Department of Dermatology, Hospital del Mar, Universitat Autònoma de Barcelona (UAB), Barcelona, Spain.
Group of Inflammatory and Neoplastic Dermatological Diseases, IMIM (Hospital del Mar Medical Research Institute), Barcelona, Spain.
Genes Chromosomes Cancer. 2019 Mar;58(3):164-174. doi: 10.1002/gcc.22712. Epub 2019 Jan 7.
Although most cutaneous squamous cell carcinomas (cSCCs) develop from actinic keratoses (AKs), the key events in this evolution remain unclear. We have combined the results of different genomic and expression array platforms on matched concomitant samples of sun-exposed skin (SES), AK, and cSCC from 10 immunocompetent patients. Gene expression analysis and copy number alterations were assessed using GeneChip Human Gene 2.0 ST Array (Affymetrix, Santa Clara, CA) and CytoScan HD Cytogenetics Solution (Affymetrix) platforms, respectively. Integration of transcriptome and genome results was evaluated using the DR-Integrator tool. Additional studies (qPCR, immunohistochemistry, and Western blot) were performed for selected genes. FOSL1 and BNC1 encode transcription factors whose expression was increased in cSCC in the expression array and the qPCR. By immunohistochemistry, FOSL1 showed an intense staining at the invasive front of cSCC samples and BNC1 expression varied from a nuclear (SES) to a cytoplasmic location (cSCC). Western blot analyses confirmed the enhancement of FOSL1 and BNC1. In addition, the smallest overlapping regions (SORIs) of genomic imbalance involving at least three of the samples were selected. One of the SORIs was a deletion in the p24.1 band of chromosome 3, shared by seven of the cSCCs. A strong correlation in the integration analysis was found for NEK10, a gene contained in the previously mentioned SORI. Loss of NEK10 expression in cSCC was confirmed by immunohistochemistry and Western blot analyses. In addition, functional studies in NEK10 depleted cells were performed. In conclusion, we identified FOSL1 and BNC1, which could act as tumor drivers, and NEK10, which could function as a tumor suppressor, to be differentially expressed during cSCC development.
虽然大多数皮肤鳞状细胞癌 (cSCC) 是从光化性角化病 (AK) 发展而来,但这一演变过程中的关键事件仍不清楚。我们结合了来自 10 名免疫功能正常患者的匹配同时期的暴露于阳光的皮肤 (SES)、AK 和 cSCC 的不同基因组和表达谱平台的结果。使用 GeneChip Human Gene 2.0 ST 阵列 (Affymetrix,Santa Clara,CA) 和 CytoScan HD 细胞遗传学解决方案 (Affymetrix) 平台分别评估基因表达分析和拷贝数改变。使用 DR-Integrator 工具评估转录组和基因组结果的整合。对选定基因进行了额外的研究 (qPCR、免疫组织化学和 Western blot)。在表达谱和 qPCR 中,FOSL1 和 BNC1 编码转录因子,其表达在 cSCC 中增加。通过免疫组织化学,FOSL1 在 cSCC 样本的侵袭前沿显示出强烈的染色,而 BNC1 的表达从核 (SES) 变为细胞质位置 (cSCC)。Western blot 分析证实了 FOSL1 和 BNC1 的增强。此外,选择了涉及至少三个样本的基因组失衡的最小重叠区域 (SORI)。SORI 之一是染色体 3 的 p24.1 带缺失,7 个 cSCC 中都存在这种缺失。在整合分析中,发现包含在上述 SORI 中的基因 NEK10 之间存在很强的相关性。通过免疫组织化学和 Western blot 分析证实了 cSCC 中 NEK10 表达的丧失。此外,在 NEK10 耗尽的细胞中进行了功能研究。总之,我们确定了 FOSL1 和 BNC1,它们可能作为肿瘤驱动因子,以及 NEK10,它可能作为肿瘤抑制因子,在 cSCC 发展过程中表达不同。
