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3. The subclonal complexity of STIL-TAL1+ T-cell acute lymphoblastic leukaemia

Author

Furness, CL, Braga Mansur, M, Weston, VJ, Ermini, L, van Delft, FW, Jenkinson, S, Gale, R, Harrison, CJ, Pombo-de-Oliveira, MS, Sanchez-Martin, M, Ferrando, AA, Kearns, P, Titley, I, Ford, AM, Potter, NE, and Greaves, M

Subjects
Adult, Adolescent, Oncogene Proteins, Fusion, Intracellular Signaling Peptides and Proteins, PTEN Phosphohydrolase, Infant, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma, Polymorphism, Single Nucleotide, Article, Clonal Evolution, Disease Models, Animal, Young Adult, Cell Line, Tumor, Child, Preschool, Mutation, Animals, Heterografts, Humans, Single-Cell Analysis, Child, Multiplex Polymerase Chain Reaction, Alleles, In Situ Hybridization, Fluorescence, T-Cell Acute Lymphocytic Leukemia Protein 1, Genome-Wide Association Study
Abstract

Single-cell genetics were used to interrogate clonal complexity and the sequence of mutational events in STIL-TAL1+ T-ALL. Single-cell multicolour FISH was used to demonstrate that the earliest detectable leukaemia subclone contained the STIL-TAL1 fusion and copy number loss of 9p21.3 (CDKN2A/CDKN2B locus), with other copy number alterations including loss of PTEN occurring as secondary subclonal events. In three cases, multiplex qPCR and phylogenetic analysis were used to produce branching evolutionary trees recapitulating the snapshot history of T-ALL evolution in this leukaemia subtype, which confirmed that mutations in key T-ALL drivers, including NOTCH1 and PTEN, were subclonal and reiterative in distinct subclones. Xenografting confirmed that self-renewing or propagating cells were genetically diverse. These data suggest that the STIL-TAL1 fusion is a likely founder or truncal event. Therapies targeting the TAL1 auto-regulatory complex are worthy of further investigation in T-ALL.

Published
2018

8. Clonal origins of ETV6-RUNX1+ acute lymphoblastic leukemia:studies in monozygotic twins

Author

Alpar, D., Wren, D., Ermini, Luca, Mansur, M. B., Van Delft, F. W., Bateman, C. M., Titley, I., Kearney, L., Szczepanski, T., Gonzalez, D., Ford, A. M., Potter, N. E., Greaves, M., Alpar, D., Wren, D., Ermini, Luca, Mansur, M. B., Van Delft, F. W., Bateman, C. M., Titley, I., Kearney, L., Szczepanski, T., Gonzalez, D., Ford, A. M., Potter, N. E., and Greaves, M.

Abstract

Studies on twins with concordant acute lymphoblastic leukemia (ALL) have revealed that ETV6-RUNX1 gene fusion is a common, prenatal genetic event with other driver aberrations occurring subclonally and probably postnatally. The fetal cell type that is transformed by ETV6-RUNX1 is not identified by such studies or by the analysis of early B-cell lineage phenotype of derived progeny. Ongoing, clonal immunoglobulin (IG) and cross-lineage T-cell receptor (TCR) gene rearrangements are features of B-cell precursor leukemia and commence at the pro-B-cell stage of normal B-cell lineage development. We reasoned that shared clonal rearrangements of IG or TCR genes by concordant ALL in twins would be informative about the fetal cell type in which clonal advantage is elicited by ETV6-RUNX1. Five pairs of twins were analyzed for all varieties of IG and TCR gene rearrangements. All pairs showed identical incomplete or complete variable-diversity-joining junctions coupled with substantial, subclonal and divergent rearrangements. This pattern was endorsed by single-cell genetic scrutiny in one twin pair. Our data suggest that the pre-leukemic initiating function of ETV6-RUNX1 fusion is associated with clonal expansion early in the fetal B-cell lineage.

Published
2015

9. RAG-mediated recombination is the predominant driver of oncogenic rearrangement in ETV6-RUNX1 acute lymphoblastic leukemia

Author

Papaemmanuil, E, Rapado, I, Li, Y, Potter, N, Wedge, D, Tubio, J, Alexandrov, L, Van Loo, P, Cooke, S, Marshall, J, Martincorena, I, Hinton, J, Gundem, G, Van Delft, F, Nik Zainal, S, Jones, D, Ramakrishna, M, Titley, I, Stebbings, L, Leroy, C, Menzies, A, Gamble, J, Robinson, B, Mudie, L, Raine, K, O'Meara, S, Teague, J, Butler, A, Cazzaniga, G, Biondi, A, Zuna, J, Kempski, H, Muschen, M, Ford, A, Stratton, M, Greaves, M, Campbell, P, CAZZANIGA, GIOVANNI ITALO, BIONDI, ANDREA, Campbell, P., Papaemmanuil, E, Rapado, I, Li, Y, Potter, N, Wedge, D, Tubio, J, Alexandrov, L, Van Loo, P, Cooke, S, Marshall, J, Martincorena, I, Hinton, J, Gundem, G, Van Delft, F, Nik Zainal, S, Jones, D, Ramakrishna, M, Titley, I, Stebbings, L, Leroy, C, Menzies, A, Gamble, J, Robinson, B, Mudie, L, Raine, K, O'Meara, S, Teague, J, Butler, A, Cazzaniga, G, Biondi, A, Zuna, J, Kempski, H, Muschen, M, Ford, A, Stratton, M, Greaves, M, Campbell, P, CAZZANIGA, GIOVANNI ITALO, BIONDI, ANDREA, and Campbell, P.

Abstract

The ETV6-RUNX1 fusion gene, found in 25% of childhood acute lymphoblastic leukemia (ALL) cases, is acquired in utero but requires additional somatic mutations for overt leukemia. We used exome and low-coverage whole-genome sequencing to characterize secondary events associated with leukemic transformation. RAG-mediated deletions emerge as the dominant mutational process, characterized by recombination signal sequence motifs near breakpoints, incorporation of non-templated sequence at junctions, ∼30-fold enrichment at promoters and enhancers of genes actively transcribed in B cell development and an unexpectedly high ratio of recurrent to non-recurrent structural variants. Single-cell tracking shows that this mechanism is active throughout leukemic evolution, with evidence of localized clustering and reiterated deletions. Integration of data on point mutations and rearrangements identifies ATF7IP and MGA as two new tumor-suppressor genes in ALL. Thus, a remarkably parsimonious mutational process transforms ETV6-RUNX1-positive lymphoblasts, targeting the promoters, enhancers and first exons of genes that normally regulate B cell differentiation. © 2014 Nature America, Inc

Published
2014

11. Single-cell mutational profiling and clonal phylogeny in cancer

Author

Potter, N, Ermini, L, Papaemmanuil, E, Cazzaniga, G, Vijayaraghavan, G, Titley, I, Ford, A, Campbell, P, Kearney, L, Greaves, M, Potter, Nicola E, Ermini, Luca, Papaemmanuil, Elli, Cazzaniga, Giovanni, Vijayaraghavan, Gowri, Titley, Ian, Ford, Anthony, Campbell, Peter, Kearney, Lyndal, Greaves, Mel, Potter, N, Ermini, L, Papaemmanuil, E, Cazzaniga, G, Vijayaraghavan, G, Titley, I, Ford, A, Campbell, P, Kearney, L, Greaves, M, Potter, Nicola E, Ermini, Luca, Papaemmanuil, Elli, Cazzaniga, Giovanni, Vijayaraghavan, Gowri, Titley, Ian, Ford, Anthony, Campbell, Peter, Kearney, Lyndal, and Greaves, Mel

Abstract

The development of cancer is a dynamic evolutionary process in which intraclonal, genetic diversity provides a substrate for clonal selection and a source of therapeutic escape. The complexity and topography of intraclonal genetic architectures have major implications for biopsy-based prognosis and for targeted therapy. High-depth, next-generation sequencing (NGS) efficiently captures the mutational load of individual tumors or biopsies. But, being a snapshot portrait of total DNA, it disguises the fundamental features of subclonal variegation of genetic lesions and of clonal phylogeny. Single-cell genetic profiling provides a potential resolution to this problem, but methods developed to date all have limitations. We present a novel solution to this challenge using leukemic cells with known mutational spectra as a tractable model. DNA from flow-sorted single cells is screened using multiplex targeted Q-PCR within a microfluidic platform allowing unbiased single-cell selection, high-throughput, and comprehensive analysis for all main varieties of genetic abnormalities: chimeric gene fusions, copy number alterations, and single-nucleotide variants. We show, in this proof-of-principle study, that the method has a low error rate and can provide detailed subclonal genetic architectures and phylogenies.

Published
2013

12. Clonal origins of ETV6-RUNX1+ acute lymphoblastic leukemia: studies in monozygotic twins.

Author

Alpar, D, Wren, D, Ermini, L, Mansur, M B, van Delft, F W, Bateman, C M, Titley, I, Kearney, L, Szczepanski, T, Gonzalez, D, Ford, A M, Potter, N E, and Greaves, M

Subjects
LYMPHOBLASTIC leukemia, LEUKEMIA, PRELEUKEMIA, TALL-1 (Protein), T-cell receptor genes
Abstract

Studies on twins with concordant acute lymphoblastic leukemia (ALL) have revealed that ETV6-RUNX1 gene fusion is a common, prenatal genetic event with other driver aberrations occurring subclonally and probably postnatally. The fetal cell type that is transformed by ETV6-RUNX1 is not identified by such studies or by the analysis of early B-cell lineage phenotype of derived progeny. Ongoing, clonal immunoglobulin (IG) and cross-lineage T-cell receptor (TCR) gene rearrangements are features of B-cell precursor leukemia and commence at the pro-B-cell stage of normal B-cell lineage development. We reasoned that shared clonal rearrangements of IG or TCR genes by concordant ALL in twins would be informative about the fetal cell type in which clonal advantage is elicited by ETV6-RUNX1. Five pairs of twins were analyzed for all varieties of IG and TCR gene rearrangements. All pairs showed identical incomplete or complete variable-diversity-joining junctions coupled with substantial, subclonal and divergent rearrangements. This pattern was endorsed by single-cell genetic scrutiny in one twin pair. Our data suggest that the pre-leukemic initiating function of ETV6-RUNX1 fusion is associated with clonal expansion early in the fetal B-cell lineage. [ABSTRACT FROM AUTHOR]

Published
2015
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15. Extent of variability inherent in measurements of CD34-positive cells in different human haemopoietic tissues

Author

Titley I, Lyn Healy, Scott M, Ta, Amos, and My, Gordon

Subjects
Adult, Epitopes, Mice, Animals, Humans, Reproducibility of Results, Antigens, CD34, Flow Cytometry, Hematopoietic Stem Cells
Abstract

Estimation of CD34 expression is widely used to detect and quantify progenitor cells in haemopoietic tissues used as stem cell sources for transplantation. Mouse monoclonal antibodies to CD34 recognise different epitopes of the mucin-like sialoglycoprotein. These epitopes can be grouped into three classes by their differing sensitivities to the enzymes: neuraminidase, chymopapain and glycoprotease. We have compared the expression, by flow cytometry, of the three CD34 epitopes on normal adult and fetal haemopoietic tissue and in chronic myeloid leukaemia, and have used four antibodies from each class to assess variability of staining within and between epitope classes. The results reveal variable expression of CD34 both within and between tissue types and antibody classes. As a result of the different levels of detection by different antibodies, the apparent number of CD34-positive cells vary by approximately 6-fold. Enrichment for CD34 cells using magnetic bead technology shows a significant difference in the percentage of CD34 cells detected for two of the epitope types.

18. The impact of long-term lenalidomide exposure on the cellular composition of bone marrow

Author

Lorenzo Melchor, Faith E. Davies, Gareth J. Morgan, Ricardo Morilla, Michele Cavo, Annamaria Brioli, Charlotte Pawlyn, Ian Titley, Claire Stephens, Gowri Vijayaraghavan, Athanasia Zeisig, Brioli A, Melchor L, Titley I, Vijayaraghavan G, Stephens C, Zeisig A, Pawlyn C, Cavo M, Morilla R, Davies FE, and Morgan GJ

Subjects
Adult, Cancer Research, Time Factors, Treatment outcome, Pharmacology, Young Adult, Bone Marrow, Medicine, Humans, Immunologic Factors, skin and connective tissue diseases, Lenalidomide, Multiple myeloma, Aged, Aged, 80 and over, Cellular composition, business.industry, Hematology, Middle Aged, medicine.disease, Flow Cytometry, Survival Analysis, Hematopoiesis, Thalidomide, medicine.anatomical_structure, Treatment Outcome, Oncology, Proteasome, Immunology, sense organs, Bone marrow, business, Multiple Myeloma, medicine.drug
Abstract

The availability of the so-called novel drugs (immunomodulatory drugs [IMiDs] and proteasome inhibitors) for the frontline treatment of multiple myeloma (MM) has dramatically changed patients’ outc...

Published
2014

19. Single-cell mutational profiling and clonal phylogeny in cancer

Author

Luca Ermini, Anthony M. Ford, Nicola E. Potter, Ian Titley, Peter J. Campbell, Gowri Vijayaraghavan, Lyndal Kearney, Giovanni Cazzaniga, Elli Papaemmanuil, Mel Greaves, Potter, N, Ermini, L, Papaemmanuil, E, Cazzaniga, G, Vijayaraghavan, G, Titley, I, Ford, A, Campbell, P, Kearney, L, and Greaves, M

Subjects
DNA Copy Number Variations, medicine.medical_treatment, Genomics, Computational biology, Biology, Somatic evolution in cancer, Polymorphism, Single Nucleotide, Targeted therapy, Clonal Evolution, Single-cell analysis, Cell Line, Tumor, Neoplasms, Genetic variation, Genetics, medicine, Humans, Genetics (clinical), Phylogeny, DNA Copy Number Variation, Genetic diversity, Genetic Variation, High-Throughput Nucleotide Sequencing, DNA profiling, Mutation, Genomic, Neoplasm, Single-Cell Analysis, Multiplex Polymerase Chain Reaction, Human, Clonal selection
Abstract

The development of cancer is a dynamic evolutionary process in which intraclonal, genetic diversity provides a substrate for clonal selection and a source of therapeutic escape. The complexity and topography of intraclonal genetic architectures have major implications for biopsy-based prognosis and for targeted therapy. High-depth, next-generation sequencing (NGS) efficiently captures the mutational load of individual tumors or biopsies. But, being a snapshot portrait of total DNA, it disguises the fundamental features of subclonal variegation of genetic lesions and of clonal phylogeny. Single-cell genetic profiling provides a potential resolution to this problem, but methods developed to date all have limitations. We present a novel solution to this challenge using leukemic cells with known mutational spectra as a tractable model. DNA from flow-sorted single cells is screened using multiplex targeted Q-PCR within a microfluidic platform allowing unbiased single-cell selection, high-throughput, and comprehensive analysis for all main varieties of genetic abnormalities: chimeric gene fusions, copy number alterations, and single-nucleotide variants. We show, in this proof-of-principle study, that the method has a low error rate and can provide detailed subclonal genetic architectures and phylogenies.

Published
2013

20. Single-cell genetic analysis reveals the composition of initiating clones and phylogenetic patterns of branching and parallel evolution in myeloma

Author

Nicola E. Potter, Brian A Walker, Faith E. Davies, Michele Cavo, Annamaria Brioli, Lorenzo Melchor, Gowri Vijayaraghavan, Alex Murison, Dil B Begum, S. Hulkki Wilson, Rosemary A Fryer, Martin Kaiser, Ian Titley, Christopher P. Wardell, David W. Johnson, Gareth J. Morgan, Melchor L, Brioli A, Wardell CP, Murison A, Potter NE, Kaiser MF, Fryer RA, Johnson DC, Begum DB, Hulkki Wilson S, Vijayaraghavan G, Titley I, Cavo M, Davies FE, Walker BA, and Morgan GJ

Subjects
Male, Cancer Research, medicine.medical_specialty, Mice, SCID, Biology, medicine.disease_cause, Genetic analysis, Somatic evolution in cancer, Translocation, Genetic, Clonal Evolution, Mice, Internal medicine, medicine, Animals, Humans, Selection, Genetic, Multiple myeloma, Phylogeny, Aged, Genetics, Chromosomes, Human, Pair 14, Mutation, Hematology, Phylogenetic tree, Chromosomes, Human, Pair 11, Middle Aged, medicine.disease, Genes, ras, Oncology, Phylogenetic Pattern, Tumor progression, Interferon Regulatory Factors, Female, Single-Cell Analysis, Multiple Myeloma
Abstract

Although intratumor heterogeneity has been inferred in multiple myeloma (MM), little is known about its subclonal phylogeny. To describe such phylogenetic trees in a series of patients with MM, we perform whole-exome sequencing and single-cell genetic analysis. Our results demonstrate that at presentation myeloma is composed of two to six different major clones, which are related by linear and branching phylogenies. Remarkably, the earliest myeloma-initiating clones, some of which only had the initiating t(11;14), were still present at low frequencies at the time of diagnosis. For the first time in myeloma, we demonstrate parallel evolution whereby two independent clones activate the RAS/MAPK pathway through RAS mutations and give rise subsequently to distinct subclonal lineages. We also report the co-occurrence of RAS and interferon regulatory factor 4 (IRF4) p.K123R mutations in 4% of myeloma patients. Lastly, we describe the fluctuations of myeloma subclonal architecture in a patient analyzed at presentation and relapse and in NOD/SCID-IL2Rγ(null) xenografts, revealing clonal extinction and the emergence of new clones that acquire additional mutations. This study confirms that myeloma subclones exhibit different survival properties during treatment or mouse engraftment. We conclude that clonal diversity combined with varying selective pressures is the essential foundation for tumor progression and treatment resistance in myeloma.

Published
2013

21. RAG-mediated recombination is the predominant driver of oncogenic rearrangement in ETV6-RUNX1 acute lymphoblastic leukemia

Author

Elli Papaemmanuil, Nicola E. Potter, Adam Butler, Anthony M. Ford, Giovanni Cazzaniga, Ludmil B. Alexandrov, Jon W. Teague, Jose M. C. Tubio, Peter Van Loo, Gunes Gundem, Sarah O’Meara, Catherine Leroy, Inmaculada Rapado, Yang Li, Lucy Stebbings, Susanna L. Cooke, Helena Kempski, Mel Greaves, Ian Titley, David Jones, Inigo Martincorena, Manasa Ramakrishna, Ben Robinson, Jonathan Hinton, John Marshall, Michael R. Stratton, Markus Müschen, Serena Nik-Zainal, Andrew Menzies, David C. Wedge, Laura Mudie, Jan Zuna, John Gamble, Andrea Biondi, Peter J. Campbell, Keiran Raine, Frederik W. van Delft, Papaemmanuil, E, Rapado, I, Li, Y, Potter, N, Wedge, D, Tubio, J, Alexandrov, L, Van Loo, P, Cooke, S, Marshall, J, Martincorena, I, Hinton, J, Gundem, G, Van Delft, F, Nik Zainal, S, Jones, D, Ramakrishna, M, Titley, I, Stebbings, L, Leroy, C, Menzies, A, Gamble, J, Robinson, B, Mudie, L, Raine, K, O'Meara, S, Teague, J, Butler, A, Cazzaniga, G, Biondi, A, Zuna, J, Kempski, H, Muschen, M, Ford, A, Stratton, M, Greaves, M, and Campbell, P

Subjects
DNA Copy Number Variations, Oncogene Proteins, Fusion, Transcription Factor, Sequence analysis, Basic Helix-Loop-Helix Transcription Factor, Molecular Sequence Data, Biology, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, Genetics, medicine, Basic Helix-Loop-Helix Transcription Factors, Recombination signal sequences, Humans, Genes, Tumor Suppressor, Gene, Exome, Childhood Acute Lymphoblastic Leukemia, DNA Copy Number Variation, Gene Library, Sequence Deletion, Gene Rearrangement, Homeodomain Proteins, Recombination, Genetic, Base Sequence, V(D)J recombination, Genetic Variation, Homeodomain Protein, MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Gene rearrangement, Sequence Analysis, DNA, medicine.disease, Molecular biology, V(D)J Recombination, Gene Expression Regulation, Neoplastic, Repressor Proteins, Leukemia, Core Binding Factor Alpha 2 Subunit, Human, Transcription Factors
Abstract

The ETV6-RUNX1 fusion gene, found in 25% of childhood acute lymphoblastic leukemia (ALL) cases, is acquired in utero but requires additional somatic mutations for overt leukemia. We used exome and low-coverage whole-genome sequencing to characterize secondary events associated with leukemic transformation. RAG-mediated deletions emerge as the dominant mutational process, characterized by recombination signal sequence motifs near breakpoints, incorporation of non-templated sequence at junctions, ∼30-fold enrichment at promoters and enhancers of genes actively transcribed in B cell development and an unexpectedly high ratio of recurrent to non-recurrent structural variants. Single-cell tracking shows that this mechanism is active throughout leukemic evolution, with evidence of localized clustering and reiterated deletions. Integration of data on point mutations and rearrangements identifies ATF7IP and MGA as two new tumor-suppressor genes in ALL. Thus, a remarkably parsimonious mutational process transforms ETV6-RUNX1-positive lymphoblasts, targeting the promoters, enhancers and first exons of genes that normally regulate B cell differentiation. © 2014 Nature America, Inc

Published
2013

22. Single cell analysis of clonal architecture in acute myeloid leukaemia.

Author

Potter N, Miraki-Moud F, Ermini L, Titley I, Vijayaraghavan G, Papaemmanuil E, Campbell P, Gribben J, Taussig D, and Greaves M

Subjects
Alleles, Animals, Biomarkers, Tumor, Disease Models, Animal, Genotype, Heterografts, High-Throughput Nucleotide Sequencing, Humans, Immunophenotyping, Mice, Mutation, Neoplastic Stem Cells metabolism, Nucleophosmin, Recurrence, Clonal Evolution genetics, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Single-Cell Analysis methods
Abstract

We used single cell Q-PCR on a micro-fluidic platform (Fluidigm) to analyse clonal, genetic architecture and phylogeny in acute myeloid leukaemia (AML) using selected mutations. Ten cases of NPM1c mutant AML were screened for 111 mutations that are recurrent in AML and cancer. Clonal architectures were relatively simple with one to six sub-clones and were branching in some, but not all, patients. NPM1 mutations were secondary or sub-clonal to other driver mutations (DNM3TA, TET2, WT1 and IDH2) in all cases. In three of the ten cases, single cell analysis of enriched CD34 + /CD33 - cells revealed a putative pre-leukaemic sub-clone, undetectable in the bulk CD33 + population that had one or more driver mutations but lacked NPM1c. Cells from all cases were transplanted into NSG mice and in most (8/10), more than one sub-clone (#2-5 sub-clones) transplanted. However, the dominant regenerating sub-clone in 9/10 cases was NPM1 + and this sub-clone was either dominant or minor in the diagnostic sample from which it was derived. This study provides further evidence, at the single cell level, for genetic variegation in sub-clones and stem cells in acute leukaemia and demonstrates both a preferential order of mutation accrual and parallel evolution of sub-clones.

Published
2019
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23. The impact of long-term lenalidomide exposure on the cellular composition of bone marrow.

Author

Brioli A, Melchor L, Titley I, Vijayaraghavan G, Stephens C, Zeisig A, Pawlyn C, Cavo M, Morilla R, Davies FE, and Morgan GJ

Subjects
Adult, Aged, Aged, 80 and over, Bone Marrow pathology, Flow Cytometry, Hematopoiesis drug effects, Humans, Immunologic Factors adverse effects, Immunologic Factors therapeutic use, Lenalidomide, Middle Aged, Multiple Myeloma blood, Survival Analysis, Thalidomide adverse effects, Thalidomide therapeutic use, Time Factors, Treatment Outcome, Young Adult, Bone Marrow drug effects, Multiple Myeloma drug therapy, Thalidomide analogs & derivatives
Published
2014
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24. RAG-mediated recombination is the predominant driver of oncogenic rearrangement in ETV6-RUNX1 acute lymphoblastic leukemia.

Author

Papaemmanuil E, Rapado I, Li Y, Potter NE, Wedge DC, Tubio J, Alexandrov LB, Van Loo P, Cooke SL, Marshall J, Martincorena I, Hinton J, Gundem G, van Delft FW, Nik-Zainal S, Jones DR, Ramakrishna M, Titley I, Stebbings L, Leroy C, Menzies A, Gamble J, Robinson B, Mudie L, Raine K, O'Meara S, Teague JW, Butler AP, Cazzaniga G, Biondi A, Zuna J, Kempski H, Muschen M, Ford AM, Stratton MR, Greaves M, and Campbell PJ

Subjects
Base Sequence, Basic Helix-Loop-Helix Transcription Factors genetics, DNA Copy Number Variations genetics, Gene Library, Genes, Tumor Suppressor, Humans, Molecular Sequence Data, Repressor Proteins, Sequence Analysis, DNA, Sequence Deletion genetics, Transcription Factors genetics, V(D)J Recombination genetics, Core Binding Factor Alpha 2 Subunit genetics, Gene Expression Regulation, Neoplastic genetics, Gene Rearrangement genetics, Genetic Variation, Homeodomain Proteins genetics, Oncogene Proteins, Fusion genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics, Recombination, Genetic genetics
Abstract

The ETV6-RUNX1 fusion gene, found in 25% of childhood acute lymphoblastic leukemia (ALL) cases, is acquired in utero but requires additional somatic mutations for overt leukemia. We used exome and low-coverage whole-genome sequencing to characterize secondary events associated with leukemic transformation. RAG-mediated deletions emerge as the dominant mutational process, characterized by recombination signal sequence motifs near breakpoints, incorporation of non-templated sequence at junctions, ∼30-fold enrichment at promoters and enhancers of genes actively transcribed in B cell development and an unexpectedly high ratio of recurrent to non-recurrent structural variants. Single-cell tracking shows that this mechanism is active throughout leukemic evolution, with evidence of localized clustering and reiterated deletions. Integration of data on point mutations and rearrangements identifies ATF7IP and MGA as two new tumor-suppressor genes in ALL. Thus, a remarkably parsimonious mutational process transforms ETV6-RUNX1-positive lymphoblasts, targeting the promoters, enhancers and first exons of genes that normally regulate B cell differentiation.

Published
2014
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25. Single-cell mutational profiling and clonal phylogeny in cancer.

Author

Potter NE, Ermini L, Papaemmanuil E, Cazzaniga G, Vijayaraghavan G, Titley I, Ford A, Campbell P, Kearney L, and Greaves M

Subjects
Cell Line, Tumor, DNA Copy Number Variations, Genetic Variation, High-Throughput Nucleotide Sequencing, Humans, Multiplex Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Clonal Evolution, Genomics methods, Mutation, Neoplasms genetics, Phylogeny, Single-Cell Analysis
Abstract

The development of cancer is a dynamic evolutionary process in which intraclonal, genetic diversity provides a substrate for clonal selection and a source of therapeutic escape. The complexity and topography of intraclonal genetic architectures have major implications for biopsy-based prognosis and for targeted therapy. High-depth, next-generation sequencing (NGS) efficiently captures the mutational load of individual tumors or biopsies. But, being a snapshot portrait of total DNA, it disguises the fundamental features of subclonal variegation of genetic lesions and of clonal phylogeny. Single-cell genetic profiling provides a potential resolution to this problem, but methods developed to date all have limitations. We present a novel solution to this challenge using leukemic cells with known mutational spectra as a tractable model. DNA from flow-sorted single cells is screened using multiplex targeted Q-PCR within a microfluidic platform allowing unbiased single-cell selection, high-throughput, and comprehensive analysis for all main varieties of genetic abnormalities: chimeric gene fusions, copy number alterations, and single-nucleotide variants. We show, in this proof-of-principle study, that the method has a low error rate and can provide detailed subclonal genetic architectures and phylogenies.

Published
2013
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26. Tyrosine kinase inhibitor insensitivity of non-cycling CD34+ human acute myeloid leukaemia cells with FMS-like tyrosine kinase 3 mutations.

Author

Alvares CL, Schenk T, Hulkki S, Min T, Vijayaraghavan G, Yeung J, Gonzalez D, So CW, Greaves M, Titley I, Bartolovic K, and Morgan G

Subjects
Adult, Animals, Antigens, CD34 metabolism, Cell Cycle genetics, Cell Survival drug effects, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical, Drug Resistance, Neoplasm genetics, Humans, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Mice, Middle Aged, Pilot Projects, Protein-Tyrosine Kinases antagonists & inhibitors, Tumor Cells, Cultured, Tumor Stem Cell Assay, Young Adult, Antineoplastic Agents pharmacology, Benzimidazoles pharmacology, Leukemia, Myeloid, Acute drug therapy, Mutation, Quinolones pharmacology, fms-Like Tyrosine Kinase 3 genetics
Abstract

The efficacy of tyrosine kinase (TK) inhibitors on non-cycling acute myeloid leukaemia (AML) cells, previously shown to have potent tumourigenic potential, is unknown. This pilot study describes the first attempt to characterize non-cycling cells from a small series of human FMS-like tyrosine kinase 3 (FLT3) mutation positive samples. CD34+ AML cells from patients with FLT3 mutation positive AML were cultured on murine stroma. In expansion cultures, non-cycling cells were found to retain CD34+ expression in contrast to dividing cells. Leukaemic gene rearrangements could be detected in non-cycling cells, indicating their leukaemic origin. Significantly, the FLT3-internal tandem duplication (ITD) mutation was found in the non-cycling fraction of four out of five cases. Exposure to the FLT3-directed inhibitor TKI258 clearly inhibited the growth of AML CD34+ cells in short-term cultures and colony-forming unit assays. Crucially, non-cycling cells were not eradicated, with the exception of one case, which exhibited exquisite sensitivity to the compound. Moreover, in longer-term cultures, TKI258-treated non-cycling cells showed no growth impairment compared to treatment-naive non-cycling cells. These findings suggest that non-cycling cells in AML may constitute a disease reservoir that is resistant to TK inhibition. Further studies with a larger sample size and other inhibitors are warranted., (© 2011 Blackwell Publishing Ltd.)

Published
2011
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27. Ovarian cancer stem cell-like side populations are enriched following chemotherapy and overexpress EZH2.

Author

Rizzo S, Hersey JM, Mellor P, Dai W, Santos-Silva A, Liber D, Luk L, Titley I, Carden CP, Box G, Hudson DL, Kaye SB, and Brown R

Subjects
Animals, Ascites pathology, Carboplatin pharmacology, Cell Line, Tumor, Enhancer of Zeste Homolog 2 Protein, Female, Gene Expression Profiling, Gene Knockdown Techniques, Humans, Mice, Mice, SCID, Polycomb Repressive Complex 2, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Gene Expression Regulation, Neoplastic drug effects, Neoplastic Stem Cells drug effects, Neoplastic Stem Cells metabolism, Ovarian Neoplasms pathology, Transcription Factors genetics, Transcription Factors metabolism
Abstract

Platinum-based chemotherapy, with cytoreductive surgery, is the cornerstone of treatment of advanced ovarian cancer; however, acquired drug resistance is a major clinical obstacle. It has been proposed that subpopulations of tumor cells with stem cell-like properties, such as so-called side populations (SP) that overexpress ABC drug transporters, can sustain the growth of drug-resistant tumor cells, leading to tumor recurrence following chemotherapy. The histone methyltransferase EZH2 is a key component of the polycomb-repressive complex 2 required for maintenance of a stem cell state, and overexpression has been implicated in drug resistance and shorter survival of ovarian cancer patients. We observed higher percentage SP in ascites from patients that have relapsed following chemotherapy compared with chemonaive patients, consistent with selection for this subpopulation during platinum-based chemotherapy. Furthermore, ABCB1 (P-glycoprotein) and EZH2 are consistently overexpressed in SP compared with non-SP from patients' tumor cells. The siRNA knockdown of EZH2 leads to loss of SP in ovarian tumor models, reduced anchorage-independent growth, and reduced tumor growth in vivo. Together, these data support a key role for EZH2 in the maintenance of a drug-resistant, tumor-sustaining subpopulation of cells in ovarian cancers undergoing chemotherapy. As such, EZH2 is an important target for anticancer drug development.

Published
2011
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28. Genetic variegation of clonal architecture and propagating cells in leukaemia.

Author

Anderson K, Lutz C, van Delft FW, Bateman CM, Guo Y, Colman SM, Kempski H, Moorman AV, Titley I, Swansbury J, Kearney L, Enver T, and Greaves M

Subjects
Animals, Clone Cells metabolism, Core Binding Factor Alpha 2 Subunit, DNA Copy Number Variations genetics, DNA Mutational Analysis, Disease Progression, Genotype, Humans, Immunophenotyping, In Situ Hybridization, Fluorescence, Interleukin Receptor Common gamma Subunit deficiency, Interleukin Receptor Common gamma Subunit genetics, Mice, Mice, Inbred NOD, Mice, SCID, Neoplasm Transplantation, Oncogene Proteins, Fusion genetics, Clone Cells pathology, Genetic Variation genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology
Abstract

Little is known of the genetic architecture of cancer at the subclonal and single-cell level or in the cells responsible for cancer clone maintenance and propagation. Here we have examined this issue in childhood acute lymphoblastic leukaemia in which the ETV6-RUNX1 gene fusion is an early or initiating genetic lesion followed by a modest number of recurrent or 'driver' copy number alterations. By multiplexing fluorescence in situ hybridization probes for these mutations, up to eight genetic abnormalities can be detected in single cells, a genetic signature of subclones identified and a composite picture of subclonal architecture and putative ancestral trees assembled. Subclones in acute lymphoblastic leukaemia have variegated genetics and complex, nonlinear or branching evolutionary histories. Copy number alterations are independently and reiteratively acquired in subclones of individual patients, and in no preferential order. Clonal architecture is dynamic and is subject to change in the lead-up to a diagnosis and in relapse. Leukaemia propagating cells, assayed by serial transplantation in NOD/SCID IL2Rγ(null) mice, are also genetically variegated, mirroring subclonal patterns, and vary in competitive regenerative capacity in vivo. These data have implications for cancer genomics and for the targeted therapy of cancer.

Published
2011
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29. Contribution of the ABC transporters Bcrp1 and Mdr1a/1b to the side population phenotype in mammary gland and bone marrow of mice.

Author

Jonker JW, Freeman J, Bolscher E, Musters S, Alvi AJ, Titley I, Schinkel AH, and Dale TC

Subjects
ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily G, Member 2, ATP-Binding Cassette Transporters genetics, Animals, Benzimidazoles, Bone Marrow Cells metabolism, Cell Survival, Epithelial Cells metabolism, Female, Flow Cytometry, Gene Silencing, Hematopoietic Stem Cells metabolism, Immunohistochemistry, Mammary Glands, Animal metabolism, Mice, Mice, Knockout, Phenotype, ATP-Binding Cassette Sub-Family B Member 4, ATP Binding Cassette Transporter, Subfamily B physiology, ATP-Binding Cassette Transporters physiology, Bone Marrow Cells cytology, Mammary Glands, Animal cytology
Abstract

The ability of cells to export Hoechst 33342 can be used to identify a subpopulation of cells (side population [SP]) with characteristics of stem cells in many tissues. The ATP-binding cassette transporters Bcrp1 (Abcg2) and Mdr1a/1b (Abcb1a/1b) have been implicated as being responsible for this phenotype. To further explore the involvement of these transporters in the SP phenotype, we have generated Bcrp1/Mdr1a/1b triple knockout mice and studied the effect of their absence on the SP in bone marrow and mammary gland. Whereas in bone marrow Bcrp1 was almost exclusively responsible for the SP, both transporters contributed to the SP phenotype in the mammary gland, where their combined absence resulted in a nearly complete loss of SP. Interestingly, bone marrow of Mdr1a/1b-/- mice frequently displayed an elevated SP, which was reversible by the Bcrp1 inhibitor Ko143, suggesting that Bcrp1 can compensate for the loss of Mdr1a/1b in bone marrow.

Published
2005
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30. Growth and differentiation of progenitor/stem cells derived from the human mammary gland.

Author

Clayton H, Titley I, and Vivanco Md

Subjects
ATP Binding Cassette Transporter, Subfamily G, Member 2, ATP-Binding Cassette Transporters metabolism, Animals, Biomarkers, Cell Division, Cell Lineage, Cells, Cultured, Female, Fibroblasts cytology, Flow Cytometry, Fluorescent Antibody Technique, Indirect, Humans, Keratins analysis, Mammary Glands, Animal cytology, Mice, Models, Biological, NIH 3T3 Cells, Neoplasm Proteins metabolism, Reverse Transcriptase Polymerase Chain Reaction, Stem Cells metabolism, Breast cytology, Cell Differentiation, Epithelial Cells cytology, Stem Cells cytology
Abstract

Estrogen is necessary for the full development of the mammary gland and it is also involved in breast cancer development. We set out to identify and characterise progenitor/stem cells in the human mammary gland and to explore the role of estrogen in their proliferation and differentiation. Three candidate stem cell populations were isolated: double positive (DP) cells co-expressed the luminal and myoepithelial markers, EMA and CALLA, respectively, whereas double negative (DN) cells did not express these cell surface markers; side population (SP) cells were characterised by their differential ability to efflux the dye Hoechst 33342. The ABC transporter, breast cancer resistance protein (BCRP) was more highly expressed in SP cells than in non-SP cells and a specific BCRP inhibitor, Ko143, reduced SP formation, suggesting that BCRP confers the SP phenotype in mammary epithelial cells, as has been demonstrated in other tissues. Interestingly, SP cells were double negative for the EMA and CALLA antigens and therefore represent a separate and distinct population to DP cells. Single cell multiplex RT-PCR indicated that the SP and DN cells do not express detectable levels of ERalpha or ERbeta, suggesting that estrogen is not involved in their proliferation. DP cells expressed ERalpha but at a lower level than differentiated luminal cells. These findings invoke a potential strategy for the breast stem/progenitor cells to ignore the mitogenic effects of estrogen. All three cell populations generated mixed colonies containing both luminal and myoepithelial cells from a single cell and therefore represent candidate multipotent stem cells. However, DN cells predominately generated luminal colonies and exhibited a much higher cloning efficiency than differentiated luminal cells. Further characterisation of these candidate progenitor/stem cells should contribute to a better understanding of normal mammary gland development and breast tumorigenesis.

Published
2004
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31. Rebuttal: procoagulant activity of T lymphoblastoid cells.

Author

Titley I

Subjects
Anions, Annexin A5 metabolism, Apoptosis, Cell Line, Flow Cytometry, Fluorescent Dyes, Humans, Phosphatidylserines metabolism, Phospholipids metabolism, T-Lymphocytes cytology, Blood Coagulation Factors metabolism, Dactinomycin analogs & derivatives, T-Lymphocytes metabolism
Published
2002

32. High-affinity binding sites for heparin generated on leukocytes during apoptosis arise from nuclear structures segregated during cell death.

Author

Gebska MA, Titley I, Paterson HF, Morilla RM, Davies DC, Gruszka-Westwood AM, Kakkar VV, Eccles S, and Scully MF

Subjects
Binding Sites, Cell Membrane metabolism, Heparan Sulfate Proteoglycans metabolism, Heparan Sulfate Proteoglycans physiology, Heparin physiology, Humans, Leukocytes metabolism, Leukocytes ultrastructure, Macrophages chemistry, Macrophages physiology, Microscopy, Confocal, Necrosis, Phagocytosis drug effects, Tumor Cells, Cultured, Apoptosis, Cell Nucleus Structures metabolism, Heparin metabolism, Leukocytes cytology
Abstract

During cell death of human cultured leukocytes (Jurkat, HL-60, THP-1, U937) and freshly prepared leukocytes, we observed a greater than 100-fold increase in the affinity of apoptotic and necrotic cells for fluorescein isothiocyanate (FITC)-heparin in comparison with live cells. Binding of FITC-heparin was reversed in the presence of high ionic strength, unlabeled heparan sulfate, and heparin and pentosan polysulfate, but not in the presence of chondroitin and dermatan sulfates. During the course of cell death, the increase in the percentage of cells positive for annexin V binding correlated with the increase in the population positive for binding FITC-heparin. Confocal microscopy demonstrated that heparin binding to dead cells was restricted to 1 or 2 small domains on the surfaces of apoptotic cells and to larger, but still discrete, areas that did not localize with chromatin on ruptured necrotic cells. The heparin-binding domains originated from the nucleus and may correspond to the ribonucleoprotein-containing structures that have recently been shown to segregate within the nucleus of cells and to move onto the cell membrane. We observed that phagocytosis of dead Jurkat cells by monocyte-derived macrophages was blocked when the heparin-binding capacity of the dead cells was saturated by the addition of pentosan polysulfate. From this we concluded that the ability of dead cells to bind to heparan sulfate proteoglycans on the surfaces of macrophages may assist in phagocytic clearance.

Published
2002
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33. Functional and molecular analysis of hematopoietic progenitors derived from the aorta-gonad-mesonephros region of the mouse embryo.

Author

Delassus S, Titley I, and Enver T

Subjects
Animals, Antigens, CD34, Aorta cytology, Aorta embryology, Aorta physiology, Cell Differentiation, Fetus physiology, Gene Expression Regulation, Developmental, Gonads cytology, Gonads embryology, Gonads physiology, Hematopoietic Stem Cells physiology, Mesonephros cytology, Mesonephros embryology, Mesonephros physiology, Mice, Proto-Oncogene Proteins c-kit, Erythropoiesis genetics, Fetus cytology, Hematopoietic Stem Cells cytology, Leukopoiesis genetics
Abstract

Herein, we show that CD34, c-kit double-positive (CD34(+)c-kit(+)) cells from the aorta-gonad-mesonephros (AGM) region of the developing mouse are multipotent in vitro and can undergo both B-lymphoid and multimyeloid differentiation. Molecular analysis of individual CD34(+)c-kit(+) cells by single-cell reverse transcriptase-polymerase chain reaction (RT-PCR) shows coactivation of erythroid (beta-globin) and myeloid (myeloperoxidase [MPO]) but not lymphoid-affiliated (CD3, Thy-1, and lambda5) genes. Additionally, most cells coexpress the stem cell-associated transcriptional regulators AML-1, PU.1, GATA-2 and Lmo2, as well as the granulocyte colony-stimulating factor receptor (G-CSF-R). These results show that the CD34(+)c-kit(+) population from the AGM represents a highly enriched source of multipotent hematopoietic cells, and suggest that limited coactivation of distinct lineage-affiliated genes is an early event in the generation of hematopoietic stem and progenitor cells during ontogeny.

Published
1999

34. Successful treatment of aplastic anemia with G-CSF and high dose erythropoietin.

Author

Nishii K, Suzuki Y, Minami N, Titley I, Kita K, and Shiku H

Subjects
Aged, Aged, 80 and over, Cells, Cultured, Dose-Response Relationship, Drug, Humans, Male, Anemia, Aplastic drug therapy, Erythropoietin therapeutic use, Granulocyte Colony-Stimulating Factor therapeutic use, Remission Induction methods
Abstract

We report the successful treatment of pancytopenia with G-CSF and high dose erythropoietin (Epo) in an elderly patient diagnosed with aplastic anemia (AA). Furthermore this effect is dose dependent for Epo in vivo. Detection of apoptosis by gel electrophoresis shows that high dose Epo protects bone marrow mononuclear cells from spontaneous apoptosis in vitro. These findings may explain some of the mechanisms of aplastic anemia.

Published
1998
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35. Regulation of the apoptotic response to radiation damage in B cell development.

Author

Nishii K, Gibbons DL, Titley I, Papworth D, Goodhead DT, and Greaves M

Subjects
Animals, Apoptosis drug effects, B-Lymphocytes chemistry, Cell Differentiation drug effects, Cell Differentiation radiation effects, Cell Survival radiation effects, DNA Damage, Flow Cytometry, Hematopoietic Stem Cells chemistry, Hyaluronan Receptors analysis, Hyaluronic Acid pharmacology, Immunophenotyping, Interleukin-7 pharmacology, Mice, Mice, Inbred BALB C, Proto-Oncogene Proteins analysis, Proto-Oncogene Proteins c-bcl-2 analysis, bcl-2-Associated X Protein, bcl-X Protein, Apoptosis radiation effects, B-Lymphocytes cytology, Hematopoietic Stem Cells cytology
Abstract

B lymphocyte precursor cells are ultrasensitive to DNA damage induced by irradiation and drugs and die by apoptosis at very low levels of exposure. Previous studies have shown that this high level sensitivity is p53-dependent, associated with very low level expression of Bcl-2 protein and can be reversed by expression of a bcl-2 transgene. We show here that transition from the pro-B to pre-B and then mature B cell stages of murine lymphopoiesis is accompanied by changes in proliferating cells in sensitivity to X-irradiation induced apoptosis and that this is paralleled by variation in the ratio of anti-(Bcl-2/Bcl-chiL) to pro-(Bax) apoptotic proteins. These are however not fixed or invariant features of developmental stage as they can be modulated by interactions via adhesive interactions with stromal cells, stromal proteins and growth factors. We interpret these data in the context of the stringent developmental regulation of clonal lymphopoiesis and the contingency programming of cells that have extensive proliferative potential with a very low threshold for apoptosis following DNA damage.

Published
1998
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36. ts BCR-ABL kinase activation confers increased resistance to genotoxic damage via cell cycle block.

Author

Nishii K, Kabarowski JH, Gibbons DL, Griffiths SD, Titley I, Wiedemann LM, and Greaves MF

Subjects
Antineoplastic Agents, Phytogenic pharmacology, Apoptosis radiation effects, Caffeine pharmacology, Cell Line drug effects, Cell Line radiation effects, Enzyme Induction drug effects, Etoposide pharmacology, G1 Phase drug effects, G2 Phase drug effects, G2 Phase radiation effects, Mitosis radiation effects, Phosphodiesterase Inhibitors pharmacology, Phosphorylation, Protein Kinases metabolism, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-bcl-2 metabolism, Radiation Tolerance, Temperature, bcl-2-Associated X Protein, bcl-X Protein, Apoptosis drug effects, Fusion Proteins, bcr-abl metabolism, Interleukin-3 pharmacology
Abstract

Using a temperature-sensitive mutant of the p210 BCR-ABL gene, transfected into a growth factor-dependent cell line (BaF3), we show that transient BCR-ABL kinase expression increases single cell and clonogenic resistance to apoptosis arising from genotoxic damage induced by ionizing radiation and VP-16/etoposide. This effect is achieved in the absence of any detectable changes in the levels of BCL-2, BAX or BCL-x proteins and is independent of proliferative, MAP kinase-dependent effects of BCR-ABL kinase. In contrast to parental cells that transiently arrest in G2 and then apoptose, p210 BaF3 cells show a pronounced and sustained G2 arrest following radiation coupled with enhanced phosphorylation of cdc2. A cell cycle block in early M phase induced by the mitotic spindle poison, nocodazole, does not provide protection from apoptosis. Reversal of G2 arrest by caffeine abolishes the protective effect of BCR-ABL kinase. These data provide further insight into the transforming properties of BCR-ABL and are relevant to the clinical intransigence of Ph-positive leukaemias.

Published
1996

37. Extent of variability inherent in measurements of CD34-positive cells in different human haemopoietic tissues.

Author

Titley I, Healy LE, Scott M, Amos TA, and Gordon MY

Subjects
Adult, Animals, Epitopes, Flow Cytometry, Humans, Mice, Reproducibility of Results, Antigens, CD34 analysis, Hematopoietic Stem Cells chemistry
Abstract

Estimation of CD34 expression is widely used to detect and quantify progenitor cells in haemopoietic tissues used as stem cell sources for transplantation. Mouse monoclonal antibodies to CD34 recognise different epitopes of the mucin-like sialoglycoprotein. These epitopes can be grouped into three classes by their differing sensitivities to the enzymes: neuraminidase, chymopapain and glycoprotease. We have compared the expression, by flow cytometry, of the three CD34 epitopes on normal adult and fetal haemopoietic tissue and in chronic myeloid leukaemia, and have used four antibodies from each class to assess variability of staining within and between epitope classes. The results reveal variable expression of CD34 both within and between tissue types and antibody classes. As a result of the different levels of detection by different antibodies, the apparent number of CD34-positive cells vary by approximately 6-fold. Enrichment for CD34 cells using magnetic bead technology shows a significant difference in the percentage of CD34 cells detected for two of the epitope types.

Published
1995

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