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A synthetic model of human beta-thalassemia erythropoiesis using CD34+ cells from healthy adult donors.


ABSTRACT: Based upon the lack of clinical samples available for research in many laboratories worldwide, a significant gap exists between basic and clinical studies of beta-thalassemia major. To bridge this gap, we developed an artificially engineered model for human beta thalassemia by knocking down beta-globin gene and protein expression in cultured CD34+ cells obtained from healthy adults. Lentiviral-mediated transduction of beta-globin shRNA (beta-KD) caused imbalanced globin chain production. Beta-globin mRNA was reduced by 90% compared to controls, while alpha-globin mRNA levels were maintained. HPLC analyses revealed a 96% reduction in HbA with only a minor increase in HbF. During the terminal phases of differentiation (culture days 14-21), beta-KD cells demonstrated increased levels of insoluble alpha-globin, as well as activated caspase-3. The majority of the beta-KD cells underwent apoptosis around the polychromatophilic stage of maturation. GDF15, a marker of ineffective erythropoiesis in humans with thalassemia, was significantly increased in the culture supernatants from the beta-KD cells. Knockdown of beta-globin expression in cultured primary human erythroblasts provides a robust ex vivo model for beta-thalassemia.

SUBMITTER: Lee YT 

PROVIDER: S-EPMC3704632 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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A synthetic model of human beta-thalassemia erythropoiesis using CD34+ cells from healthy adult donors.

Lee Y Terry YT   Kim Ki Soon KS   Byrnes Colleen C   de Vasconcellos Jaira F JF   Noh Seung-Jae SJ   Rabel Antoinette A   Meier Emily R ER   Miller Jeffery L JL  

PloS one 20130708 7


Based upon the lack of clinical samples available for research in many laboratories worldwide, a significant gap exists between basic and clinical studies of beta-thalassemia major. To bridge this gap, we developed an artificially engineered model for human beta thalassemia by knocking down beta-globin gene and protein expression in cultured CD34+ cells obtained from healthy adults. Lentiviral-mediated transduction of beta-globin shRNA (beta-KD) caused imbalanced globin chain production. Beta-gl  ...[more]

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