Tan Wai Jin, Lai Johnathan C, Thike Aye Aye, Lim Jeffrey Chun Tatt, Tan Sie Yong, Koh Valerie Cui Yun, Lim Tse Hui, Bay Boon Huat, Tan Min-Han, Tan Puay Hoon
Department of Pathology, Singapore General Hospital, 20 College Road, Academia, Diagnostics Tower, Singapore, 169856, Singapore.
Breast Cancer Res Treat. 2014 Jun;145(3):635-45. doi: 10.1007/s10549-014-2982-y. Epub 2014 May 16.
Phyllodes tumours of the breast are uncommon fibroepithelial neoplasms which pose management challenges due to difficulties in accurate prediction of clinical behaviour, as histological assessment has its limitations. Molecular studies have improved the understanding of these rare tumours but such findings are scant. We aimed to investigate genetic aberrations in phyllodes tumours stratified according to clinical behaviour, to identify potential genes contributing to disease progression. Twenty phyllodes tumours were separated into prognostically distinct categories depending on whether they had recurred/metastasized within the follow-up period. DNA extracted from FFPE materials was subjected to Affymetrix OncoScan™ FFPE Express molecular inversion probe microarray platform for analysis of copy number changes and mutational status. Results were cross validated with Sanger sequencing, FISH and immunohistochemistry. A higher number of chromosomal aberrations were observed in cases which recurred/metastasized, with median events of 19 compared to 3.5 in cases which did not recur/metastasize. High-level amplification and homozygous deletions were detected exclusively in the former group. Regions of high-level amplification included MDM4 (1q32.1), RAF1 (3p25), EGFR (7p12) and PDZD2 (5p13.3). EGFR amplification was confirmed on FISH and accompanied by intense EGFR immunostaining. Regions of homozygous deletion included CDKN2A (9p21) and MACROD2 (20p12.1). Homozygous deletion of 9p21 which involved CDKN2A was accompanied by loss of protein expression. No mutations were identified in all samples. These findings provide insights into identifying target genes and pathways exploited by phyllodes tumours, which would aid future development of individualised therapy.
乳腺叶状肿瘤是一种罕见的纤维上皮性肿瘤,由于难以准确预测其临床行为,组织学评估又存在局限性,因此在治疗上颇具挑战。分子研究虽增进了我们对这些罕见肿瘤的了解,但相关研究结果却很有限。我们旨在研究根据临床行为分层的叶状肿瘤中的基因畸变,以确定导致疾病进展的潜在基因。20例叶状肿瘤根据随访期内是否复发/转移被分为预后不同的类别。从福尔马林固定石蜡包埋(FFPE)材料中提取的DNA采用Affymetrix OncoScan™ FFPE Express分子倒置探针微阵列平台进行拷贝数变化和突变状态分析。结果通过桑格测序、荧光原位杂交(FISH)和免疫组化进行交叉验证。在复发/转移的病例中观察到更多的染色体畸变,复发/转移病例的中位事件数为19,而未复发/转移病例为3.5。高水平扩增和纯合缺失仅在前一组中检测到。高水平扩增区域包括MDM4(1q32.1)、RAF1(3p25)、表皮生长因子受体(EGFR,7p12)和PDZD2(5p13.3)。FISH证实了EGFR扩增,并伴有强烈的EGFR免疫染色。纯合缺失区域包括细胞周期蛋白依赖性激酶抑制剂2A(CDKN2A,9p21)和MACROD2(20p12.1)。涉及CDKN2A的9p21纯合缺失伴随着蛋白表达缺失。所有样本均未发现突变。这些发现为识别叶状肿瘤利用的靶基因和途径提供了见解,这将有助于未来个体化治疗的发展。
