Stimulation of hemoglobin synthesis in murine erythro-leukemia cells by low molecular weight ketones, aldehydes, acids, alcohols and ethers.

The effects of short chain (C1-C5) aldehydes, ketones, acids alcohols and ethers on murine erythroleukemia (MEL) cells were examined to determine which particular chemical moieties and some of their combinations stimulated hemoglobin synthesis in these cells. The C4 series of compounds was active at lower concentrations than homologs of shorter chain lengths. Within an homologous series the potency and efficacy of the alcohol was always less then that of the acid and aldehyde compounds. Though hepanoic acid was found to be an inducer of hemoglobin synthesis in MEL cells, the 4,6-dioxoheptanoic acid analog is a potent inhibitor of hemoglobin synthesis. Analysis of porphyrin content of MEL cells incubated with the inducers 2-butanone, 2-methoxyethanol, acetone and methanol, showed that increased hemoglobin synthesis was always accompanied by the accumulation of porphyrins, most of which was protoporphyrin. These studies suggest that low molecular ketones, aldehydes, acids, ethers and alcohol can correct the defect in erythroid differentiation exhibited by MEL cells and they further suggest that the physiological trigger for inducing hemoglobin synthesis in these cells is less discriminating than previously recognized.

Erythroid differentiation in cultured Friend leukemia cells treated with metabolic inhibitors.

The induction of erythroid differentiation in the T3-C12 clone of Friend leukemia cells by dimethyl sulfoxide is accompanied by reduction in viral RNA-dependent DNA polymerase activity with increased cellular delta-aminolevulinic acid synthetase activity and hemoglobin synthesis. These cells were treated with a variety of compounds to determine whether other durgs are capable on inducing erythroid differentiation. While several hormones, inhibitors of RNA synthesis, organic solvents, inhibitors of DNA polymerase, sulfhydryl inhibitors, and inducers of delta-aminolevulinic acid synthetase administered singly did not stimulate hemoglobin synthesis like dimethyl sulfoxide, inhibitors of DNA and RNA synthesis such as adriamycin, mitomycin C, and hydroxyurea:mithramycin were synergistic in stimulating erythroid differentiation.