Molecular profiling, including TERT promoter mutations, of acral lentiginous melanomas

Acral lentiginous melanoma (ALM) is the less common subtype with singular characterization. TERT (human telomerase reverse transcriptase) promoter mutations have being described as recurrent in melanomas and infrequent in ALM, but their real incidence and clinical relevance is unclear. The objectives of this study were to describe the prevalence of TERT promoter mutations in ALM, and correlate with the molecular profile of other drive genes and clinical features. Sixty-one samples from 48 patients with ALM were analyzed. After DNA isolation, the mutation profiles of the hotspot region of BRAF, NRAS, KIT, PDGFRA, and TERT genes were determined by PCR amplification followed by direct Sanger sequencing. KIT, PDGFRA, and VEGFR2 gene amplification was performed by quantitative PCR. Clinical information such as survival, clinical stage, and Breslow tumor classification were obtained from medical records. TERT promoter mutations were found in 9.3% of the cases, BRAF in 10.3%, NRAS in 7.5%, KIT in 20.7%, and PDGFRA in 14.8% of ALM. None of the cases showed KIT, PDGFRA, or VEGFR2 gene amplification. We found an association between KIT mutations and advanced Clark level (IV and V, P=0.043) and TERT promoter mutations with low mitotic index. No other significant associations were observed between mutation profile and patients’ clinical features nor survival rates. Oncogenic TERT promoter mutations are present in a fraction of ALMs. No relevant associations were found between TERT mutation status and clinical/molecular features nor survival. Mutations of KIT and PDGFRA are the most common genetic alterations, and they can be therapeutic targets for these patients.

[1]  Christine S. M. Lau,et al.  Malignant Melanoma in African–Americans , 2017, Medicine.

[2]  A. Giobbie-Hurder,et al.  Phase II Study of Nilotinib in Melanoma Harboring KIT Alterations Following Progression to Prior KIT Inhibition , 2015, Clinical Cancer Research.

[3]  J. Fregnani,et al.  Melanoma characteristics in Brazil: demographics, treatment, and survival analysis , 2015, BMC Research Notes.

[4]  J. Malvehy,et al.  Dermoscopic criteria associated with BRAF and NRAS mutation status in primary cutaneous melanoma , 2014, The British journal of dermatology.

[5]  J. Fregnani,et al.  KRAS and BRAF mutations and MSI status in precursor lesions of colorectal cancer detected by colonoscopy. , 2014, Oncology reports.

[6]  R. Reis,et al.  Low frequency of TERT promoter mutations in gastrointestinal stromal tumors (GISTs) , 2014, European Journal of Human Genetics.

[7]  D. Schadendorf,et al.  TERT promoter mutation status as an independent prognostic factor in cutaneous melanoma. , 2014, Journal of the National Cancer Institute.

[8]  Y. Jeng,et al.  TERT promoter mutation is uncommon in acral lentiginous melanoma , 2014, Journal of cutaneous pathology.

[9]  C. Ariyan,et al.  The GIST of Targeted Therapy for Malignant Melanoma , 2014, Annals of Surgical Oncology.

[10]  K. Hemminki,et al.  TERT promoter mutations in cancer development. , 2014, Current opinion in genetics & development.

[11]  L. Kanter‐Lewensohn,et al.  KIT, NRAS, BRAF and PTEN mutations in a sample of Swedish patients with acral lentiginous melanoma. , 2013, Journal of dermatological science.

[12]  J. Chang Acral melanoma: a unique disease in Asia. , 2013, JAMA dermatology.

[13]  Xiaowei Xu,et al.  Large-scale Analysis of PDGFRA Mutations in Melanomas and Evaluation of Their Sensitivity to Tyrosine Kinase Inhibitors Imatinib and Crenolanib , 2013, Clinical Cancer Research.

[14]  C. Ariyan,et al.  Melanoma mutagenesis and aberrant cell signaling. , 2013, Cancer control : journal of the Moffitt Cancer Center.

[15]  A. D. Van den Abbeele,et al.  Imatinib for melanomas harboring mutationally activated or amplified KIT arising on mucosal, acral, and chronically sun-damaged skin. , 2013, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[16]  Miguel Melo,et al.  Frequency of TERT promoter mutations in human cancers , 2013, Nature Communications.

[17]  J. Ho,et al.  C-kit Expression of Melanocytic Neoplasm and Association With Clinicopathological Parameters and Anatomic Locations in Chinese People , 2013, The American Journal of dermatopathology.

[18]  S. Vieira,et al.  Epidemiological and histopathological profile of cutaneous melanoma at a center in northeastern Brazil from 2000 to 2010* , 2013, Anais brasileiros de dermatologia.

[19]  B. Gontijo,et al.  Epidemiological aspects of melanoma at a university hospital dermatology center over a period of 20 years* , 2013, Anais brasileiros de dermatologia.

[20]  A. Carvalho,et al.  In Vitro and In Vivo Analysis of RTK Inhibitor Efficacy and Identification of Its Novel Targets in Glioblastomas. , 2013, Translational oncology.

[21]  K. Aldape,et al.  Frequency and spectrum of BRAF mutations in a retrospective, single-institution study of 1112 cases of melanoma. , 2013, The Journal of molecular diagnostics : JMD.

[22]  D. Schadendorf,et al.  TERT Promoter Mutations in Familial and Sporadic Melanoma , 2013, Science.

[23]  J. Malvehy,et al.  Genetic alterations in RAS‐regulated pathway in acral lentiginous melanoma , 2013, Experimental dermatology.

[24]  J. Lortet-Tieulent,et al.  International trends in the incidence of malignant melanoma 1953–2008—are recent generations at higher or lower risk? , 2013, International journal of cancer.

[25]  K. Flaherty,et al.  Combined BRAF and MEK inhibition in melanoma with BRAF V600 mutations. , 2012, The New England journal of medicine.

[26]  C. Ng,et al.  NRAS mutation status is an independent prognostic factor in metastatic melanoma , 2012, Cancer.

[27]  H. Koga,et al.  Assessment of BRAF and KIT mutations in Japanese melanoma patients. , 2012, Journal of dermatological science.

[28]  Lisa Rydén,et al.  Increased gene copy number of KIT and VEGFR2 at 4q12 in primary breast cancer is related to an aggressive phenotype and impaired prognosis , 2012, Genes, chromosomes & cancer.

[29]  S. O’Day,et al.  Sunitinib Therapy for Melanoma Patients with KIT Mutations , 2012, Clinical Cancer Research.

[30]  E. J. Lee,et al.  KIT amplification and gene mutations in acral/mucosal melanoma in Korea , 2011, APMIS : acta pathologica, microbiologica, et immunologica Scandinavica.

[31]  K. Flaherty,et al.  Large-Scale Analysis of KIT Aberrations in Chinese Patients with Melanoma , 2011, Clinical Cancer Research.

[32]  C. Brennan,et al.  PDGFRA gene rearrangements are frequent genetic events in PDGFRA-amplified glioblastomas. , 2010, Genes & development.

[33]  S. Woodman,et al.  Targeting KIT in melanoma: a paradigm of molecular medicine and targeted therapeutics. , 2010, Biochemical pharmacology.

[34]  D. Hudson,et al.  Melanoma in black South Africans. , 2010, Journal of the American College of Surgeons.

[35]  T. Terada Low incidence of KIT gene mutations and no PDGFRA gene mutations in primary cutaneous melanoma: an immunohistochemical and molecular genetic study of Japanese cases , 2010, International Journal of Clinical Oncology.

[36]  A. Dobrovic,et al.  Clinical responses observed with imatinib or sorafenib in melanoma patients expressing mutations in KIT , 2010, British Journal of Cancer.

[37]  A. Dobrovic,et al.  Mutations in KIT occur at low frequency in melanomas arising from anatomical sites associated with chronic and intermittent sun exposure , 2010, Pigment cell & melanoma research.

[38]  S. Woodman,et al.  Correlation between KIT expression and KIT mutation in melanoma: a study of 173 cases with emphasis on the acral-lentiginous/mucosal type , 2009, Modern Pathology.

[39]  C. Portwine,et al.  A Canadian paediatric brain tumour consortium (CPBTC) phase II molecularly targeted study of imatinib in recurrent and refractory paediatric central nervous system tumours. , 2009, European journal of cancer.

[40]  A. Ashworth,et al.  Expression, mutation and copy number analysis of platelet-derived growth factor receptor A (PDGFRA) and its ligand PDGFA in gliomas , 2009, British Journal of Cancer.

[41]  R. Reis,et al.  Low frequency of MAP kinase pathway alterations in KIT and PDGFRA wild‐type GISTs , 2009, Histopathology.

[42]  T. Saida,et al.  Pathological activation of KIT in metastatic tumors of acral and mucosal melanomas , 2009, International journal of cancer.

[43]  Susan Muller,et al.  KIT Gene Mutations and Copy Number in Melanoma Subtypes , 2008, Clinical Cancer Research.

[44]  L. Akslen,et al.  Mutation analysis of the EGFR–NRAS–BRAF pathway in melanomas from black Africans and other subgroups of cutaneous melanoma , 2008, Melanoma research.

[45]  D. Pinkel,et al.  Absence of PDGFRA mutations in primary melanoma. , 2008, The Journal of investigative dermatology.

[46]  J. Reis-Filho,et al.  Molecular Alterations of KIT Oncogene in Gliomas , 2007, Cellular oncology : the official journal of the International Society for Cellular Oncology.

[47]  Andreas von Deimling,et al.  Characterization of the amplicon on chromosomal segment 4q12 in glioblastoma multiforme. , 2007, Neuro-oncology.

[48]  T. Suzuki,et al.  Genetic and epigenetic alterations in the differential diagnosis of malignant melanoma and spitzoid lesion , 2007, The British journal of dermatology.

[49]  R. Marais,et al.  Melanoma biology and new targeted therapy , 2007, Nature.

[50]  D. Pinkel,et al.  Somatic activation of KIT in distinct subtypes of melanoma. , 2006, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[51]  G. Saldanha,et al.  Cutaneous Melanoma Subtypes Show Different BRAF and NRAS Mutation Frequencies , 2006, Clinical Cancer Research.

[52]  J. Fridlyand,et al.  Distinct sets of genetic alterations in melanoma. , 2005, The New England journal of medicine.

[53]  R. MacKie,et al.  Prevalence of exon 15 BRAF mutations in primary melanoma of the superficial spreading, nodular, acral, and lentigo maligna subtypes. , 2005, The Journal of investigative dermatology.

[54]  H. Koga,et al.  Constitutive activation of the mitogen-activated protein kinase signaling pathway in acral melanomas. , 2005, The Journal of investigative dermatology.

[55]  M. Trivett,et al.  Distinct clinical and pathological features are associated with the BRAF(T1799A(V600E)) mutation in primary melanoma. , 2007, The Journal of investigative dermatology.

[56]  J. Davison,et al.  Absence of V599E BRAF mutations in desmoplastic melanomas , 2005, Cancer.

[57]  Kazuhiro Takahashi,et al.  BRAF point mutations in primary melanoma show different prevalences by subtype. , 2004, The Journal of investigative dermatology.

[58]  G. Reifenberger,et al.  Frequent alterations of Ras signaling pathway genes in sporadic malignant melanomas , 2004, International journal of cancer.

[59]  Ajay N. Jain,et al.  Determinants of BRAF mutations in primary melanomas. , 2003, Journal of the National Cancer Institute.

[60]  A. Katalinic,et al.  Epidemiology of cutaneous melanoma and non‐melanoma skin cancer in Schleswig‐Holstein, Germany: incidence, clinical subtypes, tumour stages and localization (epidemiology of skin cancer) , 2003, The British journal of dermatology.

[61]  P. Meltzer,et al.  A genome-based strategy uncovers frequent BRAF mutations in melanoma. , 2002, Cancer cell.

[62]  A. Nicholson,et al.  Mutations of the BRAF gene in human cancer , 2002, Nature.

[63]  C. Patterson,et al.  Genomic structure of the human KDR/flk-1 gene , 1998, Mammalian Genome.

[64]  W. Clark,et al.  The classification of malignant melanoma and its histologic reporting , 1973, Cancer.

[65]  W. Clark,et al.  The histogenesis and biologic behavior of primary human malignant melanomas of the skin. , 1969, Cancer research.

[66]  K. Flaherty,et al.  Prevalence of BRAF V600E mutation in Chinese melanoma patients: large scale analysis of BRAF and NRAS mutations in a 432-case cohort. , 2012, European journal of cancer.

[67]  J. Gershenwald,et al.  Targeted therapy for melanoma: a primer. , 2011, Surgical oncology clinics of North America.

[68]  J. Q. Rosso,et al.  Acral Lentiginous Melanoma: Incidence and Survival Patterns in the United States, 1986-2005 , 2010 .

[69]  D. Schadendorf,et al.  Highly Recurrent TERT Promoter Mutations in Human Melanoma , 2022 .