The CCAAT/enhancer binding protein ε (C/EBPε) is a nuclear transcription factor expressed predominantly in myeloid cells and implicated as a potential regulator of myeloid differentiation. We show that it was rapidly induced in the acute promyelocytic leukemia (APL) cell line NB4 during granulocytic differentiation after exposure to retinoic acid (RA). Our data suggest that induction of C/EBPε expression was through the retinoic acid receptor α (RARα) pathway. Reporter gene studies showed that C/EBPε promoter/enhancer activity increased in a retinoid-dependent fashion via the retinoic acid response element (RARE) present in the promoter region of C/EBPε. The RA-induced expression of C/EBPε markedly increased in U937 myelomonoblasts that were induced to express promyelocytic leukemia/RARα (PML/RARα), but not in those induced to express promyelocytic leukemia zinc finger/RARα (PLZF/RARα). In retinoid-resistant APL cell lines, C/EBPε either is not induced or is induced only at very high concentrations of RA (≥10 -6 M). In addition, forced expression of C/EBPε in the U937 myelomonoblastic leukemia cells mimicked terminal granulocytic differentiation, including morphologic changes, increased CD11b/CD66b expression, and induction of secondary granule protein expression. Our data strongly suggest that C/EBPε is a downstream target gene responsible for RA-induced granulocytic differentiation of APL cells.
Human C/EBPε is a newly cloned gene coding for a CCAAT/enhancer binding protein that may be involved in the regulation of myeloid differentiation. Our studies showed that levels of C/EBPε mRNA were markedly increased in NB4 cells (promyelocytic leukemia line), because they were induced by 9-cis retinoic acid (9-cis RA) to differentiate towards granulocytes. Accumulation of C/EBPε mRNA occurred as early as 1 hour after exposure of NB4 cells to 9-cis RA (5 × 10−7 mol/L); and at 48 hours, levels were increased by 5.1-fold. Dose-response studies showed that 10−7 to 10−6 mol/L 9-cis RA (12 hours) resulted in peak levels of C/EBPε mRNA; but even 10−10 mol/L 9-cis RA increased levels of these transcripts. NB4 cells pulse-exposed (30 minutes) to all-trans retinoic acid (ATRA), washed, and cultured (3 days) with either dimethylsulfoxide (DMSO) or hexamethylene bisacetamide (HMBA) had a prominent increase in levels of C/EBPε mRNA and an increase in granulocytic differentiation, but exposure to either DMSO or HMBA alone had no effect on base levels of C/EBPε and did not induce differentiation. Macrophage-differentiation of NB4 reduced levels of C/EBPε mRNA. Nuclear run-off assays and half-life studies showed that accumulation of C/EBPε mRNA by 9-cis RA was due to enhanced transcription. Furthermore, this C/EBPε mRNA accumulation did not require synthesis of new protein factors because 9-cis RA induced C/EBPε mRNA accumulation in the absence of new protein synthesis. ATRA also induced expression of C/EBPε protein in NB4 cells, as shown by Western blotting. In contrast to the increase of C/EBPε in 9-cis RA–mediated granulocytic differentiation, the DMSO-induced differentiation of HL-60 cells down the granulocytic pathway was associated with an initial reduction of C/EBPε mRNA levels. In summary, we have discovered that expression of C/EBPε mRNA is markedly enhanced as the NB4 promyelocytes are induced by retinoids to differentiate towards granulocytes. This induction of C/EBPε mRNA expression is transcriptionally mediated and occurs in the absence of synthesis of additional protein factors. We suspect that the C/EBPε promoter/enhancer contains a retinoic acid-response element that is directly stimulated by retinoids.
C/EBPε is a recently cloned member of the C/EBP family of transcriptional factors. Previous studies demonstrated that the expression of this gene is tightly regulated in a tissue specific manner; it is expressed exclusively in myeloid cells. C/EBPε-deficient mice developed normally but failed to generate functional neutrophils and eosinophils, and these mice died of opportunistic infections suggesting that C/EBPε may play a central role in myeloid differentiation. To identify myelomonocytic genes regulated by the C/EBPε gene, we performed representational difference analysis (RDA), a polymerase chain reaction (PCR)-based subtractive hybridization using neutrophils and macrophages from wild-type and C/EBPε knockout mice. We identified a set of differentially expressed genes, including chemokines specific to myelomonocytic cells. Several novel genes were identified that were differentially expressed in normal myelomonocytic cells. Taken together, we have found several genes whose expression might be enhanced by C/EBPε.
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