Yanping Le

Gastric juice MicroRNAs as potential biomarkers for the screening of gastric cancer

MicroRNAs (miRNAs) play a crucial role in carcinogenesis; however, it largely remains unclear whether miRNAs in gastric juice, which is specific for gastric tissues, can be used as biomarkers for gastric cancer. The objective of the current study was to investigate the feasibility of using gastric juice miRNAs as potential biomarkers to assist in screening for gastric cancer.

Gastric juice miR-129 as a potential biomarker for screening gastric cancer

MicroRNAs (miRNAs) play crucial roles during the occurrence and development of gastric cancer. Conventional serological tests for screening gastric cancer have limits on sensitivity and specificity. Several miRNAs in peripheral blood have been used as biomarkers of gastric cancer. However, most of these miRNAs are shared by several types of cancer. Thanks to the tissue specificity of gastric juice, here we examined the feasibility of using gastric juice miR-129-1/2, which are aberrantly expressed in gastric cancer, to screen gastric cancer. Total of 141 gastric juices samples from gastric cancer, gastric ulcer, atrophic gastritis, and minimal gastritis patients or subjects with normal mucosa were collected by gastroscopy. The gastric juice miR-129-1/2 levels were detected by quantitative reverse transcription-polymerase chain reaction. A receiver operating characteristic (ROC) curve was constructed for differentiating patients with gastric cancer from patients with benign gastric diseases. We showed that, compared with patients with benign gastric diseases, patients with gastric cancer had significantly lower levels of gastric juice miR-129-1-3p and miR-129-2-3p. The areas under ROC curve (AUC) were 0.639 and 0.651 for miR-129-1-3p and miR-129-2-3p, respectively. Using the parallel combination test, the AUC was up to 0.656. In summary, our results suggest that gastric juice miR-129-1-3p and miR-129-2-3p are potential biomarkers for the screening gastric cancer, and the detection of gastric juice miRNAs is a convenient non-invasion method for the diagnosis of gastric cancer.

Gastric juice microRNA-421 is a new biomarker for screening gastric cancer.

MicroRNA-421 (miR-421) plays crucial roles during carcinogenesis and is a potential tumor marker in the diagnosis of several types of cancers. However, whether miR-421 in gastric juice, which is specific for gastric tissue, can be used as a biomarker for gastric cancer screening is unclear. In the present study, real-time quantitative reverse transcription-polymerase chain reaction was used to analyze miR-421 levels in gastric juice from patients with gastric cancer or benign gastric disease, or normal. A receiver operating characteristic (ROC) curve was constructed to evaluate the diagnostic values. The results showed that gastric juice levels of miR-421 in patients with gastric cancer were significantly different from those in benign gastric diseases (Pu2009<u20090.001). The area under the ROC curve of miR-421 was up to 0.767 (95xa0% CIu2009=u20090.684–0.850). The levels of miR-421 in gastric juice from gastric patients were not significantly associated with the main clinicopathological factors such as tumor size, Lauren’s classification, and Borrmann’s classification. For the detection of early gastric cancer, the use of gastric juice miR-421showed a remarkable improvement compared with the use of serum carcinoembryonic antigen alone. These results indicated that gastric juice miRNAs such as miR-421 are useful biomarkers for screening gastric cancer.

Lin-28 reactivation is required for let-7 repression and proliferation in human small cell lung cancer cells

The let-7 family of microRNAs (miRNAs) are known to act as tumor suppressors and down-regulated in lung cancer. Recently, the RNA-binding protein Lin-28 was demonstrated to inhibit biogenesis of let-7 miRNAs by blocking both Drosha- and Dicer-mediated cleavage and accelerating decay of let-7 precursors. We selected NCI-H446 lung small cell lung cancer cell to determine whether it is broadly representative that Lin-28 can promote cell proliferation and affect cell cycle through negatively regulating let-7 biogenesis. Here, we showed that Lin-28 mRNA was up-regulated in NCI-H446 cell with a high c-Myc state. The result of real-time RT-PCR further indicated that pri-let-7a-1/7g and mature let-7g were remarkably down-regulated. The expression of lin-28 was down-regulated while the mature let-7g transcript was up-regulated inversely. The MTT assay indicated that the proliferation of lung cancer cells with lin-28 inhibition was signally impaired. The cells with lin-28 knockdown revealed a higher proportion of cells at G1/G0 phase and less at S phase. The results presented here demonstrate that induction of Lin-28 could mediate repression of let-7 family members, promote cell cycle progression and suppress cell proliferation.

MircoRNA-33a inhibits epithelial-to-mesenchymal transition and metastasis and could be a prognostic marker in non-small cell lung cancer.

Understanding the molecular mechanism by which epithelial mesenchymal transition (EMT)-mediated cancer metastasis and how microRNA (miRNA) regulates lung cancer progression via Twist1-activated EMT may provide potential therapeutic targets for cancer therapy. Here we found that miR-33a, an intronic miRNA located within the sterol regulatory element-binding protein 2 (SREBP-2) gene, is expressed at low levels in metastatic non-small cell lung cancer (NSCLC) cells and is inversely correlated with Twist1 expression. Conversely, miR-33a knockdown induces EMT and miR-33a overexpression blocks EMT by regulating of Twist1 expression in NSCLC cells. Bioinformatical prediction and luciferase reporter assay confirm that Twist1 is a direct target of miR-33a. Additionally, Twist1 knockdown blocks EMT-related metastasis and forced expression of miR-33a inhibits lung cancer metastasis in a xenograft animal model. Clinically, miR-33a is found to be at low levels in NSCLC patients and down-regulation of miR-33a predicts a poor prognosis. These findings suggest that miR-33a targets Twist1 and inhibits invasion and metastasis in NSCLC. Thus, miR-33a might be a potential prognostic marker and of therapeutic relevance for NSCLC metastasis intervention.

Suppression of C-myc Expression Associates with Anti-Proliferation of Aloe-Emodin on Gastric Cancer Cells

Aloe-emodin is a hydroxyanthraquinone found in Aloe vera, as well as in leaves and roots of other plants. The mechanisms of its anticancer effect are largely unknown. The present study investigated its molecular mechanisms. Crystal violet assay showed that aloe-emodin had a long-term anti-proliferation effect on human gastric cancer MGC-803 and SGC-7901 cells. Scratch wound-healing motility assays indicated its anti-migration effect. Aloe-emodin arrested SGC-7901 cells at G2/M phase. More importantly, aloe-emodin inhibited the expressions of protein kinase C and c-myc. In conclusion, the anticancer effect of aloe-emodin on gastric cancer cells involves suppression of c-myc expression.

Cloning, expression, purification and characterization of the cholera toxin B subunit and triple glutamic acid decarboxylase epitopes fusion protein in Escherichia coli

Induction of specific immunological unresponsiveness by oral autoantigens such as glutamic acid decarboxylase 65 (GAD65) is termed oral tolerance and may be a potential therapy for autoimmune diabetes. However, the requirement for large amounts of protein will limit clinical testing of autoantigens, which are difficult to produce. Mucosal adjuvants such as cholera toxin B subunit (CTB) may lower the level of autoantigens required. Here we describe cloning, expression, purification and identification study of the CTB and triple GAD(531-545) epitopes fusion gene. The fusion gene was ligated via a flexible hinge tetrapeptide and expressed as a soluble protein in Escherichia coli BL21 (DE3) driven by the T7 promoter. We purified the recombination protein from the cell lysate and obtained approximately 2.5mg of CTB-GAD((531-545)3) per liter of culture with greater than 90% purity by a Ni-NTA resin column. The bacteria produced this protein as the pentameric form, which retained the GM1-ganglioside binding affinity and the native antigenicity of CTB and GAD65. Further studies revealed that oral administration of bacterial CTB-GAD((531-545)3) fusion protein showed the prominent reduction in pancreatic islet inflammation in non-obese diabetic mice. The results presented here demonstrate that the bacteria bioreactor is an ideal production system for an oral protein vaccine designed to develop immunological tolerance against autoimmune diabetes.

Novel Insights Into the Role of MicroRNA in Lung Cancer Resistance to Treatment and Targeted Therapy

Lung cancer is one of the most common malignant tumors and is the leading cause of cancer mortality worldwide. However, drug resistance induced by chemotherapeutants to lung cancer cells is the primary issue during the chemotherapy of lung cancer. Many mechanisms such as the changes of drug metabolism related genes and signal pathways are involved in chemoresistance. MicroRNAs (miRNAs) are a class of endogenetic, non-coding, short-chain and small RNAs that regulate cell growth, apoptosis and signal transduction. There are growing numbers of evidence suggesting that miRNA polymorphisms associate with drug metabolism and resistance. In addition, differentially expressed miRNAs play critical roles in the prediction of the sensitivity to chemotherapeutic agents in lung cancer. The recent progress demonstrates that regulation of specific miRNA expression will break novel paths for overcoming lung cancer resistance and the personalized therapy. Together, in this review we have discussed the current understanding of the role of miRNA on drug resistance, and the potential implications of miRNA in lung cancer targeted therapy.

Glutamic acid decarboxylase epitope protects against autoimmune diabetes through activation of Th2 immune response and induction of possible regulatory mechanism

Oral tolerance mediated by autoantigens has been applied successfully as a potential therapeutic strategy for preventing and treating autoimmune diseases. We previously showed cholera toxin B subunit (CTB) is an efficient mucosal carrier molecule for induction of systemic T cell tolerance to linked insulin antigens. In this study, we used an oral antigen consisting of a fusion protein composed of CTB and triple copies of glutamic acid decarboxylase 65 (GAD65) peptides 531-545 (3p531) to test its in vivo effect and investigate the mechanism of immune tolerance. Non-obese diabetic mice fed microgram quantities of the CTB-3p531 fusion protein showed a prominent reduction in pancreatic islet inflammation and a delay in the development of diabetes. Increased anti-GAD65 IgG1, serum IgA and unchanged IgG2a antibodies titers; together with an increase of IL-4, IL-10 production and a decrease of IFN-gamma production suggested possible activation of GAD65-specific Th2 immune responses. Adoptive transfer of splenocytes indicated oral administration of CTB-3p531 fusion protein generated potent regulatory cells that can suppress diabetogenic T cells. This study demonstrates the CTB-3p531 fusion protein protects against autoimmune diabetes by generation of regulatory T cells and induction of immunological tolerance.

The role of MicroRNA in lung cancer drug resistance and targeted therapy

Lung cancer is one of the most common malignant tumors and is the leading cause of cancer mortality worldwide. However, drug resistance induced by chemotherapeutants to lung cancer cells is the primary issue during the chemotherapy of lung cancer. Many mechanisms such as the changes of drug metabolism related genes and signal pathways are involved in the chemoresistance. MicroRNAs (miRNAs) are a class of endogenetic, non-coding, short-chain and small RNAs that regulate cell growth, apoptosis and signal transduction. miRNA polymorphisms associate with drug metabolism and drug resistance formation. Furthermore, differentially expressed miRNAs play critical roles in prediction of the sensitivity to chemotherapeutic agents in lung cancer. Regulation of specific miRNA expression will break a new path for overcoming lung cancer resistance and the personalized therapy. Together, in this chapter we have discussed the current understanding of the role of miRNA on drug resistance, and the potential implications of miRNA in lung cancer targeted therapy.