Melanoblast transcriptome analysis reveals pathways promoting melanoma metastasis

被引:0
|
作者
Kerrie L. Marie
Antonella Sassano
Howard H. Yang
Aleksandra M. Michalowski
Helen T. Michael
Theresa Guo
Yien Che Tsai
Allan M. Weissman
Maxwell P. Lee
Lisa M. Jenkins
M. Raza Zaidi
Eva Pérez-Guijarro
Chi-Ping Day
Kris Ylaya
Stephen M. Hewitt
Nimit L. Patel
Heinz Arnheiter
Sean Davis
Paul S. Meltzer
Glenn Merlino
Pravin J. Mishra
机构
[1] National Institutes of Health,Laboratory of Cancer Biology and Genetics, Center for Cancer Research, National Cancer Institute
[2] Johns Hopkins Medical Institutions,Department of Otolaryngology—Head and Neck Surgery, Sidney Kimmel Comprehensive Cancer Center
[3] National Cancer Institute,Laboratory of Protein Dynamics and Signaling, Center for Cancer Research
[4] National Institutes of Health,Laboratory of Cell Biology, Center for Cancer Research, National Cancer Institute
[5] Lewis Katz School of Medicine at Temple University,Fels Institute for Cancer Research and Molecular Biology
[6] National Institutes of Health,Experimental Pathology Laboratory, Center for Cancer Research, National Cancer Institute
[7] Leidos Biomedical Research Inc.,Small Animal Imaging Program, Frederick National Laboratory for Cancer Research
[8] National Institute of Health,Mammalian Development Section, National Institute of Neurological Disorders and Stroke
[9] National Institutes of Health,Genetics Branch, Center for Cancer Research, National Cancer Institute
[10] Ohio State University Comprehensive Cancer Center,James Cancer Hospital and Solove Research Institute
来源
Nature Communications | / 11卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Cutaneous malignant melanoma is an aggressive cancer of melanocytes with a strong propensity to metastasize. We posit that melanoma cells acquire metastatic capability by adopting an embryonic-like phenotype, and that a lineage approach would uncover metastatic melanoma biology. Using a genetically engineered mouse model to generate a rich melanoblast transcriptome dataset, we identify melanoblast-specific genes whose expression contribute to metastatic competence and derive a 43-gene signature that predicts patient survival. We identify a melanoblast gene, KDELR3, whose loss impairs experimental metastasis. In contrast, KDELR1 deficiency enhances metastasis, providing the first example of different disease etiologies within the KDELR-family of retrograde transporters. We show that KDELR3 regulates the metastasis suppressor, KAI1, and report an interaction with the E3 ubiquitin-protein ligase gp78, a regulator of KAI1 degradation. Our work demonstrates that the melanoblast transcriptome can be mined to uncover targetable pathways for melanoma therapy.
引用
收藏
相关论文
共 50 条
  • [1] Melanoblast transcriptome analysis reveals pathways promoting melanoma metastasis
    Marie, Kerrie L.
    Sassano, Antonella
    Yang, Howard H.
    Michalowski, Aleksandra M.
    Michael, Helen T.
    Guo, Theresa
    Tsai, Yien Che
    Weissman, Allan M.
    Lee, Maxwell P.
    Jenkins, Lisa M.
    Zaidi, M. Raza
    Perez-Guijarro, Eva
    Day, Chi-Ping
    Ylaya, Kris
    Hewitt, Stephen M.
    Patel, Nimit L.
    Arnheiter, Heinz
    Davis, Sean
    Meltzer, Paul S.
    Merlino, Glenn
    Mishra, Pravin J.
    NATURE COMMUNICATIONS, 2020, 11 (01)
  • [2] Using embryonic melanoblast transcriptome analysis to identify novel mechanisms promoting metastatic melanoma
    Mishra, Pravin J.
    Guo, Theresa
    Zaidi, Raza
    Davis, Sean
    Arnheiter, Heinz
    Walker, Robert L.
    Meltzer, Paul
    Merlino, Glenn
    CANCER RESEARCH, 2012, 72
  • [3] Bioinformatic analysis reveals hub genes and pathways that promote melanoma metastasis
    Wenxing Su
    Yi Guan
    Biao Huang
    Juanjuan Wang
    Yuqian Wei
    Ying Zhao
    Qingqing Jiao
    Jiang Ji
    Daojiang Yu
    Longjiang Xu
    BMC Cancer, 20
  • [4] Bioinformatic analysis reveals hub genes and pathways that promote melanoma metastasis
    Su, Wenxing
    Guan, Yi
    Huang, Biao
    Wang, Juanjuan
    Wei, Yuqian
    Zhao, Ying
    Jiao, Qingqing
    Ji, Jiang
    Yu, Daojiang
    Xu, Longjiang
    BMC CANCER, 2020, 20 (01)
  • [5] Transcriptome Analysis Reveals Key Genes and Pathways Associated with Metastasis in Breast Cancer
    Li, Wei
    Liu, Jianling
    Zhang, Bin
    Bie, Qingli
    Qian, Hui
    Xu, Wenrong
    ONCOTARGETS AND THERAPY, 2020, 13 : 323 - 335
  • [6] Myosin X is required for efficient melanoblast migration and melanoma initiation and metastasis
    Hiroshi Tokuo
    Jag Bhawan
    Lynne M. Coluccio
    Scientific Reports, 8
  • [7] Myosin X is required for efficient melanoblast migration and melanoma initiation and metastasis
    Tokuo, Hiroshi
    Bhawan, Jag
    Coluccio, Lynne M.
    SCIENTIFIC REPORTS, 2018, 8
  • [8] P-Rex1 is required for efficient melanoblast migration and melanoma metastasis
    Lindsay, Colin R.
    Lawn, Samuel
    Campbell, Andrew D.
    Faller, William J.
    Rambow, Florian
    Mort, Richard L.
    Timpson, Paul
    Li, Ang
    Cammareri, Patrizia
    Ridgway, Rachel A.
    Morton, Jennifer P.
    Doyle, Brendan
    Hegarty, Shauna
    Rafferty, Mairin
    Murphy, Ian G.
    McDermott, Enda W.
    Sheahan, Kieran
    Pedone, Katherine
    Finn, Alexander J.
    Groben, Pamela A.
    Thomas, Nancy E.
    Hao, Honglin
    Carson, Craig
    Norman, Jim C.
    Machesky, Laura M.
    Gallagher, William M.
    Jackson, Ian J.
    Van Kempen, Leon
    Beermann, Friedrich
    Der, Channing
    Larue, Lionel
    Welch, Heidi C.
    Ozanne, Brad W.
    Sansom, Owen J.
    NATURE COMMUNICATIONS, 2011, 2
  • [9] Transcriptome analysis from a linear melanoma progression model reveals lncRNAs involved with malignancy, EMT and metastasis.
    Ayub, Ana L.
    Pessoa, Diogo
    Sejour, Lenial A.
    Vlachos, Ioannis
    Nsengimana, Jeremie
    Newton-Bishop, Julia
    Reis, Eduardo M.
    Slack, Frank J.
    Jasiulionis, Miriam G.
    CANCER RESEARCH, 2021, 81 (13)
  • [10] P-Rex1 is required for efficient melanoblast migration and melanoma metastasis
    Colin R. Lindsay
    Samuel Lawn
    Andrew D. Campbell
    William J. Faller
    Florian Rambow
    Richard L. Mort
    Paul Timpson
    Ang Li
    Patrizia Cammareri
    Rachel A. Ridgway
    Jennifer P. Morton
    Brendan Doyle
    Shauna Hegarty
    Mairin Rafferty
    Ian G. Murphy
    Enda W. McDermott
    Kieran Sheahan
    Katherine Pedone
    Alexander J. Finn
    Pamela A. Groben
    Nancy E. Thomas
    Honglin Hao
    Craig Carson
    Jim C. Norman
    Laura M. Machesky
    William M. Gallagher
    Ian J. Jackson
    Leon Van Kempen
    Friedrich Beermann
    Channing Der
    Lionel Larue
    Heidi C. Welch
    Brad W. Ozanne
    Owen J. Sansom
    Nature Communications, 2
12345