IL-13Rα2介导的毒素融合蛋白在肿瘤治疗中的应用

近年来IL-13受体IL-13Rα2的研究已经成为一个新兴热点,IL-13Rα2在许多肿瘤细胞细胞表面存在特异性高表达,而在正常组织中不表达或表达量很低,通过IL-13Rα2介导的毒素融合蛋白靶向治疗肿瘤也已成为肿瘤诊断和免疫治疗研究中的重要方面。随着对IL-13Rα-结构和功能及其与肿瘤关系研究的不断深入,将为肿瘤的靶向治疗提供新的思路,为肿瘤的临床治疗提供新的理论依据。对IL-13Rα2在不同肿瘤中的表达及IL-13和不同毒素融合得到的毒素融合蛋白在细胞和动物体内等不同水平上对肿瘤治疗的作用做出了相应概括,并对通过IL-13Rα2介导的毒素融合蛋白治疗肿瘤机理的研究以及融合蛋白方法改进及其它相关治疗方法等方面作出综述。     

6-O-Angeloylenolin induced cell-cycle arrest and apoptosis in human nasopharyngeal cancer cells

High incidence of lymph node spread and distant metastasis make poor prognosis in human nasopharyngeal carcinoma (NPC). Therefore, better treatments for NPC are needed. This study investigated the anticancer activity of 6-O-angeloylenolin, a plant-derived sesquiterpene lactone, on human nasopharyngeal cancer (CNE) cells. 6-O-Angeloylenolin was found to significantly inhibit the proliferation of CNE cells. The rate of inhibition was comparable to that of cisplatin, a well known chemotherapeutic agent used to treat NPC. Further mechanistic studies revealed that 6-O-angeloylenolin caused cell-cycle arrest in the S and G2/M phases and, subsequently, the induction of apoptosis. Rapid repressions of cyclin D1, cyclin D3, p27, cdc25c and p-cdc25c (Ser216) were observed after 1-h treatment, followed by decreases in the expression of CDK4, cdc2 and p-cdc2 (Tyr15) after 12 h. Down-regulations of p-Rb (Ser780), p21^Waf1/Cip1, cyclin A, and cyclin E were also detected as later events. Two early events that marked the occurrence of apoptosis were phosphatidylserine exposure and mitochondria membrane potential depletion, which occurred after 12 h of treatment, while a sub-G1 peak was also detected after 36-h treatment. Apoptosis induction was further confirmed by other apoptotic features, including nuclear fragmentation, and PARP cleavage. Moreover, 6-O-angeloylenolin caused the release of cytochrome c and AIF to the cytosol by regulating the expression of the Bcl-2 family proteins. However, pretreatment of the general caspase inhibitor failed to attenuate the apoptosis induction effect, suggesting that apoptosis induction of 6-O-angeloylenolin was independent of caspase activation. While 6-O-angeloylenolin also triggered the activation of Akt, ERK and JNK, only the JNK inhibitor significantly decreased the extent of cell death and apoptosis in CNE cells. Taken together, these results suggest the potential applicability of 6-O-angeloylenolin as a candidate for NPC treatment.     

Regulation of adult neural precursor cell migration

Adult neural precursor cells (NPCs) are predominantly located in the subventricular zone (SVZ) of the lateral ventricles or in the subgranular zone of the dentate gyrus. These NPCs produce neuroblasts that normally migrate and integrate into the olfactory bulb and hippocampus, respectively. Following CNS damage due to disease or injury, NPCs can also migrate to the site of damage. Enhancement of NPC migration to sites of neural damage may increase their potential for repair but requires an understanding of processes that regulate basal and injury-induced migration so we can harness this potential. This review highlights the extrinsic factors and major intrinsic signalling pathways that regulate endogenous basal NPC migration to the olfactory bulb and the role of inflammatory mediators and chemokines in disease and injury-induced NPC migration.     

Ibulocydine is a novel prodrug Cdk inhibitor that effectively induces apoptosis in hepatocellular carcinoma cells

Hepatocellular carcinoma (HCC) is frequently associated with abnormalities in cell cycle regulation, leading to increased activity of cyclin-dependent kinases (Cdks) due to the loss, or low expression of, Cdk inhibitors. In this study, we showed that ibulocydine (an isobutyrate prodrug of the specific Cdk inhibitor, BMK-Y101) is a candidate anti-cancer drug for HCC. Ibulocydine has high activity against Cdk7/cyclin H/Mat1 and Cdk9/cyclin T. Ibulocydine inhibited the growth of HCC cells more effectively than other Cdk inhibitors, including olomoucine and roscovitine, whereas ibulocydine as well as the other Cdk inhibitors and BMK-Y101 minimally influenced the growth of normal hepatocyte cells. Ibulocydine induced apoptosis in HCC cells, most likely by inhibiting Cdk7 and Cdk9. In vitro treatment of HCC cells with ibulocydine rapidly blocked phosphorylation of the carboxyl-terminal domain (CTD) of the large subunit of RNA polymerase II, a process mediated by Cdk7/9. Anti-apoptotic gene products such as Mcl-1, survivin, and X-linked IAP (XIAP) are crucial for the survival of many cell types, including HCC. Following the inhibition of RNA polymerase II phosphorylation, ibulocydine caused rapid down-regulation of Mcl-1, survivin, and XIAP, thus inducing apoptosis. Furthermore, ibulocydine effectively induced apoptosis in HCC xenografts with no toxic side effects. These results suggest that ibulocydine is a strong candidate anti-cancer drug for the treatment of HCC.     

Engineered bivalent ligands to bias ErbB receptor-mediated signaling and phenotypes

The ErbB receptor family is dysregulated in many cancers, and its therapeutic manipulation by targeted antibodies and kinase inhibitors has resulted in effective chemotherapies. However, many malignancies remain refractory to current interventions. We describe a new approach that directs ErbB receptor interactions, resulting in biased signaling and phenotypes. Due to known receptor-ligand affinities and the necessity of ErbB receptors to dimerize to signal, bivalent ligands, formed by the synthetic linkage of two neuregulin-1β (NRG) moieties, two epidermal growth factor (EGF) moieties, or an EGF and a NRG moiety, can potentially drive homotypic receptor interactions and diminish formation of HER2-containing heterodimers, which are implicated in many malignancies and are a prevalent outcome of stimulation by native, monovalent EGF, or NRG. We demonstrate the therapeutic potential of this approach by showing that bivalent NRG (NN) can bias signaling in HER3-expressing cancer cells, resulting in some cases in decreased migration, inhibited proliferation, and increased apoptosis, whereas native NRG stimulation increased the malignant potential of the same cells. Hence, this new approach may have therapeutic relevance in ovarian, breast, lung, and other cancers in which HER3 has been implicated.     

Heterogenous induction of carcinoma-associated fibroblast-like differentiation in normal human prostatic fibroblasts by co-culturing with prostate cancer cells

In the tumor microenvironment, carcinoma-associated fibroblasts (CAFs) are considered to play a critical role in the promotion of tumorigenesis. However, the mechanisms that generate CAFs are not well elucidated. To understand how CAFs are generated during primary cancer progression, we investigated the biochemical characteristics of normal human prostate stromal cells (PrSC) co-cultured with human prostate cancer (PCa) cells in vitro. In primary cultures of human PCa-derived stromal cells (PCaSC-8 and PCaSC-9), expression of TNC, ACTA2, EGF, FGF7, and IGF1 mRNA was generally higher than PrSC but gene expression patterns were not uniform between PCaSC-8 and PCaSC-9 cells. Transforming growth factor β (TGFβ) and vascular endothelial growth factor (VEGF) protein levels in both PCaSC-8 and PCaSC-9 cells were generally higher than PrSC but levels of both secreted proteins were not same. When PrSCs were co-cultured with androgen-sensitive LNCaP cells or its sublines, androgen-low-sensitive E9 cells and androgen-insensitive AIDL cells, mRNA expression of IGF1 was significantly increased in all combinations. In contrast, expression of COL1A1, TNC, and ACTA2 mRNA was significantly increased only in LNCaP + PrSC and E9 + PrSC co-cultures. Protein production of VEGF was significantly increased only in LNCaP + PrSC and E9 + PrSC co-cultures. Increase of TGFβ protein was observed only in E9 + PrSC co-cultures. These biochemical characteristics of PrSC were partially recapitulated in TGFβ-treated PrSC. We have demonstrated that normal fibroblasts co-cultured with cancer cells become activated and exhibit biochemical characteristics of CAFs in a heterogenous manner. Our results suggest that heterogenous induction of CAF-like differentiation might be strongly dependent on biochemical characteristics of adjacent cancer cells.     

Cisplatin treatment of primary and metastatic epithelial ovarian carcinomas generates residual cells with mesenchymal stem cell-like profile

Epithelial mesenchymal transition (EMT) and cancer stem cells (CSC) have been associated with resistance to chemotherapy. Eighty percent of ovarian cancer patients initially respond to platinum-based combination therapy but most return with recurrence and ultimate demise. To better understand such chemoresistance we have assessed the potential role of EMT in tumor cells collected from advanced-stage ovarian cancer patients and the ovarian cancer cell line OVCA 433 in response to cisplatin in vitro. We demonstrate that cisplatin-induced transition from epithelial to mesenchymal morphology in residual cancer cells correlated with reduced E-cadherin, and increased N-cadherin and vimentin expression. The mRNA expression of Snail, Slug, Twist, and MMP-2 were significantly enhanced in response to cisplatin and correlated with increased migration. This coincided with increased cell surface expression of CSC-like markers such as CD44, α2 integrin subunit, CD117, CD133, EpCAM, and the expression of stem cell factors Nanog and Oct-4. EMT and CSC-like changes in response to cisplatin correlated with enhanced activation of extracellular signal-regulated kinase (ERK)1/2. The selective MEK inhibitor U0126 inhibited ERK2 activation and partially suppressed cisplatin-induced EMT and CSC markers. In vivo xenotransplantation of cisplatin-treated OVCA 433 cells in zebrafish embryos demonstrated significantly enhanced migration of cells compared to control untreated cells. U0126 inhibited cisplatin-induced migration of cells in vivo, suggesting that ERK2 signaling is critical to cisplatin-induced EMT and CSC phenotypes, and that targeting ERK2 in the presence of cisplatin may reduce the burden of residual tumor, the ultimate cause of recurrence in ovarian cancer patients.     

As_2O_3干预口腔鳞癌A431细胞EGFR表达的研究

目的：研究三氧化二砷（As2O3）对人口腔鳞癌A431细胞生长的抑制作用,探讨其抗肿瘤的机制。方法：合成特异性靶向到肿瘤细胞表面表皮生长因子受体（EGFR）的近红外荧光分子对比剂EGF-Cy5.5,验证试剂合成的靶向特异性。口腔鳞状细胞癌A431细胞系暴露于浓度分别为0μM,0.5μM,2.5μM和5.0μM的三氧化二砷溶液中0,24 h,48 h和72 h。共聚焦显微镜、流式细胞仪及免疫组化证实EGFR的表达水平,上述实验均测量三次,结果取平均值。结果：EGF-Cy5.5靶向荧光对比剂的标记率为68%~70%。对比对照组,越高浓度的三氧化二砷处理的肿瘤细胞其获得的细胞荧光信号强度越小,这与药物浓度越高细胞表面表达EGFR的量越少相一致。流式细胞仪显示,在72小时,作用于细胞的三氧化二砷药物浓度分别为0.5μM,2.5μM,和5.0μM,其相对应获得的细胞EGFR表达量分别为57.28±3.2%（P〈0.05）,29.91±2.2%（P〈0.01）和10.73±2.4%（P〈0.01）,明显低于对照组的细胞EGFR表达量74.42±1.8%,（P〈0.05）。结论：本研究应用近红外荧光分子成像的方法体外检测口腔鳞状细胞癌A431的EGFR表达水平,实验证明三氧化二砷对其EGFR具有明显的抑制作用,且抑制作用具有时间-剂量依赖性。     

应用KV-CBCT分析鼻咽癌调强放射治疗的摆位误差

目的:应用KV-CBCT分析鼻咽癌调强放射治疗时的摆位误差,为鼻咽癌调强放射治疗计划设计时CTV外扩PTV边界的大小提供参考。方法:选取30例IMRT的鼻咽癌患者,治疗过程中每周一次应用KV-CBCT采集患者治疗前的CT图像,将所得图像与定位CT图像进行匹配,分别测定X、Y、Z轴三个方向的摆位误差。结果:30例患者共拍摄168次KV-CBCT,获得168组摆位误差结果,群体摆位误差分别为X轴-0.15±1.43 mm,Y轴0.20±1.58 mm,Z轴-0.21±1.65 mm;根据Van Herk公式计算得到各方向的CTV-PTV外放边界值X、Y、Z轴分别为3.1 mm、3.3 mm和3.4 mm。结论:应用KV-CBCT影像系统可实时测量摆位误差并在线进行纠正,减小摆位误差,为CTV-PTV外放边界提供参考。     

Are special read alignment strategies necessary and cost-effective when handling sequencing reads from patient-derived tumor xenografts?

Background

Patient-derived tumor xenografts in mice are widely used in cancer research and have become important in developing personalized therapies. When these xenografts are subject to DNA sequencing, the samples could contain various amounts of mouse DNA. It has been unclear how the mouse reads would affect data analyses. We conducted comprehensive simulations to compare three alignment strategies at different mutation rates, read lengths, sequencing error rates, human-mouse mixing ratios and sequenced regions. We also sequenced a nasopharyngeal carcinoma xenograft and a cell line to test how the strategies work on real data.

Results

We found the "filtering" and "combined reference" strategies performed better than aligning reads directly to human reference in terms of alignment and variant calling accuracies. The combined reference strategy was particularly good at reducing false negative variants calls without significantly increasing the false positive rate. In some scenarios the performance gain of these two special handling strategies was too small for special handling to be cost-effective, but it was found crucial when false non-synonymous SNVs should be minimized, especially in exome sequencing.

Conclusions

Our study systematically analyzes the effects of mouse contamination in the sequencing data of human-in-mouse xenografts. Our findings provide information for designing data analysis pipelines for these data.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1172) contains supplementary material, which is available to authorized users.