Bitopertin, a selective oral GLYT1 inhibitor, improves anemia in a mouse model of β-thalassemia
Alessandro Matte, Enrica Federti, Michael Winter, Annette Koerner, Anja Harmeier, Norman Mazer, Tomas Tomka, Maria Luisa Di Paolo, Luigia De Falco, Immacolata Andolfo, Elisabetta Beneduce, Achille Iolascon, Alejandra Macias-Garcia, Jane-Jane Chen, Anne Janin, Christhophe Lebouef, Franco Turrini, Carlo Brugnara, Lucia De Franceschi
Alessandro Matte, Enrica Federti, Michael Winter, Annette Koerner, Anja Harmeier, Norman Mazer, Tomas Tomka, Maria Luisa Di Paolo, Luigia De Falco, Immacolata Andolfo, Elisabetta Beneduce, Achille Iolascon, Alejandra Macias-Garcia, Jane-Jane Chen, Anne Janin, Christhophe Lebouef, Franco Turrini, Carlo Brugnara, Lucia De Franceschi
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Research Article Hematology

Bitopertin, a selective oral GLYT1 inhibitor, improves anemia in a mouse model of β-thalassemia

Abstract

Anemia of β-thalassemia is caused by ineffective erythropoiesis and reduced red cell survival. Several lines of evidence indicate that iron/heme restriction is a potential therapeutic strategy for the disease. Glycine is a key initial substrate for heme and globin synthesis. We provide evidence that bitopertin, a glycine transport inhibitor administered orally, improves anemia, reduces hemolysis, diminishes ineffective erythropoiesis, and increases red cell survival in a mouse model of β-thalassemia (Hbbth3/+ mice). Bitopertin ameliorates erythroid oxidant damage, as indicated by a reduction in membrane-associated free α-globin chain aggregates, in reactive oxygen species cellular content, in membrane-bound hemichromes, and in heme-regulated inhibitor activation and eIF2α phosphorylation. The improvement of β-thalassemic ineffective erythropoiesis is associated with diminished mTOR activation and Rab5, Lamp1, and p62 accumulation, indicating an improved autophagy. Bitopertin also upregulates liver hepcidin and diminishes liver iron overload. The hematologic improvements achieved by bitopertin are blunted by the concomitant administration of the iron chelator deferiprone, suggesting that an excessive restriction of iron availability might negate the beneficial effects of bitopertin. These data provide important and clinically relevant insights into glycine restriction and reduced heme synthesis strategies for the treatment of β-thalassemia.

Authors

Alessandro Matte, Enrica Federti, Michael Winter, Annette Koerner, Anja Harmeier, Norman Mazer, Tomas Tomka, Maria Luisa Di Paolo, Luigia De Falco, Immacolata Andolfo, Elisabetta Beneduce, Achille Iolascon, Alejandra Macias-Garcia, Jane-Jane Chen, Anne Janin, Christhophe Lebouef, Franco Turrini, Carlo Brugnara, Lucia De Franceschi

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Figure 1

Bitopertin treatment improves chronic hemolytic anemia of a mouse model for β-thalassemia.

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Bitopertin treatment improves chronic hemolytic anemia of a mouse model ...
Data from WT and Hbb3th/+ mice treated with either vehicle or bitopertin 30 mg/kg/d are presented. (A) Normal erythrocyte blood smear morphology in bitopertin-treated WT mice. Hbbth3/+ showed typical hypochromic red cells, marked polychromasia, and various forms of fragmented erythrocytes (poikilocytes) associated with stressed erythropoiesis and hemolysis. Significant improvement of poikilocytosis after 2 and 4 weeks of treatment with bitopertin. May-Grünwald-Giemsa–stained smears were imaged under oil at original magnification ×100 using a Panfluor objective with 1.30 numeric aperture on a Nikon Eclipse DS-5M camera and processed with Digital Slide (DS-L1) Nikon. One representative image from the other 6 with similar results is presented. (B) Hemoglobin (Hb), mean corpuscular Hb (MCH), reticulocyte count, and circulating erythroblasts in WT (n = 6) and Hbb3th/+ mice (n = 6) mice under either vehicle or bitopertin treatment. Data are presented as mean ± SD; *P < 0.05 compared with WT mice; °P < 0.05 compared with baseline values; 2-way ANOVA with Tukey’s test for multiple comparisons. (C) Upper: Triton acid urea gel electrophoresis of red cell membrane from WT and Hbbth3/+ mice under either vehicle or bitopertin treatment (28 days). Lower: Quantification of gel bands (OD) expressed as α-globin to β-globin ratio to Hb. Data are shown as median and minimum/maximum (n = 6); *P < 0.02 compared with WT animals; °P < 0.05 compared with vehicle-treated Hbbth3/+ mice; 2-way ANOVA with Holm-Šídák test for multiple comparisons. (D) Measurement of total and soluble Hb by Drabkin’s method in hemolysates from Hbbth3/+ mice under either vehicle or bitopertin treatment (30 mg/kg/d, 28 days). Data are shown as mean ± SD (n = 6); *P < 0.05 compared with vehicle-treated Hbbth3/+ mice. °P <0.05 compared with vehicle-treated group. (E) Plasma total bilirubin and lactate dehydrogenase in WT (n = 4) and Hbb3th/+ mice (n = 4) mice under either vehicle or bitopertin treatment (30 mg/kg/d, 28 days). Data are presented as median and minimum/maximum; *P < 0.05 compared with WT mice; °P < 0.05 compared with vehicle-treated group; Mann-Whitney U test with multiple-comparisons corrections.