Literature DB >> 21543894

MicroRNA signatures differentiate melanoma subtypes.

Elcie Chan1, Rajeshvari Patel, Sunitha Nallur, Elena Ratner, Antonella Bacchiocchi, Kathleen Hoyt, Sebastian Szpakowski, Sirie Godshalk, Stephan Ariyan, Mario Sznol, Ruth Halaban, Michael Krauthammer, David Tuck, Frank J Slack, Joanne Barnes Weidhaas.   

Abstract

Melanoma is an aggressive cancer that is highly resistance to therapies once metastasized. We studied microRNA (miRNA) expression in clinical melanoma subtypes and evaluated different miRNA signatures in the background of gain of function somatic and inherited mutations associated with melanoma. Total RNA from 42 patient derived primary melanoma cell lines and three independent normal primary melanocyte cell cultures was evaluated by miRNA array. MiRNA expression was then analyzed comparing subtypes and additional clinicopathologic criteria including somatic mutations. The prevalence and association of an inherited variant in a miRNA binding site in the 3'UTR of the KRAS oncogene, referred to as the KRAS-variant, was also evaluated. We show that seven miRNAs, miR-142-3p, miR-486, miR-214, miR-218, miR-362, miR-650 and miR-31, were significantly correlated with acral as compared to non-acral melanomas (p < 0.04). In addition, we discovered that the KRAS-variant was enriched in non-acral melanoma (25%), and that miR-137 under expression was significantly associated with melanomas with the KRAS-variant. Our findings indicate that miRNAs are differentially expressed in melanoma subtypes and that their misregulation can be impacted by inherited gene variants, supporting the hypothesis that miRNA misregulation reflects biological differences in melanoma.

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Year:  2011        PMID: 21543894      PMCID: PMC3233487          DOI: 10.4161/cc.10.11.15777

Source DB:  PubMed          Journal:  Cell Cycle        ISSN: 1551-4005            Impact factor:   4.534


  36 in total

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Authors:  David P Bartel
Journal:  Cell       Date:  2004-01-23       Impact factor: 41.582

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Journal:  Future Oncol       Date:  2008-04       Impact factor: 3.404

3.  MicroRNA expression profiles classify human cancers.

Authors:  Jun Lu; Gad Getz; Eric A Miska; Ezequiel Alvarez-Saavedra; Justin Lamb; David Peck; Alejandro Sweet-Cordero; Benjamin L Ebert; Raymond H Mak; Adolfo A Ferrando; James R Downing; Tyler Jacks; H Robert Horvitz; Todd R Golub
Journal:  Nature       Date:  2005-06-09       Impact factor: 49.962

4.  A 3'-untranslated region KRAS variant and triple-negative breast cancer: a case-control and genetic analysis.

Authors:  Trupti Paranjape; Helen Heneghan; Robert Lindner; Florence K Keane; Aaron Hoffman; Antoinette Hollestelle; Jemima Dorairaj; Kimberly Geyda; Cory Pelletier; Sunitha Nallur; John Wm Martens; Maartje J Hooning; Michael Kerin; Daniel Zelterman; Yong Zhu; David Tuck; Lyndsay Harris; Nicola Miller; Frank Slack; Joanne Weidhaas
Journal:  Lancet Oncol       Date:  2011-03-22       Impact factor: 41.316

5.  Exploration of tumor-suppressive microRNAs silenced by DNA hypermethylation in oral cancer.

Authors:  Ken-ichi Kozaki; Issei Imoto; Seiki Mogi; Ken Omura; Johji Inazawa
Journal:  Cancer Res       Date:  2008-04-01       Impact factor: 12.701

Review 6.  Pathology of malignant melanoma.

Authors:  Vincent Liu; Martin C Mihm
Journal:  Surg Clin North Am       Date:  2003-02       Impact factor: 2.741

7.  A SNP in a let-7 microRNA complementary site in the KRAS 3' untranslated region increases non-small cell lung cancer risk.

Authors:  Lena J Chin; Elena Ratner; Shuguang Leng; Rihong Zhai; Sunitha Nallur; Imran Babar; Roman-Ulrich Muller; Eva Straka; Li Su; Elizabeth A Burki; Richard E Crowell; Rajeshvari Patel; Trupti Kulkarni; Robert Homer; Daniel Zelterman; Kenneth K Kidd; Yong Zhu; David C Christiani; Steven A Belinsky; Frank J Slack; Joanne B Weidhaas
Journal:  Cancer Res       Date:  2008-10-15       Impact factor: 12.701

8.  BRAF and RAS mutations in human lung cancer and melanoma.

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Journal:  Cancer Res       Date:  2002-12-01       Impact factor: 12.701

9.  A Variant in a MicroRNA complementary site in the 3' UTR of the KIT oncogene increases risk of acral melanoma.

Authors:  S E Godshalk; T Paranjape; S Nallur; W Speed; E Chan; A M Molinaro; A Bacchiocchi; K Hoyt; K Tworkoski; D F Stern; M Sznol; S Ariyan; R Lazova; R Halaban; K K Kidd; J B Weidhaas; F J Slack
Journal:  Oncogene       Date:  2010-11-29       Impact factor: 9.867

10.  miR-124 and miR-137 inhibit proliferation of glioblastoma multiforme cells and induce differentiation of brain tumor stem cells.

Authors:  Joachim Silber; Daniel A Lim; Claudia Petritsch; Anders I Persson; Alika K Maunakea; Mamie Yu; Scott R Vandenberg; David G Ginzinger; C David James; Joseph F Costello; Gabriele Bergers; William A Weiss; Arturo Alvarez-Buylla; J Graeme Hodgson
Journal:  BMC Med       Date:  2008-06-24       Impact factor: 8.775
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  43 in total

1.  Identification of microRNAs associated with invasive and aggressive phenotype in cutaneous melanoma by next-generation sequencing.

Authors:  Sankhiros Babapoor; Rong Wu; James Kozubek; Donna Auidi; Jane M Grant-Kels; Soheil S Dadras
Journal:  Lab Invest       Date:  2017-02-20       Impact factor: 5.662

2.  MicroRNAs as molecular classifiers for cancer.

Authors:  Aaron J Schetter; Curtis C Harris
Journal:  Cell Cycle       Date:  2011-09-01       Impact factor: 4.534

3.  Pigmy MicroRNA: surveillance cops in Therapies kingdom.

Authors:  Utpal Bhadra; Pradipta Patra; Jagamohan Chhatai; Manika Pal-Bhadra
Journal:  Mol Med       Date:  2016-09-28       Impact factor: 6.354

Review 4.  Superficial spreading and nodular melanoma are distinct biological entities: a challenge to the linear progression model.

Authors:  Holly S Greenwald; Erica B Friedman; Iman Osman
Journal:  Melanoma Res       Date:  2012-02       Impact factor: 3.599

Review 5.  miR in melanoma development: miRNAs and acquired hallmarks of cancer in melanoma.

Authors:  Paige E Bennett; Lynne Bemis; David A Norris; Yiqun G Shellman
Journal:  Physiol Genomics       Date:  2013-09-17       Impact factor: 3.107

6.  Regulation of autophagy, NF-κB signaling, and cell viability by miR-124 in KRAS mutant mesenchymal-like NSCLC cells.

Authors:  Anita K Mehta; Kevin Hua; William Whipple; Minh-Thuy Nguyen; Ching-Ti Liu; Johannes Haybaeck; Joanne Weidhaas; Jeff Settleman; Anurag Singh
Journal:  Sci Signal       Date:  2017-09-12       Impact factor: 8.192

7.  There is a world beyond protein mutations: the role of non-coding RNAs in melanomagenesis.

Authors:  Rolf K Swoboda; Meenhard Herlyn
Journal:  Exp Dermatol       Date:  2013-03-12       Impact factor: 3.960

8.  miR-1 and miR-145 act as tumor suppressor microRNAs in gallbladder cancer.

Authors:  Pablo Letelier; Patricia García; Pamela Leal; Héctor Álvarez; Carmen Ili; Jaime López; Jonathan Castillo; Priscilla Brebi; Juan Carlos Roa
Journal:  Int J Clin Exp Pathol       Date:  2014-04-15

Review 9.  SNPing cancer in the bud: microRNA and microRNA-target site polymorphisms as diagnostic and prognostic biomarkers in cancer.

Authors:  David W Salzman; Joanne B Weidhaas
Journal:  Pharmacol Ther       Date:  2012-09-03       Impact factor: 12.310

10.  Downregulation of microRNA-362-3p and microRNA-329 promotes tumor progression in human breast cancer.

Authors:  H Kang; C Kim; H Lee; J G Rho; J-W Seo; J-W Nam; W K Song; S W Nam; W Kim; E K Lee
Journal:  Cell Death Differ       Date:  2015-09-04       Impact factor: 15.828
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