Jian Min Luo

Chemokine decoy receptor d6 plays a negative role in human breast cancer.

Chemokine binding protein D6 is a promiscuous decoy receptor that can inhibit inflammation in vivo; however, the role it plays in cancer is not well known yet. In this study, we showed for the first time that human breast cancer differentially expressed D6 and the expression could be regulated by some cytokines. More importantly, overexpression of D6 in human breast cancer cells inhibits proliferation and invasion in vitro and tumorigenesis and lung metastasis in vivo. This inhibition is associated with decreased chemokines (e.g., CCL2 and CCL5), vessel density, and tumor-associated macrophage infiltration. Furthermore, D6 expression is inversely correlated to lymph node metastasis as well as clinical stages, but positively correlated to disease-free survival rate in cancer patients. Therefore, D6 plays a negative role in the growth and metastasis of breast cancer. (Mol Cancer Res 2008;6(8):1276–88)

MicroRNA-200a Promotes Anoikis Resistance and Metastasis by Targeting YAP1 in Human Breast Cancer

Purpose: The process of metastases involves the dissociation of cells from the primary tumor, penetration into the basement membrane, invasion, and exiting from the vasculature to seed and colonize distant tissues. miR-200a is involved in this multistep metastatic cascade. This study aimed to test the hypothesis that miR-200a promotes metastasis through increased anoikis resistance in breast cancer. Experimental Design: Breast cancer cells transfected with mimic or inhibitor for miR-200a were assayed for anoikis in vitro. miR-200a expression was assessed by quantitative real-time PCR (qRT-PCR). Luciferase assays, colony formation assays, and animal studies were conducted to identify the targets of miR-200a and the mechanism by which it promotes anoikis resistance. Results: We found that overexpression of miR-200a promotes whereas inhibition of miR-200a suppresses anoikis resistance in breast cancer cells. We identified Yes-associated protein 1 (YAP1) as a novel target of miR-200a. Our data showed that targeting of YAP1 by miR-200a resulted in decreased expression of proapoptotic proteins, which leads to anoikis resistance. Overexpression of miR-200a protected tumor cells from anoikis and promoted metastases in vivo. Furthermore, knockdown of YAP1 phenocopied the effects of miR-200a overexpression, whereas restoration of YAP1 in miR-200a overexpressed breast cancer cells reversed the effects of miR-200a on anoikis and metastasis. Remarkably, we found that YAP1 expression was inversely correlated with miR-200a expression in breast cancer clinical specimens, and miR-200a expression was associated with distant metastasis in patients with breast cancer. Conclusions: Our data suggest that miR-200a functions as anoikis suppressor and contributes to metastasis in breast cancer. Clin Cancer Res; 19(6); 1389–99. ©2013 AACR.

Dominant-negative E-cadherin inhibits the invasiveness of inflammatory breast cancer cells in vitro

E-cadherin is a transmembrane glycoprotein which mediates epithelial cell-to-cell adhesion function as a tumor suppressor and frequently loss of expression in a wide spectrum of human cancer. However, recent studies demonstrated that E-cadherin was always over-expressed in inflammatory breast cancer (IBC) specimen and cell lines, which is a clinical extreme malignancy of breast cancer. It is hypothesized that the gain and not the loss of the E-cadherin axis contributes to the IBC unique phenotype. To test this assumption, we generated dominant negative mutant E-cadherin high-expression inflammatory breast cancer cells by introduced dominant negative mutant E-cadherin (H-2kd-E-cad) cDNA into human IBC SUM149 cells. Our studies demonstrated that the ability of invasion of SUM149 cells was significantly inhibited by H-2kd-E-cad via down-regulation of MMP-1 and MMP-9 expression. The underlying signal pathway of MAPK phosphorylated Erk 1/2(P44/42) in H-2kd-E-cad-transfected SUM149 cells was significantly down-regulated compared to parental and mock contrast. Our studies provided further functional evidence as the gain of E-cadherin expression dedicated to the IBC malignant phenotype and the blockage of MAPK/Erk activation maybe a promising therapeutic target.

Expression of CXCL14 and its anticancer role in breast cancer

CXCL14, also known as breast and kidney-expressed chemokine, was initially identified as a chemokine highly expressed in the kidney and breast. The exact function of CXCL14 in human breast cancer is still unclear, although it has been testified to play an anti-tumor role in other tumors, including head and neck squamous cell carcinoma, lung cancer, prostate cancer, and so on. In this study, we tried to demonstrate the relationship between CXCL14 and breast cancer. CXCL14 expressions were detected by reverse transcription-PCR and western blot in 2 normal breast epithelial cell lines and 6 breast cancer cell lines. The effects of CXCL14 on the proliferation and invasion in vitro were tested using the CXCL14-overexpressing cells (MDA-MB-231HM-CXCL14) which were established by stable transfection. We established an orthotropic xenograft tumor model in SCID mice using the MDA-MB-231HM-CXCL14 cells and explored the influence of CXCL14 overexpression on tumor growth and metastasis in vivo. Furthermore, we detected the protein level of CXCL14 in 208 breast cancer patients by immunohistochemistry and discussed the correlation between CXCL14 and the prognosis of breast cancer. CXCL14 mRNA expression is lower in breast cancer cell lines, and MDA-MB-231HM express the lowest levels of CXCL14 mRNA. Overexpression of CXCL14 inhibited cell proliferation and invasion in vitro and attenuated xenograft tumor growth and lung metastasis in vivo. CXCL14 protein level is positively correlated to the overall survival of all patients as well as the patients with lymph node metastasis, and it has a negative correlation with the lymph node metastasis. Our study showed for the first time that CXCL14 is a negative regulator of growth and metastasis in breast cancer. The re-expression or up-regulation of this gene may provide a novel strategy in breast cancer therapy in the future.

Models for predicting BRCA1 and BRCA2 mutations in Han Chinese familial breast and/or ovarian cancer patients

Purpose Our aim was to find an appropriate method to estimate the likelihood that a family history of cancer was a result of a mutation in the BRCA1 or BRCA2 genes. We also compared the performance of the established method with three different methods (Couch, Sh-E and BRCApro) to identify an alternative strategy for genetic council targeted to the specified population. Patients and methods The family history as well as individual information of two hundred unrelated probands who had completed BRCA1 and BRCA2 mutation screening was analyzed to assess the likelihood of a pathogenic mutation. A model was developed by empirical method. The performance of this model was validated in a separate patient cohort compared with BRCApro. Results Several factors were associated with mutations in univariate analysis and a logistic model was devised to estimate the probability for a proband of harboring a mutation in BRCA1 and/or BRCA2. Using a greater than 10% probability threshold, the highest accuracy was achieved by the established model when compared to other three models, presenting the highest sensitivity, PPV, NPV and area under ROC curve. The empirical model showed a better ROC curve compared to BRCApro in the verification cohort. Conclusion A probability model targeted to Han Chinese population should be a useful tool in the genetic counseling for the specified ethnic. Its ability to predict BRCA2 mutation carriers needs to be improved.