Contact

• workRoom B207a The Biodiscovery Institute
  University Park
  Nottingham
  NG7 2RD
  UK
• work011582 31234
• Alex.Thompson@nottingham.ac.uk

Biography

Present position: Associate Professor in Translational Stem Cell Technology (01-08-2016-present)

University of Nottingham, School of Medicine, Translational Medical Sciences, The Biodiscovery Institute Room B207a, University Park, NG7 2RD, United Kingdom

T: +44 (0) 11582 31234 E: Alex.Thompson@nottingham.ac.uk

Previous employment:

1989-1990 Research Technician, Processing and Biochemistry Division, Naval Blood Research Laboratory, Boston University Medical Centre, Boston, MA

1991-1994 Research Assistant, Nephrology Department, Evans Memorial Medical Centre, Boston University Medical Center University Hospital, Boston, MA

1999-2004 Post-Doctoral Research Fellow in Haematology, Laboratory of Professor Terry Lappin, Queen's University Belfast

2003-2004 Visiting Research Fellow in Haematopoietic Stem Cell Research, Laboratory of Dr Guy Sauvageau, Clinical Institute of Montréal (IRCM), Université de Montréal, QC, Canada

2004-2005 American Cancer Society Beginning Investigator, Stem Cell Biology Laboratory, Institute for Research in Immunology and Cancer (IRIC), Université de Montréal, QC, Canada

2004-2016 Lecturer in Molecular Haematology, Principal Investigator, Blood Cancer Focus Group, CCRCB, Queen's University Belfast

Expertise Summary

Utilizing biochemical, molecular and cellular approaches to study normal and malignant haematopoiesis. Development of pre-clinical models using stem cell technologies. Combining gene signatures with bioinformatics databases (connectivity mapping) and drug repurposing to target leukaemic whilst sparing normal blood stem cells.

Teaching Summary

Teaching experience of both large (250+) and small (<30) groups. Successfully completed a PGCHET qualification. Areas of previous teaching and undergraduate level were: Introductory Skills for… read more

Research Summary

The group are currently focused on the pivotal role that HOXA cluster genes play in the demarcation and possible emergence of haematopoietic stem cells (HSCs) and their role in cancer. Solid as well… read more

Recent Publications

• YOUNG CS, CLARKE KM, KETTYLE LM, THOMPSON A and MILLS KI, 2017. Decitabine-Vorinostat combination treatment in acute myeloid leukemia activates pathways with potential for novel triple therapy. Oncotarget. 8(31), 51429-51446
• LEBERT-GHALI CÉ, THOMPSON A, MELICHAR HJ and BIJL JJ, 2017. Targeted deletion of the Hoxa cluster affects B lymphopoiesis through depletion of early lymphoid progenitors. Experimental hematology. 50, 84-89.e3
• HAY, JODIE F., LAPPIN, KATRINA, LIBERANTE, FABIO, KETTYLE, LAURA M., MATCHETT, KYLE B., THOMPSON, ALEXANDER and MILLS, KEN I., 2017. Integrated analysis of the molecular action of Vorinostat identifies epi-sensitised targets for combination therapy ONCOTARGET. 8(40), 67891-67903
• ALHARBI, RAED A., PANDHA, HARDEV S., SIMPSON, GUY R., PETTENGELL, RUTH, POTERLOWICZ, KRZYSZTOF, THOMPSON, ALEXANDER, HARRINGTON, KEVIN, EL-TANANI, MOHAMED and MORGAN, RICHARD, 2017. Inhibition of HOX/PBX dimer formation leads to necroptosis in acute myeloid leukemia cells ONCOTARGET. 8(52), 89566-89579

• View all publications

Teaching experience of both large (250+) and small (<30) groups. Successfully completed a PGCHET qualification. Areas of previous teaching and undergraduate level were: Introductory Skills for Biosciences;Introduction to Genes, Mutation and Function;Genes, Molecules and Processes; Pathobiology: Cells and Genes;Cellular and Molecular Haematology. Postgraduate teaching included: Masters of Research in Translational Medicine; Masters of Research in Translational Cancer Medicine; Masters of Science in Computational and Statistical Biology; Masters of Science in Translational Bioinformatics. Portfolio Tutor and supervisor of over 30 projects including Honour's, Masters and Doctorates.

Current Research

The group are currently focused on the pivotal role that HOXA cluster genes play in the demarcation and possible emergence of haematopoietic stem cells (HSCs) and their role in cancer. Solid as well as blood cancers are associated with overexpression of HOX proteins in the nucleus, which is traditionally a difficult area of the cell to target with conventional drugs. Recently, using model-derived HOXA gene signatures and in collaboration with bioinformaticians, the group have used Connectivity Mapping to identify novel and repurposed drugs to treat leukaemia. Some drugs have shown efficacy as monotherapy in pre-clinical models whilst for others combination therapies are required. However, eradication of the leukaemia repopulating cell or stem cell whilst retaining normal HSCs remains a challenge with current experimental therapies.

Past Research

I became a Principal Investigator in 2004 directing research into the role of HOX in acute myeloid leukaemia (AML). A major area was in the establishment of clinically and functionally relevant models of AML using overexpression of HOX. The model systems were developed in collaboration with Dr Guy Sauvageau (IRIC, Montreal) and funded in part by a Fellowship received from the American Cancer Society administered by the International Union Against Cancer (UICC). These models are now established in the UK. The HOX group are focused on exploiting these models for therapeutic benefit and maintain active collaborations with Montreal. In addition I was one of two UK representatives on the Management Committee within the European Co-operation in Science and Technology (COST) network. The Action (BM0805:HOX and TALE transcription factors in Development and Disease) has also been successful in attracting international leaders in the field into the network that is focused on the genetic regulation and function of HOX proteins. I have presented work at national and international conferences and recently had work accepted for presentation at the American Society for Hematology (2016). In addition the group has published research findings in high impact journals including Genes and Development, Blood and Nature Cell Biology.

Future Research

My future research will focus on developing advanced human or humanized models of haematopoiesis to track the role and function of HOXA genes in normal HSC development. In doing so, I believe that light will also be shone on the role of these master regulators in pathological conditions including cancers. Understanding the interplay between normal HSCs and LSCs in the context of their defined microenvironment (or 'Niche') will lead to the development of better targeted less toxic therapies for vulnerable patients. Currently HSC transplants are only a curative therapy for a subgroup of such patients due to a lack of optimal matched donor. The ability to engineer or generate HSCs from more immune naïve human induced pluripotent cells ( iPS) would provide a transplantation source to a wider group of patients whilst enabling many biomedical and medical applications potentially including unlimited blood supply.

• YOUNG CS, CLARKE KM, KETTYLE LM, THOMPSON A and MILLS KI, 2017. Decitabine-Vorinostat combination treatment in acute myeloid leukemia activates pathways with potential for novel triple therapy. Oncotarget. 8(31), 51429-51446
• LEBERT-GHALI CÉ, THOMPSON A, MELICHAR HJ and BIJL JJ, 2017. Targeted deletion of the Hoxa cluster affects B lymphopoiesis through depletion of early lymphoid progenitors. Experimental hematology. 50, 84-89.e3
• HAY, JODIE F., LAPPIN, KATRINA, LIBERANTE, FABIO, KETTYLE, LAURA M., MATCHETT, KYLE B., THOMPSON, ALEXANDER and MILLS, KEN I., 2017. Integrated analysis of the molecular action of Vorinostat identifies epi-sensitised targets for combination therapy ONCOTARGET. 8(40), 67891-67903
• ALHARBI, RAED A., PANDHA, HARDEV S., SIMPSON, GUY R., PETTENGELL, RUTH, POTERLOWICZ, KRZYSZTOF, THOMPSON, ALEXANDER, HARRINGTON, KEVIN, EL-TANANI, MOHAMED and MORGAN, RICHARD, 2017. Inhibition of HOX/PBX dimer formation leads to necroptosis in acute myeloid leukemia cells ONCOTARGET. 8(52), 89566-89579
• LEBERT-GHALI, C. E., FOURNIER, M., KETTYLE, L., THOMPSON, A., SAUVAGEAU, G. and BIJL, J. J., 2016. Hoxa cluster genes determine the proliferative activity of adult mouse hematopoietic stem and progenitor cells: Blood Blood. 127(1), 87-90
• ROULSTON, G. D., BURT, C. L., KETTYLE, L. M., MATCHETT, K. B., KEENAN, H. L., MULGREW, N. M., RAMSEY, J. M., DOUGAN, C., MCKIERNAN, J., GRISHAGIN, I. V., MILLS, K. I. and THOMPSON, A., 2016. Low-dose salinomycin induces anti-leukemic responses in AML and MLL Oncotarget.
• HASSAWI, M., SHESTAKOVA, E. A., FOURNIER, M., LEBERT-GHALI, C. E., VAISSON, G., FRISON, H., SINNETT, D., VIDAL, R., THOMPSON, A. and BIJL, J. J., 2014. Hoxa9 Collaborates with E2A-PBX1 in Mouse B Cell Leukemia in Association With Flt3 Activation and Decrease of B Cell Gene Expression: Developmental Dynamics Developmental Dynamics. 243(1), 145-158
• MULGREW, N. M., KETTYLE, L. M. J., RAMSEY, J. M., CULL, S., SMYTH, L. J., MERVYN, D. M., BIJL, J. J. and THOMPSON, A., 2014. c-Met Inhibition in a HOXA9/Meis1 Model of CN-AML: Developmental Dynamics Developmental Dynamics. 243(1), 172-181
• SHARPE, D. J., ORR, K. S., MORAN, M., WHITE, S. J., MCQUAID, S., LAPPIN, T. R., THOMPSON, A. and JAMES, J. A., 2014. POU2F1 activity regulates HOXD10 and HOXD11 promoting a proliferative and invasive phenotype in Head and Neck cancer: Oncotarget Oncotarget. 5(18), 8803-8815
• CELLOT, S., HOPE, K. J., CHAGRAOUI, J., SAUVAGEAU, M., DENEAULT, E., MACRAE, T., MAYOTTE, N., WILHELM, B. T., LANDRY, J. R., TING, S. B., KROSL, J., HUMPHRIES, K., THOMPSON, A. and SAUVAGEAU, G., 2013. RNAi screen identifies Jarid1b as a major regulator of mouse HSC activity: Blood Blood. 122(9), 1545-1555
• DICKSON, G. J., LIBERANTE, F. G., KETTYLE, L. M., O'HAGAN, K. A., FINNEGAN, D. P. J., BULLINGER, L., GEERTS, D., MCMULLIN, M. F., LAPPIN, T. R. J., MILLS, K. I. and THOMPSON, A., 2013. HOXA/PBX3 knockdown impairs growth and sensitizes cytogenetically normal acute myeloid leukemia cells to chemotherapy: Haematologica Haematologica. 98(8), 1216-1225
• RAMSEY, J. M., KETTYLE, L. M. J., SHARPE, D. J., MULGREW, N. M., DICKSON, G. J., BIJL, J. J., AUSTIN, P., MAYOTTE, N., CELLOT, S., LAPPIN, T. R. J., ZHANG, S. D., MILLS, K. I., KROSL, J., SAUVAGEAU, G. and THOMPSON, A., 2013. Entinostat Prevents Leukemia Maintenance in a Collaborating Oncogene-Dependent Model of Cytogenetically Normal Acute Myeloid Leukemia: Stem Cells Stem Cells. 31(7), 1434-1445
• WHEADON, H., RAMSEY, J. M., DOBBIN, E., DICKSON, G. J., CORRIGAN, P. M., FREEBURN, R. W. and THOMPSON, A., 2011. Differential Hox Expression in Murine Embryonic Stem Cell Models of Normal and Malignant Hematopoiesis: Stem Cells and Development Stem Cells and Development. 20(8), 1465-1476
• LEBERT-GHALI, C. E., FOURNIER, M., DICKSON, G. J., THOMPSON, A., SAUVAGEAU, G. and BIJL, J. J., 2010. HoxA cluster is haploinsufficient for activity of hematopoietic stem and progenitor cells: Experimental Hematology Experimental Hematology. 38(11), 1074-1086
• DICKSON, G. J., KWASNIEWSKA, A., MILLS, K. I., LAPPIN, T. R. J. and THOMPSON, A., 2009. Hoxa6 potentiates short-term hemopoietic cell proliferation and extended self-renewal: Experimental Hematology Experimental Hematology. 37(3), 322-333
• GRIER, D. G., THOMPSON, A., LAPPIN, T. R. J. and HALLIDAY, H. L., 2009. Quantification of Hox and Surfactant Protein-B Transcription during Murine Lung Development: Neonatology Neonatology. 96(1), 50-60
• CHEUNG, N., CHAN, L. C., THOMPSON, A., CLEARY, M. L. and SO, C. W. E., 2007. Protein arginine-methyltransferase-dependent oncogenesis: Nature Cell Biology Nature Cell Biology. 9(10), 1208-1215
• BIJL, J., THOMPSON, A., RAMIREZ-SOLIS, R., KROSL, J., GRIER, D. G., LAWRENCE, H. J. and SAUVAGEAU, G., 2006. Analysis of HSC activity and compensatory Hox gene expression profile in Hoxb cluster mutant fetal liver cells: Blood Blood. 108(1), 116-122
• MAMO, A., KROSL, J., KROON, E., BIJL, J., THOMPSON, A., MAYOTTE, N., GIRARD, S., BISAILLON, R., BESLU, N., FEATHERSTONE, M. and SAUVAGEAU, G., 2006. Molecular dissection of Meis1 reveals 2 domains required for leukemia induction and a key role for Hoxa gene activation: Blood Blood. 108(2), 622-629
• BIJL, J., SAUVAGEAU, M., THOMPSON, A. and SAUVAGEAU, G., 2005. High incidence of proviral integrations in the Hoxa locus in a new model of E2a-PBX1-induced B-cell leukemia: Genes & Development Genes & Development. 19(2), 224-233
• BIJL, J., SAUVAGEAU, M., THOMPSON, A. and SAUVAGEAU, G., 2005. High incidence of proviral integrations in the Hoxa locus in a new model of E2a-PBX1-induced B-cell leukemia: Genes & Development Genes & Development. 19(2), 224-233
• GRIER, D. G., THOMPSON, A., KWASNIEWSKA, A., MCGONIGLE, G. J., HALLIDAY, H. L. and LAPPIN, T. R., 2005. The pathophysiology of HOX genes and their role in cancer: Journal of Pathology Journal of Pathology. 205(2), 154-171
• HORTON, S. J., GRIER, D. G., MCGONIGLE, G. J., THOMPSON, A., MORROW, M., DE SILVA, I., MOULDING, D. A., KIOUSSIS, D., LAPPIN, T. R., BRADY, H. J. M. and WILLIAMS, O., 2005. Continuous MLL-ENL expression is necessary to establish a "Hox code" and maintain immortalization of hematopoietic progenitor cells: Cancer Research Cancer Research. 65(20), 9245-9252
• MCMULLIN, M. F., NUGENT, E., THOMPSON, A., HULL, D., JONES, F. G. and GRIMWADE, D., 2005. Prolonged molecular remission in PML-RARalpha-positive acute promyelocytic leukemia treated with minimal chemotherapy followed by maintenance including the histone deacetylase inhibitor sodium valproate: Leukemia Leukemia. 19(9), 1676-7
• MCGUCKIN, C. P., FORRAZ, N., PETTENGELL, R. and THOMPSON, A., 2004. Thrombopoietin, flt3-ligand and c-kit-ligand modulate HOX gene expression in expanding cord blood CD133(+) cells: Cell Proliferation Cell Proliferation. 37(4), 295-306
• STEWART, J. P., THOMPSON, A., SANTRA, M., BARLOGIE, B., LAPPIN, T. R. and SHAUGHNESSY, J., JR., 2004. Correlation of TACC3, FGFR3, MMSET and p21 expression with the t(4;14)(p16.3;q32) in multiple myeloma: Br J Haematol Br J Haematol. 126(1), 72-6
• THOMPSON, A., QUINN, M. F., GRIMWADE, D., O'NEILL, C. M., AHMED, M. R., GRIMES, S., MCMULLIN, M. F., COTTER, F. and LAPPIN, T. R. J., 2003. Global down-regulation of HOX gene expression in PML-RAR alpha(+) acute promyelocytic leukemia identified by small-array real-time PCR: Blood Blood. 101(4), 1558-1565
• ZHANG, Y., SUN, S. S., WANG, Z. Y., THOMPSON, A., KALUZHNY, Y., ZIMMET, J. and RAVID, K., 2002. Signaling by the Mpl receptor involves IKK and NF-kappa B: Journal of Cellular Biochemistry Journal of Cellular Biochemistry. 85(3), 523-535
• MCKEVENEY, P. J., HODGES, V. M., MULLAN, R. N., MAXWELL, P., SIMPSON, D., THOMPSON, A., WINTER, P. C., LAPPIN, T. R. and MAXWELL, A. P., 2001. Characterization and localization of expression of an erythropoietin-induced gene, ERIC-1/TACC3, identified in erythroid precursor cells: Br J Haematol Br J Haematol. 112(4), 1016-24
• SUN, S., ZIMMET, J. M., TOSELLI, P., THOMPSON, A., JACKSON, C. W. and RAVID, K., 2001. Overexpression of cyclin D1 moderately increases ploidy in megakaryocytes: Haematologica Haematologica. 86(1), 17-23
• THOMPSON, A. and RAVID, K., 1999. Repression of A TAF(II)32 isoform as part of a program of genes regulated during mpl ligand-induced megakaryocyte differentiation: Biochemical and biophysical research communications Biochemical and Biophysical Research Communications. 262(1), 55-9
• LIEBERTHAL, W., THOMPSON, A. and VALERI, C. R., 1996. Effects of nitric oxide inhibition on systemic and renal hemodynamics in the hemorrhaged rat: Kidney & Blood Pressure Research Kidney & Blood Pressure Research. 19(6), 340-346
• THOMPSON, A., ZHANG, Y., KAMEN, D., JACKSON, C. W., CARDIFF, R. D. and RAVID, K., 1996. Deregulated expression of c-myc in megakaryocytes of transgenic mice increases megakaryopoiesis and decreases polyploidization: Journal of Biological Chemistry Journal of Biological Chemistry. 271(38), 22976-22982
• THOMPSON, A., ZHAO, Z., LADD, D., ZIMMET, J. and RAVID, K., 1996. A new transgenic mouse model for the study of cell cycle control in megakaryocytes: Stem cells (Dayton, Ohio) 14 Suppl 1, 181-7
• THOMPSON, A., VALERI, C. R. and LIEBERTHAL, W., 1995. NITRIC-OXIDE (NO) CONTRIBUTES TO THE HYPOTENSION AND THE REDUCTION IN GFR ASSOCIATED WITH HEMORRHAGIC-SHOCK: Journal of the American Society of Nephrology Journal of the American Society of Nephrology. 6(3), 671-671
• THOMPSON, A., VALERI, C. R. and LIEBERTHAL, W., 1995. ENDOTHELIN RECEPTOR-A BLOCKADE ALTERS HEMODYNAMIC-RESPONSE TO NITRIC-OXIDE INHIBITION IN RATS: American Journal of Physiology-Heart and Circulatory Physiology American Journal of Physiology-Heart and Circulatory Physiology. 269(2), H743-H748
• THOMPSON, A., MCGARRY, A. E., VALERI, C. R. and LIEBERTHAL, W., 1994. STROMA-FREE HEMOGLOBIN INCREASES BLOOD-PRESSURE AND GFR IN THE HYPOTENSIVE RAT - ROLE OF NITRIC-OXIDE: Journal of Applied Physiology Journal of Applied Physiology. 77(5), 2348-2354