基于免疫组织化学分析鉴定肺类癌的特定分子亚群及其潜在治疗弱点
Identification of Defined Molecular Subgroups on the Basis of Immunohistochemical Analyses and Potential Therapeutic Vulnerabilities of Pulmonary Carcinoids.
作者信息
Leunissen Daphne J G, Moonen Laura, von der Thüsen Jan H, den Bakker Michael A, Hillen Lisa M, van Weert Tijmen J J, Zur Hausen Axel, van den Bosch Thierry P P, Lap Lisa M V, Damhuis Ronald A, Reynaert Niki L, van den Broek Esther C, Fernandez-Cuesta Lynnette, Foll Matthieu, Alcala Nicolas, Sexton-Oates Alexandra, Dingemans Anne-Marie C, Speel Ernst-Jan M, Derks Jules L
机构信息
Department of Pathology, GROW Research Institute for Oncology and Reproduction, Maastricht University Medical Centre, Maastricht, The Netherlands.
Department of Pathology and Clinical Bioinformatics, Erasmus University Medical Center, Rotterdam, The Netherlands.
出版信息
J Thorac Oncol. 2025 Apr;20(4):451-464. doi: 10.1016/j.jtho.2024.11.018. Epub 2024 Nov 22.
INTRODUCTION
Multi-omic studies have identified three molecular separated pulmonary carcinoid (PC) subgroups (A1, A2, B) with distinctive mRNA expression profiles (e.g., orthopedia homeobox protein [OTP], achaete-scute homolog [ASCL1], and hepatocyte nuclear factor 1 homeobox A [HNF1A]). We aimed to establish an immunohistochemical (IHC) biomarker panel that enables subgroup identification, and assessment of its potential clinical relevance.
METHODS
All patients with resected pulmonary carcinoids (2003-2012) were identified from the Dutch Cancer/Pathology Registry, and tumors were revised. The IHC expression of OTP, ASCL1, and HNF1A was scored in a blinded fashion in a mRNA-profiled (n = 5 per subgroup) and national carcinoid cohort (N = 478). The expression of potential therapeutic targets (somatostatin receptor type 2a [SSTR2A] and delta-like canonical Notch ligand 3 [DLL3]) was assessed. Immunohistochemistry was assessed using H-scoring.
RESULTS
OTP, ASCL1, and HNF1A reported similar IHC and mRNA expression patterns in the matched primary samples. In the national cohort, IHC separated PCs into subgroups A1 (n = 224 [53%], OTP-ASCL1-HNF1A), A2 (n = 161 [38%], OTP-ASCL1-HNF1A), and B (n = 37 [9%], OTP-ASCL1-HNF1A). In 12% of PCs, no distinct classification could be provided. Patients with A1 were enriched for older age (83% > 50 y), female individuals (83%), and peripheral location (55%) with low SSTR2A (median = 10) and high DLL3 (median = 52) expression. A2 included younger patients (34% < 40 y) and endobronchial/central (87%) tumors with high SSTR2A (median = 160), but low DLL3 (median 0) expression. Group B included more male individuals (59%) and recurrence was more frequent (19%) than in groups A1 (8%) and A2 (6%). Neuroendocrine cell hyperplasia was enriched in A1 (25%) compared with A2 (3%) and B (0%).
CONCLUSIONS
An OTP, ASCL1, and HNF1A IHC panel enables the identification of molecular-defined pulmonary carcinoid subgroups with distinct clinical phenotypes and diverging therapeutic vulnerabilities that require further prospective evaluation.
引言
多组学研究已确定了三个分子分离的肺类癌(PC)亚组(A1、A2、B),它们具有独特的mRNA表达谱(例如,正位盒蛋白[OTP]、achaete - scute同源物[ASCL1]和肝细胞核因子1同源盒A[HNF1A])。我们旨在建立一个免疫组织化学(IHC)生物标志物面板,以实现亚组鉴定,并评估其潜在的临床相关性。
方法
从荷兰癌症/病理登记处识别出所有2003 - 2012年接受肺类癌切除术的患者,并对肿瘤进行复查。以盲法对mRNA分析的(每个亚组n = 5)和全国类癌队列(N = 478)中的OTP、ASCL1和HNF1A的IHC表达进行评分。评估潜在治疗靶点(2a型生长抑素受体[SSTR2A]和δ样经典Notch配体3[DLL3])的表达。使用H评分评估免疫组织化学。
结果
OTP、ASCL1和HNF1A在匹配的原发样本中报告了相似的IHC和mRNA表达模式。在全国队列中,IHC将PC分为A1亚组(n = 224[53%],OTP + ASCL1 - HNF1A);A2亚组(n = 161[38%],OTP - ASCL1 + HNF1A)和B亚组(n = 37[9%],OTP - ASCL1 - HNF1A)。在12%的PC中,无法提供明确的分类。A1亚组患者年龄较大(83%>50岁)、女性(83%)且多位于外周(55%),SSTR2A表达低(中位数 = 10),DLL3表达高(中位数 = 52)。A2亚组包括较年轻患者(34%<40岁)和支气管内/中央型(87%)肿瘤,SSTR2A表达高(中位数 = 160),但DLL3表达低(中位数0)。B组男性更多(59%),复发比A1组(8%)和A2组(6%)更频繁(19%)。与A2组(3%)和B组(0%)相比,神经内分泌细胞增生在A1组中更常见(25%)。
结论
OTP、ASCL1和HNF1A的IHC面板能够识别具有不同临床表型和不同治疗易感性的分子定义的肺类癌亚组,这需要进一步的前瞻性评估。
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