Hydroxamic Acids Derivatives Induce γ Globin Gene Expression in Vivo.

Abstract

We have previously shown that four hydroxamic acids: butyric and propionic hydroxamic acids, subericbishydroxamic acid (SBHA) and suberoylanilide hydroxamic acid (SAHA) are potent inhibitors of histone deacetylase and strong inducers of fetal hemoglobin expression in vitro (Exp Hematol. 31:197, 2003). In the present study we tested their effect on fetal hemoglobin synthesis in vivo. Transgenic mice carrying the human μLCR Aγ construct continue to express the human γ gene in the adult stage of development ( γ/α mRNA ratio ~ 5%, Blood. 77:1326, 1991). These mice were crossed to mice heterozygous for a thalassemia gene due to β globin gene deletion (PNAS. 92:11608, 1995). The β thalassemia/μLCR Aγ mice represent an appropriate moderately anemic animal model for testing the effects of Hb F inducers. Compounds were administered subcutaneously with a mini-osmotic pump continuously for 7days in a high and a low concentration. Concentrations were: for butyric hydroxamic acid: 500mg/kg/day/100mg/kg/day; for propionic hydroxamic acid: 500mg/kg/day/100mg/kg/day; for SAHA: 100mg/kg/day/20mg/kg/day; and for SBHA: 200mg/kg/day/40mg/kg/day. Two test groups were studied. In group 1, 70μL mice blood was drawn every other day up to 20 days; in group 2, 70μL mice blood was drawn only on days 0 and 21. Reticulocytes and F reticulocytes were measured using flow cytometry, while γ globin gene expression was quantitated by RNase protection assay. Butyric and propionate hydroxamic acids increased reticulocytes by 70.52% (from 13.96% to 23.81%) and 172.52% (from 10.34% to 28.20%) respectively. There was only small increase in reticulocytes in the mice treated with SAHA (from 13.33% to 15.36%), SBHA (from 14.24% to 16.27%) and the PBS control (11.06% to 14.11%). All the compounds increased the level of γ mRNA: butyric hydroxamate by 53.07%; propionic hydroxamate by 40.05%; SAHA by 49.87%, and SBHA by 34.05%. These results suggest first that all the hydroxamic acid derivatives we used increase fetal hemoglobin in vivo in the thalassemia animal model; second butyric and propionic hydroxanic acids are in addition inducers of in vivo erythropoiesis.