Laser capture microdissection provides a novel molecular profile of human primary cutaneous melanoma

Laser capture microdissection provides a novel molecular profile of human primary cutaneous melanoma

Melanoma accounts for the majority of skin cancer‐related mortality, highlighting the need to better understand melanoma initiation and progression. In‐depth molecular analysis of neoplastic melanocytes in whole tissue biopsies may be diluted by inflammatory infiltration, which may obscure gene sign...

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Veröffentlicht in:Pigment cell and melanoma research 2024-01, Vol.37 (1), p.81-89
Hauptverfasser: Navrazhina, Kristina, Garcet, Sandra, Williams, Samuel C., Gulati, Nicholas, Kiecker, Felix, Frew, John W., Mitsui, Hiroshi, Krueger, James G.
Format: Artikel
Sprache:eng
Schlagworte:
Biopsy
Cell proliferation
Gene expression
Gene Expression Profiling - methods
Genes
Humans
Inflammation
Kinases
Laser Capture Microdissection
melanocyte
Melanocytes
Melanoma
Melanoma - genetics
Metastases
pigmentation
proliferation
Skin cancer
Skin Neoplasms - genetics
Tissue analysis
Tumor cells
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container_end_page 89
container_issue 1
container_start_page 81
container_title Pigment cell and melanoma research
container_volume 37
creator Navrazhina, Kristina
Garcet, Sandra
Williams, Samuel C.
Gulati, Nicholas
Kiecker, Felix
Frew, John W.
Mitsui, Hiroshi
Krueger, James G.
description Melanoma accounts for the majority of skin cancer‐related mortality, highlighting the need to better understand melanoma initiation and progression. In‐depth molecular analysis of neoplastic melanocytes in whole tissue biopsies may be diluted by inflammatory infiltration, which may obscure gene signatures specific to neoplastic cells. Thus, a method is needed to precisely uncover molecular changes specific to tumor cells from a limited sample of primary melanomas. Here, we performed laser capture microdissection (LCM) and gene expression profiling of patient‐derived frozen sections of pigmented lesions and primary cutaneous melanoma. Compared to bulk tissue analysis, analysis of LCM‐derived samples identified 9528 additional differentially expressed genes (DEGs) including melanocyte‐specific genes like PMEL and TYR, with enriched of pathways related to cell proliferation. LCM methodology also identified potentially targetable kinases specific to melanoma cells that were not detected by bulk tissue analysis. Taken together, our data demonstrate that there are marked differences in gene expression profiles depending on the method of sample isolation. We found that LCM captured higher expression of melanoma‐related genes while whole tissue biopsy identified a wider range of inflammatory markers. Taken together, our data demonstrate that LCM is a valid approach to identify melanoma‐specific changes using a relatively small amount of primary patient‐derived melanoma sample. Comparison of laser capture microdissection (LCM) and whole tissue analysis formolecular profiling of primary human melanoma Created with Biorender.com.
doi_str_mv 10.1111/pcmr.13121
format Article
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subjects Biopsy
Cell proliferation
Gene expression
Gene Expression Profiling - methods
Genes
Humans
Inflammation
Kinases
Laser Capture Microdissection
melanocyte
Melanocytes
Melanoma
Melanoma - genetics
Metastases
pigmentation
proliferation
Skin cancer
Skin Neoplasms - genetics
Tissue analysis
Tumor cells
title Laser capture microdissection provides a novel molecular profile of human primary cutaneous melanoma
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