61E mutant of p21H-ras are presented along with supporting molecular dynamics simulations. We find that under saturating concentrations of GTP the Q61E mutant of p21H-ras has a 20-fold greater rate of intrinsic hydrolysis (kcat = 0.57 min-1) than the wild type. The affinity of the Q61E variant for GTP (Kd = 115 microM) is much lower than that of the wild type. GTPase activating protein does not activate the variant. From molecular dynamics simulations, we find that both the wild type and Q61E mutant have the residue 61 side chain in transient contact with a water molecule that is well-positioned for hydrolytic attack on the gamma phosphate. Thr-35 also is found to form a transient hydrogen bond with this critical water. These elements may define the catalytic complex for hydrolysis of the GTP [Pai et al. (1990) EMBO J. 9, 2351]. Similarly, the G12P mutant, which also has an intrinsic hydrolysis rate similar to the wild type, is found to form the same complex in simulation. In contrast, molecular dynamics analysis of the mutants G12R, G12V, and Q61L, which have much lower intrinsic rates than the wild-type p21, do not show this complex.(ABSTRACT TRUNCATED AT 250 WORDS)

The second intron of the K-ras gene contains regulatory elements associated with mouse lung tumor susceptibility

We have previously demonstrated the preferential activation of the K-ras gene from the susceptible A/J parent in lung tumors from F1 mouse hybrids. In the present study, the mechanism of this observation is further investigated. Higher levels of expression of A/J K-ras allele were detected in lung adenomas (30 of 30) from the C3A mouse. In addition, three K-ras alleles, designated as susceptible (Ks), intermediate (Ki), or resistant (Kr), were identified by sequence analysis of the second intron of the K-ras gene from 32 strains of mice. These K-ras alleles are associated with differences in mouse lung tumor susceptibility. All Kr alleles have a tandem 37-bp direct repeat (nt 282-355) in the second intron of the K-ras gene. Ks and Ki alleles have only one copy of the 37-bp sequence (nt 282-318). Ks strains have three base variations at nt 288, 296, and 494, and Ki strains have two base variations at nt 288 and 494 in the second intron of the K-ras gene. Differential protein-binding patterns were observed in gel-mobility-shift experiments between the duplicated 37-bp sequence of the Kr allele and the single 37-bp sequence of the Ks and Ki alleles. DNase I footprinting assay revealed protein binding sites in the second intron of the K-ras gene that correspond to the tandem repeat sequences. Our data suggest that higher expression of the A/J allele relative to C3H allele may be responsible for the allele-specific activation of the K-ras gene in lung tumors from F1 hybrid mice.

Effect of methylene chloride inhalation on replicative DNA synthesis in the lungs of female B6C3F1 mice

In the National Toxicology Program 2-year inhalation study of dichloromethane (DCM), there was a significant increase in pulmonary neoplasms in female B6C3F1 mice exposed to 2000 ppm (overall rates of 30/48 versus 5/50 in control). Replicative DNA synthesis was examined to evaluate the potential role of treatment-induced lung cell proliferation on pulmonary carcinogenicity. Tritiated thymidine incorporation was assessed in methacrylate plastic sections after 1, 2, 3, or 4 weeks of inhalation exposure to 2000 ppm or 8000 ppm DCM. Similar measurements of labeling indexes were made after 13 and 26 weeks of exposure to 2000 ppm DCM using bromodeoxyuridine as the labeling agent. In all cases the labeling agent was delivered over a 6-day period using osmotic minipumps. The labeling index (LI) of bronchiolar epithelium (two branches proximal to the terminal bronchiole) of mice exposed to 2000 ppm DCM for 2-26 weeks decreased to 40-60% of the control. Terminal bronchioles showed a similar decrease in LI. Mice exposed to 8000 ppm DCM had a less dramatic decrease in LI. No pathological change was found in the exposed lungs. It is concluded that inhalation exposure to DCM for up to 26 weeks reduces cell turnover of bronchiolar cells in female B6C3F1 mice.

Molecular modeling studies suggest that zinc ions inhibit HIV-1 protease by binding at catalytic aspartates

Human immunodeficiency virus type 1 protease is inhibited in vitro by zinc ions at neutral pH. The binding site of these ions is not known; however, experimental data suggest that binding may occur in the active site. To examine the possibility of zinc binding in the active site, molecular dynamics simulations in the presence and absence of zinc have been carried out to 200 psec. The results are compared with the 2.8-A crystallographic structures of a synthetic HIV-1 protease, and a zinc binding site at the catalytic aspartate residues (Asp-25, Asp-25') is proposed. Molecular dynamics simulations show that the zinc ion remains stably bound in this region, coordinating the carboxylate side chains of both aspartate residues. Interaction with zinc does not disrupt the dimeric structure of the protein or significantly alter the structure of the active site. These data are consistent with experimental studies of HIV-1 protease inhibition by zinc and give strong evidence that this is the binding site that leads to inactivation.

Dose-dependent ras mutation spectra in N-nitrosodiethylamine induced mouse liver tumors and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone induced mouse lung tumors

In a previous study, the spectrum of H-ras mutations detected in B6C3F1 mouse liver tumors induced by 5, 50 or 150 mumol/kg body wt of N-nitrosodiethylamine (NDEA) was similar to that in spontaneous B6C3F1 mouse liver tumors, suggesting that activation of the H-ras gene in NDEA-induced mouse liver tumors may not be the direct result of the chemical interaction with the H-ras gene. In the present study, mutations in the H-ras oncogene from B6C3F1 mouse liver tumors induced by 5 or 50 mumol/kg body wt of NDEA were characterized by DNA amplification with polymerase chain reaction (PCR), single-strand conformation of polymorphism (SSCP) and direct sequence analysis. Twenty-one of 66 NDEA-induced B6C3F1 mouse liver tumors contained activated H-ras gene with 2 of 21 having a CG to AT transversion at the first base of codon 61, 17 of 21 having AT to GC transition and 2 of 21 having an AT to TA transversion at the second base of codon 61 in the H-ras gene. The predominant mutation, AT to GC transition (17/21, 81%) is consistent with the formation of O4-ethylthymine adduct, and is distinct from the predominant CG to AT transversion (50%) at the first base of codon 61 detected in H-ras gene from NDEA-induced B6C3F1 mouse liver tumors in a previous study by Stowers et al. Mutations in the K-ras oncogene from 59 A/J mouse lung tumors induced by 0.53 mmol/kg body wt of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) were also characterized by using the above mentioned methods. Forty-six of 59 NNK-induced A/J mouse lung tumors contained activated K-ras genes. All 46 (100%) of the activated K-ras gene had GC to AT transitions at the second base of codon 12. The same mutation was observed in 70% (7/10) of the K-ras oncogene from A/J lung tumors induced by 4.8 mmol/kg body wt (given in 21 doses) of NNK. These data suggest that other factors in addition to genotoxic effect might be involved in the induction of rodent tumors by some carcinogens when given at higher doses. Therefore, further studies to compare the dose-dependent differences in the profile of ras mutations induced by chemical carcinogens may help to assess human cancer risk. Mutation(s) in exons 5-8 of the p53 gene was not found in these NDEA-induced mouse liver tumors and NNK-induced mouse lung tumors.

Alleviation of sleep maintenance insomnia with timed exposure to bright light

OBJECTIVE

Half of the population over 65 suffers from chronic sleep disturbance. As a consequence, almost 40% of hypnotic medications are prescribed to people over age 60. Yet, hypnotics are often of little benefit in this population. As such, an effective non-drug alternative could prove important in the management of age-related sleep maintenance insomnia. The current study sought to evaluate the efficacy of bright light exposure in the treatment of sleep maintenance insomnia.

DESIGN

Following baseline sleep and circadian rhythms assessment, subjects with sleep-maintenance insomnia were treated with timed exposure to either bright white light or dim red light for 12 consecutive days. Sleep and circadian rhythms recordings were subsequently obtained and measures of sleep quality were compared to assess efficacy of the treatments.

SETTING

Baseline and post-treatment sleep and circadian rhythms assessments took place in the Laboratory of Human Chronobiology, Department of Psychiatry, Cornell University Medical College. The treatment phase of the study was conducted in participants' homes.

PARTICIPANTS

Sixteen men and women between the ages of 62 and 81 years were studied. All subjects were free of hypnotic medication, and all had experienced sleep disturbance for at least 1 year prior to entering the study.

RESULTS

Exposure to bright light resulted in substantial changes in sleep quality. Waking time within sleep was reduced by an hour, and sleep efficiency improved from 77.5% to 90%, without altering time spent in bed. Increased sleep time was in the form of Stage 2 sleep, REM sleep, and slow wave sleep. The effects were remarkably consistent across subjects.

CONCLUSIONS

The findings demonstrate the effectiveness of timed exposure to bright light in the treatment of age-related sleep maintenance insomnia. With further refinement of treatment regimens, this non-drug intervention may prove useful in a large proportion of sleep disturbed elderly.

Characterization of p53 mutations in methylene chloride-induced lung tumors from B6C3F1 mice

Mutations of the p53 tumor suppressor gene are the most common defined genetic alterations seen in a wide variety of human cancers. In contrast, little is known about the importance of the p53 gene in chemically induced tumors of rodents, which are widely used as models for the evaluation of human health risks. In this study we examined 54 methylene chloride-induced and seven spontaneously arising lung tumors from female B6C3F1 mice for losses of heterozygosity (LOH) at markers near the p53 gene on chromosome 11. LOH was detected in seven methylene chloride-induced lung carcinomas by Southern analysis of a restriction fragment length polymorphism and PCR analysis of five simple sequence length polymorphisms. In each case allele loss was observed at all six markers; thus, these chromosomal alterations were likely to have resulted from mitotic nondisjunction. In contrast, LOH was not detected in 20 liver tumors from methylene chloride-treated mice at the Acrb locus, which is tightly linked to the p53 gene on chromosome 11. In addition single strand conformation polymorphism analysis was performed to screen for mutations in the most conserved regions of the p53 gene (exons 5 to 8). Consequently, potential mutations identified by direct sequencing, were only detected in four of the seven tumor samples with LOH, but not in any of the remaining lung tumors. Overexpression of the p53 protein by immunohistochemical staining was detected only in the four tumors that contained p53 point mutations and in a focal area of another tumor. Finally, using a simple sequence length polymorphism within the retinoblastoma tumor suppressor gene, LOH on mouse chromosome 14 was also detected in three lung carcinomas and one liver tumor. Inactivation of p53 and possibly the retinoblastoma tumor suppressor gene appear to be infrequent events in lung and liver tumors from methylene chloride treated mice.

Ras proto-oncogene activation in liver and lung tumors from B6C3F1 mice exposed chronically to methylene chloride

Methylene chloride has been the subject of recent toxicological and carcinogenesis studies because of significant human exposure and widespread use in industrial processing, food preparation and agriculture. In this study, liver and lung tumors, induced in female B6C3F1 mice by inhalation of 2000 p.p.m. methylene chloride (6 h/day, 5 days/week continuous exposure), were examined for the presence of activated ras proto-oncogenes. DNA was isolated from 49 spontaneous and 50 methylene chloride-induced liver tumors and screened by oligonucleotide hybridization of PCR amplified H-ras gene fragments for codon 61 mutations. In the chemically induced tumors, 38 mutations were detected, 16 C to A transversions in base 1, 16 A to G transitions in base 2 and 6 A to T transversions in base 2. This mutation profile was similar to that identified for the H-ras gene in the spontaneous liver tumors and suggests that methylene chloride acts in liver by promoting cells with spontaneous lesions. Tumors in which H-ras codon 61 mutations were not detected were examined for the presence of transforming genes by the nude mouse tumorigenicity assay. Except for activated K-ras genes detected in DNA from two methylene chloride induced tumors and one spontaneous tumor, no other transforming genes were identified. DNA from 54 lung tumors was screened by direct sequencing of PCR amplified DNA fragments of the K-ras gene for first and second exon mutations, and 12 mutations were identified, 5 in exon one and 7 in exon 2. The low number of spontaneous tumors available in this study limits the interpretation of the data, and thus the frequency and spectrum of K-ras activation in the methylene chloride induced tumors was not significantly different from that in the seven spontaneous tumors analyzed. Since K-ras activation was not detected in 80% of the tumors, the nude mouse tumorigenicity assay was used to examine the lung tumors for the presence of other transforming genes. At present no transforming genes other than ras genes were identified in either liver or lung tumors.

Effect of varying exposure regimens on methylene chloride-induced lung and liver tumors in female B6C3F1 mice

Methylene chloride is a high production chemical used in a variety of applications resulting in estimated occupational and consumer exposures of at least one million people per day. Results of previously reported chronic evaluations of inhaled methylene chloride indicated that it caused mammary tumors in Fischer 344 rats and neoplasia in the lungs and liver of B6C3F1 mice. Mechanism(s) for methylene chloride-induced carcinogenesis have not been adequately elucidated. In this paper we describe the histologic evaluation of animals at a number of intermittent times for the purposes of assessing the progressive development of liver and lung neoplasia. Additionally, a series of stop-exposure treatments was conducted to evaluate the role of different methylene chloride exposure durations on the induction of hepatic and pulmonary neoplasia in female mice. Inhalation exposure to 2000 p.p.m. methylene chloride for 6 h per day, 5 days per week, for 104 weeks resulted in an 8-fold increase in the incidence of exposed animals having a lung adenoma or carcinoma (63 versus 7.5%; P < 0.01) and a 13-fold increase in the total number of pulmonary adenomas and carcinomas per animal at risk (0.97 versus 0.075; P < 0.01). This exposure also caused a 2.5-fold increase in the incidence of mice having liver tumors (69 versus 27%; P < 0.01) and a 3-fold increase in the total number of hepatic adenomas and carcinomas per animal at risk (1.34 versus 0.46; P < 0.01). Methylene chloride exposure hastened the first appearance of lung tumors (by 1 year) compared to that observed in control animals; chemical-induced and spontaneous liver tumors first occurred simultaneously. A shorter exposure duration was sufficient to attain maximal numbers of lung tumors than that needed for a maximal liver tumor burden. Lung tumor multiplicity was substantially increased by having additional time after cessation of the chemical treatment. This contrasts with the findings in liver, where additional post-exposure latency time did not effect tumor multiplicity compared to that of mice evaluated immediately after cessation of exposure. The incidence of lung alveolar hyperplasia in methylene chloride exposed animals was very low, even in tumor-bearing animals and the hyperplasias were not seen until at least 13 weeks after appearance of adenomas and carcinomas. Thus, the genesis of methylene chloride induced lung tumors in B6C3F1 mice is not preceded by overt cytotoxicity, enhanced cell proliferation nor observed hyperplasia.(ABSTRACT TRUNCATED AT 400 WORDS)

Inhalation exposure to a hepatocarcinogenic concentration of methylene chloride does not induce sustained replicative DNA synthesis in hepatocytes of female B6C3F1 mice

We have used methylene chloride as a model to study cellular and molecular processes responsible for liver tumor induction by chlorinated hydrocarbons. Because of current interest in the role of enhanced cell proliferation in tumor induction, measurement of S-phase hepatocytes was incorporated into recently conducted toxicity and carcinogenicity studies. In prechronic studies, female B6C3F1 mice were exposed to 0, 1000, 2000 or 8000 p.p.m. methylene chloride by inhalation, 5 days per week, for up to 4 weeks followed by a 1 and 2 week recovery period. Mice exposed to concentrations of 2000, 4000 or 8000 p.p.m. methylene chloride had sustained increased liver weight commencing after 1 week of exposure and returning to normal after the 1 or 2 week recovery period. The increased liver weight was attributed to hepatocellular hypertrophy secondary to intracellular glycogen accumulation. Tritiated thymidine was administered by osmotic minipumps to label S-phase hepatocytes over a 6 day period. At most intervals examined there was decreased hepatocyte labeling in mice exposed to methylene chloride. However, there was a transitory increased number of S-phase hepatocytes observed at the 2 week interval in the 1000, 4000 and 8000 p.p.m. methylene chloride groups. In a chronic study, female mice were exposed to 2000 p.p.m. methylene chloride for up to two years. Following labeling with BRDU using 6 day minipumps, a statistically significant decrease in S-phase hepatocytes was observed after 13 weeks of methylene chloride exposure. A minor increased labeling index (LI) observed at 52 weeks was not considered to be a methylene chloride treatment-related effect. Retrospective immunohistochemical staining for proliferating cell nuclear antigen (PCNA) in liver sections containing foci of cellular alteration allowed demonstration of S-phase hepatocytes in these clonally expanded preneoplastic lesions. While foci frequently had higher LI's than surrounding normal hepatocytes, there was no difference in the mean LI of foci from methylene chloride-treated mice versus foci occurring spontaneously in control mice. The absence of a sustained increase in S-phase hepatocytes in female B6C3F1 mice suggests that enhanced cell proliferation is not a major mechanistic factor associated with the observed hepatocarcinogenicity of methylene chloride.

Molecular dynamics simulation of HIV-1 protease in a crystalline environment and in solution

Simulations of the unbound form of the human immunodeficiency virus type 1 protease have been carried out to 200 ps in a crystalline environment and in solution. Solution simulations were performed with and without charge-balancing counterions. The results are compared with the 2.8-A crystallographic structure of Wlodawer et al. [(1989) Science 245, 616], and a proposed model for the solution structure which involves local refolding of the flap regions is presented. The simulations suggest the crystal packing environment of the protease dimer stabilizes the flaps in an extended conformation. Solvation of the dimer leads to local refolding of the flaps which contract toward the active site, forming increased overlap and stronger intersubunit hydrogn bonding at the tips. The degree to which the flaps overlap in solution is observed to depend on the charge state of the system.

The A/J mouse lung as a model for developing new chemointervention strategies

The use of the A/J mouse lung as a model for developing new chemo-intervention strategies was investigated by first inducing lung tumors with a single dose of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone. Lungs were then staged for tumor development and intervention therapy was initiated 42 weeks after carcinogen treatment. At this time point, an average of 7 pulmonary lesions were present on a standard histological section and the relative frequency of lesions was distributed as alveolar hyperplasias (38%), adenomas (40%), and adenocarcinomas (22%). Mice were treated for 4 or 8 weeks with cis-platinum alone or in combination with either indomethacin, an inhibitor of prostaglandin synthesis, metoclopramide, an inducer of poly(ADP) ribosylation, or nifedipine, a calcium channel blocker. The effect of indomethacin, metoclopramide, and nifedipine on tumor growth was also determined. The most dramatic effects were observed in lungs from mice treated for 8 weeks. cis-Platinum treatment caused a 37% reduction in the size of carcinomas, while tumor mass was reduced by 50 to 60% with cis-platinum in combination with metoclopramide and/or indomethacin. The inclusion of indomethacin therapy in conjunction with cis-platinum significantly enhanced the effectiveness of cis-platinum for inhibiting the growth of adenocarcinomas. In contrast, nifedipine appeared to ameliorate any of the inhibitory growth effects seen with cis-platinum treatment. Although none of the therapeutic combinations affected the size of adenomas, morphological differences were observed among treatment groups. A moderate to marked decrease in cytoplasm was observed in adenomas from mice treated with cis-platinum in combination with indomethacin or metoclopramide, cis-platinum plus metoclopramide and indomethacin, or metoclopramide plus indomethacin. Taken together, the results from these studies demonstrate that the A/J mouse lung can be used as a model to study the effectiveness of new intervention therapies for controlling malignant tumor growth. This model should also be applicable for studying the effectiveness of cancer prevention therapies on the progression of pulmonary hyperplasia.

Analysis of activated protooncogenes in B6C3F1 mouse liver tumors induced by ciprofibrate, a potent peroxisome proliferator

Liver tumors from B6C3F1 mice induced by the potent peroxisome proliferator ciprofibrate, a hypolipidemic drug, were evaluated for the presence of transforming genes by the nude mouse tumorigenicity assay. As reported earlier, the tumors were not activated by a point mutation in codon 61 of H-ras. Two of the eight tumors examined contained a mutation in codon 13 or an H-ras gene mutated in codon 117. Screening of another 23 ciprofibrate-induced liver tumors by oligonucleotide hybridization analysis and direct DNA sequencing resulted in the identification of three tumor DNA samples with point mutations in codon 117 of the H-ras gene. In addition, another tumor sample contained a K-ras gene with a mutation in codon 61. Mutations in these codons have been seen only rarely in chemically induced liver tumors from this mouse strain. Of 15 spontaneous B6C3F1 liver tumors screened in the same manner, one exhibited a K-ras gene activated by a mutation in codon 13 and a second contained an H-ras gene activated by a mutation in codon 117. These ras gene mutations have not been reported previously from spontaneous liver tumors. The frequency and spectrum of ras oncogene mutations characterized in ciprofibrate-induced liver tumors differ significantly from the frequency and pattern identified in spontaneously occurring liver tumors. The results of this study with a limited number of samples suggest that ras protooncogene activation or activation of other protooncogenes that can be detected by the nude mouse tumorigenicity assay are not frequent events in the mechanism of carcinogenicity of the peroxisome proliferator ciprofibrate. However, the lower frequency and distinct pattern of H-ras mutations observed in these tumors disprove the assumption of promotion of spontaneous hepatocarcinogenesis by ciprofibrate.

Use of fluorescently tagged DNA and an automated DNA sequencer for the comparison of the sequence selectivity of SN1 and SN2 alkylating agents

This paper describes the application of the novel nonradioactive technique for studying the sequence selectivity of selected alkylating agents. N-Nitroso-N-methylurea (MNU) and N-methyl-N'-nitro-nitrosoguanidine (MNNG) were chosen from the SN1 group of alkylating agents. Dimethyl sulphate (DMS) was used to represent alkylation profile produced by the SN2 compounds. Results of SN1 compounds indicated that in a run (G)3 the latter two Gs are more susceptible to alkylation than the most 5' G. Moreover, in a GG sequence the 3' G seems to be more alkylated. This effect is more evident when the GG site was preceded by a 5' pyrimidine. These findings suggest that a regio-selective mechanism, rather than the formation of diazonium ions, accounts for DNA alkylation by SN1 compounds. On the other hand, DMS showed preferential alkylation of the 5' end in a (G)3 run. However, at GG sequences no clear preferred site of alkylation could be distinguished. Lack of specificity of SN2 compound would seem to suggest that other factors as well as the primary DNA structure may play a role in determining the extent of alkylation at a certain site.

CT, MRI, and color Doppler ultrasound correlation of pancreatoblastoma: a case report

Pancreatic neoplasms in childhood are rare but should be considered in the differential diagnosis of masses in the region of the lesser sac. A case of pancreatoblastoma in a 3 1/2-year-old boy is presented. The patient was studied with US, CT, and MR imaging.