The role of members of the insulin-like superfamily in human thyroid carcinoma is primarily unknown. Here we demonstrate the presence of RLN2 relaxin and relaxin receptor LGR7 in human papillary, follicular, and undifferentiated anaplastic thyroid carcinoma suggesting a specific involvement of relaxin-LGR7 signaling in thyroid carcinoma. Stable transfectants of the LGR7-positive human follicular thyroid carcinoma cell lines FTC-133 and FTC-238 that secrete bioactive proRLN2 revealed this hormone to act as a multifunctional endocrine factor in thyroid carcinoma cells. Although RLN2 did not act as a mitogen, it acted as an autocrine/paracrine factor and significantly increased anchorage-independent growth and thyroid carcinoma cell motility and invasiveness through elastin matrices. In recent years, the multifunctional peptide hormone relaxin has been identified as an important endocrine player in the reproductive tract, cardiovascular/neural systems, and oncology.1,2 The thyroid was once considered to be a relaxin target tissue with relaxin reported to increase thyroid weight, radioactive iodine uptake, and protein-bound iodination in rats.3,4 Likely because of the crude relaxin preparations used at the time, these results could not be confirmed. 5 No further investigations were reported thereafter using highly purified relaxin preparations to validate a potential role of relaxin in thyroid tissues and thyroid cell lines. Some 40 years later, the discovery of the G-protein-coupled relaxin-like receptors LGR7 and LGR8 revealed the presence of transcripts for both LGR7 (relaxin receptor) and LGR8 (INSL3/relaxin receptor) in the thyroid gland. 6 -8 Relaxin and the relaxin-like INSL3 have been shown to activate cAMP-dependent signaling pathways by binding to either LGR7 or LGR8. 8 -12 We recently demonstrated the expression and regulation of INSL3 and LGR8 transcripts in human thyroid carcinoma cell lines, identifying hyper-and neoplastic human thyrocytes as a new source and target of the actions of INSL3 and a novel INSL3 splice variant. 8,13 Although still primarily undefined, relaxin appears to have oncogenic potential in various organs and tissues, including the human thyroid.14 -17 Relaxin affects proliferation and differentiation of MCF-7 human carcinoma cells in a concentration-dependent manner 18 and can modify the extracellular matrix by affecting the expresSupported by the Deutsche Forschungsgemeinschaft (grants KL1249/5-1
Relaxin and INSL3 are novel autocrine/paracrine insulin-like hormones in tumor biology. Both effectors can bind to and activate the leucine-rich G-protein coupled receptors LGR7 relaxin receptor) or LGR8 (relaxin/INSL3 receptor). These relaxin-like ligand-receptor systems modulate cellular functions and activate signaling cascades in a tumor-specific context leading to changes in tumor cell proliferation, altered motility/migration and enhanced production/secretion ofpotent proteolytic enzymes. Matrix-metalloproteinases (MMP), tissue inhibitors of metalloproteinases (TIMP) and acid hydrolases such as cathepsins can facilitate tissue degradation and represent important proteolytic mediators of relaxin-like actions on tumor cell invasion and metastasis. This review presents recent new findings and emphasises the important functions of the relaxin/INSL3 ligand-receptor system as novel autocrine/paracrine effectors influencing tumor progression and tissue invasiveness.
In this study, we identified differential expression of immunoreactive matrix metalloproteinase 2 (MMP2)/ gelatinase A, membrane-anchored MT1-MMP/MMP14, and human relaxin-2 (RLN2) in human benign and malignant thyroid tissues. MMP2 and MT1-MMP were detected in the majority of thyroid cancer tissues and colocalized with RLN2-positive cells. MMP2 was mostly absent in goiter tissues and, similar to RLN2, may serve as a marker for thyroid cancer. MMP2 and MT1-MMP were identified as novel RLN2 targets. RLN2 caused a significant downregulation of tissue inhibitor of MMP (TIMP) 3 protein levels but did not change the expression levels of MMP13, and TIMP1, TIMP2, and TIMP4 in human thyroid carcinoma cells. RLN2 failed to affect the expression of MMP1, 3, 8, and 9 in the thyroid carcinoma cells investigated. Stable RLN2 transfectants secreted enhanced levels of bioactive MMP2 which contributed to the increased collagenolytic activity and in vitro invasiveness into collagen matrix by human thyroid cancer cells. Three-dimensional reconstitution of confocal fluorescent microscopy images revealed larger-sized invadopodia, with intense MT1-MMP accumulation at the leading migrating edge in RLN2 transfectants when compared with enhanced green fluorescent protein clones. In RLN2 transfectants actin stress fibers contributed to pseudopodia formation. In conclusion, enhanced tumor cell invasion by RLN2 involves the formation of MT1-MMP-enriched invadopodia that lead to increased collagenolytic cell invasion by human thyroid cancer cells. Mol Cancer Res; 9(6); 673-87. Ó2011 AACR.
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