KISS1 metastasis suppression and emergent pathways

被引:0
作者
John F. Harms
Danny R. Welch
Mary E. Miele
机构
[1] The Pennsylvania State University College of Medicine,Jake Gittlen Cancer Research Institute
[2] University of Alabama – Birmingham,Department of Pathology
来源
Clinical & Experimental Metastasis | 2003年 / 20卷
关键词
KISS1; metastin; kisspeptin; AXOR12; GPR54; chromosome 6; metastasis; metastasis-suppressor gene;
D O I
暂无
中图分类号
学科分类号
摘要
Metastatic disease is the most critical impediment to cancer patient survival. However, comparatively little is known concerning the intricate pathways which govern the complex phenotypes associated with metastasis. The KISS1 metastasis suppressor gene inhibits metastasis in both in vivo melanoma and breast carcinoma models. Despite its clear physiological activity, the mechanism of KISS1 remains unclear. Recent identification of a 54 amino acid peptide of KISS1, termed metastin or kisspeptin-54, and its cognate G-protein coupled receptor (hOT7T175, AXOR12, GPR54) have provided additional clues and avenues of research. While studies have attributed KISS1 with modulation of NFκB regulation, experiments with metastin and its receptor implicate MAP kinase pathways and also suggest the potential of autocrine, paracrine and endocrine roles. Impacts on motility, chemotaxis, adhesion and invasion have each been documented in disparate cell lines and conflicting observations require resolution. Nevertheless, mounting clinical evidence, particularly the loss of KISS1 in metastases, correlates KISS1 and metastin receptor expression with human tumor progression. Together, the data substantiate roles for these molecules in metastasis regulation.
引用
收藏
页码:11 / 18
页数:7
相关论文
共 72 条
[1]  
Bailly M(1994)Human melanoma metastasis related to specific adhesion with lung cells rather than direct growth stimulation Clinical & Experimental Metastasis 14 1791-9
[2]  
Zebda N(1991)Characterization of a highly invasive and spontaneously metastatic human malignant melanoma cell line Clinical & Experimental Metastasis 47 227-37
[3]  
Dore JF.(1996)Metastasis suppressed, but tumorigenicity and local invasiveness unaffected, in the human melanoma cell line MelJuSo after introduction of human chromosomes 1 or 6 Clinical & Experimental Metastasis 15 284-99
[4]  
Welch DR(2000)A human melanoma metastasis-suppressor locus maps to 6q16.3-q23 Clinical & Experimental Metastasis 86 524-8
[5]  
Bisi JE(1994)Microcell-mediated transfer of chromosome 6 into metastatic human C8161 melanoma cells suppresses metastasis but does not inhibit tumorigenicity Clinical & Experimental Metastasis 9 255-62
[6]  
Miller BE(1997)Identification of highly expressed genes in metastasis-suppressed chromosome 6/human malignant melanoma hybrid cells using subtractive hybridization and differential display Clinical & Experimental Metastasis 71 1035-44
[7]  
Miele ME(1996)KiSS-1, a novel human malignant melanoma metastasis-suppressor gene Clinical & Experimental Metastasis 88 1731-7
[8]  
Robertson G(2001)Loss of expression of the metastasis suppressor gene KiSS1 during melanoma progression and its association with LOH of chromosome 6q16.3-q23 Clinical & Experimental Metastasis 61 7422-5
[9]  
Lee JH(1997)Suppression of metastasis in human breast carcinoma MDA-MB-435 cells after transfection with the metastasis suppressor gene, KiSS-1 Clinical & Experimental Metastasis 57 2384-7
[10]  
Miele ME(1998)Chromosome localization and genomic structure of the KiSS-1 metastasis suppressor gene (KISS1) Clinical & Experimental Metastasis 54 145-8
12345678