HNF-1B及一组谱系特异性生物标志物在优化胰腺导管腺癌诊断中的应用
Utility of HNF-1B and a panel of lineage-specific biomarkers to optimize the diagnosis of pancreatic ductal adenocarcinoma.
作者信息
Bai Shi, Lindberg James, Whalen Giles, Bathini Venu, Zou Jian, Yang Michelle X
机构信息
Department of Pathology, University of Massachusetts Memorial Health Care Worcester, MA, USA.
Surgical Oncology, University of Massachusetts Memorial Health Care Worcester, MA, USA.
出版信息
Am J Cancer Res. 2021 Mar 1;11(3):858-865. eCollection 2021.
Pancreatic ductal adenocarcinoma (PDAC) represents one of the most common cancers with dismal prognosis. Definitive diagnosis of PDAC remains challenging due to the lack of specific biomarkers. A transcription factor essential for pancreatic development named HNF-1B can be a potential biomarker for PDAC. However, HNF-1B was not entirely specific for PDAC and can be expressed in cancers of Müllerian tract, kidney, lung, bladder and prostate. To solve this issue, we investigated the expression of a panel of well-established lineage-specific biomarkers for non-pancreatic origins, including TTF1 and Napsin A for lung, RCC for kidney, ER and PR for breast, NKX3.1 for prostate, PAX8 for Müllerian tract, GATA3 for breast and bladder, and keratin CK7 and CK20 in 149 PDACs, using immunohistochemistry and tissue microarray. A two-tier scoring system for HNF-1B expression in tumor cells was used. Chi-square and Fisher's exact tests were performed using SAS software version 9.4 to test the association between HNF-1B expression and tumor morphology and differentiation. The results showed that PAX8 was focally positive in 6 cases (4.0%). GATA3 was focally positive in 5 cases (3.4%). Napsin A was all negative except for 1 case with focal weak staining. All other lineage-specific markers such as TTF1, RCC, ER, PR and NKX3.1 were completely negative in all PDACs. Consistent with our previous result, the majority of PDACs (88.6%) was positive for HNF-1B, including 78 cases (59.1%) with "strong" and 54 cases (40.9%) with "weak" staining pattern. There was no significant association between HNF-1B expression and cytoplasmic clearing morphology. Addition of keratins may further aid the diagnosis of PDAC since the majority of PDACs (84.6%) was CK7+/CK20-, only a minority of PDACs (11.4%) was CK7+/CK20+, 2.7% were CK-/CK20-, and 1.3% were CK7-/CK20+. In conclusion, HNF-1B can serve as a useful biomarker to aid the diagnosis of PDAC when combined with other lineage-specific biomarkers to exclude the other origins.
胰腺导管腺癌(PDAC)是最常见的癌症之一,预后很差。由于缺乏特异性生物标志物,PDAC的明确诊断仍然具有挑战性。一种对胰腺发育至关重要的转录因子HNF-1B可能是PDAC的潜在生物标志物。然而,HNF-1B并非完全特异性地存在于PDAC中,它也可在苗勒管、肾脏、肺、膀胱和前列腺的癌症中表达。为了解决这个问题,我们利用免疫组织化学和组织芯片,研究了一组已确定的非胰腺来源的谱系特异性生物标志物在149例PDAC中的表达情况,这些生物标志物包括用于肺的TTF1和Napsin A、用于肾脏的RCC、用于乳腺的ER和PR、用于前列腺的NKX3.1、用于苗勒管的PAX8、用于乳腺和膀胱的GATA3,以及角蛋白CK7和CK20。我们使用了一种针对肿瘤细胞中HNF-1B表达的两级评分系统。使用SAS 9.4软件进行卡方检验和Fisher精确检验,以检验HNF-1B表达与肿瘤形态和分化之间的关联。结果显示,PAX8在6例(4.0%)中呈局灶性阳性。GATA3在5例(3.4%)中呈局灶性阳性。除1例有局灶性弱阳性染色外,Napsin A均为阴性。所有其他谱系特异性标志物,如TTF1、RCC、ER、PR和NKX3.1在所有PDAC中均完全阴性。与我们之前的结果一致,大多数PDAC(88.6%)的HNF-1B呈阳性,其中78例(59.1%)为“强”染色模式,54例(40.9%)为“弱”染色模式。HNF-1B表达与细胞质透明形态之间无显著关联。添加角蛋白可能有助于进一步诊断PDAC,因为大多数PDAC(84.6%)为CK7+/CK20-,只有少数PDAC(11.4%)为CK7+/CK20+,2.7%为CK-/CK20-,1.3%为CK7-/CK20+。总之,当与其他谱系特异性生物标志物联合使用以排除其他来源时,HNF-1B可作为一种有用的生物标志物辅助PDAC的诊断。
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