Molecular Pathways in Melanomagenesis: What We Learned from Next-Generation Sequencing Approaches

Palmieri, Giuseppe; Colombino, Maria; Casula, Milena; Manca, Antonella; Mandalà, Mario; Cossu, Antonio

doi:10.1007/s11912-018-0733-7

Cited by 58 publications

(87 citation statements)

References 90 publications

(120 reference statements)

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“…The NGS approaches in melanocytic neoplasms have expanded the current knowledge from the clinical and histological features to the molecular alterations, offering insights into their biological implications (Palmieri et al, 2018). The results from whole exome and whole genome sequencing studies in melanomas are available (Berger et al, 2012;Hodis et al, 2012;Krauthammer et al, 2012;TCGA, 2015;Hayward et al, 2017).…”

Section: Molecular Landscape In Melanomamentioning

confidence: 99%

“…UV signature: It is estimated that 75% of genomic sequence variations are CàT substitutions and <5% CCàTT, as a result of the mutagenic UV-radiation. This makes melanoma the cancer with the highest mutational burden (Palmieri et al, 2018). More than 90% of the BRAF mut and NRAS mut melanomas harbor a UV signature (TCGA, 2015) and UV-radiation is thought to predominate during the stages of melanoma development and nevus initiation, since even BRAF and RAS could be attributed to UVA/UVB damage .…”

Section: Molecular Landscape In Melanomamentioning

confidence: 99%

“…It is activated by RAS protein and in turn activates MEK1-2 kinases, which activate ERK1-2. BRAF mutations, which were first characterized in 2002, are reported in 50-66% of melanomas (Davies et al, 2002;Palmieri et al, 2018) and at lower frequency in various cancers. They are all within the kinase domain, with V600E (previously reported as V599E) mutation being the most frequent (90%).…”

Section: Chromosomal Instabilitymentioning

confidence: 99%

“…Yet, it is insufficient for melanoma development. BRAF V600E mutations in melanoma are more frequently identified in younger patients and sites with intermittent sun exposure (Palmieri et al, 2018); these non-CSD melanomas can be associated with nevi. In contrast, high-CSD melanomas have other BRAF mutations, activating NRAS or KIT mutations or loss of function in NF1, they occur in older patients and are not associated with nevi (WHO, 2018).…”

Section: Chromosomal Instabilitymentioning

confidence: 99%

“…In contrast, high-CSD melanomas have other BRAF mutations, activating NRAS or KIT mutations or loss of function in NF1, they occur in older patients and are not associated with nevi (WHO, 2018). BRAF mut melanomas have more commonly PTEN and CDKN2A alterations in comparison to RAS mut and BRAF non-mut /RAS non-mut (Palmieri et al, 2018). It controversially seems that BRAF mutation has no prognostic significance on progression free survival, but it has on the overall survival after melanoma progression (Long et al, 2011).…”

Section: Chromosomal Instabilitymentioning

confidence: 99%

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Identification and clinical evaluation of senescence-associated markers to distinguish melanocytic nevi from melanomas

Orfanidis

2020

Linköping University Medical Dissertations

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Melanoma is a form of cancer that develops in melanocytes. While it represents only 5% of skin malignancies, it is the most aggressive and lethal. Benign proliferation of these cells form the melanocytic nevi. The definitive diagnosis of melanocytic nevi or melanoma lesions is histopathologic. However, it is estimated that a correct diagnosis is established by means of standard skin biopsy in only 83% of the melanocytic lesions; of the remaining cases 8% and 9% are overinterpreted (false positives) and under-interpreted (false negatives), respectively. This underscores the importance of additional diagnostic tests. Since cellular senescence is considered to be a tumor suppressive mechanism, immuno-histochemistry using senescence markers has been suggested for the evaluation of difficult melanocytic lesions; however, the routinely used senescence markers lack the ability to distinguish nevi from melanoma. The general aim of this thesis is therefore to identify novel senescence markers that may aid in melanoma diagnosis.In study I, we established a cellular model with nevus-mimicking characteristics consisting in primary melanocytes that become senescent. Transcriptomic analysis allowed expanding the set of senescence-associated markers that could distinguish nevi from melanoma and identifying tubulin β-3 as a potential diagnostic marker. Depletion of tubulin β-3 and pretreatment with tubulin destabilizing drugs in melanocytes and melanoma cells induced a senescence-like phenotype in vitro. In particular, reduced migration capacity and induction of cell cycle arrest in G2/M phase of the cell cycle was demonstrated.In study II, a potential inter-cellular signaling pathway between melanoma cells and stromal fibroblasts, that might facilitate melanoma invasion, was investigated. Ultraviolet (UV) radiation was shown, both in melanoma cells and fibroblasts, to promote the release and activation of TGF-β1 and subsequent increase in expression of the serine protease FAP-α, a protein that plays role in extracellular matrix degradation and therefore facilitates the invasion of melanoma cells. Such mechanism was not functional in senescent melanocytes.In study III, it was shown that tubulin β-3 immunostaining aids in the diagnosis of nevi and melanomas. The diagnostic criterium was the tubulin β-3 gradient within the melanocytic nevi that was no longer apparent in melanoma. Different patterns of tubulin β-3 immunostaining in melanoma were described, dermoscopy-immunohistochemistry associations were found, specific dermoscopic features highlighted, and the prognostic value of this tubulin β-3 marker was examined. The progression rate in patients whose melanomas had areas with loss of tubulin β-3 was 4 times higher than in patients without this feature, although statistical significance could not be reached (p=0.06).In conclusion, transcriptomic analysis expanded the set of senescence-associated markers that could distinguish nevi from melanoma and identified tubulin β-3 as novel immunohistochemistry marker shown to have diagn...

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Section: Molecular Landscape In Melanomamentioning

confidence: 99%

Section: Molecular Landscape In Melanomamentioning

confidence: 99%

Section: Chromosomal Instabilitymentioning

confidence: 99%

Section: Chromosomal Instabilitymentioning

confidence: 99%

Section: Chromosomal Instabilitymentioning

confidence: 99%

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Identification and clinical evaluation of senescence-associated markers to distinguish melanocytic nevi from melanomas

Orfanidis

2020

Linköping University Medical Dissertations

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Iodinated 4,4’‐Bipyridines with Antiproliferative Activity Against Melanoma Cell Lines

Peluso,

Mamane,

Spissu

et al. 2024

ChemMedChem

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In the last decade, biological processes involving halogen bond (HaB) as a leading interaction attracted great interest. However, although bound iodine atoms are considered powerful HaB donors, few iodinated new drugs were reported so far. Recently, iodinated 4,4’‐bipyridines showed interesting properties as HaB donors in solution and in the solid state. In this paper, a study on the inhibition activity of seven halogenated 4,4’‐bipyridines against malignant melanoma (MM) cell proliferation is described. Explorative dose/response proliferation assays were first performed with three 4,4’‐bipyridines by using four MM cell lines and the normal BJ fibroblast cell line as control. Among them, the A375 MM cell line was the most sensitive, as determined by MTT assays, which was selected to evaluate the antiproliferative activity of all 4,4’‐bipyridines. Significantly, the presence of an electrophilic iodine impacted the biological activity of the corresponding compounds. The 3,3’,5,5’‐tetrachloro‐2‐iodo‐4,4’‐bipyridine showed significant antiproliferation activity against the A375 cell line, and lower toxicity on BJ fibroblasts. Through in silico studies, the stereoelectronic features of possible sites determining the bioactivity were explored. These results pave the way for the utilization of iodinated 4,4’‐bipyridines as templates to design new promising HaB‐enabled inhibitors of MM cell proliferation.

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Molecular Landscape Profile of Melanoma

Palmieri

Colombino

Casula

et al. 2021

New Therapies in Advanced Cutaneous Malignancies

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Molecular Pathways in Melanomagenesis: What We Learned from Next-Generation Sequencing Approaches

Cited by 58 publications

References 90 publications

Identification and clinical evaluation of senescence-associated markers to distinguish melanocytic nevi from melanomas

Identification and clinical evaluation of senescence-associated markers to distinguish melanocytic nevi from melanomas

Iodinated 4,4’‐Bipyridines with Antiproliferative Activity Against Melanoma Cell Lines

Molecular Landscape Profile of Melanoma

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