Modulation of CD13 expression during retinoic acid-induced differentiation of HL60 cells

Novel self-nanoemulsifying drug-delivery system enhances antileukemic properties of all-trans retinoic acid

Aim: All- trans retinoic acid (ATRA) shows erratic oral bioavailability when administered orally against leukemia, which can be solved through its incorporation in self-nanoemulsifying drug-delivery systems (SEDDS). The SEDDS developed contained a hydrophobic ion pair between benzathine (BZT) and ATRA and was enriched with tocotrienols by the input of a palm oil tocotrienol rich fraction (TRF) in its composition. Results: SEDDS-TRF-ATRA-BZT allowed the formation of emulsions with nanometric size that retained ATRA within their core after dispersion. Pharmacokinetic parameters after oral administration of SEDDS-TRF-ATRA-BZT in mice were improved compared with what was seen for an ATRA solution. Moreover, SEDDS-TRF-ATRA-BZT had improved activity against HL-60 cells compared with SEDDS without TRF. Conclusion: SEDDS-TRF-ATRA-BZT is a promising therapeutic choice over ATRA conventional medicine.

AKT/NF-κB inhibitor xanthohumol targets cell growth and angiogenesis in hematologic malignancies

BACKGROUND

Leukemias are dependent on Akt/NF-kappaB activation and angiogenesis.

METHODS

The antiangiogenic Akt/NF-kappaB inhibitor xanthohumol (XN) has in vitro activity against acute and chronic myelogenous leukemia cell lines (AML, CML) and fresh samples from patients were investigated.

RESULTS

Inhibition of cell proliferation is associated with induction of apoptosis and reduced VEGF secretion. Decreased cell invasion, metalloprotease production, and adhesion to endothelial cells observed in the presence of XN could prevent in vivo life-threatening complications of leukostasis and tissue infiltration.

CONCLUSIONS

As endothelial cells and hematopoietic cells are mutually correlated in their development and growth, targeting both tumor cells and endothelial cells with agents possessing cytotoxic and antiangiogenic activities may lead to synergistic antitumor effects interrupting a reciprocal stimulatory loop between leukemia and endothelial cells.

Cloning and functional characterization of resistin-like molecule gamma

Resistin, a recently discovered hormone that may play a crucial role in obesity-associated diabetes, is the founding member of a novel family of cysteine-rich proteins that are secreted by specific cell types. Three other members of this family have been described to date and were termed resistin-like molecules (RELMs). Here we describe the cloning and functional characterization of RELMgamma. The mouse RELMgamma-cDNA encodes a protein of 117 amino acids that contains a signal peptide leading to secretion of the protein. By Northern blotting the RELMgamma-mRNA is detectable in bone marrow, spleen, and lung as well as in peripheral blood granulocytes. Promyelocytic HL60 cells transfected with a RELMgamma expression plasmid have an increased proliferation rate compared to mock-transfected cells and display an altered response to retinoic acid-induced granulocytic differentiation. Taken together, these data provide the first experimental evidence that RELMgamma is a secreted molecule with a restricted expression pattern that may play a role in promyelocytic differentiation.

Up-regulation of CD13/aminopeptidase N induced by phorbol ester is involved in redox regulation and tumor necrosis factor alpha production in HL-60 cells

Here, we demonstrate the possible involvement of oxidative stress in altered CD13/aminopeptidase N (APN) expression during myeloid cell differentiation induced by TPA. In flow cytometrical analysis, CD13/APN protein was constitutively expressed in HL-60 cells. When the cells were treated with TPA, CD13/APN expression was up-regulated with increased intracellular peroxides and a morphological change into macrophage-like cells. This increase in CD13/APN expression was suppressed by treatment with N-acetylcysteine. Transfection of Mn-superoxide dismutase (MnSOD) gene to the cells also suppressed the up-regulated CD13/APN expression. Furthermore, a neutralizing antibody to TNFalpha partially blocked this up-regulation. These results indicate that the change in intracellular redox state could be involved in the up-regulation of CD13/APN expression during TPA-induced differentiation of HL-60 cells, suggesting that TNFalpha may serve as, at least, one of the signals stimulated by TPA.

Stromal-mediated down-regulation of CD13 in bone marrow cells originating from acute myeloid leukemia patients

The metallopeptidase CD13 is expressed on normal myeloid cells of monocytic and granulocytic origin and on the surface of leukemic blasts in most acute myeloid leukemias (AML). To study the mechanisms regulating lineage restricted CD13 expression in AML we determined normalised CD13 mRNA levels in bone marrow cells and peripheral blood cells of 27 AML patients. Cells of bone marrow origin had lower levels of normalised CD13 mRNA than cells of peripheral blood origin, even though fluorescence intensity and fraction of cells expressing CD13 on the surface was unchanged. In particular, AML patients with very low levels of normalised CD13 mRNA in bone marrow cells showed an increase in CD13 mRNA expression in peripheral blood. To evaluate the effects of bone marrow microenvironment on CD13 mRNA expression, we cultured leukemic myeloid cells with and without murine stromal cells. Bone marrow cells with high and low CD13 surface expression that entered the stromal layers all down-regulated CD13 mRNA expression as compared to cells in suspension above. For peripheral blood cells within stromal layers, CD13 mRNA expression was diminished in only 3 out of 6 cases. The ambiguous effect of stromal cells on peripheral blood cells may illustrate a differentiation-dependent response towards stroma. We determined the polyadenylation status of CD13 mRNA for 9 bone marrow aspirates and 7 peripheral blood samples. Polyadenylation was diminished in bone marrow cells from AML patients with low levels of normalised CD13 mRNA, raising the possibility of involvement of mRNA instability in regulation of CD13 mRNA expression in this subgroup of patients.

Interaction Between Mevalonate Pathway and Retinoic Acid-Induced Differentiation

All trans retinoic acid (ATRA) is a potent inducer of differentiation of HL-60 cell line. The pretreatment of the cells by compactin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl (HMG) CoA reductase, during 24 hours, enhances the ATRA-induced cell differentiation. At 50 nM, the percentage of cell differentiation is 34.9% +/- 2 and 73% +/- 2.96 in the control and compactin-treated cells, respectively. The removal of compactin boosts the level of HMG-CoA reductase and therefore the biosynthesis of sterol and nonsterol isoprenoid compounds. The participation of sterol and nonsterol pathway was then investigated. The supply of an excess of cholesterol (up to 80 &mgr;g/ml of LDL) leads to a significant decrease of cell differentiation by ATRA from 78% +/-0.1 to 54% +/-2.8. A concomitant decrease of cell growth (51% +/- 6.4) was observed. The pretreatment of cells by the geranylgeranyltransferase inhibitor (GGTI-298) has no effect on the cell differentiation process. By contrast, the farnesyltransferase inhibitors (FTI-II and FTI-277) completely abolish theATRA-induced differentiation, thus confirming the involvement of farnesylated proteins in the differentiation mechanism.

Changes in antigen expression on differentiating HL60 cells treated with dimethylsulphoxide, all-trans retinoic acid, alpha1,25-dihydroxyvitamin D3 or 12-O-tetradecanoyl phorbol-13-acetate

We describe changes in antigen expression on HL60 cells with differentiation into granulocytes induced by all-trans retinoic acid (ATRA) or dimethylsulphoxide (DMSO), into monocytes by alpha1,25-dihydroxyvitamin D3 (D3), or into macrophages by 12-O-tetradecanoyl phorbol-13-acetate (TPA). Undifferentiated cells expressed CD13, CD14 (at a low level), CD15, CDw17, CD32, CD33, CD49e, CD63, CD64, CDw65, CD71 and CD87 antigens and bound the unclustered mAb D171 and Mo5. Differentiated and undifferentiated cells were negative for CD16, CD34, CD61, CD66abcde, CD68, CD88, CDw90 and CD93. Four panels of markers were identified whose expression changes significantly following differentiation. CD15, CD49e, CD63, CDw65, CD71 and mAb D171 and IGR-2,1A6 for DMSO; CD13, CD15, CDw17, CD49e, CD63, CDw65, CD71, CD87, CDw92 and mAb D171 and IGR-2,1A6 for ATRA; CD14, CD31, CD35, CD71, CD87, CDw92 and mAb D171 and BRIC18 for D3; CDw12, CD13, CD15, CD31, CD35, CD49e, CD71, CD87, CDw92 and mAb D171 for TPA. These will be useful for analyzing the pathways that regulate differentiation, whether the observed changes are consequences of differentiation or more direct effects of the inducers. HL60 cells provide a model for investigating the regulation of these antigens.

All-trans retinoic acid (ATRA) and the regulation of adhesion molecules in acute myeloid leukemia

A review of recent information on the expression and the ATRA-driven modulation of cell surface adhesion molecules of acute myelogenous leukemia blast cells is presented. Cytofluorometric studies on fresh blast cells have demonstrated that CD11a, CD11b CD11c, CD15, CD45RO and CD54 expression is significantly lower in acute promyelocytic leukemia (APL) than is acute myeloid leukemia of other subtypes (AML). In vitro treatment with ATRA dramatically modifies the adhesion phenotype of APL blast cells, promoting a consistently striking up-regulation of CD11b, CD11c, CD15, CD65, CD54, and CD38. Which is in general, poorly demonstrable in AML. The behaviour of CD15s is variable and fully independent from CD15 and CD65 in induction experiments, suggesting a differential enzyme regulation within the selectin ligand system. ATRA is capable, in both APL and AML, of producing a switch from the high- (RA) to the low- (RO) molecular weight isoform of CD54, Moreover, treatment with this retinoid exerts a negative regulation of the membrane expression of CD49e, CD58 and CD11a in APL as well as in AML. Of particular interest is the fact that the negative effect on CD1 1a expression generates an asynchronous phenotype in APL (CD11a-, CD11b+, CD15+), undetectable on normal maturing myeloid cells. In the last part of this review the possible implications of adhesion molecule modulation in the pathogenesis of ATRA syndrome are discussed.