Your search keyword '"McKinzie PB"' showing total 23 results

1. ACB-PCR quantification of K-RAS codon 12 GAT and GTT mutant fraction in colon tumor and non-tumor tissue.

Author

Parsons BL, Marchant-Miros KE, Delongchamp RR, Verkler TL, Patterson TA, McKinzie PB, and Kim LT

Published

2010

2. Erythrocyte PIG-A mutant frequencies in cancer patients receiving cisplatin.

Author

Dobrovolsky VN, Atiq OT, Heflich RH, Maisha M, McKinzie PB, Pearce MG, and Robison TW

Subjects

Humans, Cisplatin adverse effects, Erythrocytes, Mutagenesis, Neoplasms, Second Primary, Head and Neck Neoplasms drug therapy, Head and Neck Neoplasms genetics

Abstract

Background: Cisplatin is a primary chemotherapy choice for various solid tumors. DNA damage caused by cisplatin results in apoptosis of tumor cells. Cisplatin-induced DNA damage, however, may also result in mutations in normal cells and the initiation of secondary malignancies. In the current study, we have used the erythrocyte PIG-A assay to evaluate mutagenesis in non-tumor hematopoietic tissue of cancer patients receiving cisplatin chemotherapy., Methods: Twenty-one head and neck cancer patients undergoing treatment with cisplatin were monitored for the presence of PIG-A mutant total erythrocytes and the young erythrocytes, reticulocytes (RETs), in peripheral blood for up to five and a half months from the initiation of the anti-neoplastic chemotherapy., Results: PIG-A mutant frequency (MF) in RETs increased at least two-fold in 15 patients at some point of the monitoring, while the frequency of total mutant RBCs increased at least two-fold in 6 patients. A general trend for an increase in the frequency of mutant RETs and total mutant RBCs was observed in 19 and 18 patients, respectively. Only in one patient did both RET and total RBC PIG-A MFs did not increase at any time-point over the monitoring period., Conclusion: Cisplatin chemotherapy induces moderate increases in the frequency of  PIG-A mutant erythrocytes in head and neck cancer patients. Mutagenicity measured with the flow cytometric PIG-A assay may serve as a tool for predicting adverse outcomes of genotoxic antineoplastic therapy., (© 2024 University of Arkansas for Medical Sciences. Cancer Medicine published by John Wiley & Sons Ltd. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published

2024

3. Unbiased whole genome detection of ultrarare off-target mutations in genome-edited cell populations by HiFi sequencing.

Author

Miranda JA, Fenner K, McKinzie PB, Dobrovolsky VN, and Revollo JR

Subjects

Escherichia coli genetics, Mutation, DNA genetics, CRISPR-Cas Systems genetics, RNA, Guide, CRISPR-Cas Systems

Abstract

DNA base editors (BEs) composed of a nuclease-deficient Cas9 fused to a DNA-modifying enzyme can achieve on-target mutagenesis without creating double-strand DNA breaks (DSBs). As a result, BEs generate far less DNA damage than traditional nuclease-proficient Cas9 systems, which do rely on the creation of DSBs to achieve on-target mutagenesis. The inability of BEs to create DSBs makes the detection of their undesired off-target effects very difficult. PacBio HiFi sequencing can efficiently detect ultrarare mutations resulting from chemical mutagenesis in whole genomes with a sensitivity ~1 × 10 -8 mutations per base pair. In this proof-of-principle study, we evaluated whether this technique could also detect the on- and off-target mutations generated by a cytosine-to-thymine (C>T) BE targeting the LacZ gene in Escherichia coli (E. coli). HiFi sequencing detected on-target mutant allele fractions ranging from ~7% to ~63%, depending on the single-guide RNA (sgRNA) used, while no on-target mutations were detected in controls lacking the BE. The presence of the BE resulted in a ~3-fold increase in mutation frequencies compared to controls lacking the BE, irrespective of the sgRNA used. These increases were mostly composed of C:G>T:A substitutions distributed throughout the genome. Our results demonstrate that HiFi sequencing can efficiently identify on- and off-target mutations in cell populations that have undergone genome editing., (Published 2023. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2023

4. A Brief Practical Guide to PCR.

Author

McKinzie PB and Myers MB

Subjects

Humans, Taq Polymerase, Polymerase Chain Reaction methods, DNA

Abstract

Polymerase chain reaction (PCR) has been a powerful molecular biology tool since the mid-1980s. Millions of copies of specific sequence regions of DNA can be generated to allow the study of these regions. Fields that use this technology range from forensics to the experimental study of human biology. Standards for performing PCR and information tools to help design PCR protocols aid in successful implementation of PCR., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

5. Evaluation of the mutagenic effects of Molnupiravir and N4-hydroxycytidine in bacterial and mammalian cells by HiFi sequencing.

Author

Miranda JA, McKinzie PB, Dobrovolsky VN, and Revollo JR

Subjects

Humans, Mice, Animals, Escherichia coli genetics, RNA, Viral pharmacology, SARS-CoV-2, DNA, Mammals genetics, Mutagens toxicity, COVID-19

Abstract

Molnupiravir (MOV) is used to treat COVID-19. In cells, MOV is converted to the ribonucleoside analog N4-hydroxycytidine (NHC) and incorporated into the SARS-CoV-2 RNA genome during its replication, resulting in RNA mutations. The widespread accumulation of such mutations inhibits SARS-CoV-2 propagation. Although safety assessments by many regulatory agencies across the world have concluded that the genotoxic risks associated with the clinical use of MOV are low, concerns remain that it could induce DNA mutations in patients, particularly because numerous in vitro studies have shown that NHC is a DNA mutagen. In this study, we used HiFi sequencing, a technique that can detect ultralow-frequency substitution mutations in whole genomes, to evaluate the mutagenic effects of MOV in E. coli and of MOV and NHC in mouse lymphoma L5178Y cells and human lymphoblastoid TK6 cells. In all models, exposure to these compounds increased genome-wide mutation frequencies in a dose-dependent manner, and these increases were mainly composed of A:T → G:C transitions. The NHC exposure concentrations used for mammalian cells were comparable to those observed in the plasma of humans who received clinical doses of MOV., (Published 2022. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2022

6. Genome-wide detection of ultralow-frequency substitution mutations in cultures of mouse lymphoma L5178Y cells and Caenorhabditis elegans worms by PacBio sequencing.

Author

Miranda JA, Alund AW, Yan J, McKinzie PB, Dobrovolsky VN, and Revollo JR

Subjects

Animals, Lymphocytes, Mice, Mutation, Sequence Analysis, DNA, Caenorhabditis elegans genetics, Lymphoma

Abstract

Many conventional genetic toxicology assays require specialized cell cultures or animals and can only detect mutations that inactivate the function of a reporter gene. These limitations make such assays incompatible with many toxicological models but could be overcome by the development of techniques capable of directly detecting genome-wide somatic mutations through DNA sequencing. PacBio sequencing can generate almost error-free consensus reads by repeatedly inspecting both DNA strands from circularized molecules (a method known as PacBio HiFi). In this study, we show that PacBio HiFi can detect genome-wide ultralow-frequency substitution mutations in cultures of mouse lymphoma L5178Y cells and Caenorhabditis elegans worms. The mutation frequencies (MFs) of unexposed samples in both models were ~1 × 10 -7 mutations per base pair. Compared to these controls, PacBio HiFi detected MF increases of 23-fold in cultures of L5178Y cells exposed to 5 mM ethyl methanosulfonate (EMS) for 4 h, and 5-, 12-, and 29-fold in cultures of C. elegans worms exposed to 12.5, 25, and 50 mM EMS for 4 h, respectively. In both models, the mutation spectra of controls were diverse, while those derived from EMS-exposed samples were dominated by C:G → T:A transitions. To validate these results, clone sequencing analyses were performed on the same cultures of L5178Y cells. The results obtained by clone sequencing and PacBio HiFi were almost identical. Our results suggest that PacBio sequencing could be used for the detection, quantitation, and characterization of mutations in any DNA-containing sample, including those that are not compatible with conventional mutation detection approaches., (Published 2022. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2022

7. Mutational signatures in T-lymphocytes of rats treated with N-propyl-N-nitrosourea and procarbazine.

Author

Revollo JR, McKinzie PB, Robison TW, and Dobrovolsky VN

Subjects

Animals, Antineoplastic Agents toxicity, Male, Mutagens toxicity, Rats, Rats, Inbred F344, Rats, Sprague-Dawley, T-Lymphocytes metabolism, T-Lymphocytes pathology, Whole Genome Sequencing, Gene Expression Regulation drug effects, Mutation, Nitrosourea Compounds toxicity, Procarbazine toxicity, T-Lymphocytes drug effects

Abstract

We have used whole genome sequencing (WGS) to determine mutational signatures induced in the T-cells of rats treated in vivo with N-propyl-N-nitrosourea (PNU) or procarbazine (PCZ). The signatures from the treated rats were different from the signature of background mutations. The main component of the spontaneous T-cell mutational signature was C➔T transition with all other single base substitutions evenly distributed. The PNU-induced mutational signature showed relatively equal contributions from C➔T and T➔C transitions, and T➔A transversions. The PCZ-induced signature was characterized by T➔C transitions, T➔A and, to a smaller extent, T➔G transversions. C➔G transversions were infrequent in either the PNU or PCZ signatures. WGS not only allowed mutational signature detection, but also measured quantitative responses to mutagen treatment: 10-40× increases in the number of mutations per clone were detected in T-cell clones from treated rats. The overall strand specificity of induced mutations for annotated rat genes was comparable to the strand specificity of mutations determined previously for the endogenous X-linked Pig-a gene. Our results provide valuable reference data for future applications of WGS in safety research and risk assessment., (Published 2021. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2021

8. Pig-a gene mutations in bone marrow granulocytes of procarbazine-treated F344 rats.

Author

Dad A, Revollo JR, Pearce MG, McKinzie PB, Heflich RH, and Dobrovolsky VN

Subjects

Animals, Bone Marrow drug effects, Bone Marrow metabolism, Granulocytes drug effects, Granulocytes metabolism, Male, Mutagenicity Tests, Rats, Rats, Inbred F344, Antineoplastic Agents toxicity, Bone Marrow pathology, Granulocytes pathology, Membrane Proteins genetics, Mutation, Procarbazine toxicity

Abstract

It was previously demonstrated that procarbazine (PCZ) is positive in the rat erythrocyte Pig-a gene mutation assay. However, since mammalian erythrocytes lack genomic DNA, it was necessary to analyze nucleated bone-marrow erythroid precursor cells to confirm that PCZ induces mutations in the Pig-a gene (Revollo et al., Environ Mol Mutagen, 2020). In this study, the association between Pig-a mutation and loss of GPI anchors was further strengthened and the genesis of Pig-a mutation in PCZ-dosed rats was evaluated by analyzing bone-marrow granulocytes. Erythrocytes and granulocytes both originate from myeloid progenitor cells, but granulocytes contain DNA throughout their developmental stages. F344 rats were treated with three doses of 150 mg/kg PCZ; 2 weeks later, CD48-deficient mutant phenotype bone-marrow granulocytes (BMGs [CD11b + ]) were isolated by flow-cytometric sorting. Sequencing data showed that the CD48-deficient mutant phenotype BMGs contained mutations in the Pig-a gene while wild-type BMGs did not. PCZ-induced mutations included missense, nonsense and splice site variants; the majority of mutations were A > T, A > C, and A > G, with the mutated A on the nontranscribed DNA strand. The PCZ-induced mutational analysis in BMGs supports the association between the phenotype measured in the Pig-a assay and mutation in the Pig-a gene. Also, PCZ mutation spectra were similar in bone-marrow erythroids and BMGs, but none of the mutations detected in BMGs were the same as the erythroid precursor cell mutations from the same rats. Thus, mutations induced in the Pig-a assay appear to be induced after commitment of myeloid progenitor cells to either the granulocyte or erythroid pathway., (Published 2021. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2021

9. A Streamlined and High-Throughput Error-Corrected Next-Generation Sequencing Method for Low Variant Allele Frequency Quantitation.

Author

McKinzie PB and Bishop ME

Subjects

Humans, Mutation, Neoplasms, Polymerase Chain Reaction, Gene Frequency, High-Throughput Nucleotide Sequencing

Abstract

Quantifying mutant or variable allele frequencies (VAFs) of ≤10-3 using next-generation sequencing (NGS) has utility in both clinical and nonclinical settings. Two common approaches for quantifying VAFs using NGS are tagged single-strand sequencing and duplex sequencing. While duplex sequencing is reported to have sensitivity up to 10-8 VAF, it is not a quick, easy, or inexpensive method. We report a method for quantifying VAFs that are ≥10-4 that is as easy and quick for processing samples as standard sequencing kits, yet less expensive than the kits. The method was developed using PCR fragment-based VAFs of Kras codon 12 in log10 increments from 10-5 to 10-1, then applied and tested on native genomic DNA. For both sources of DNA, there is a proportional increase in the observed VAF to input VAF from 10-4 to 100% mutant samples. Variability of quantitation was evaluated within experimental replicates and shown to be consistent across sample preparations. The error at each successive base read was evaluated to determine if there is a limit of read length for quantitation of ≥10-4, and it was determined that read lengths up to 70 bases are reliable for quantitation. The method described here is adaptable to various oncogene or tumor suppressor gene targets, with the potential to implement multiplexing at the initial tagging step. While easy to perform manually, it is also suited for robotic handling and batch processing of samples, facilitating detection and quantitation of genetic carcinogenic biomarkers before tumor formation or in normal-appearing tissue., (Published by Oxford University Press on behalf of the Society of Toxicology 2019. This work is written by US Government employees and is in the public domain in the US.)

Published

2020

10. Reduced vancomycin susceptibility and increased macrophage survival in Staphylococcus aureus strains sequentially isolated from a bacteraemic patient during a short course of antibiotic therapy.

Author

Basco MDS, Kothari A, McKinzie PB, Revollo JR, Agnihothram S, Azevedo MP, Saccente M, and Hart ME

Subjects

Aged, Bacteremia microbiology, Cell Wall drug effects, Daptomycin pharmacology, Humans, Lysostaphin pharmacology, Male, Microbial Sensitivity Tests, Multilocus Sequence Typing, Mutation, Staphylococcal Infections drug therapy, Staphylococcus aureus drug effects, Staphylococcus aureus virology, Anti-Bacterial Agents pharmacology, Macrophages physiology, Staphylococcal Infections microbiology, Staphylococcus aureus genetics, Vancomycin pharmacology, Vancomycin Resistance genetics

Abstract

Purpose: The purpose of the present study was to determine the relatedness of Staphylococcus aureus strains successively isolated over a 7-day period from a single bacteraemic patient undergoing antibiotic treatment with vancomycin., Methods: The S. aureus strains had been isolated and sequenced previously. Antibiotic susceptibility testing, population analysis profiling, and lysostaphin sensitivity and phagocytic killing assays were used to characterize these clonal isolates., Results: The seven isolates (MEH1-MEH7) were determined to belong to a common multilocus sequence type (MLST) and spa type. Within the third and fifth day of vancomycin treatment, mutations were observed in the vraS and rpsU genes, respectively. Population analysis profiles revealed that the initial isolate (MEH1) was vancomycin-susceptible S. aureus (VSSA), while those isolated on day 7 were mostly heteroresistant vancomycin-intermediate S. aureus (hVISA). Supporting these findings, MEH7 was also observed to be slower in growth, to have an increase in cell wall width and to have reduced sensitivity to lysostaphin, all characteristics of VISA and hVISA strains. In addition, MEH7, although phagocytosed at numbers comparable to the initial isolate, MEH1, survived in higher numbers in RAW 264.7 macrophages. Macrophages infected with MEH7 also released more TNF-α and IFN-1β., Conclusion: We report an increasing resistance to vancomycin coupled with daptomycin that occurred within approximately 3 days of receiving vancomycin and steadily increased until the infection was cleared with an alternative antibiotic therapy. This study reiterates the need for rapid, efficient and accurate detection of hVISA and VISA infections, especially in high-bacterial load, metastatic infections like bacteraemia.

Published

2019

11. Evaluation of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) mutagenicity using in vitro and in vivo Pig-a assays.

Author

Mittelstaedt RA, Dobrovolsky VN, Revollo JR, Pearce MG, Wang Y, Dad A, McKinzie PB, Rosenfeldt H, Yucesoy B, Yeager R, Hu SC, Tang Y, Min S, Kang HK, Yang DJ, Basavarajappa M, and Heflich RH

Subjects

Animals, Cell Line, Tumor, Female, Male, Mice, Mutagenicity Tests, Mutation genetics, Mutation Rate, Rats, Rats, Sprague-Dawley, Nicotiana chemistry, Membrane Proteins genetics, Mutation drug effects, Nitrosamines toxicity

Abstract

4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is a genotoxic carcinogen found in tobacco and tobacco smoke. Several in vitro and in vivo assays have been used for evaluating the genotoxicity of tobacco smoke and tobacco smoke constituents like NNK, yet it is not clear which in vitro assays are most appropriate for extrapolating the in vitro responses of these test agents to animal models and humans. The Pig-a gene mutation assay can be performed in vitro, in laboratory animals, and in humans, a potential benefit in estimating in vivo responses from in vitro data. In the current study we used Pig-a as a reporter of gene mutation both in vitro, in L5178Y/Tk +/- cells, and in vivo, in Sprague-Dawley rats. NNK significantly increased Pig-a mutant frequency in L5178Y/Tk +/- cells, but only at concentrations of 100 μg/ml and greater, and only in the presence of S9 activation. Pig-a mutations in L5178Y/Tk +/- cells were detected in 80% of the NNK-induced mutants, with the predominate mutation being G→A transition; vehicle control mutants contained deletions. In the in vivo study, rats were exposed to NNK daily for 90 days by inhalation, a common route of exposure to NNK for humans. Although elevated mutant frequencies were detected, these responses were not clearly associated with NNK exposure, so that overall, the in vivo Pig-a assays were negative. Thus, while NNK induces mutations in the in vitro Pig-a assay, the in vivo Pig-a assay has limited ability to detect NNK mutagenicity under conditions relevant to NNK exposure in smokers., (Published by Elsevier B.V.)

Published

2019

12. Lifespan Kras mutation levels in lung and liver of B6C3F 1 mice.

Author

McKinzie PB, McKim KL, Pearce MG, Bishop ME, and Parsons BL

Subjects

Animals, Carcinogenesis genetics, Humans, Male, Mice, Mutation genetics, Neoplasms genetics, Polymerase Chain Reaction, Polymorphism, Single Nucleotide genetics, Aging genetics, Genes, ras genetics, Liver cytology, Lung cytology, Proto-Oncogene Proteins p21(ras) genetics

Abstract

Somatic mutations accumulate in the human genome and are correlated with increased cancer incidence as humans age. The standard model for studying the carcinogenic effects of exposures for human risk assessment is the rodent 2-year carcinogenicity assay. However, there is little information regarding the effect of age on cancer-driver gene mutations in these models. The mutant fraction (MF) of Kras codon 12 GGT to GAT and GGT to GTT mutations, oncogenic mutations orthologous between humans and rodents, was quantified over the lifespan of B6C3F1 mice. MFs were measured in lung and liver tissue, organs that frequently develop tumors following carcinogenic exposures. The MFs were evaluated at 4, 6, 8, 12, 21, and 85 weeks, with the 12-week and 21-week time points being coincident with the conclusion of 28-day and 90-day exposure durations used in short-term toxicity testing. The highly sensitive and quantitative Allele-specific Competitive Blocker PCR (ACB-PCR) assay was used to quantify the number of mutant Kras codon 12 alleles. The mouse lung showed a slight, but significant trend increase in the Kras codon 12 GAT mutation over the 85-week period. The trend with age can be equally well-fit by several non-linear functions, but not by a linear function. In contrast, the liver GAT mutation did not increase, and the GTT mutation did not increase for either organ. Even with the slight increase in the lung GAT MFs, our results indicate that the future use of Kras mutation as a biomarker of carcinogenic effect will not be confounded by animal age. Environ. Mol. Mutagen. 59:715-721, 2018. Published 2018. This article is a U.S. Government work and is in the public domain in the USA., (Published 2018. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2018

13. Draft Genome Sequences of Two Staphylococcus aureus Strains Isolated in Succession from a Case of Bacteremia.

Author

Basco MDS, Revollo JR, McKinzie PB, Agnihothram S, Kothari A, Saccente M, and Hart ME

Abstract

Staphylococcus aureus strains MEH1 and MEH7 were successively isolated from the blood of a patient with recurrent bacteremia. The submitted draft genomes of strains MEH1 and MEH7 are 2,914,972 and 2,911,704 bp, respectively., (Copyright © 2017 Basco et al.)

Published

2017

14. Whole genome sequencing of mouse lymphoma L5178Y-3.7.2C (TK +/- ) reveals millions of mutations and genetic markers.

Author

McKinzie PB and Revollo JR

Subjects

Animals, Homozygote, Mice, Polymorphism, Single Nucleotide, Genetic Markers, Lymphoma genetics, Mutation

Abstract

The mouse lymphoma L5178Y-3.7.2C (TK +/- ) cell line is extensively used in genetic toxicology to conduct the mouse lymphoma assay (MLA). The MLA is used to establish the mutagenic and clastogenic effects of chemicals and pharmaceuticals, and is one of the few genetic tests widely accepted by regulatory agencies throughout the world. Despite the extensive use and regulatory impact of L5178Y-3.7.2C (TK +/- ) cells, little is known about their genetic composition or how it affects the outcome of the MLA. To determine the genetic background of this cell line, we sequenced and analyzed its entire genome. Our results confirm the existence of previously described mutations in the Tk1 and Trp53 genes and catalog millions of other mutations, many of which impair the function of genes with key roles in cell physiology and genetic toxicology., (Published by Elsevier B.V.)

Published

2017

15. ACB-PCR quantification of somatic oncomutation.

Author

Myers MB, McKinzie PB, Wang Y, Meng F, and Parsons BL

Subjects

Base Sequence, DNA genetics, DNA isolation & purification, DNA Primers genetics, Humans, Polymerase Chain Reaction, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins p21(ras), Reference Standards, ras Proteins genetics, DNA Mutational Analysis standards, Neoplasms genetics, Point Mutation

Abstract

Allele-specific competitive blocker-polymerase chain reaction (ACB-PCR) is a sensitive approach for the selective amplification of an allele. Using the ACB-PCR technique, hotspot point mutations in oncogenes and tumor-suppressor genes (oncomutations) are being developed as quantitative biomarkers of cancer risk. ACB-PCR employs a mutant specific primer (with a 3'-penultimate mismatch relative to the mutant DNA sequence, but a double 3'-terminal mismatch relative to the wild-type DNA sequence) to selectively amplify rare mutant DNA molecules. A blocker primer (having a non-extendable 3'-end and with a 3'-penultimate mismatch relative to the wild-type DNA sequence, but a double 3'-terminal mismatch relative to the mutant DNA sequence) is included in ACB-PCR to selectively repress amplification from the abundant wild-type molecules. Consequently, ACB-PCR is capable of quantifying the level of a single basepair substitution mutation in a DNA population when present at a mutant:wild type ratio of 10(-5) or greater. Quantification of rare mutant alleles is achieved by parallel analysis of unknown samples and mutant fraction (MF) standards (defined mixtures of mutant and wild-type DNA sequences). The ability to quantify specific mutations with known association to cancer has several important applications, including evaluating the carcinogenic potential of chemical exposures in rodent models and in the diagnosis and treatment of cancer. This chapter provides a step-by-step description of the ACB-PCR methodology as it has been used to measure human KRAS codon 12 GGT to GAT mutation.

Published

2014

16. Accumulation of K-Ras codon 12 mutations in the F344 rat distal colon following azoxymethane exposure.

Author

McKinzie PB and Parsons BL

Subjects

Animals, Male, Polymerase Chain Reaction, Rats, Rats, Inbred F344, Azoxymethane toxicity, Codon genetics, Colon drug effects, Colon metabolism, Genes, ras genetics, Mutation genetics

Abstract

Azoxymethane (AOM) administration to F344 male rats is a widely used model of human colon carcinogenesis. The current study investigates quantitatively the accumulation of K-Ras codon 12 mutations following AOM exposure. Male, 6-week-old F344 rats were treated subcutaneously with 30 mg/kg body weight of AOM, and colon tissue was collected at 1, 8, 24, and 32 weeks after treatment. The K-Ras codon 12 GGT to GAT and GGT to GTT mutant fractions (MFs) were measured using allele-specific competitive blocker polymerase chain reaction (ACB-PCR). Between 1 and 32 weeks after AOM treatment, the K-Ras codon 12 GGT to GAT geometric mean MF in the rat colon increased significantly from 12.9 × 10(-5) to 145 × 10(-5) , and the GGT to GTT geometric mean MF increased significantly from 5.26 × 10(-5) to 180 × 10(-5) . K-Ras codon 12 GGT to GAT MF also increased significantly in AOM-treated rat colon tissue at 1 week compared to controls (4.44 × 10(-5) ). The accumulation of the GGT to GAT MF long after the DNA adduct repair phase suggests that a portion of cells containing this mutation have a proliferative advantage, allowing them to accumulate as nascent tumors progress. Also, the GGT to GAT background MF increased in untreated rats, indicating that there is accumulation with age. The ACB-PCR assay generates quantitative data of cancer-related mutations and thus provides insight into pathological processes following carcinogen exposure., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

17. Oncomutations as biomarkers of cancer risk.

Author

Parsons BL, Myers MB, Meng F, Wang Y, and McKinzie PB

Subjects

Animals, Humans, Risk Factors, Biomarkers, Tumor, Mutation genetics, Neoplasms genetics, Oncogenes genetics

Abstract

Cancer risk assessment impacts a range of societal needs, from the regulation of chemicals to achieving the best possible human health outcomes. Because oncogene and tumor suppressor gene mutations are necessary for the development of cancer, such mutations are ideal biomarkers to use in cancer risk assessment. Consequently, DNA-based methods to quantify particular tumor-associated hotspot point mutations (i.e., oncomutations) have been developed, including allele-specific competitive blocker-PCR (ACB-PCR). Several studies using ACB-PCR and model mutagens have demonstrated that significant induction of tumor-associated oncomutations are measureable at earlier time points than are used to score tumors in a bioassay. In the particular case of benzo[a]pyrene induction of K-Ras codon 12 TGT mutation in the A/J mouse lung, measurement of tumor-associated oncomutation was shown to be an earlier and more sensitive endpoint than tumor response. The measurement of oncomutation by ACB-PCR led to two unexpected findings. First, oncomutations are present in various tissues of control rodents and "normal" human colonic mucosa samples at relatively high frequencies. Approximately 60% of such samples (88/146) have mutant fractions (MFs) >10(-5), and some have MFs as high as 10(-3) or 10(-4). Second, preliminary data indicate that oncomutations are present frequently as subpopulations in tumors. These findings are integrated into a hypothesis that the predominant preexisting mutations in particular tissues may be useful as generic reporters of carcinogenesis. Future research opportunities using oncomutation as an endpoint are described, including rodent to human extrapolation, dose-response assessment, and personalized medicine.

Published

2010

18. Measurement of tumor-associated mutations in the nasal mucosa of rats exposed to varying doses of formaldehyde.

Author

Meng F, Bermudez E, McKinzie PB, Andersen ME, Clewell HJ 3rd, and Parsons BL

Subjects

Animals, Cell Proliferation drug effects, Codon genetics, Dose-Response Relationship, Drug, Male, Nasal Mucosa metabolism, Nasal Mucosa pathology, Nose Neoplasms pathology, Polymerase Chain Reaction, Rats, Rats, Inbred F344, Tumor Suppressor Protein p53 genetics, ras Proteins genetics, Formaldehyde toxicity, Inhalation Exposure adverse effects, Mutation, Nasal Mucosa drug effects, Nose Neoplasms chemically induced, Nose Neoplasms genetics

Abstract

This study examined the potential induction of tumor-associated mutations in formaldehyde-exposed rat nasal mucosa using a sensitive method, allele-specific competitive blocker-PCR (ACB-PCR). Levels of p53 codon 271 CGT to CAT and K-Ras codon 12 GGT to GAT mutations were quantified in nasal mucosa of rats exposed to formaldehyde. In addition, nasal mucosa cell proliferation was monitored because regenerative cell proliferation is considered a key event in formaldehyde-induced carcinogenesis. Male F344 rats (6-7 weeks old, 5 rats/group) were exposed to 0, 0.7, 2, 6, 10, and 15 ppm formaldehyde for 13 weeks (6 h/day, 5 days/week). ACB-PCR was used to determine levels of p53 and K-Ras mutations. Although two of five untreated rats had measureable spontaneous p53 mutant fractions (MFs), most nasal mucosa samples had p53 MFs below 10(-5). All K-Ras MF measurements were below 10(-5). No dose-related increases in p53 or K-Ras MF were observed, even though significant increases in bromodeoxyuridine incorporation demonstrated induced cell proliferation in the 10 and 15 ppm formaldehyde-treatment groups. Therefore, induction of tumor-associated p53 mutation likely occurs after several other key events in formaldehyde-induced carcinogenesis., (Published by Elsevier Inc.)

Published

2010

19. ACB-PCR measurement of K-ras codon 12 mutant fractions in livers of Big Blue rats treated with N-hydroxy-2-acetylaminofluorene.

Author

McKinzie PB, Delongchamp RR, Chen T, and Parsons BL

Subjects

Alleles, Animals, Male, Rats, Rats, Inbred F344, Carcinogens toxicity, Codon, Genes, ras genetics, Hydroxyacetylaminofluorene toxicity, Liver drug effects, Point Mutation genetics, Polymerase Chain Reaction

Abstract

K-ras codon 12 GGT-->GAT and GGT-->GTT mutations are the most frequently observed K-ras point mutations in human and rodent tumors and therefore are implicated in carcinogenesis for many tissues. Measurement of these mutations in rat models and human tissue could facilitate a more logical extrapolation of rodent tumorigenesis data to human disease. We have developed allele-specific competitive blocker PCR (ACB-PCR) assays for rat K-ras codon 12 GGT-->GTT and GGT-->GAT mutations that parallel the already published assays for human K-ras codon 12 mutations. Liver K-ras codon 12 mutant allele fractions were measured in vehicle-treated and N-hydroxy-2-acetylaminofluorene (N-OH-AAF)-treated Big Blue rats. The average K-ras codon 12 GGT-->GTT mutant fraction (MF) for four control rats was 50 x 10(-6) (95% CI: 27 x 10(-6), 95 x 10(-6)) and for four treated rats was 165 x 10(-6) (95% CI: 87 x 10(-6), 312 x 10(-6)), indicating a 3.3-fold increase with treatment (95% CI: 1.3-8.1). The average MF of K-ras codon 12 GGT-->GAT for control rats was 1320 x 10(-6) (95% CI: 498 x 10(-6), 3500 x 10(-6)) and for treated rats was 8450 x 10(-6) (95% CI: 3180 x 10(-6), 22 400 x 10(-6)), indicating a 6.4-fold increase with treatment (95% CI: 1.6-25.4). These transgenic rats were part of a study that included analysis of liver lacI mutations. Although data from lacI determinations show that this compound induces mostly G-->T mutations, using the ACB-PCR method both K-ras codon 12 GGT-->GTT and GGT-->GAT MFs were significantly increased in treated rats versus control rats. This data raises the possibility that N-OH-AAF may not only induce mutations by a genotoxic mechanism, but also by amplification of both de novo and pre-existing K-ras mutation.

Published

2006

20. Allele-specific competitive blocker-PCR detection of rare base substitution.

Author

Parsons BL, McKinzie PB, and Heflich RH

Subjects

Animals, Base Pair Mismatch genetics, Base Sequence genetics, DNA analysis, Genes, ras genetics, Humans, Polymorphism, Single Nucleotide, Alleles, DNA Mutational Analysis methods, Point Mutation genetics, Polymerase Chain Reaction methods

Abstract

Methods that detect rare base substitutions within populations of DNA molecules are valuable tools for studying the DNA-damaging effects of chemicals and for pool screening for single-nucleotide polymorphisms. Allele-specific competitive blocker-polymerase chain reaction (ACB-PCR) uses a mutant-specific PCR primer with more 3'-terminal mismatches to an abundant or wild-type sequence than to a rare or mutant sequence in order to amplify specifically an allele that differs from the wild-type by a single base pair. ACB-PCR reactions include a blocker primer to reduce the amount of background signal generated from the abundant wild-type template. The nonextendable blocker primer preferentially anneals to the wild-type DNA sequence, thereby excluding the annealing of the extendable mutant-specific primer to the wild-type sequence. Inclusion of single-strand DNA binding protein in the ACB-PCR reaction and use of the Stoffel fragment of Taq DNA polymerase both significantly increase allele discrimination. The concurrent analysis of mutant fraction standards and equivalent PCR products amplified from genomic DNA samples makes ACB-PCR a quantitative method that can detect a base pair substitution in the presence of a 105-fold excess of wild-type DNA. Methods for the ACB-PCR measurement of the mouse H-ras codon 61 CAA --> AAA mutation are presented.

Published

2005

21. Pms2 deficiency results in increased mutation in the Hprt gene but not the Tk gene of Tk(+/-) transgenic mice.

Author

Dobrovolsky VN, McKinzie PB, Shaddock JG, Mittelstaedt RA, Heflich RH, and Parsons BL

Subjects

Animals, Lymphocytes metabolism, Mice, Mice, Transgenic, Mismatch Repair Endonuclease PMS2, Adenosine Triphosphatases deficiency, DNA Repair Enzymes, DNA-Binding Proteins deficiency, Hypoxanthine Phosphoribosyltransferase genetics, Mutation, Thymidine Kinase genetics

Abstract

The effects of deficiency in the DNA mismatch repair (MMR) protein Pms2 were investigated using the endogenous mouse Hprt and Tk genes as reporters of intragenic mutation and loss of heterozygosity (LOH). Pms2(-/-)Tk(+/-), Pms2(+/+)Tk(+/-), Pms2(+/-)Tk(+/-) and Pms2(-/-)Tk(-/-) mice were bred from Pms2(+/-)Tk(+/-) mice. At 2 months of age, the body weight and splenic T lymphocyte yields were significantly lower in Pms2(-/-)Tk(-/-) mice than in littermates of the other genotypes. The mice were evaluated for their spontaneous mutant frequencies in the Hprt and Tk genes of splenic lymphocytes and their frequency of micronuclei in polychromatic erythrocytes from bone marrow. The cloning efficiency of lymphocytes derived from Pms2(-/-)Tk(-/-) animals was 12-fold lower than that of animals of the other genotypes. Compared with Pms2(+/+) and Pms2(+/-) mice, Pms2(-/-) mice had a 21- to 69-fold increase in the Hprt mutant frequency. The Hprt mutant frequency was equally high in Pms2-deficient, Tk(+/-) and Tk(-/-) mice. No significant Pms2-dependent change in mutant frequency was detected using the Tk mutational target. When individual Tk mutants were analyzed for LOH mutation by allele-specific genotyping, the fraction of LOH mutants was lower in Pms2-deficient than in Pms2-proficient mice (29.2 and 43.6%, respectively). The frequency of bone marrow micronuclei was significantly higher in Pms2(-/-)Tk(-/-) mice than in Pms2(-/-)Tk(+/-) mice. These observations suggest that the simultaneous occurrence of Tk and Pms2 deficiencies may cause a decrease in cell viability that diminishes the Tk mutational response, making it impossible to discern clearly the effect of Pms2 deficiency on LOH-type mutation using the Tk reporter system. The interaction between Tk deficiency and a component of the MMR system suggests that Tk-deficient cells may have higher levels of DNA polymerase misincorporation or endogenous DNA damage than Tk-proficient cells.

Published

2003

22. Detection of rare K-ras codon 12 mutations using allele-specific competitive blocker PCR.

Author

McKinzie PB and Parsons BL

Subjects

Alleles, Animals, Base Sequence, Humans, Introns, Molecular Sequence Data, Mutagenesis, Rats, Codon, Genes, ras genetics, Mutation, Polymerase Chain Reaction methods

Abstract

Allele-specific competitive blocker PCR (ACB-PCR) is a sensitive allele-specific amplification method in which preferential amplification of the mutant allele occurs by using a primer that has more mismatches to the wild-type allele than to the mutant allele (mutant-specific primer, MSP). Additionally, a non-extendable primer with more mismatches to the mutant allele than to the wild-type allele (blocker primer, BP) competes with the MSP for binding to the wild-type allele, thereby reducing background amplification from the wild-type allele. ACB-PCR primer design is largely dependent upon the basepair substitution being measured, making it unclear if this method is broadly applicable. In an earlier study, an H-ras codon 61 CAA-->AAA mutation had been detected by ACB-PCR at a sensitivity of 10(-5). In this study, ACB-PCR was applied to two human K-ras codon 12 mutations: GGT-->GTT and GGT-->GAT. The method was optimized by systematically altering the concentrations of Perfect Match PCR Enhancer, MSP, BP, and dNTPs. For each mutation, mutant fractions as low as 10(-5) were detected, indicating that this assay can be used on a variety of base substitution mutations. In addition, the results suggest that the 3'-terminal mismatches between the MSP and wild-type allele may be used to predict the ACB-PCR conditions that will be appropriate for the detection of other base substitution mutations. The range of concentrations for each of these components is narrow, making this method relatively easy to apply to additional mutational targets.

Published

2002

23. Prospects for applying genotypic selection of somatic oncomutation to chemical risk assessment.

Author

McKinzie PB, Delongchamp RR, Heflich RH, and Parsons BL

Subjects

Animals, Dose-Response Relationship, Drug, Genes, Tumor Suppressor drug effects, Genotype, Humans, Oncogenes drug effects, Oncogenes genetics, Organ Specificity, Research Design, Risk Assessment, Sensitivity and Specificity, Carcinogens toxicity, Cell Transformation, Neoplastic genetics, DNA Mutational Analysis methods, Mutagenicity Tests methods, Mutation

Abstract

Genotypic selection methods detect rare sequence changes in populations of DNA molecules. These methods have been used to investigate the chemical induction of mutation and for the detection and diagnosis of cancer. The possible use of genotypic selection for improving current risk assessment practices is based on the premise that the frequency of somatic mutation is of critical importance in understanding and modeling carcinogenesis. If genotypic selection can measure the induction of specific mutations that disrupt normal cell/tissue homeostasis, then it could provide key mechanistic information for cancer risk assessment. For example, genotypic selection data might support a particular low-dose extrapolation method or characterize the relationship between rodent and human cancer risk. Strategies for evaluating the use of genotypic selection in cancer risk assessment include the concept of developing a battery of targets that detect a range of agent-specific effects. Ideal targets to examine by genotypic selection are the oncogene and tumor suppressor gene mutations frequently detected in human tumors because these are thought to represent tumor-initiating events. The most commonly occurring basepair (bp) substitutions within the ras and p53 genes are identified. Also, the battery of genotypic selection methods is defined in terms of the most important mutational specificities to include. In theory, the major basepair substitution mutations induced by 29 of 31 chemical carcinogens could be detected by analyzing three different mutations: G:C-->T:A, G:C-->A:T, and A:T-->T:A. Genotypic selection will have the greatest impact on risk assessment if measurement of spontaneous mutation is possible. Data from phenotypic selection assays suggest this corresponds to detection of mutant fractions of approximately 10(-7), and this would necessitate examining DNA samples containing >10(7) target molecules. Despite its apparent potential, considerable development and validation is needed before genotypic selection data can be applied to cancer risk assessment.

Published

2001