Long non-coding RNA HOTAIR in carcinogenesis and metastasis

Long non-coding RNAs （lncRNAs） have gained massive attention in recent years as a potentially new and crucial layer of gene regulation. LncRNAs are prevalently transcribed in the genome, but their roles in gene regulation and disease development are largely unknown. HOX antisense intergenic RNA （HOTAIR）, a lncRNA located in the HOXC locus, has been shown to repress HOXD gene expression and promote breast cancer metastasis. Mechanistically, HOTAIR interacts with and recruits polycomb repressive complex 2 （PRC2） and regulates chromosome occupancy by EZH2 （a subunit of PRC2）, which leads to histone H3 lysine 27 trimethylation of the HOXD locus. Moreover, HOTAIR is pervasively overexpressed in most human cancers compared with noncancerous adjacent tissues. This review summarizes the studies on the HOTAIR lncRNA over the past 6 years.     

Regulation of breast cancer tumorigenesis and metastasis by miRNAs

miRNAs are a family of 17- to 23-nucleotide noncoding small RNAs that primarily function as gene expression fine regulators. A number of studies have shown that miRNAs play an important role in breast tumorigenesis, metastasis, proliferation and differentiation of breast cancer stem cells. This short review summarizes the progression of miRNA-mediated breast tumorigenesis and metastasis through various signaling pathways associated with drug resistance.     

CUL4B increases platinum‐based drug resistance in colorectal cancer through EMT: A study in its mechanism

Platinum‐based chemotherapy drugs play a very important role in the treatment of patients with advanced colorectal cancer, but the drug resistance of platinum‐based chemotherapy drugs is an important topic that puzzles us. If we can find mechanisms of resistance, it will be revolutionary for us. We analysed the differential genes, core genes and their enrichment pathways in platinum‐resistant and non‐resistant patients through a public database. Platinum‐resistant cell lines were cultured in vitro for in vitro colony and Transwell analysis. Tumorigenesis analysis of nude mice in vivo. Verify the function of core genes. Through differential gene and enrichment analysis, we found that CUL4B was the main factor affecting platinum drug resistance and EMT. Our hypothesis was further verified by in vitro drug‐resistant and wild‐type cell lines and in vivo tumorigenesis analysis of nude mice. CUL4B leads to platinum drug resistance in colorectal cancer by affecting tumour EMT.     

FOXG1在结直肠癌侵袭及转移中的作用及机制

构建叉头框G1(Forkhead box G1,FOXG1)的慢病毒干扰(shRNA)质粒及表达质粒,通过敲低和过表达FOXG1探讨其对结直肠癌细胞上皮-间质转化EMT的作用及其机制。应用Western blotting检测FOXG1在RKO、SW480、SW620、LOVO、DLD-1五种结直肠癌细胞中蛋白的表达水平,设计并合成FOXG1的shRNA片段(shFOXG1),运用DNA重组技术获得重组质粒,经双酶切技术及测序方法鉴定后进行慢病毒的包装、纯化及稳定转染,经筛选后获得稳定的结直肠癌细胞株,通过Western blotting和qRT-PCR技术检测FOXG1敲低和过表达效率及EMT关键因子E-cadherin、Vimentin、Fibronectin、Snail、Twist mRNA和蛋白的变化,光学显微镜观察敲低后细胞形态学变化,通过划痕实验检测迁移能力变化,Transwell检测侵袭迁移能力的变化。5种结直肠癌细胞中,FOXG1在RKO细胞中蛋白表达量最高,而在DLD-1细胞中表达量最低,与对照组相比较,在RKO细胞中敲低FOXG1,细胞形态由长梭型变成了类圆形或者多边形,细胞极性和紧密连接增加,细胞迁移距离明显降低,侵袭转移穿过小室的细胞数也明显减少,EMT关键因子E-cadherin表达增高,Vimentin、Fibronectin、Snail、Twist表达降低,过表达FOXG1组则相反。FOXG1在结直肠癌中高表达,这种基因的高表达能够促进结直肠癌细胞的侵袭和转移,对结直肠癌细胞的EMT起着重要的调控作用。     

ncRNAs associated with drug resistance and the therapy of digestive system neoplasms

Digestive system cancer remains a common cancer and the main cause of cancer-related death worldwide. Drug resistance is a major challenge in the therapy of digestive system cancer, and represents a primary obstacle in the treatment of cancer by restricting the efficiency of both traditional chemotherapy and biological therapies. Existing studies indicate that noncoding RNAs play an important role in the evolution and progression of drug resistance in digestive system cancer, mainly by modulating drug transporter-related proteins, DNA damage repair, cell-cycle-related proteins, cell apoptosis-related proteins, drug target-related proteins, and the tumor microenvironment. In this review, we address the potential mechanisms of ncRNAs underlying drug resistance in digestive system tumors and discuss the possible application of ncRNAs against drug resistance in digestive system tumors.     

结核分枝杆菌的耐药基因及其相关分子机制

结核分枝杆菌原发性和继发性耐药是当前控帝】和治疗结核病面临的重要问题,随着分子遗传学的发展,已经阐明了结核分枝杆菌耐药的分子基础是染色体的突变,影响了药靶本身或激活了药物前体的细菌酶,造成MTB的耐药。本文主要就MTB对其常用药物的耐药机制展开讨论,以便正确认识MTB对不同药物的耐药机制,建立快速检测耐药结核分枝杆菌基因型的分子生物学方法。     

结核分枝杆菌的耐药基因及其相关分子机制

结核分枝杆菌原发性和继发性耐药是当前控制和治疗结核病面临的重要问题,随着分子遗传学的发展,已经阐明了结核分枝杆菌耐药的分子基础是染色体的突变,影响了药靶本身或激活了药物前体的细菌酶,造成MTB的耐药。本文主要就MTB对其常用药物的耐药机制展开讨论,以便正确认识MTB对不同药物的耐药机制,建立快速检测耐药结核分枝杆菌基因型的分子生物学方法。     

Beyond tumorigenesis： cancer stem cells in metastasis

The importance of cancer stem cells （CSCs） in tumor-initiation has been firmly established in leukemia and recently reported for a variety of solid tumors. However, the role of CSCs in multistage cancer progression, particularly with respect to metastasis, has not been well-defined. Cancer metastasis requires the seeding and successful colonization of specialized CSCs at distant organs. The biology of normal stem cells and CSCs share remarkable similarities and may have important implications when applied to the study of cancer metastasis. Furthermore, overlapping sets of molecules and pathways have recently been identified to regulate both stem cell migration and cancer metastasis. These molecules constitute a complex network of cellular interactions that facilitate both the initiation of the pre-metastasis niche by the primary tumor and the formation of a nurturing organ microenvironment for migrating CSCs. In this review, we surveyed the recent advances in this dynamic field and propose a unified model of cancer progression in which CSCs assume a central role in both tumorigenesis and metastasis. Better understanding of CSCs as a fundamental component of the metastatic cascade will lead to novel therapeutic strategies against metastatic cancer.     

Knockdown of Long Non-coding RNA HOTAIR Suppresses Tumor Invasion and Reverses Epithelial-mesenchymal Transition in Gastric Cancer

Background: Over-expression of long non-coding RNA HOTAIR has been reported in several types of cancer. Yet its involvement in gastric cancer (GC) has not been well understood. The aim of present study was to examine the expression pattern of HOTAIR in GC patients, then, explore its role in promoting cancer invasion and underlying molecular mechanism. Methods: The expression level of HOTAIR in the tumor specimens of GC patients was quantified by Realtime RT-PCR. The correlation between HOTAIR level and clinicopathological factors as well as prognosis was then examined. Down-regulation of HOTAIR by RNA interference was applied to investigate its roles in tumor invasiveness via the view of Epithelial-to-mesenchymal transition (EMT). Results: The expression level of HOTAIR in cancer tissues was higher than that in adjacent noncancerous tissues. Expression level of HOTAIR was significantly correlated with lymph node metastasis and TNM stage. Furthermore, high expression level of HOTAIR was a predictor of poor over-all survival in GC patients. In vitro, inhibition of HOTAIR in GC cells could reduce invasiveness, as well as the expression of MMP1 and MMP3. In addition, suppression of HOTAIR could reverse EMT process. Conclusions: HOTAIR could act as a potential predictor for over-all survival in patients with GC. Inhibition of HOTAIR could reduce invasiveness and reverse EMT process in GC cells, indicating the potential role of HOTAIR in GC diagnostics and therapeutics.     

Mechanisms and relevant genes of drug resistance in gastric cancer

Gastric cancer (GC) is one of the most common malignancies in China, and chemotherapy is an important treatment for GC. However, drug resistance remains the main barrier to successful chemotherapy. Drug resistance is a complex phenomenon resulting from a combination of factors and mechanisms. The number of known relevant genes implicated in this phenomenon is growing rapidly. This review focuses on the mechanisms involved in the occurrence of drug resistance and explores the functions of several relevant genes in GC chemotherapy resistance.     

耳念珠菌耐药机制研究进展

耳念珠菌感染及其耐药问题已愈演愈烈,其临床耐药机制的研究已刻不容缓。本文整理了国内外耳念珠菌临床菌株对三大类抗真菌药物的耐药情况,并从外排泵异常表达、靶标蛋白突变、生物被膜和基因组可塑性4个方面总结了耳念珠菌已报道的或潜在的耐药机制,并与其他念珠菌耐药机制进行了对比。     

A perspective on emerging therapies in metastatic colorectal cancer: Focusing on molecular medicine and drug resistance

The majority of cancer cases are colorectal cancer, which is also the second largest cause of cancer-related deaths worldwide. Metastasis is the leading cause of death for patients with colorectal cancer. Metastatic colorectal cancer incidence are on the rise due to a tiny percentage of tumors developing resistant to medicines despite advances in treatment tactics. Cutting-edge targeted medications are now the go-to option for customized and all-encompassing CRC care. Specifically, multitarget kinase inhibitors, antivascular endothelial growth factors, and epidermal growth factor receptors are widely used in clinical practice for CRC-targeted treatments. Rare targets in metastatic colorectal cancer are becoming more well-known due to developments in precision diagnostics and the extensive use of second-generation sequencing technology. These targets include the KRAS mutation, the BRAF V600E mutation, the HER2 overexpression/amplification, and the MSI-H/dMMR. Incorporating certain medications into clinical trials has significantly increased patient survival rates, opening new avenues and bringing fresh viewpoints for treating metastatic colorectal cancer. These focused therapies change how cancer is treated, giving patients new hope and better results. These markers can significantly transform and individualize therapy regimens. They could open the door to precisely customized and more effective medicines, improving patient outcomes and quality of life. The fast-growing body of knowledge regarding the molecular biology of colorectal cancer and the latest developments in gene sequencing and molecular diagnostics are directly responsible for this advancement.     

光滑念珠菌的生物学、流行病学以及耐药机制研究进展

随着HIV感染患者的增多、器官移植、放疗化疗及抗真菌药物的广泛使用,近年来全世界范围内念珠菌感染趋势发生了明显变化,除白念珠菌外,光滑念珠菌在临床上的检出率逐年增加,在部分国家和地区已成为第二常见的侵袭性念珠菌。光滑念珠菌临床分离株通常对一线抗真菌药物高度耐药,由于目前治疗策略匮乏,其造成的系统感染死亡率可高达50%。为了进一步加深人们对光滑念珠菌的认识,研发遏制其感染的诊疗策略,本文综述了近年来光滑念珠菌的流行病学、毒力因子以及耐药机制等方面的进展,为国内同行深入探究其耐药特性和致病机理提供参考。     

The contrary functions of lncRNA HOTAIR/miR‐17‐5p/PTEN axis and Shenqifuzheng injection on chemosensitivity of gastric cancer cells

This study was implemented to figure out whether lncRNA HOTAIR/miR‐17‐5p/PTEN axis played a role that was opposite to Shenqifuzheng (SQFZ) injection in regulating the chemosensitivity of gastric cancer cells. The gastric cancer tissues were gathered and four gastric cancer cell lines were prepared, including BGC‐823, MGC‐803, SGC‐7901, and MKN28. Moreover, cisplatin, adriamycin, mitomycin, and 5‐fluoroura were managed as the chemo‐therapeutics, and SQFZ was prepared as a Chinese medicine. Striking distinctions of HOTAIR, miR‐17‐5p, and PTEN expressions were observed between gastric cancer tissues and para‐carcinoma normal tissues (P < 0.05). MKN28 was associated with the highest resistance to cisplatin, adriamycin, mitomycin, and 5‐fluoroura among all the cell types, and SQFZ significantly improved the MKN28 cells’ sensitivity to the drugs (P < 0.05). The over‐expressed HOTAIR and miR‐17‐5p, as well as under‐expressed PTEN tended to significantly facilitate the viability, EMT process and proliferation of MKN28 cells that were subject to treatment of chemo‐therapies (P < 0.05). SQFZ could amplify the effects of si‐HOTAIR, miR‐17‐5p inhibitor, and pcDNA‐PTEN on boosting the chemosensitivity of gastric cancer cells (P < 0.05). In addition, HOTAIR was also found to directly target miR‐17‐5p, and PTEN appeared to be subject to the modification of HOTAIR and miR‐17‐5p in its acting on the viability, proliferation, EMT process, and apoptosis of gastric cancer cells. The HOTAIR/miR‐17‐5p/PTEN axis could be regarded as the potential treatment targets for gastric cancer, and adjuvant therapy of SQFZ injection could assist in further improving the treatment efficacy of chemo‐therapies for gastric cancer.