An oligomer complementary to c-myc mRNA inhibits proliferation of HL-60 promyelocytic cells and induces differentiation.

To study the role of a nuclear proto-oncogene in the regulation of cell growth and differentiation, we inhibited HL-60 c-myc expression with a complementary antisense oligomer. This oligomer was stable in culture and entered cells, forming an intracellular duplex. Incubation of cells with the anti-myc oligomer decreased the steady-state levels of c-myc protein by 50 to 80%, whereas a control oligomer did not significantly affect the c-myc protein concentration. Direct inhibition of c-myc expression with the anti-myc oligomer was associated with a decreased cell growth rate and an induction of myeloid differentiation. Related antisense oligomers with 2- to 12-base-pair mismatches with c-myc mRNA did not influence HL-60 cells. Thus, the effects of the antisense oligomer exhibited sequence specificity, and furthermore, these effects could be reversed by hybridization competition with another complementary oligomer. Antisense inhibition of a nuclear proto-oncogene apparently bypasses cell surface events in affecting cell proliferation and differentiation.     

Antisense inhibition of c-myc expression reveals common and distinct mechanisms of growth inhibition by TGF beta and TNF alpha

Downregulation of the c-myc gene in HL-60 cells is associated with growth inhibition and induction of differentiation. Previous studies have reported that the growth inhibitors TGF beta and TNF alpha downregulate c-myc mRNA levels, suggesting the possibility that these agents may exert some of their phenotypic effects via c-myc downregulation. Our study demonstrates that although both growth inhibitors produce a similar decrease in c-myc protein synthesis, TNF alpha produces a greater growth inhibition and differentiation induction in HL-60 cells. Combined addition of anti-myc oligomer with either growth inhibitor produces no additive effect. In fact, 4 microM anti-myc oligomer produces the same growth and differentiation effects as does 10 ng/ml TGF beta 1. We conclude that downregulation of c-myc expression represents a common mechanism of growth inhibition by TGF beta and TNF alpha, but that TNF alpha possesses an additional effect that is independent of c-myc expression.     

Modulation of growth and differentiation in normal human keratinocytes by transforming growth factor-beta

The effect of transforming growth factor-type beta 1(TGF-beta) on the growth and differentiation of normal human skin keratinocytes cultured in serum-free medium was investigated. TGF-beta markedly inhibited the growth of keratinocytes at the concentrations greater than 2 ng/ml under low Ca2+ conditions (0.1 mM). Growth inhibition was accompanied by changes in cell functions related to proliferation. Remarkable inhibition of DNA synthesis was demonstrated by the decrease of [3H]thymidine incorporation. The decrease of [3H]thymidine incorporation was observed as early as 3 hr after addition of TGF-beta. TGF-beta also decreased c-myc messenger RNA (mRNA) expression 30 min after addition of TGF-beta. This rapid reduction of c-myc mRNA expression by TGF-beta treatment is possibly one of the main factors in the process of TGF-beta-induced growth inhibition of human keratinocytes. Since growth inhibition and induction of differentiation are closely related in human keratinocytes, the growth-inhibitory effect of TGF-beta under high Ca2+ conditions (1.8 mM Ca2+, differentiation-promoting culture environment) was examined. TGF-beta inhibited the growth of keratinocytes under high Ca2+ conditions in the same manner as under low Ca2+ conditions, suggesting that it is a strong growth inhibitor in both low and high Ca2+ environments. The induction of keratinocyte differentiation was evaluated by measuring involucrin expression and cornified envelope formation: TGF-beta at 20 ng/ml increased involucrin expression from 9.3% to 18.8% under high Ca2+ conditions, while it decreased involucrin expression from 7.0% to 3.3% under low Ca2+ conditions. Cornified envelope formation was modulated in a similar way by addition of TGF-beta: TGF-beta at 20 ng/ml decreased cornified envelope formation by 53% under low Ca2+ conditions, while it enhanced cornified envelope formation by 30.7% under high Ca2+ conditions. Thus, the effect of TGF-beta on keratinocyte differentiation is Ca2+ dependent. It enhances differentiation of human keratinocytes under high Ca2+ conditions, but inhibits differentiation under low Ca2+ conditions. Taken together, there is a clear discrepancy between TGF-beta effects on growth inhibition and induction of differentiation in human keratinocytes. These data indicate that growth inhibition of human keratinocytes by TGF-beta is direct and not induced by differentiation.     

Inhibition of cell adhesion to plastic substratum by phosphorothioate oligonucleotide.

Antisense oligonucleotides have been widely used to achieve specific inhibition of targeted gene expression. However, the mechanism of action is not well understood and in many systems sequence-independent effects occur. We have recently shown that chronic administration of an antisense c-myc phosphorothioate oligonucleotide can specifically inhibit expression of the c-myc protein and growth in human breast cancer cells. We now identify an additional effect of the same oligonucleotide on cell adhesion. Transient delivery through electroporation of 2.5 microM antisense-myc oligonucleotide to MCF-7 cells results in 85% inhibition of adhesion to plastic substratum within 24 h. Both the onset of this effect and the subsequent recovery occur without a change in cell viability, growth, or alteration of adhesion to Matrigel, collagen IV, laminin, or fibronectin. However, no parallel changes in c-myc mRNA or protein expression are detectable, suggesting that in this instance inhibition of adhesion caused by antisense-myc oligonucleotide may involve a mechanism independent of the target sequence.     

Reduction of c-myc expression by an antisense approach under Cre/loxP switching induces apoptosis in human liver cancer cells

c-Myc has been documented to be both a positive and a negative signal for the induction of apoptosis. It is well known that overexpression of the c-myc gene induces apoptosis of normal cells, but the result of a reduction in its expression is not fully understood. We examined whether a reduction in c-myc expression would induce apoptosis in human liver cancer cells. Specifically, antisense and sense oligodeoxynucleotides (oligos) against the human c-myc mRNA were synthesized, mixed with a liposome reagent at various ratios, and were applied to the liver cancer-derived cell lines, HCC-T, HepG2, and PLC/PRF/5. To exclude effects resulting from using oligos, plasmid vectors expressing the full-length c-myc cDNA in both sense and antisense orientations under the control of the Cre/loxP system were generated. Monoclonal cell lines including these plasmid vectors were produced and Cre was supplied by adenovirus infection. Apoptosis was determined morphologically and c-Myc and Bcl-2 expression was examined by Western blotting. The antisense myc significantly inhibited the proliferation of the cells within two days, while neither the liposome reagent alone nor sense myc did so. Most of the cells were rounded up by the antisense-treatment and nuclear fragmentation and DNA ladder formation were detected after two days in antisense c-myc-treated cells. Antisense c-myc largely reduced c-Myc and partially Bcl-2 expression; overexpression of Bcl-2 partially rescued from apoptosis in HCC-T and HepG2 cells. These results suggest that the massive reduction in c-myc mRNA induces apoptosis in liver cancer cell lines and consequent decrease in Bcl-2 enhances the cell death. c-Myc reduction under the Cre/loxP switching system may be a useful tool for the clarification of c-myc-related cellular mechanisms in differentiation and proliferation.     

c-myc and c-fos expression in differentiating mouse primary keratinocytes.

Expression of the myc and fos genes has been monitored in mouse primary keratinocytes after induction of terminal differentiation by calcium or tetradecanoylphorbol acetate (TPA). myc RNA levels in growing cells are very high and remain elevated even at late times after calcium-induced differentiation. Thus, keratinocytes provide the first example of normal primary cells with persistent c-myc expression irrespective of their proliferative or differentiated state. fos expression is also relatively unaffected by addition of calcium. In contrast to calcium, TPA-induced differentiation is accompanied by dramatic changes in proto-oncogene expression: marked c-fos induction and considerable although transient decrease in c-myc expression. These effects might be important for the keratinocyte response to TPA: TPA treatment of a keratinocyte cell line (RBK) resistant to this substance has no effect on c-myc expression and leads only to minimal c-fos induction. In these cells full fos induction can still be triggered by addition of fresh medium. Thus, the fos gene in normal keratinocytes is inducible through at least two independent mechanisms, only one of which has been lost during derivation of the TPA-resistant cell line.     

A combination treatment of c-myc antisense DNA with all-trans-retinoic acid inhibits cell proliferation by downregulating c-myc expression in small cell lung cancer

The dysregulation of both c-myc expression and retinoid signaling pathways commonly occurs in small cell lung cancers (SCLC), frequently accompanying tumor relapse, and contributing to the poor prognosis of patients with SCLC. In this study, we investigated whether c-myc antisense oligodeoxynucleoside phosphorothioate (OPT) covering the translational initiation site of c-myc mRNA used in combination with all-trans-retinoic acid (RA) would be more effective than either agent alone in inhibiting the growth of an SCLC cell line, NCI-H82, overexpressing c-myc with amplification of this gene, and whether this combination could be an experimental therapeutic tool against SCLC. c-myc antisense OPT decreased c-myc expression in Northern and Western blot analyses, thus inducing 40% and 20% cell growth inhibition compared with scrambled and sense OPT and with scrambled four guanosine-containing OPT (p < 0.01, and p < 0.01, respectively). All-trans-RA also inhibited cell proliferation at the rate of 40% by downregulating c-myc expression. Having obtained these results, we tested the hymothesis that c-myc antisense OPT in combination with all-trans-RA may further reduce c-myc expression and lead to improved cell growth control. This combination showed a greater inhibition of cell proliferation than either agent given alone (p < 0.01) (60% inhibition of cell growth compared with treatment of control scrambled or sense OPT alone, p < 0.01) through enhanced downregulation of c-myc expression. In conclusion, c-myc antisense DNA in combination with other modalities for c-myc downregulation may represent an attractive gene regulation-based therapy of SCLC in the future. Further efforts, however, using new oligodeoxynucleotide analogs, specific interventions for DNA delivery into cells, and more potent therapeutic agents are required to increase the potentiation of c-myc downregulation and cell growth inhibition.     

重组RA—538及反义c—myc腺病毒对人胃癌,食管癌和bcl—2高表达细胞系的作用

本课题研究ＲＡ５３８、反义c-ymc重组腺病毒对人胃癌（ＳＧＣ７９０１）、食管癌（Ｅ Ｃ１０９、ＥＣ８７１２）、正常人胚肺２ＢＳ（２ＢＳ）及ｂｃｌ－２高表达细胞第的体仙外生物学作用及其分子机制。结果显示Ａｄ－ＲＡ５３８及Ａｄ－ＡＳｃ－ｍｙｃ对ＳＧＣ７９０１细胞体内外均具有明显的生长抑制及凋亡诱导作用,并能抑制其ｃ－ｍｙｃ、ｂｃｌ－２、ｃｙｃｌｉｎＤ１基因的表达及刺激ｂａｘ基因的表达。对ＥＣ１０９、ＥＣ８     

The extracellular calcium-sensing receptor is required for calcium-induced differentiation in human keratinocytes

In cultured keratinocytes, the acute increase of the extracellular calcium concentration above 0.03 mM leads to a rapid increase in intracellular calcium concentration ([Ca(2+)]i) and inositol trisphosphate production and, subsequently, to the expression of differentiation-related genes. Previous studies demonstrated that human keratinocytes express the full-length extracellular calcium-sensing receptor (CaR) and an alternatively spliced variant lacking exon 5 and suggested their involvement in calcium regulation of keratinocyte differentiation. To understand the role of the CaR, we transfected keratinocytes with an antisense human CaR cDNA construct and examined its impact on calcium signaling and calcium-induced differentiation. The antisense CaR cDNA significantly reduced the protein level of endogenous CaRs. These cells displayed a marked reduction in the rise in [Ca(2+)]i in response to extracellular calcium or to NPS R-467, a CaR activator, whereas the ATP-evoked rise in [Ca(2+)]i was not affected. Calcium-induced inhibition of cell proliferation and calcium-stimulated expression of the differentiation markers involucrin and transglutaminase were also blocked by the antisense CaR cDNA. When cotransfected with luciferase reporter vectors containing either the involucrin or transglutaminase promoter, the antisense CaR cDNA suppressed the calcium-stimulated promoter activities. These results indicate that CaR is required for mediating calcium signaling and calcium-induced differentiation in keratinocytes.     

Expression of c-myc proto-oncogene during podophyllotoxin induced IW32 erythroleukemia cell differentiation

The effect of hemin or podophyllotoxin on the differentiation of the erythropoietin (epo)-producing IW32 erythroleukemia cells was investigated. Podophyllotoxin induced IW32 cells to differentiate, and hemin potentiated the differentiation. Hemin had no effect on cell proliferation whereas podophyllotoxin inhibited cell growth. c-myc mRNA levels decreased biphasically by hemin or podophyllotoxin, while the combined treatment of hemin plus podophyllotoxin did not result in the initial decrease in c-myc mRNA level. Our data suggested that down-regulation of c-myc expression was not a prerequisite of IW32 cell differentiation induced by hemin and podophyllotoxin combined.     

Growth-inhibitory effects of 1,25-dihydroxyvitamin D3 on normal human keratinocytes cultured in serum-free medium

The effect of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] on the growth of normal human keratinocytes cultured in serum-free medium was investigated. 1,25(OH)2D3 inhibited the cell growth at 10(-7) M by 75.3% and at 10(-6) M almost completely. The growth inhibition was accompanied by changes related to proliferation: (1) remarkable inhibition of DNA synthesis, (2) the decrease in the number of high-affinity receptors for epidermal growth factor, with almost no change in total receptor number, (3) the rapid decrease in c-myc mRNA level. The inhibition of DNA synthesis and the decrease of c-myc mRNA expression occurred at 3 h after the addition of 1,25(OH)2D3. These results suggest that decrease of c-myc mRNA expression is one of the primary effects of 1,25(OH)2D3 in the growth inhibition of human keratinocytes.     

Silencing of human c-myc oncogene expression by poly-DNP-RNA

Deregulation of c-myc oncogene expression drives the progression of many different types of cancer. Recent experimental data suggest that even brief inhibition of c-myc expression may be sufficient to permanently stop tumor growth and induce regression of tumors. Previous efforts in developing an inhibitor to silence the c-myc gene were hampered by low efficacy and lack of sequence specificity. Here, we report the synthesis of an antisense RNA inhibitor based on a new 21-nt sequence on a poly- DNP-RNA platform that can specifically inhibit cancer cell growth by silencing c-myc gene expression. Both c-myc mRNA and protein levels were significantly decreased in MCF-7 cells following treatment with this antisense DNP-RNA inhibitor. The control compounds with sense or mismatched sequence were inactive. When c-myc transgenic mice were each treated with a single dose of the antisense RNA inhibitor, in vivo silencing of c-myc gene expression was observed for up to 72 hours by real-time RT-PCR. Similar treatment of c-myc transgenic mice with unmodified (native) homologous small interfering RNA (siRNA) had no effect on the mRNA concentration of the c-myc gene. Injection of this short antisense poly-DNP-RNA into mice did not induce the synthesis of DNP-binding immunoglobulins in the host. The observed in vivo gene silencing by this antisense RNA inhibitor suggests its possible use as a therapeutic agent for cancers involving the deregulation of c-myc gene expression.     

Differential effects of c-myb and c-fes antisense oligodeoxynucleotides on granulocytic differentiation of human myeloid leukemia HL60 cells

To gain some insight into the role of c-myb and c-fes in myeloid differentiation, the authors have analyzed the ability of HL60 cells to differentiate in response to several different inducers after inhibition of c-myb and c-fes function. This function has been inhibited almost completely by using deoxynucleotides complementary to two 18-nucleotide sequences of c-myb and c-fes encoding mRNA. After 5 days in culture, in several separate experiments with different oligomer preparations, more than 90% growth inhibition was observed in c-myb antisense-treated HL60 cells. At this time, independent of the differentiation inducer used, c-myb antisense-treated HL60 cells differentiate only along the monocytic pathway, whereas in sense oligomer-treated cultures, retinoic acid and dimethyl sulfoxide induced granulocytic differentiation. No perturbation of the HL60 cell growth was observed after 5 days of treatment with antisense c-fes oligomer. However, induction to granulocytic differentiation by retinoic acid and dimethyl sulfoxide resulted in progressive cell death, whereas monocytic differentiation by other differentiation inducers was only marginally affected. These results suggest that granulocytic, unlike monocytic, differentiation requires c-myb-conditioned proliferation and the activity of the protein encoded by c-fes.     

c-myc gene expression in human cells is controlled by glucose

The c-myc oncogene is implicated in normal growth and differentiation processes. Human cell lines IM9 and HepG2 stably cultured at "low" glucose concentrations (5.5 mM) show c-myc mRNA levels 3-4 times higher than cells cultured at "high" glucose concentrations (25 nM). D-fructose (a metabolizable exose) substitutes for D-glucose in reducing c-myc expression while 3-ortho-methylglucose (a non metabolizable exose) is uneffective. c-myc expression is up-regulated (by PMA) or down-regulated (by dexamethasone and long-term exposure to FCS) in human cells cultured at "low" glucose but not in cells cultured at "high" glucose. We previously demonstrated that insulin receptor gene expression in human cell lines in enhanced by glucose. Therefore, glucose controls in an opposite way the expression of two genes important in the regulation of eukaryotic cell growth and differentiation.