Lysyl oxidase-like 2 (LOXL2) belongs to an amine oxidase family whose members have been implicated in crosslink formation in stromal collagens and elastin, cell motility, and tumor development and progression. We previously demonstrated the association between increased LOXL2 expression and invasive/metastatic behavior in human breast cancer cells and mouse squamous and spindle cell carcinomas, interaction between LOXL2 and SNAIL in epithelial-mesenchymal transition, and localization of the LOXL2 gene to 8p21.2-21.3, within a minimally deleted region in several cancers, including colon and esophagus. In the present study, we analyzed LOXL2 expression in colon and esophageal tumors, and explored methylation as a regulator of LOXL2 expression. Immunohistochemistry using normal tissues demonstrated intracellular localization of LOXL2 in colonic enteroendocrine cells and esophageal squamous cells at the luminal surface, but not in mitotically active cells. Tissue array analysis of 52 colon adenocarcinomas and 50 esophageal squamous cell carcinomas revealed presence of LOXL2 expression in 83 and 92% of the samples, respectively, and a significant association between increased number of LOXL2-expressing cells and less-differentiated colon carcinomas. We determined that the methylation status of the 1150 bp 5' CpG island may contribute to the regulation of the gene. Loss of heterozygosity studies, using a microsatellite within intron 4 of the LOXL2 gene, revealed that loss of LOXL2 was unlikely to play a major role in either colon or esophageal tumors. These results suggest that increased LOXL2 expression in colon and esophageal cancer may contribute to tumor progression.
A growing number of studies indicate the importance of the lysyl oxidase family in the promotion of epithelial neoplasms towards their more aggressive forms. However, the role of individual family members in carcinoma progression has yet to be ascertained. In this study, we analyzed LOXL2 expression in malignantly transformed MCF-7 and normal MCF-10A mammary epithelial cell line clones stably transduced with LOXL2 in vitro, and in normal and cancerous breast tissue samples in vivo. We found LOXL2 to be catalytically active in both MCF-7 and MCF-10 clones. LOXL2 overexpression promoted a more mesenchymal morphology in both cell types, but LOXL2-induced increase in migratory ability could only be established in MCF-7 clones. We demonstrated altered localization of the LOXL2 protein in breast cancer tissue compared to normal mammary tissue, and altered localization and processing of LOXL2 protein in breast cancer cell lines compared to normal cell lines, which may allow LOXL2 to interact with different intra and extracellular components during tumor progression. Results support the role of LOXL2 in selectively promoting a metastatic phenotype in breast tumor cells. Additional data suggest epigenetic molecular mechanisms in tumor specific regulation of LOXL2 expression that could be explored as a molecular target in the prevention of breast cancer progression. ' UICCKey words: LOXL2; epigenetic regulation; breast cancer Lysyl oxidase-like 2 (LOXL2) belongs to a family of 5 proteins characterized by a conserved carboxy-terminal copper-binding domain and a lysyl-tyrosyl quinone cofactor, which are necessary for the amine oxidase activity of these extracellular matrix (ECM) enzymes.1,2 Indeed, catalytic activity for LOXL2 has been confirmed in Chinese hamster ovary cells.3 This study also reported that LOXL2 activity was not inhibited by b-aminoproprionitrile (BAPN), making it different from the BAPN-sensitive catalytic activity reported for LOX, 4 LOXL, 5,6 and LOXL4, 7 despite the high homology within their catalytic region. The relationship between the catalytic activity and physiologic or pathologic function of LOXL2 has yet to be characterized.In our previous studies, we reported high levels of LOXL2 mRNA expression in highly invasive, metastatic breast cancer cell lines and highly tumorigenic, metastatic mouse squamous and spindle cell carcinomas, compared to absent expression in noninvasive, nonmetastatic breast cancer cell lines and a nontumorigenic keratinocyte cell line. 8,9 At the tissue level, we reported the association of increased LOXL2 protein expression with poorly differentiated colon adenocarcinoma and mucinous carcinoma, both of which have aggressive behavior and high incidence of metastasis.10,11 This observation is supported by a recent report of increased LOXL2 mRNA expression in colon tumors and liver metastases compared to normal colon. 12 In breast cancer, increased LOXL2 protein expression was associated with higher tumor grade, decreased overall and disease-free survival in lymphnode negat...
The extracellular matrix (ECM) plays a critical role during the development and invasion of primary brain tumours. However, the function of ECM components and signalling between a permissive ECM and invasive astrocytes is not fully understood. We have recently reported the ECM enzyme, lysyl oxidase (LOX), in the central nervous system and observed up-regulation of LOX in anaplastic astrocytoma cells. While the catalytic function of LOX is essential for cross-linking of ECM proteins, we also reported that LOX induced invasive and metastatic properties in breast tumour epithelial cells through hydrogen peroxide-mediated FAK/Src activation. In this study, we tested the hypothesis that active LOX is expressed in anaplastic astrocytes and promotes FAK activation and invasive/migratory behaviour. Results demonstrate that increased expression and activity of LOX positively correlated with invasive phenotype of malignant astrocytoma cell lines. Immunohistochemistry detected increased LOX within tumour cells and ECM in grade I-IV astrocytic neoplasm compared with normal brain and coincidence of increased LOX with the loss of glial fibrillary acidic protein in higher-grade tumours. Increased active LOX in invasive astrocytes was accompanied by phosphorylation of FAK[Tyr576] and paxillin[Tyr118]; furthermore, both FAK and paxillin tyrosine phosphorylation were diminished by beta-aminopropionitrile inhibition of LOX activity and depletion of H(2)O(2) via catalase treatment. Additionally, we provide evidence that in astrocytes, LOX is likely processed by bone morphogenic protein-1 and LOX activity might be further stimulated by the expression of fibronectin in these cells. These results demonstrate an important LOX-mediated mechanism that promotes migratory/invasive behaviour of malignant astrocytes.
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