TY - JOUR
T1 - Integrative genome comparison of primary and metastatic melanomas
AU - Kabbarah, Omar
AU - Nogueira, Cristina
AU - Feng, Bin
AU - Nazarian, Rosalynn M.
AU - Bosenberg, Marcus
AU - Wu, Min
AU - Scott, Kenneth L.
AU - Kwong, Lawrence N.
AU - Xiao, Yonghong
AU - Cordon-Cardo, Carlos
AU - Granter, Scott R.
AU - Ramaswamy, Sridhar
AU - Golub, Todd
AU - Duncan, Lyn M.
AU - Wagner, Stephan N.
AU - Brennan, Cameron
AU - Chin, Lynda
PY - 2010
Y1 - 2010
N2 - A cardinal feature of malignant melanoma is its metastatic propensity. An incomplete view of the genetic events driving metastatic progression has been a major barrier to rational development of effective therapeutics and prognostic diagnostics for melanoma patients. In this study, we conducted global genomic characterization of primary and metastatic melanomas to examine the genomic landscape associated with metastatic progression. In addition to uncovering three genomic subclasses of metastastic melanomas, we delineated 39 focal and recurrent regions of amplification and deletions, many of which encompassed resident genes that have not been implicated in cancer or metastasis. To identify progressionassociated metastasis gene candidates, we applied a statistical approach, Integrative Genome Comparison (IGC), to define 32 genomic regions of interest that were significantly altered in metastatic relative to primary melanomas, encompassing 30 resident genes with statistically significant expression deregulation. Functional assays on a subset of these candidates, including MET, ASPM, AKAP9, IMP3, PRKCA, RPA3, and SCAP2, validated their pro-invasion activities in human melanoma cells. Validity of the IGC approach was further reinforced by tissue microarray analysis of Survivin showing significant increased protein expression in thick versus thin primary cutaneous melanomas, and a progression correlation with lymph node metastases. Together, these functional validation results and correlative analysis of human tissues support the thesis that integrated genomic and pathological analyses of staged melanomas provide a productive entry point for discovery of melanoma metastases genes.
AB - A cardinal feature of malignant melanoma is its metastatic propensity. An incomplete view of the genetic events driving metastatic progression has been a major barrier to rational development of effective therapeutics and prognostic diagnostics for melanoma patients. In this study, we conducted global genomic characterization of primary and metastatic melanomas to examine the genomic landscape associated with metastatic progression. In addition to uncovering three genomic subclasses of metastastic melanomas, we delineated 39 focal and recurrent regions of amplification and deletions, many of which encompassed resident genes that have not been implicated in cancer or metastasis. To identify progressionassociated metastasis gene candidates, we applied a statistical approach, Integrative Genome Comparison (IGC), to define 32 genomic regions of interest that were significantly altered in metastatic relative to primary melanomas, encompassing 30 resident genes with statistically significant expression deregulation. Functional assays on a subset of these candidates, including MET, ASPM, AKAP9, IMP3, PRKCA, RPA3, and SCAP2, validated their pro-invasion activities in human melanoma cells. Validity of the IGC approach was further reinforced by tissue microarray analysis of Survivin showing significant increased protein expression in thick versus thin primary cutaneous melanomas, and a progression correlation with lymph node metastases. Together, these functional validation results and correlative analysis of human tissues support the thesis that integrated genomic and pathological analyses of staged melanomas provide a productive entry point for discovery of melanoma metastases genes.
UR - http://www.scopus.com/inward/record.url?scp=77956285837&partnerID=8YFLogxK
U2 - 10.1371/journal.pone.0010770
DO - 10.1371/journal.pone.0010770
M3 - Article
C2 - 20520718
AN - SCOPUS:77956285837
SN - 1932-6203
VL - 5
JO - PLoS ONE
JF - PLoS ONE
IS - 5
M1 - e10770
ER -