Emodin can induce K562 cells to erythroid differentiation and improve the expression of globin genes

In China, the traditional Chinese medicine “YiSui ShenXu Granule” has been used for treating β-thalassemia over 20 years and known to be effective in clinic. Several purified components from “YiSui ShenXu Granule” are tested in K562 cells to reveal its effect on globin expression and erythroid differentiation, and one of the purified components, emodin, was demonstrated to increase the expression of α-, ε-, γ-globin, CD235a, and CD71 in K562 cells. Moreover, the increase of their expression is emodin concentration-dependent. The mRNA and microRNA (miRNA) expression profiles are further analyzed and 417 mRNAs and 35 miRNAs with differential expression between untreated and emodin-treated K562 cells were identified. Among them, two mRNAs that encode known positive regulators of erythropoiesis, ALAS2, and c-KIT respectively, increased during emodin-induced K562 erythroid differentiation, meanwhile, two negative regulators, miR-221 and miR-222, decreased during this process. These results indicate that emodin can improve the expression of globin genes in K562 cells and also induce K562 cells to erythroid differentiation possibly through up-regulating ALAS2 and c-KIT and down-regulating miR-221 and miR-222.     

Lyn tyrosine kinase is essential for erythropoietin-induced differentiation of J2E erythroid cells.

Erythropoietin stimulates the immature erythroid J2E cell line to terminally differentiate and maintains the viability of the cells in the absence of serum. In contrast, a mutant J2E clone (J2E-NR) fails to mature in response to erythropoietin; however, it remains viable in the presence of the hormone. We have shown previously that intracellular signalling is disrupted in the J2E-NR cell line and that tyrosine phosphorylation is dramatically reduced after erythropoietin stimulation. In this study we investigated the defect in J2E-NR cells that is responsible for their inability to differentiate. Screening of numerous signalling molecules revealed that the lyn tyrosine kinase appeared to be absent from J2E-NR cells. On closer examination, both lyn mRNA and protein content were reduced >500-fold. Consistent with a defect in lyn, amphotropic retroviral infection of J2E-NR cells with lyn restored the ability of the cells to synthesize haemoglobin and enabled the cells to mature morphologically. Conversely, the ability of J2E cells to differentiate in response to epo was severely curtailed when antisense lyn oligonucleotides or a dominant negative lyn were introduced into the cells. However, erythropoietin-supported viability was unaffected by reducing lyn activity. The ability of two other erythropoietin-responsive cell lines (R11 and R24) to differentiate in response to the hormone was also reduced by dominant negative lyn. Finally, co-immunoprecipitation and yeast two-hybrid analyses indicated that lyn directly associated with the erythropoietin receptor complex. These data indicate for the first time an essential role for lyn in erythropoietin-initiated differentiation of J2E cells but not in the maintenance of cell viability.     

The role of human globin gene promoters in the expression of hybrid genes in erythroid and non-erythroid cells

Hybrid genes containing human gamma or beta globin gene promoters linked to a neomycin resistance (neoR) gene were transfected into erythroid (K562) and nonerythroid (HeLa) cells. The number of clones resistant to G418, a neomycin analogue, was used to assay promoter strength. The results indicate that in K562 cells both promoters are active, and the gamma gene promoter is much stronger than the beta. By contrast, neither gene promoter is active in HeLa cells. These experiments indicate that these globin gene promoters are tissue-specific and sufficient for activity.     

Down-regulation of Myc is essential for terminal erythroid maturation

Terminal differentiation of mammalian erythroid progenitors involves 4-5 cell divisions and induction of many erythroid important genes followed by chromatin and nuclear condensation and enucleation. The protein levels of c-Myc (Myc) are reduced dramatically during late stage erythroid maturation, coinciding with cell cycle arrest in G(1) phase and enucleation, suggesting possible roles for c-Myc in either or both of these processes. Here we demonstrate that ectopic Myc expression affects terminal erythroid maturation in a dose-dependent manner. Expression of Myc at physiological levels did not affect erythroid differentiation or cell cycle shutdown but specifically blocked erythroid nuclear condensation and enucleation. Continued Myc expression prevented deacetylation of several lysine residues in histones H3 and H4 that are normally deacetylated during erythroid maturation. The histone acetyltransferase Gcn5 was up-regulated by Myc, and ectopic Gcn5 expression partially blocked enucleation and inhibited the late stage erythroid nuclear condensation and histone deacetylation. When overexpressed at levels higher than the physiological range, Myc blocked erythroid differentiation, and the cells continued to proliferate in cytokine-free, serum-containing culture medium with an early erythroblast morphology. Gene expression analysis demonstrated the dysregulation of erythropoietin signaling pathway and the up-regulation of several positive regulators of G(1)-S cell cycle checkpoint by supraphysiological levels of Myc. These results reveal an important dose-dependent function of Myc in regulating terminal maturation in mammalian erythroid cells.     

Hexamethylenebisacetamide-mediated induction of murine erythroleukemia cells: relationship between expression of beta major and beta minor globin genes, globin mRNA synthesis and commitment to erythroid differentiation

A switch in beta globin gene expression is operated in murine Friend erythroleukemia cells due to the inducing agent used. The competence of Friend cells to express beta major globin genes is operated within 8 hours exposure to hexamethylenebisacetamide. This early feature of induced differentiation is expressed in the absence of beta globin mRNA synthesis and is not suppressed by the corticosteroid hormone dexamethasone, which by contrast inhibits later stages of induced-mediated commitment to erythroid differentiation such as globin mRNA accumulation and heme synthesis.