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Scientific Reports

Publication date: 2019-08-12
Publisher: Nature Portfolio

Author:

Shangaris, Panicos
Loukogeorgakis, Stavros P ; Subramaniam, Sindhu ; Flouri, Christina ; Jackson, Laurence H ; Wang, Wei ; Blundell, Michael P ; Liu, Shanrun ; Eaton, Simon ; Bakhamis, Nahla ; Ramachandra, Durrgah Latchumi ; Maghsoudlou, Panayiotis ; Urbani, Luca ; Waddington, Simon N ; Eddaoudi, Ayad ; Archers, Joy ; Antoniou, Michael N ; Stuckey, Daniel J ; Schmidt, Manfred ; Thrasher, Adrian J ; Ryan, Thomas M ; De Coppi, Paolo ; David, Anna L

Keywords:

Science & Technology, Multidisciplinary Sciences, Science & Technology - Other Topics, BETA-THALASSEMIA MAJOR, PRENATAL TOLERANCE INDUCTION, STEM-CELL TRANSPLANTATION, WISKOTT-ALDRICH-SYNDROME, LONG-TERM CORRECTION, HUMAN-FACTOR-IX, MURINE MODEL, EFFICIENT TRANSDUCTION, MAGNETIC-RESONANCE, HEMOPHILIA-B, Animals, Female, Genetic Therapy, Heterozygote, Humans, Magnetic Resonance Imaging, Mice, Phenotype, Pregnancy, beta-Thalassemia

Abstract:

In utero gene therapy (IUGT) to the fetal hematopoietic compartment could be used to treat congenital blood disorders such as β-thalassemia. A humanised mouse model of β-thalassemia was used, in which heterozygous animals are anaemic with splenomegaly and extramedullary hematopoiesis. Intrahepatic in utero injections of a β globin-expressing lentiviral vector (GLOBE), were performed in fetuses at E13.5 of gestation. We analysed animals at 12 and 32 weeks of age, for vector copy number in bone marrow, peripheral blood liver and spleen and we performed integration site analysis. Compared to noninjected heterozygous animals IUGT normalised blood haemoglobin levels and spleen weight. Integration site analysis showed polyclonality. The left ventricular ejection fraction measured using magnetic resonance imaging (MRI) in treated heterozygous animals was similar to that of normal non-β-thalassemic mice but significantly higher than untreated heterozygous thalassemia mice suggesting that IUGT ameliorated poor cardiac function. GLOBE LV-mediated IUGT normalised the haematological and anatomical phenotype in a heterozygous humanised model of β-thalassemia.