Effect of systemic lupus erythematosus (SLE) treatment drugs on GI-101A breast tumor cell growth

The effect of systemic lupus erythematosus (SLE) treatment drugs on PKC (protein kinase C) activity and cell growth was studied using GI-101A breast tumor cells. Both hydroxychloroquine (HCQ) and prednisone treatments significantly increased the PKC activity in GI-101A cells after 60 min. Treatment of cells with a combination of HCQ/prednisone also produced the highest increase in PKC activity following 60 min incubation. When the GI-101A cells were treated with the same drugs, HCQ (10 ng/ml) prednisone (10 ng/ml) and HCQ/prednisone combination (10 ng/ml of each), for 72 hr the total PKC activity in the cells was significantly elevated and consequently the GI-101A cell growth was stimulated. As a result of drug induced cell growth stimulation the total number of cells in the treatment groups increased significantly compared to the non-treated controls. Interestingly HCQ and prednisone treatment induced cell growths were completely blocked by PKC specific inhibitor chelerythrine (50 microM). Our results suggest that HCQ and prednisone treatment can induce GI-101A cell growth via activating PKC.     

Combined inhibition of p38 and Akt signaling pathways abrogates cyclosporine A-mediated pathogenesis of aggressive skin SCCs

Non-melanoma skin cancers (NMSCs) are the most common neoplasm in organ transplant recipients (OTRs). These cancers are more invasive and metastatic as compared to those developed in normal cohorts. Previously, we have shown that immunosuppressive drug, cyclosporine A (CsA) directly alters tumor phenotype of cutaneous squamous cell carcinomas (SCCs) by activating TGF-β and TAK1/TAB1 signaling pathways. Here, we identified novel molecular targets for the therapeutic intervention of these SCCs. We observed that combined blockade of Akt and p38 kinases-dependent signaling pathways in CsA-promoted human epidermoid carcinoma A431 xenograft tumors abrogated their growth by more than 90%. This diminution in tumor growth was accompanied by a significant decrease in proliferation and an increase in apoptosis. The residual tumors following the combined treatment with Akt inhibitor triciribine and p38 inhibitors SB-203580 showed significantly diminished expression of phosphorylated Akt and p38 and these tumors were less invasive and highly differentiated. Diminished tumor invasiveness was associated with the reduced epithelial-mesenchymal transition as ascertained by the enhanced E-cadherin and reduced vimentin and N-cadherin expression. Consistently, these tumors also manifested reduced MMP-2/9. The decreased p-Akt expression was accompanied by a significant reduction in p-mTOR. These data provide first important combinatorial pharmacological approach to block the pathogenesis of CsA-induced highly aggressive cutaneous neoplasm in OTRs.     

PRIMA-1 induces apoptosis by inhibiting JNK signaling but promoting the activation of Bax

The p53 protein plays a major role in the maintenance of genome stability in mammalian cells. Mutations of p53 occur in over 40% of breast cancers and are indicative of tumor resistance to chemotherapeutic agents. Recently, there has been a high degree of interest in pharmacological approaches for restoring the normal function to mutant p53. The low molecular weight compound p53 reactivation and induction of massive apoptosis (PRIMA-1) was shown to induce cytotoxic effects and apoptosis in human tumor cells with mutant p53. Here, we studied the molecular mechanisms of PRIMA-1-induced apoptosis in human breast cancer cells with p53 mutations such as MDA-231 and GI-101A as compared to MCF-7 cells. We show that PRIMA-1 selectively induces apoptosis in human breast cancer cells MDA-231 and GI-101A compared to the MCF-7. This effect was paralleled by an increase in total p53 level in the nucleus and the induction of its phosphorylation at Ser-15 site. Using the chromatin immunoprecipitation (ChIP) assays, we show that PRIMA-1 restored p53 DNA binding activity to the promoters of the proapoptotic genes such as Bax and PUMA, but inhibited the binding activity to the promoters of the MAP4K4 gene. Knockdown of p53 protein in breast cancer cells using siRNA followed by PRIMA-1 treatment resulted in decline of Bax and PUMA proteins expression. Cell incubation with either PRIMA-1 or SP600125 (c-Jun NH2-terminal kinase inhibitor) resulted in the abrogation of adriamycin-induced c-Jun NH2-terminal kinase (JNK) activation, whereas Bax activation was not inhibited. We conclude that both Bax and PUMA but not JNK signaling are involved in PRIMA-1-induced apoptosis in breast cancer cells with p53 mutation.     

TSG101 expression in gynecological tumors: relationship to cyclin D1, cyclin E, p53 and p16 proteins.

Recent studies have shown that in vitro steady-state expression of the tumor susceptibility gene TSG101 is important for maintenance of genomic stability and cell cycle regulation. To determine the contribution of TSG101 expression in neoplastic formation, expression of TSG101 protein levels were evaluated in primary ovarian and endometrial adenocarcinoma tumors. Expression of TSG101 was also examined in various tumor cell lines (PA-1, AN3CA, HeLa, HS578T, HCT116). Full-length TSG101 protein was detected in these tumors and cell lines indicating that intragenic deletions were not characteristic of TSG101. In addition, TSG101 protein levels were compared with aberrations of prominent cell cycle regulatory molecules such as cyclin D1, cyclin E, p16 and p53. Reduced TSG101 protein was observed in 36% (8/22) of ovarian and 17% (1/6) of endometrial adenocarcinoma. Aberrant levels of p53, p16, cyclin D or E were comparable to published studies indicating that the clinicopathological distribution of these cases did not favor advanced stage tumors. Altogether, these findings suggest that a down-regulation of TSG101 is associated with tumorigenesis in a subgroup of gynecological tumors.     

Effects of tyroserleutide on gene expression of calmodulin and PI3K in hepatocellular carcinoma

Tyroserleutide (YSL) is a tripeptide compound that has exhibited inhibitory effects on hepatocellular carcinoma in our previous research. The mechanism of this antitumor activity involves the second messenger, Ca(2+). Ca(2+) influences cell function through the Ca(2+)/calmodulin (CaM) pathway, and abnormality of the Ca(2+)/CaM system correlates closely with the occurrence of tumors. In addition, CaM associates with phosphatidylinositol 3 kinase (PI3K), thereby enhancing the activity of PI3K, which promotes cell proliferation. In order to investigate its anti-tumor mechanism, we studied the effects of YSL on CaM protein expression and mRNA level, PI3K activity, PI3K regulatory subunit p85 protein expression and mRNA level, and the mRNA level of PI3K catalytic subunits p110alpha and p110gamma in human hepatocellular carcinoma BEL-7402 xenograft tumors in nude mice. Our results showed that YSL decreased the mRNA level and protein expression of CaM, inhibited the activity of PI3K, and reduced the mRNA level and protein expression of the PI3K regulatory subunit p85 and mRNA level of PI3K catalytic subunits p110alpha and p110gamma. Accordingly, it is suggestive that the anti-tumor effects of YSL may be mediated by down regulation of CaM and PI3K subunits p85 and p110, influencing the signal transduction pathway in the tumor cells and perhaps overcoming the dysfunctional PI3K activity in tumors.     

嵌合型E1B 55-kDa蛋白缺陷型腺病毒载体治疗肿瘤的评价

ONYX-015和H101为可复制E1B 55-kDa蛋白缺陷的C族腺病毒,它们正作为抗癌药物进行临床研究. 然而它们在癌症基因治疗中的应用却受到了C族腺病毒天然特性的制约,部分原因是由于在恶性肿瘤中C族腺病毒受体(coxsackievirus-adenovirus receptor,CAR) 的表达量较低. 构建了一个以H101为骨架的含有编码35型腺病毒鞭毛区域的基因,替代5型腺病毒鞭毛基因的嵌合型腺病毒载体. 这一改动使得腺病毒载体可以通过一种在肿瘤中高表达的膜蛋白CD46感染肿瘤细胞. 应用RT-PCR方法检测不同肿瘤细胞株中CAR和CD46表达量的区别. 在CAR受体低表达的细胞株中(MDA-MB-435和MCF-7),H101-F35表现出比H101和ONYX-015更强的细胞杀伤效果;在CAR受体高表达的细胞株中(A549,NCI-H446,Hep3B,LNCaP,ZR-75-30和Bcap-37),H101-F35、 H101和ONYX-015的细胞杀伤效果则相似. 在荷MDA-MB-435肿瘤的裸鼠模型中,注射H101-F35的抑瘤效果比注射H101的抑瘤效果更明显. 这些结果表明嵌合型溶瘤腺病毒载体H101-F35在肿瘤基因治疗中将有很好的应用前景.     

The mdm-2 oncogene can overcome wild-type p53 suppression of transformed cell growth.

Expression of a p53-associated protein, Mdm-2 (murine double minute-2), can inhibit p53-mediated transactivation. In this study, overexpression of the Mdm-2 protein was found to result in the immortalization of primary rat embryo fibroblasts (REFs) and, in conjunction with an activated ras gene, in the transformation of REFs. The effect of wild-type p53 on the transforming properties of mdm-2 was determined by transfecting REFs with ras, mdm-2, and normal p53 genes. Transfection with ras plus mdm-2 plus wild-type p53 resulted in a 50% reduction in the number of transformed foci (relative to the level for ras plus mdm-2); however, more than half (9 of 17) of the cell lines derived from these foci expressed low levels of a murine p53 protein with the characteristics of a wild-type p53. These results are in contrast to previous studies which demonstrated that even minimal levels of wild-type p53 are not tolerated in cells transformed by ras plus myc, E1A, or mutant p53. The mdm-2 oncogene can overcome the previously demonstrated growth-suppressive properties of p53.     

Constitutive mdmx expression during cell growth, differentiation, and DNA damage.

The mdmx gene was shown to possess high homology to the mdm-2 gene and to encode a protein that can bind p53 and block p53 transactivation. Because Mdm-2 protein blocks the growth-suppressive activity of the p53 tumor-suppressor protein through similar activities, we examined the expression patterns of mdmx to determine how MdmX expression correlates with p53 protein levels. In this study, the expression pattern and protein levels of mdmx were examined in a number of cell culture systems. Like mdm-2, mdmx gene expression was constitutive during serum deprivation/restimulation of murine fibroblasts and differentiation of either murine teratocarcinoma or preadipocyte cells. In contrast, whereas mdm-2 gene expression was induced after cisplatin damage to ovarian carcinoma cells, mdmx expression remained constitutive. Because p53 transactivation is critical following a genotoxic stress, we examined p53:MdmX complexes after in vitro DNA-PK phosphorylation, a posttranslational modification that blocks p53 association with Mdm-2. The DNA-PK phosphorylation of p53 was capable of inhibiting p53:MdmX association. Thus, whereas DNA damage does not regulate mdmx mRNA levels, posttranslational modifications induced during DNA damage may block p53:MdmX association in vivo. These results demonstrate that, in the cell lines examined, mdmx gene expression remains constitutive during cell proliferation and differentiation or following DNA damage. Taken together, the data suggest that cells retain a constant level of MdmX. Thus, in undamaged cells, there exists the potential for an MdmX:p53 reservoir.     

Evaluation of thymidylate synthase protein expression by Western blotting and immunohistochemistry on human colon carcinoma xenografts in nude mice.

In this study we investigated the relationship between thymidylate synthase (TS) protein expression, evaluated by Western blotting analysis and by immunohistochemistry (IHC), and growth rate in human colon xenograft tumors in nude mice. Human colon cancer cell lines were used to induce xenograft tumors and the tumor mass growth rate was calculated by measuring tumor size variations over time. TS 106 monoclonal antibody was used for both Western blotting and IHC TS detection. Tumor cell growth fraction was measured by Ki67/MIB1 immunolabeling and tumor cell growth rate by evaluating the mean nucleolar size in silver-stained sections. TS Western blotting values were related to tumor mass growth rate (p<0.001) and cell growth rate (p=0.002) but not to cell growth fraction (p=0.676). The degree of the IHC staining showed only a trend to be associated with TS protein expression measured on Western blotting, and was not related either to tumor mass growth or cell proliferation rate. Tumor xenografts were also characterized for TS promoter tandem repeat and p53 status. No relationship was observed between these variables and TS expression evaluated by both Western blotting and IHC analysis. Our results demonstrate that TS expression evaluated by Western blotting analysis is directly related to the tumor mass growth rate and question the use of the IHC approach to obtain precise quantitative information on TS expression in tumor samples.     

Overexpression of Rho GDP-dissociation inhibitor alpha is associated with tumor progression and poor prognosis of colorectal cancer

The GDP dissociation inhibitors (GDIs) are pivotal regulators of Rho GTPases, which are essential for tumor progression, particularly in the area of metastasis. One member of GDIs was identified as RhoGDI (Rho GDP-dissociation inhibitor alpha, or RhoGDIalpha), but little is known about this protein in tumors. In this study, we used comparative proteomic analysis to show that RhoGDI is markedly up-regulated in metastatic colorectal cancer (CRC). The elevated level of RhoGDI protein in metastatic CRC was confirmed by Western blot at the tissue ( n = 24) and cell ( n = 6) levels. Further, we analyzed RhoGDI protein expression in 126 clinicopathologically characterized CRC cases by immunohistochemistry. Statistical analysis showed that there were significant differences of RhoGDI overexpression in patients categorized according to tumor invasion ( p = 0.018), lymph node metastasis ( p = 0.001) and clinical stage ( p = 0.009). A trend was also identified between high expression of RhoGDI and shorter overall survival ( p = 0.013). In the present work, we also analyzed the effect of RhoGDI on CRC cell line. Gene transfection-mediated overexpression of RhoGDI in HT29 cells, containing a low detectable level of endogenous RhoGDI, resulted in a significant increase in cell proliferation and motility in vitro. These data suggest that RhoGDI may promote CRC progression and metastasis by stimulating tumor cell growth and migration.