ZCCHC9 promotes proliferation and invasion of lung cancer through regulating the JNK pathway

ZCCHC9 is a type of CCHC type zinc-finger containing protein which was found to be expressed in some tissues including brain and testicles in mice. Expression and function of ZCCHC9 in human tissues including cancer was largely unknown. In this study, we investigated the expression and function of ZCCHC9 in human non-small cell lung cancer (NSCLC) and the related molecular mechanism. Immunochemistrical standing showed that ZCCHC9 was mainly located in the nucleus in bronchial epithelial cells and epithelial cells of submucosal glands (58.3% [14/24]). But in NSCLC cells ZCCHC9 was mainly located in the cytoplasm and the positive rate was 54.5% (60/110). Ectopic cytoplasmic expression of ZCCHC9 in cancer tissues was significantly associated with advanced TNM stages (III+IV), lymph node metastasis, and poor clinical outcome (P < 0.05). Overexpression of cytoplasmic ZCCHC9 using transfection of ZCCHC9 cDNA in A549 and NCI-H1299 cells significantly upregulated the proliferation and invasion of these cancer cells in vitro (P < 0.05). Western blot study showed that overexpression of cytoplasmic ZCCHC9 significantly upregulated expression of p-JNK, Cyclin D1, and MMP7 (P < 0.05). Next we used the inhibitor of JNK pathway to inhibit the activity of the JNK pathway and the results showed that co-addition of SP600125 significantly abolished the function of ZCCHC9 to promote the proliferation and invasion of cancer cells. These results indicate that cytoplasmic ZCCHC9 could promote the proliferation and invasion of NSCLC through the JNK pathway and may be a promising cancer maker.     

胚胎发育早期头部特异表达的小鼠新基因BSG5的克隆及功能

BrainSpecificGene 5 (BSG5 )基因是用消减差异筛选的方法克隆到的在小鼠胚胎头部特异表达的新基因。它与人的KIAA0 6 2 8基因在氨基酸水平上有 81 9%的同源性。BSG5基因长 2 4 87bp ,定位在小鼠的第 1 5号染色体上 ,包含 2个外显子。它编码的蛋白质全长 4 99个氨基酸 ,含 1 2个C2H2型的锌指结构域。以BSG5基因全长编码区为探针的原位杂交结果显示BSG5基因在小鼠胚胎发育早期头部特异表达 ,在小鼠胚胎发育稍后时期的尾部和肢芽也有表达。此外 ,以鸡胚为模型研究BSG5基因也发现该基因在鸡胚的头部特异表达。这提示BSG5基因与头部发育有密切关系 ,其结构与表达特征预示着它编码的是一个具DNA结合功能的转录调控因子     

包含BTB锌指结构的新基因Bsg2结构特性及其在发育阶段的组织表达特异性

通过消减差异筛选法寻找小鼠胚胎发育过程中在脑中特异表达的基因 .克隆得到的脑特异表达新基因 2 (brainspecificgene 2 ,简称Bsg2 )长 36 91bp ,通过生物信息学方法预测其编码一个含713个氨基酸的锌指蛋白 .此蛋白N端有一个BTB(BR C ,ttkandbab)结构域 ,C端有 9个连续的C2H2锌指结构 .该基因定位在小鼠 12号染色体上 ,包含 1个内含子和 2个外显子 .应用生物信息学和RT PCR方法分别检验该基因在小鼠各组织中的表达 .结果表明 ,Bsg2基因在小鼠胚胎及成体的各组织中普遍表达 ,在脾、肾、睾丸、肠、子宫和脑的表达水平较强 .利用整体 (wholemount)原位杂交研究其时空表达模式 .结果显示 ,Bsg2在早期的小鼠胚胎和不同时期鸡胚的头部均特异表达 ,在11d鼠胚的肢芽里也有较强的表达 .Bsg2基因的结构和表达特征预示它编码 1个具有DNA结合功能的转录调控因子 ,同时揭示它在脑的发育和器官形成过程中发挥着重要作用     

ZCCHC14 regulates proliferation and invasion of non–small cell lung cancer through the MAPK-P38 signalling pathway

ZCCHC14 is a CCHC-type zinc finger protein which is expressed in tissues in human and mouse. The function of ZCCHC14 in tumours remains unclear. In this research, we explored the expression, function and related molecular mechanisms of ZCCHC14 in human non–small cell lung cancer (NSCLC). Immunochemistry staining showed that ZCCHC14 was low-expressed or absent in NSCLC tissues. In NSCLC patients, the low expression of ZCCHC14 in tumour tissues was significantly correlated with TNM stage, differentiation degree and adverse clinical outcome (P < .05). The proliferation and invasion ability of cancer cells transfected with ZCCHC14 CRISPR/Ca9 KO plasmids was significantly enhanced (P < .05). Immunoblotting analysis indicated that the expression of p-P38, cyclinD1 and MMP7 were significantly up-regulated after disabling ZCCHC14 (P < .05). We used MAPK-P38 pathway inhibitor doramapimod (BIRB 796) to inhibit P38 signalling pathway activity and determined that the agent significantly disrupted the function of ZCCHC14 and hindered the proliferation and invasion of the tumour. The finding revealed that ZCCHC14 can regulate proliferation and invasion of NSCLC through the P38 pathway. ZCCHC14 plays a crucial regulatory role in the development of NSCLC and may become a zinc finger target for clinical treatment.