Requirement of KISS1 Secretion for Multiple Organ Metastasis Suppression and Maintenance of Tumor Dormancy
| Autor: | John C. Kappes, Stephen C. Peiper, Pushkar A. Phadke, Kedar S. Vaidya, Danny R. Welch, Kevin T. Nash, Elizabeth Sztul, Mary Ann Accavitti-Loper, Jean-Marc Navenot, Douglas R. Hurst, Andra R. Frost |
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| Jazyk: | angličtina |
| Rok vydání: | 2007 |
| Předmět: |
Cancer Research
Pathology medicine.medical_specialty Green Fluorescent Proteins Fluorescent Antibody Technique CHO Cells Kaplan-Meier Estimate Biology Article Metastasis Receptors G-Protein-Coupled Metastasis Suppression Paracrine signalling Mice Cricetulus Kisspeptins Cell Line Tumor Cricetinae medicine Animals Humans RNA Messenger Melanoma Reverse Transcriptase Polymerase Chain Reaction Chinese hamster ovary cell Tumor Suppressor Proteins Transfection medicine.disease Gene Expression Regulation Neoplastic Metastasis Suppressor Gene Oncology Cell culture Cancer research Receptors Kisspeptin-1 Signal Transduction |
| Popis: | Background The KISS1 protein suppresses metastasis of several tumor models without blocking orthotopic tumor growth, but the mechanism remains elusive. For its role in human sexual maturation, KISS1 protein is secreted and processed to kisspeptins, which bind to the G protein-coupled receptor GPR54. We tested the hypothesis that KISS1 secretion is required for metastasis suppression via GPR54. Methods KISS1 containing an internal FLAG epitope with (KFM) or without (KFMdeltaSS) a signal sequence was transfected into C8161.9 human melanoma cells, which do not express endogenous KISS1. Whole-cell lysates and conditioned medium from C8161.9(KFM) and C8161.9(KFMdeltaSS) cells were collected and analyzed for kisspeptins by immunoprecipitation and enzyme-linked immunosorbent assay. GPR54 levels were measured using real-time reverse transcription-polymerase chain reaction. The ability of conditioned medium from C8161.9(KFM) and C8161.9(KFMdeltaSS) cells to stimulate calcium mobilization in GPR54-expressing Chinese hamster ovary cells (CHO-G) and in C8161.9 cells was evaluated. Metastasis was monitored in athymic mice (groups of 10 per experiment) that were injected with C8161.9(KFM) or C8161.9(KFMdeltaSS) cells labeled with enhanced green fluorescent protein. Survival of mice injected with C8161.9 or C8161.9(KFM) cells was analyzed by Kaplan-Meier methods. Results Full-length KFM and KFMdeltaSS were detected in whole-cell lysates of C8161.9(KFM) and C8161.9(KFMdeltaSS) cells, respectively, but kisspeptins were detected only in conditioned medium of C8161.9(KFM) cells. In vivo, C8161.9(KFM), but not C8161.9(KFMdeltaSS), cells were suppressed for metastasis to lung, eye, kidney, and bone, with corresponding differences in mouse survival (median > 120 versus 42 days). C8161.9(KFM) cells seeded mouse lungs but did not form macroscopic metastases. Conditioned medium from C8161.9(KFM), but not C8161.9(KFMdeltaSS), cells stimulated calcium mobilization in CHO-G cells. GPR54 expression was low in C8161.9 cells, which were not stimulated by conditioned medium from C8161.9(KFM) cells. Conclusions KISS1 secretion was required for multiple organ metastasis suppression and for maintenance of disseminated cells in a dormant state. The absence of GPR54 expression in C8161.9 cells (whose metastatic spread was suppressed by KFM) suggests that metastasis suppression is not mediated through this receptor. The results imply the existence of another KISS1 receptor and/or paracrine signaling. The findings raise the possibility that soluble KISS1, kisspeptins, or mimetics could be used to maintain tumor dormancy, rendering treatment of already disseminated tumor cells (i.e., micrometastases) a legitimate target. |
| Databáze: | OpenAIRE |
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