Transfusion Independence and HMGA2 Activation After Gene Therapy of Human β-thalassaemia

Overview

Journal Nature

Specialty Science

Date 2010 Sep 17

PMID 20844535

Citations 632

Authors

Marina Cavazzana-Calvo

Emmanuel Payen

Olivier Negre

Gary Wang

Kathleen Hehir

Floriane Fusil

Julian Down

Maria Denaro

Troy Brady

Karen Westerman

Resy Cavallesco

Beatrix Gillet-Legrand

Laure Caccavelli

Riccardo Sgarra

Leila Maouche-Chretien

Francoise Bernaudin

Robert Girot

Ronald Dorazio

Geert-Jan Mulder

Axel Polack

Arthur Bank

Jean Soulier

Jerome Larghero

Nabil Kabbara

Bruno Dalle

Bernard Gourmel

Gerard Socie

Stany Chretien

Nathalie Cartier

Patrick Aubourg

Alain Fischer

Kenneth Cornetta

Frederic Galacteros

Yves Beuzard

Eliane Gluckman

Frederick Bushman

Salima Hacein-Bey-Abina

Philippe Leboulch

Affiliations

Soon will be listed here.

Abstract

The β-haemoglobinopathies are the most prevalent inherited disorders worldwide. Gene therapy of β-thalassaemia is particularly challenging given the requirement for massive haemoglobin production in a lineage-specific manner and the lack of selective advantage for corrected haematopoietic stem cells. Compound β(E)/β(0)-thalassaemia is the most common form of severe thalassaemia in southeast Asian countries and their diasporas. The β(E)-globin allele bears a point mutation that causes alternative splicing. The abnormally spliced form is non-coding, whereas the correctly spliced messenger RNA expresses a mutated β(E)-globin with partial instability. When this is compounded with a non-functional β(0) allele, a profound decrease in β-globin synthesis results, and approximately half of β(E)/β(0)-thalassaemia patients are transfusion-dependent. The only available curative therapy is allogeneic haematopoietic stem cell transplantation, although most patients do not have a human-leukocyte-antigen-matched, geno-identical donor, and those who do still risk rejection or graft-versus-host disease. Here we show that, 33 months after lentiviral β-globin gene transfer, an adult patient with severe β(E)/β(0)-thalassaemia dependent on monthly transfusions since early childhood has become transfusion independent for the past 21 months. Blood haemoglobin is maintained between 9 and 10 g dl(-1), of which one-third contains vector-encoded β-globin. Most of the therapeutic benefit results from a dominant, myeloid-biased cell clone, in which the integrated vector causes transcriptional activation of HMGA2 in erythroid cells with further increased expression of a truncated HMGA2 mRNA insensitive to degradation by let-7 microRNAs. The clonal dominance that accompanies therapeutic efficacy may be coincidental and stochastic or result from a hitherto benign cell expansion caused by dysregulation of the HMGA2 gene in stem/progenitor cells.

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