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5. Data from Analysis of Genetic Alterations and Clonal Proliferation in Children Treated for Acute Lymphocytic Leukemia

Author

Barry A. Finette, Terri L. Messier, Sederick C. Rice, Jami L. Rivers, Pamela M. Vacek, and Heather E. Kendall

Abstract

The development of risk-directed treatment protocols over the last 25 years has resulted in an increase in the survival rates of children treated for cancer. As a consequence, there is a growing population of pediatric cancer survivors in which the long-term genotoxic effects of chemotherapy is unknown. We previously reported that children treated for acute lymphocytic leukemia have significantly elevated somatic mutant frequencies at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene in their peripheral T cells. To understand the molecular etiology of the increase in mutant frequencies following chemotherapy, we investigated the HPRT mutation spectra and the extent of clonal proliferation in 562 HPRT T cell mutant isolates of 87 blood samples from 47 subjects at diagnosis, during chemotherapy, and postchemotherapy. We observed a significant increase in the proportion of CpG transitions following treatment (13.6-23.3%) compared with healthy controls (4.0%) and a significant decrease in V(D)J-mediated deletions following treatment (0-6.8%) compared with healthy controls (17.0%). There was also a significant change in the class type percentage of V(D)J-mediated HPRT deletions following treatment. In addition, there was a >5-fold increase in T cell receptor gene usage–defined mean clonal proliferation from diagnosis compared with the completion of chemotherapeutic intervention. These data indicate that unique genetic alterations and extensive clonal proliferation are occurring in children following treatment for acute lymphocytic leukemia that may influence long-term risks for multifactorial diseases, including secondary cancers. (Cancer Res 2006; 66(17): 8455-61)

Published
2023

8. Data from Mutagenicity and Potential Carcinogenicity of Thiopurine Treatment in Patients with Inflammatory Bowel Disease

Author

Barry A. Finette, Richard B. Colletti, Patrick O'Neill, Pamela M. Vacek, and Truc Nguyen

Abstract

The thiopurines azathioprine and 6-mercaptopurine (6-MP) are effective immune modulators and cytotoxic agents extensively used in the treatment of autoimmune diseases, graft rejection, and cancer. There is compelling epidemiologic evidence that thiopurine treatment increases the risk for a variety of tumors by mechanisms that are unclear. We investigated the in vivo mutagenicity of long-term thiopurine treatment by determining the frequency and spectra of somatic mutation events at the hypoxanthine phosphoribosyltransferase (HPRT) locus in peripheral T lymphocytes as well as the prevalence of mutant clonal proliferation in a cross-sectional analysis of data from 119 children and adults with inflammatory bowel disease (IBD). ANOVA and regression were performed to assess relationships among the frequency and spectra of HPRT mutations with disease, duration of illness, duration of treatment, and total therapeutic dose of azathioprine and 6-MP. We observed a significant increase in the frequency of somatic mutations in 56 subjects treated with thiopurines for IBD compared with 63 subjects not treated with thiopurines. This increase was related to both total dose (P < 0.001) and duration of treatment (P < 0.001). Comparative mutation spectra analysis of 1,020 mutant isolates revealed a significant increase in the proportion of all transitions (P < 0.001), particularly G:C to A:T transitions (P < 0.001). Combined analyses of two signatures for mutant clonality, HPRT mutation, and T-cell receptor β CDR3 region unique gene sequence also showed a significant thiopurine-dependent increase in mutant cell clonal proliferation (P < 0.001). These findings provide in vivo evidence for mutation induction as a potential carcinogenic mechanism associated with chronic thiopurine intervention. [Cancer Res 2009;69(17):7004–23]

Published
2023

10. Development and Initial Validation of a Frontline Health Worker mHealth Assessment Platform (MEDSINC®) for Children 2–60 Months of Age

Author

Salvator Nibitanga, Kazi Asadur Rahman, John Canning, Michelle Grunauer, Assiatta Kabore, Eric Swedberg, Edy Quizhpe, Barry Heath, Hosneara Khondker, Awa Seck, Ituki Chakma, Samuel V. Scarpino, Marisol Bahamonde, Megan M. McLaughlin, Enrique Teran, Barry A. Finette, Denis Muhoza, and Rashed Shah

Subjects
Telemedicine, medicine.medical_specialty, business.industry, 030231 tropical medicine, Psychological intervention, MEDLINE, Usability, Articles, Triage, Health informatics, 03 medical and health sciences, 0302 clinical medicine, Infectious Diseases, Job performance, Virology, Family medicine, Medicine, Parasitology, business, mHealth
Abstract

Approximately 3 million children younger than 5 years living in low- and middle-income countries (LMICs) die each year from treatable clinical conditions such as pneumonia, dehydration secondary to diarrhea, and malaria. A majority of these deaths could be prevented with early clinical assessments and appropriate therapeutic intervention. In this study, we describe the development and initial validation testing of a mobile health (mHealth) platform, MEDSINC®, designed for frontline health workers (FLWs) to perform clinical risk assessments of children aged 2–60 months. MEDSINC is a web browser–based clinical severity assessment, triage, treatment, and follow-up recommendation platform developed with physician-based Bayesian pattern recognition logic. Initial validation, usability, and acceptability testing were performed on 861 children aged between 2 and 60 months by 49 FLWs in Burkina Faso, Ecuador, and Bangladesh. MEDSINC-based clinical assessments by FLWs were independently and blindly correlated with clinical assessments by 22 local health-care professionals (LHPs). Results demonstrate that clinical assessments by FLWs using MEDSINC had a specificity correlation between 84% and 99% to LHPs, except for two outlier assessments (63% and 75%) at one study site, in which local survey prevalence data indicated that MEDSINC outperformed LHPs. In addition, MEDSINC triage recommendation distributions were highly correlated with those of LHPs, whereas usability and feasibility responses from LHP/FLW were collectively positive for ease of use, learning, and job performance. These results indicate that the MEDSINC platform could significantly increase pediatric health-care capacity in LMICs by improving FLWs’ ability to accurately assess health status and triage of children, facilitating early life-saving therapeutic interventions.

Published
2019

11. Authors’ Response

Author

Barry A. Finette, Megan McLaughlin, Samuel V. Scarpino, John Canning, Michelle Grunauer, Enrique Teran, Marisol Bahamonde, Edy Quizhpe, Rashed Shah, Eric Swedberg, Kazi Asadur Rahman, Hosenera Khondker, Ituki Chakma, Denis Muhoza, Awa Seck, Assiatta Kabore, Salvator Nibitanga, and Barry Heath

Subjects
Infectious Diseases, Virology, Parasitology, Algorithms, Telemedicine, Authors’ Response
Published
2019

12. Mutagenicity and Potential Carcinogenicity of Thiopurine Treatment in Patients with Inflammatory Bowel Disease

Author

Patrick O'Neill, Pamela M. Vacek, Truc Nguyen, Richard B. Colletti, and Barry A. Finette

Subjects
Adult, Male, Hypoxanthine Phosphoribosyltransferase, Cancer Research, T-Lymphocytes, Azathioprine, Disease, Lymphocyte Activation, Inflammatory bowel disease, Article, Therapeutic index, Germline mutation, Crohn Disease, Humans, Medicine, Child, Cell Proliferation, Thiopurine methyltransferase, biology, Mercaptopurine, Mutagenicity Tests, business.industry, medicine.disease, Ulcerative colitis, Cross-Sectional Studies, Oncology, Hypoxanthine-guanine phosphoribosyltransferase, Child, Preschool, Mutation, Immunology, Carcinogens, biology.protein, Regression Analysis, Colitis, Ulcerative, Female, business, Immunosuppressive Agents, Mutagens, medicine.drug
Abstract

The thiopurines azathioprine and 6-mercaptopurine (6-MP) are effective immune modulators and cytotoxic agents extensively used in the treatment of autoimmune diseases, graft rejection, and cancer. There is compelling epidemiologic evidence that thiopurine treatment increases the risk for a variety of tumors by mechanisms that are unclear. We investigated the in vivo mutagenicity of long-term thiopurine treatment by determining the frequency and spectra of somatic mutation events at the hypoxanthine phosphoribosyltransferase (HPRT) locus in peripheral T lymphocytes as well as the prevalence of mutant clonal proliferation in a cross-sectional analysis of data from 119 children and adults with inflammatory bowel disease (IBD). ANOVA and regression were performed to assess relationships among the frequency and spectra of HPRT mutations with disease, duration of illness, duration of treatment, and total therapeutic dose of azathioprine and 6-MP. We observed a significant increase in the frequency of somatic mutations in 56 subjects treated with thiopurines for IBD compared with 63 subjects not treated with thiopurines. This increase was related to both total dose (P < 0.001) and duration of treatment (P < 0.001). Comparative mutation spectra analysis of 1,020 mutant isolates revealed a significant increase in the proportion of all transitions (P < 0.001), particularly G:C to A:T transitions (P < 0.001). Combined analyses of two signatures for mutant clonality, HPRT mutation, and T-cell receptor β CDR3 region unique gene sequence also showed a significant thiopurine-dependent increase in mutant cell clonal proliferation (P < 0.001). These findings provide in vivo evidence for mutation induction as a potential carcinogenic mechanism associated with chronic thiopurine intervention. [Cancer Res 2009;69(17):7004–23]

Published
2009

13. V(D)J Recombinase-Mediated Processing of Coding Junctions at Cryptic Recombination Signal Sequences in Peripheral T Cells during Human Development

Author

Garnett Kelsoe, Fraser McBlane, Lucy Trombley, Vernon E. Walker, Barry A. Finette, Terri L. Messier, Brien McGonagle, Lindsay G. Cowell, J. Patrick O'Neill, Janet M. Murray, and Jami Rivers

Subjects
chemistry.chemical_classification, Genetics, biology, Inverted repeat, Immunology, Locus (genetics), Molecular biology, chemistry, Hypoxanthine-guanine phosphoribosyltransferase, biology.protein, Recombinase, Immunology and Allergy, Phosphoribosyltransferase, Recombination signal sequences, Nucleotide, Recombination
Abstract

V(D)J recombinase mediates rearrangements at immune loci and cryptic recombination signal sequences (cRSS), resulting in a variety of genomic rearrangements in normal lymphocytes and leukemic cells from children and adults. The frequency at which these rearrangements occur and their potential pathologic consequences are developmentally dependent. To gain insight into V(D)J recombinase-mediated events during human development, we investigated 265 coding junctions associated with cRSS sites at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in peripheral T cells from 111 children during the late stages of fetal development through early adolescence. We observed a number of specific V(D)J recombinase processing features that were both age and gender dependent. In particular, TdT-mediated nucleotide insertions varied depending on age and gender, including percentage of coding junctions containing N-nucleotide inserts, predominance of GC nucleotides, and presence of inverted repeats (Pr-nucleotides) at processed coding ends. In addition, the extent of exonucleolytic processing of coding ends was inversely related to age. We also observed a coding-partner-dependent difference in exonucleolytic processing and an age-specific difference in the subtypes of V(D)J-mediated events. We investigated these age- and gender-specific differences with recombination signal information content analysis of the cRSS sites in the human HPRT locus to gain insight into the mechanisms mediating these developmentally specific V(D)J recombinase-mediated rearrangements in humans.

Published
2006

14. Analysis of microsatellite instability in children treated for acute lymphocytic leukemia with elevated HPRT mutant frequencies

Author

Pamela M. Vacek, Heather Kendall, and Barry A. Finette

Subjects
Oncology, Hypoxanthine Phosphoribosyltransferase, medicine.medical_specialty, Adolescent, DNA Repair, Health, Toxicology and Mutagenesis, medicine.medical_treatment, Population, Biology, Toxicology, Polymerase Chain Reaction, Gene Frequency, Genes, Reporter, Recurrence, Internal medicine, Acute lymphocytic leukemia, Genetics, medicine, Humans, Young adult, Child, education, Survival rate, Alleles, Genetics (clinical), Chemotherapy, education.field_of_study, Infant, Newborn, Infant, Cancer, Microsatellite instability, Precursor Cell Lymphoblastic Leukemia-Lymphoma, medicine.disease, Chemotherapy regimen, Child, Preschool, Mutation, Immunology, Microsatellite Repeats
Abstract

Survival rates of children treated for cancer have increased dramatically over the last 25 years following the development of risk-directed multi-modality treatment protocols. As a result, there is a rapidly growing population of children and young adult cancer survivors in which the long-term genotoxic effects of chemotherapeutic intervention is unknown. We have previously observed that children treated for acute lymphocytic leukemia (ALL) have significantly increased somatic mutant frequencies (Mfs) (30- to 1300-fold higher) at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) reporter gene in their non-malignant peripheral T cells compared with children at diagnosis or controls. In order to gain insight into the etiology of the observed dramatic increase in Mfs following antineoplastic therapy, we investigated the prevalence of microsatellite instability (MSI), reflective of a defect in DNA mismatch repair (MMR), in children with ALL at diagnosis, during and after chemotherapy and compared them with healthy age-matched controls. MSI analysis using five microsatellite markers was performed on 167 T cell isolates from 40 healthy children and on 842 T cell isolates from 50 patients treated for ALL. High-frequency MSI (MSI-high) was identified in 2 healthy children (5%) and in 2 of 20 ALL subjects at the time of disease recurrence (relapse) (10%). There was no statistically significant difference between the prevalence of MSI-high in patients at the time of ALL relapse and healthy children, nor between the children with ALL at other time points and healthy children. These data indicate that MMR defects, represented by MSI, are not a significant contributor to the elevated HPRT Mfs seen in children treated for ALL. However, in a small number of patients chemotherapy may play a role in the selection of cells with defects in MMR that may have long-term clinical implications.

Published
2004

15. In vivo transposition mediated by V(D)J recombinase in human T lymphocytes

Author

Janice A. Nicklas, J. Patrick O'Neill, Barry A. Finette, Terri L. Messier, and Sai–Mei Hou

Subjects
Hypoxanthine Phosphoribosyltransferase, T-Lymphocytes, Molecular Sequence Data, Receptors, Antigen, T-Cell, Biology, Gene Rearrangement, T-Lymphocyte, General Biochemistry, Genetics and Molecular Biology, Recombination-activating gene, Gene product, chemistry.chemical_compound, Recombinase, Humans, Recombination signal sequences, Gene Silencing, VDJ Recombinases, Molecular Biology, Chromosomes, Human, Pair 14, Homeodomain Proteins, Recombination, Genetic, Chromosomes, Human, X, Binding Sites, Base Sequence, Genes, Immunoglobulin, Models, Genetic, General Immunology and Microbiology, General Neuroscience, V(D)J recombination, T-cell receptor, Articles, Gene rearrangement, Molecular biology, Clone Cells, chemistry, DNA Nucleotidyltransferases, Immunoglobulin Joining Region, Genes, T-Cell Receptor alpha, DNA
Abstract

The rearrangement of immunoglobulin (Ig) and T-cell receptor (TCR) genes in lymphocytes by V(D)J recombinase is essential for immunological diversity in humans. These DNA rearrangements involve cleavage by the RAG1 and RAG2 (RAG1/2) recombinase enzymes at recombination signal sequences (RSS). This reaction generates two products, cleaved signal ends and coding ends. Coding ends are ligated by non-homologous end-joining proteins to form a functional Ig or TCR gene product, while the signal ends form a signal joint. In vitro studies have demonstrated that RAG1/2 are capable of mediating the transposition of cleaved signal ends into non-specific sites of a target DNA molecule. However, to date, in vivo transposition of signal ends has not been demonstrated. We present evidence of in vivo inter-chromosomal transposition in humans mediated by V(D)J recombinase. T-cell isolates were shown to contain TCRalpha signal ends from chromosome 14 inserted into the X-linked hypo xanthine-guanine phosphoribosyl transferase locus, resulting in gene inactivation. These findings implicate V(D)J recombinase-mediated transposition as a mutagenic mechanism capable of deleterious genetic rearrangements in humans.

Published
2003

16. Gender-specific frequency of background somatic mutations at the hypoxanthine phosphoribosyltransferase locus in cord blood T lymphocytes from preterm newborns

Author

Makoto Yoshioka, Pamela M. Vacek, Robert B. Silver, Tina Poseno, and Barry A. Finette

Subjects
Male, Hypoxanthine Phosphoribosyltransferase, Somatic cell, T-Lymphocytes, Physiology, Gestational Age, Biology, Fetus, Obstetric Labor, Premature, Pregnancy, Tobacco, medicine, Humans, Multidisciplinary, Smoking, Infant, Newborn, Gestational age, Biological Sciences, Fetal Blood, medicine.disease, Plants, Toxic, In utero, Hypoxanthine-guanine phosphoribosyltransferase, Cord blood, Mutation, Immunology, Regression Analysis, Female, Sex
Abstract

Limited information is available regarding the frequency, spectrum, and clinical relevance of somatic mutations in the developing fetus. The goal of this study was to determine somatic mutant frequencies (Mfs) at the hypoxanthine phosphoribosyltransferase (HPRT) reporter gene in cord blood T lymphocytes from preterm infants to gain insight intoin uteromutational events. Mf determinations were made by using theHPRTT cell cloning assay on cord blood samples from 52 preterm infants. Natural logarithm Mfs (lnMfs) from preterm infants were compared with results from our database for full-term infants. Our analysis revealed higher lnMfs in cord blood T lymphocytes from preterm compared with full-term infants (P= 0.008). In addition, preterm females had significantly higher lnMfs compared with full-term females (P< 0.001), whereas preterm males were found to have significantly lower lnMfs than preterm females (P= 0.005). Regression analyses also demonstrate a significant relationship between lnMf and gestational age for preterm females that does not exist for preterm males. These results demonstrate the gender-specific association between Mf and age in humans.

Published
1999

17. Development of a cost-effective high-throughput process of microsatellite analysis involving miniaturized multiplexed PCR amplification and automated allele identification

Author

Truc Nguyen, Barry A. Finette, and Shaheen E Lakhan

Subjects
Genetic Markers, Genotype, T-Lymphocytes, Biology, Genome, Polymerase Chain Reaction, Sensitivity and Specificity, Genomic Instability, Loss of heterozygosity, Multiplexed PCR, Tandem repeat, Drug Discovery, Multiplex polymerase chain reaction, Genetics, medicine, Leukemia, B-Cell, Humans, Allele, Molecular Biology, Alleles, Base Sequence, Microsatellite instability, High-Throughput Nucleotide Sequencing, Reproducibility of Results, medicine.disease, Inflammatory Bowel Diseases, Genetic Loci, Case-Control Studies, Molecular Medicine, Microsatellite, Primary Research, Algorithms, Software, Microsatellite Repeats
Abstract

Background Microsatellites are nucleotide sequences of tandem repeats occurring throughout the genome, which have been widely used in genetic linkage analysis, studies of loss of heterozygosity, determination of lineage and clonality, and the measurement of genome instability or the emergence of drug resistance reflective of mismatch repair deficiency. Such analyses may involve the parallel evaluation of many microsatellite loci, which are often limited by sample DNA, are labor intensive, and require large data processing. Results To overcome these challenges, we developed a cost-effective high-throughput approach of microsatellite analysis, in which the amplifications of microsatellites are performed in miniaturized, multiplexed polymerase chain reaction (PCR) adaptable to 96 or 384 well plates, and accurate automated allele identification has been optimized with a collective reference dataset of 5,508 alleles using the GeneMapper software. Conclusions In this investigation, we have documented our experience with the optimization of multiplex PCR conditions and automated allele identification, and have generated a unique body of data that provide a starting point for a cost-effective, high-throughput process of microsatellite analysis using the studied markers.

Published
2012

18. VDJ recombinase-mediated TCR β locus gene usage and coding joint processing in peripheral T cells during perinatal and pediatric development

Author

Pamela M. Vacek, Terri L. Messier, Vernon E. Walker, J. Patrick O'Neill, Janet M. Murray, Jami Rivers, and Barry A. Finette

Subjects
Male, T cell, Receptors, Antigen, T-Cell, alpha-beta, Immunology, Population, Locus (genetics), Biology, Gene Rearrangement, T-Lymphocyte, Cohort Studies, Pregnancy, T-Lymphocyte Subsets, Recombinase, medicine, Immunology and Allergy, Recombination signal sequences, Humans, education, Child, Gene, VDJ Recombinases, Genetics, education.field_of_study, T-cell receptor, Infant, Newborn, Gene Expression Regulation, Developmental, Gene rearrangement, medicine.anatomical_structure, Genetic Loci, Prenatal Exposure Delayed Effects, Immunoglobulin Joining Region, Female
Abstract

The generation of TCR proteins is the result of V(D)J recombinase-mediated genomic rearrangements at recombination signal sequences (RSS) in human lymphocytes. V(D)J recombinase can also mediate rearrangements at nonimmune or “cryptic” RSS in normal and leukemic human peripheral T cells. We previously demonstrated age- and gender-specific developmental differences in V(D)J coding joint processing at cryptic RSS within the HPRT locus in peripheral T cells from healthy children (Murray et al. 2006. J. Immunol. 177: 5393–5404). In this study, we investigated developmentally specific V(D)J recombinase TCRβ immune gene rearrangements and coding joint processing at RSS in peripheral T cells in the same pediatric population. This approach provided a unique opportunity to investigate site-specific V(D)J recombinase rearrangements and coding joint processing at immune and nonimmune genes from the same individual T cell population. We determined the genomic sequence of 244 TCRβ coding junctions from 112 (63 male, 49 female) subjects from the late stages of fetal development through 9 y of age. We observed both age- and gender-specific V(D)J recombinase-mediated TCRβ gene usage and coding joint processing at immune RSS. To the best of our knowledge, these data represent the first description of age- and gender-specific developmental differences in TCR gene usage and coding joint processing that could directly influence TCR diversity and immune specificity. It will be important for future studies to ascertain the mechanistic etiology of these developmental and gender differences in TCR diversity and specificity, as well as their importance with respect to the age and gender risks for infectious and autoimmune diseases in humans.

Published
2012

19. Analysis of genetic alterations and clonal proliferation in children treated for acute lymphocytic leukemia

Author

Pamela M. Vacek, Barry A. Finette, Sederick C. Rice, Jami Rivers, Heather Kendall, and Terri L. Messier

Subjects
Male, Cancer Research, Hypoxanthine Phosphoribosyltransferase, Somatic cell, T cell, medicine.medical_treatment, Population, Receptors, Antigen, T-Cell, Antineoplastic Agents, Biology, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Acute lymphocytic leukemia, medicine, Humans, Cloning, Molecular, education, Child, education.field_of_study, Chemotherapy, Cancer, medicine.disease, Pediatric cancer, Burkitt Lymphoma, medicine.anatomical_structure, Oncology, Hypoxanthine-guanine phosphoribosyltransferase, Child, Preschool, Immunology, Mutation, Female
Abstract

The development of risk-directed treatment protocols over the last 25 years has resulted in an increase in the survival rates of children treated for cancer. As a consequence, there is a growing population of pediatric cancer survivors in which the long-term genotoxic effects of chemotherapy is unknown. We previously reported that children treated for acute lymphocytic leukemia have significantly elevated somatic mutant frequencies at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene in their peripheral T cells. To understand the molecular etiology of the increase in mutant frequencies following chemotherapy, we investigated the HPRT mutation spectra and the extent of clonal proliferation in 562 HPRT T cell mutant isolates of 87 blood samples from 47 subjects at diagnosis, during chemotherapy, and postchemotherapy. We observed a significant increase in the proportion of CpG transitions following treatment (13.6-23.3%) compared with healthy controls (4.0%) and a significant decrease in V(D)J-mediated deletions following treatment (0-6.8%) compared with healthy controls (17.0%). There was also a significant change in the class type percentage of V(D)J-mediated HPRT deletions following treatment. In addition, there was a >5-fold increase in T cell receptor gene usage–defined mean clonal proliferation from diagnosis compared with the completion of chemotherapeutic intervention. These data indicate that unique genetic alterations and extensive clonal proliferation are occurring in children following treatment for acute lymphocytic leukemia that may influence long-term risks for multifactorial diseases, including secondary cancers. (Cancer Res 2006; 66(17): 8455-61)

Published
2006

20. V(D)J recombinase mediated inter-chromosomal HPRT alterations at cryptic recombination signal sequences in peripheral human T cells

Author

J. Patrick O'Neill, Barry A. Finette, and Terri L. Messier

Subjects
Male, Enzyme complex, Hypoxanthine Phosphoribosyltransferase, Molecular Sequence Data, Biology, Gene Rearrangement, T-Lymphocyte, chemistry.chemical_compound, Genetics, Recombinase, Recombination signal sequences, Humans, Gene, VDJ Recombinases, Genetics (clinical), Sex Chromosome Aberrations, Recombination, Genetic, Chromosomes, Human, X, Base Sequence, Genome, Human, T-cell receptor, Intron, Infant, Newborn, Chromosome, Infant, Molecular biology, Introns, Mutagenesis, Insertional, chemistry, Female, DNA, Gene Deletion
Abstract

The V(D)J recombinase enzyme complex is responsible for the development of a diverse immune system by catalyzing intra-molecular rearrangements of immunoglobulin (Ig) and T cell receptor (TCR) genes at specific recombination signal sequences (RSSs). This enzyme complex has also been implicated in mediating pathologic and non-pathologic intra- and inter-molecular genomic rearrangements at cryptic (Ψ) RSSs outside the immune system loci in lymphoid cells. We describe here two V(D)J recombinase mediated genomic rearrangements resulting in alterations at the HPRT locus in human T-cells. These are inter-chromosomal insertions in which DNA fragments are inserted at breakpoints generated by V(D)J recombinase cleavage at Ψ RSS sites in the HPRT locus at Xq26. In the first, a TCR signal ended segment from chromosome 14q11 is inserted at a Ψ RSS in intron 1 of the HPRT locus. In the second, a DNA fragment from 9q22 is integrated between the coding ends generated by a V(D)J recombinase mediated HPRT deletion. Identification of these in vivo V(D)J mediated inter-chromosomal insertions at Ψ RSSs in the HPRT gene supports the accumulating evidence that V(D)J recombinase can mediate mutagenic rearrangements in humans with potential pathologic consequences. Published 2006 Wiley-Liss, Inc.

Published
2006

21. Accumulation of somatic mutations in proliferating T cell clones from children treated for leukemia

Author

Barry A. Finette, Terri L. Messier, Jami Rivers, Alan Homans, and Richard J. Albertini

Subjects
Genome instability, Adult, Male, Cancer Research, Hypoxanthine Phosphoribosyltransferase, Adolescent, Somatic cell, T cell, T-Lymphocytes, DNA Mutational Analysis, Biology, medicine.disease_cause, Lymphocyte Activation, Acute lymphocytic leukemia, Antineoplastic Combined Chemotherapy Protocols, medicine, Humans, Neoplastic transformation, Cell Lineage, Amino Acid Sequence, Child, Genetics, Leukemia, T-cell receptor, Hematology, Precursor Cell Lymphoblastic Leukemia-Lymphoma, medicine.disease, Clone Cells, medicine.anatomical_structure, Cell Transformation, Neoplastic, Oncology, Child, Preschool, Genes, T-Cell Receptor beta, Mutation, Cancer research, Female, Carcinogenesis, Cell Division
Abstract

There is continued controversy as to the sequential steps and mechanism(s) responsible for the in vivo acquisition of multiple mutations during neoplastic transformation. We investigated the in vivo clonality and mutational spectra of hypoxanthine-guanine phosphoribosyltransferase (HPRT) mutations in T cells from children with acute lymphocytic leukemia (ALL) to gain insight into the mutagenic mechanisms associated with leukemogenesis. We observed several instances of multiple, independent HPRT mutations accumulating in vivo in T cell receptor (TCR) gene defined clones that had undergone extensive pre- and/or post-thymic expansion following chemotherapy. In addition, we also detected the accumulation of multiple unique single mutations within distinct expanding post-thymic T cell clones. This pattern of clonally restricted hypermutability is compatible with extensive cell proliferation and selection alone without postulating genomic instability. These observations provide a paradigm for a continuum of cellular events that eventually results in the clonal accumulation of mutations in selected populations of cells in vivo and may provide insight into the primary genetic events associated with leukemogenesis, as well as the development of second malignancies and drug resistance following chemotherapy.

Published
2001

22. Gene mutations with characteristic deletions in cord blood T lymphocytes associated with passive maternal exposure to tobacco smoke

Author

Pamela M. Vacek, J.P. O'Neill, Richard J. Albertini, and Barry A. Finette

Subjects
Male, Hypoxanthine Phosphoribosyltransferase, Somatic cell, T-Lymphocytes, Population, Molecular Sequence Data, Biology, Gene mutation, Polymerase Chain Reaction, General Biochemistry, Genetics and Molecular Biology, Tobacco smoke, Humans, Cloning, Molecular, education, Cotinine, VDJ Recombinases, Sequence Deletion, Genetics, education.field_of_study, Base Sequence, Infant, Newborn, General Medicine, Environmental exposure, Fetal Blood, In utero, Hypoxanthine-guanine phosphoribosyltransferase, Maternal Exposure, Mutagenesis, Cord blood, Immunology, DNA Nucleotidyltransferases, Female, Tobacco Smoke Pollution
Abstract

We have investigated the molecular effects of passive maternal cigarette exposure in a newborn population and consider the possible implications of the observed genetic changes in the development of neoplastic diseases in children. We present a distribution analysis of somatic mutational events in a reporter gene, HPRT, in cord blood T lymphocytes from newborns after transplacental exposure to cigarette smoke. Analysis of 30 HPRT mutant isolates from 12 newborn infants born to mothers with no evidence of environmental exposure to cigarette smoke and 37 HPRT mutant isolates from 12 infants born to mothers exposed to passive cigarette smoke showed a significant difference in the HPRT mutational spectrum in those exposed in utero to cigarette smoke. The most notable change was an increase in 'illegitimate' genomic deletions mediated by V(D)J recombinase, a recombination event associated with hematopoietic malignancies in early childhood. Recent epidemiological studies of maternal and paternal cigarette smoke exposure and childhood cancers may need to be re-interpreted, given these results.

Published
1998

24. DETERMINATION OF SOMATIC MUTANT FREQUENCIES AT THE HPRT LOCUS IN T-LYMPHOCYTES FROM PRETERM INFANTS. † 394

Author

Barry A. Finette, Roger F. Soll, Tina Poseno, and Robert Silver

Subjects
Genetics, enzymes and coenzymes (carbohydrates), Somatic cell, business.industry, cells, genetic processes, Pediatrics, Perinatology and Child Health, Mutant, nutritional and metabolic diseases, Medicine, Hprt locus, business
Abstract

DETERMINATION OF SOMATIC MUTANT FREQUENCIES AT THE HPRT LOCUS IN T-LYMPHOCYTES FROM PRETERM INFANTS. † 394

Published
1996

25. Toluene degradation by Pseudomonas putida F1: genetic organization of the tod operon

Author

W R McCombie, David T. Gibson, Barry A. Finette, and Gerben J. Zylstra

Subjects
Transposable element, Chemical Phenomena, Operon, Hydrolases, Toluene dioxygenase, Applied Microbiology and Biotechnology, Dioxygenases, Plasmid, Pseudomonas, Cloning, Molecular, Ecology, biology, Genetic Complementation Test, biology.organism_classification, Pseudomonas putida, Chemistry, Biodegradation, Environmental, Biochemistry, Pseudomonadales, Mutation, DNA Transposable Elements, Oxygenases, Transposon mutagenesis, Oxidoreductases, Food Science, Biotechnology, Research Article, Plasmids, Toluene
Abstract

Pseudomonas putida PpF1 degrades toluene through cis-toluene dihydrodiol to 3-methylcatechol. The latter compound is metabolized through the well-established meta pathway for catechol degradation. The first four steps in the pathway involve the sequential action of toluene dioxygenase (todABC1C2), cis-toluene dihydrodiol dehydrogenase (todD), 3-methylcatechol 2,3-dioxygenase (todE), and 2-hydroxy-6-oxo-2,4-heptadienoate hydrolase (todF). The genes for these enzymes form part of the tod operon which is responsible for the degradation of toluene by this organism. A combination of transposon mutagenesis of the PpF1 chromosome, as well as analysis of cloned chromosomal fragments, was used to determine the physical order of the genes in the tod operon. The genes were determined to be transcribed in the order todF, todC1, todC2, todB, todA, todD, todE.

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