Objective. To examine the effect of isobutyramide synthesized in our laboratory on human and murine globin gene expression and to test cell toxicity ofthe drug.Methods. MEL cells were transfected with the recombinant ...Objective. To examine the effect of isobutyramide synthesized in our laboratory on human and murine globin gene expression and to test cell toxicity ofthe drug.Methods. MEL cells were transfected with the recombinant construct μLCRAγψβδβand the stable transformants were cultured in the medium with different concentrations of isobutyramide. The experimental mice and rabbit were injected with different doses of isobutyramide. The globin mRNAs were analyzed by RNase protection assay. The hematological toxicity and electrolyte toxicity ofthe drug were tested.Results. An inducible and dose dependent expression of the human γ , β and mouse α globin gene was observed in the transfected MEL cells. The induction of the human γ globin gene is significant stronger than that of the β globin gene. With 2.5~5 mmol/L isobutyramide, the induction of the human γ globin gene is even more effective than that of mouse α globin gene. After a 15 day injection under the doses of 500~900mg·kg-1·d-1, the level of the mouse embryonic εy globin mRNA could be significantly induced up to 3~4 fold of that of uninjected controls. The changes of hemoglobin(Hb), RBC, hematocrit(HCT), WBC, derived from mice injected with different doses of isobutyramide at the interval of 24 hours for 2~4 weeks, were generally within the normal range. In rabbits injected with isobutyramide in the same regiment for 2 weeks, the concentration of blood K+, Na+, Cl-and CO2 were all within normal range and serum ionic osmotic pressure remained stable as well. Conclusion. Our results suggested that isobutyramide is a weak inducer ofcell differentiation, but it can selectively activate transcription of human γ globin gene at a certain degree, and it can act on early stages of erythroid progenitor differentiation in adult mice and activate transcription of embryonic εy-globin gene and have no hematological toxicity. Our results have further proved the potential value of isobutyramide in treatment of β-thalassemia and sickle cell disease.展开更多
文摘Objective. To examine the effect of isobutyramide synthesized in our laboratory on human and murine globin gene expression and to test cell toxicity ofthe drug.Methods. MEL cells were transfected with the recombinant construct μLCRAγψβδβand the stable transformants were cultured in the medium with different concentrations of isobutyramide. The experimental mice and rabbit were injected with different doses of isobutyramide. The globin mRNAs were analyzed by RNase protection assay. The hematological toxicity and electrolyte toxicity ofthe drug were tested.Results. An inducible and dose dependent expression of the human γ , β and mouse α globin gene was observed in the transfected MEL cells. The induction of the human γ globin gene is significant stronger than that of the β globin gene. With 2.5~5 mmol/L isobutyramide, the induction of the human γ globin gene is even more effective than that of mouse α globin gene. After a 15 day injection under the doses of 500~900mg·kg-1·d-1, the level of the mouse embryonic εy globin mRNA could be significantly induced up to 3~4 fold of that of uninjected controls. The changes of hemoglobin(Hb), RBC, hematocrit(HCT), WBC, derived from mice injected with different doses of isobutyramide at the interval of 24 hours for 2~4 weeks, were generally within the normal range. In rabbits injected with isobutyramide in the same regiment for 2 weeks, the concentration of blood K+, Na+, Cl-and CO2 were all within normal range and serum ionic osmotic pressure remained stable as well. Conclusion. Our results suggested that isobutyramide is a weak inducer ofcell differentiation, but it can selectively activate transcription of human γ globin gene at a certain degree, and it can act on early stages of erythroid progenitor differentiation in adult mice and activate transcription of embryonic εy-globin gene and have no hematological toxicity. Our results have further proved the potential value of isobutyramide in treatment of β-thalassemia and sickle cell disease.
