Smad2/3-pathway ligand trap luspatercept enhances erythroid differentiation in murine β-thalassaemia by increasing GATA-1 availability

J Cell Mol Med. 2020 Jun;24(11):6162-6177. doi: 10.1111/jcmm.15243. Epub 2020 Apr 29.

ABSTRACT

In β-thalassaemia, anaemia results from ineffective erythropoiesis characterized by inhibition of late-stage erythroid differentiation. We earlier used luspatercept and RAP-536 protein traps for certain Smad2/3-pathway ligands to implicate Smad2/3-pathway overactivation in dysregulated erythroid differentiation associated with murine β-thalassaemia and myelodysplasia. Importantly, luspatercept alleviates anaemia and has been shown to reduce transfusion burden in patients with β-thalassaemia or myelodysplasia. Here, we investigated the molecular mechanisms underlying luspatercept action and pSmad2/3-mediated inhibition of erythroid differentiation. In murine erythroleukemic (MEL) cells in vitro, ligand-mediated overactivation of the Smad2/3 pathway reduced nuclear levels of GATA-1 (GATA-binding factor-1) and its transcriptional activator TIF1γ (transcription intermediary factor 1γ), increased levels of reactive oxygen species, reduced cell viability and haemoglobin levels, and inhibited erythroid differentiation. Co-treatment with luspatercept in MEL cells partially or completely restored each of these. In β-thalassaemic mice, RAP-536 up-regulated Gata1 and its target gene signature in erythroid precursors determined by transcriptional profiling and gene set enrichment analysis, restored nuclear levels of GATA-1 in erythroid precursors, and nuclear distribution of TIF1γ in erythroblasts. Bone marrow cells from β-thalassaemic mice treated with luspatercept also exhibited restored nuclear availability of GATA-1 ex vivo. Our results implicate GATA-1, and likely TIF1γ, as key mediators of luspatercept/RAP-536 action in alleviating ineffective erythropoiesis.

PMID:32351032 | PMC:PMC7294138 | DOI:10.1111/jcmm.15243