Sweet Kevin, Willis Joseph, Zhou Xiao-Ping, Gallione Carol, Sawada Takeshi, Alhopuro Pia, Khoo Sok Kean, Patocs Attila, Martin Cossette, Bridgeman Scott, Heinz John, Pilarski Robert, Lehtonen Rainer, Prior Thomas W, Frebourg Thierry, Teh Bin Tean, Marchuk Douglas A, Aaltonen Lauri A, Eng Charis
Clinical Cancer Genetics Program, Comprehensive Cancer Center, The Ohio State University, Columbus, USA.
JAMA. 2005 Nov 16;294(19):2465-73. doi: 10.1001/jama.294.19.2465.
Significant proportions of patients with hamartomatous polyposis or with hyperplastic/mixed polyposis remain without specific clinical and molecular diagnosis or present atypically. Assigning a syndromic diagnosis is important because it guides management, especially surveillance and prophylactic surgery.
To systematically classify patients with unexplained hamartomatous or hyperplastic/mixed polyposis by extensive molecular analysis in the context of central rereview of histopathology results.
DESIGN, SETTING, AND PATIENTS: Prospective, referral-based study of 49 unrelated patients from outside institutions (n = 28) and at a comprehensive cancer center (n = 21), conducted from May 2, 2002, until December 15, 2004. Germline analysis of PTEN, BMPR1A, STK11 (sequence, deletion), SMAD4, and ENG (sequence), specific exon screening of BRAF, MYH, and BHD, and rereview of polyp histology results were performed.
Molecular, clinical, and histopathological findings in patients with unexplained polyposis.
Of the 49 patients, 11 (22%) had germline mutations. Of 14 patients with juvenile polyposis, 2 with early-onset disease had mutations in ENG, encoding endoglin, previously only associated with hereditary hemorrhagic telangiectasia; 1 had hemizygous deletion encompassing PTEN and BMPR1A; and 1 had an SMAD4 mutation. One individual previously classified with Peutz-Jeghers syndrome had a PTEN deletion. Among 9 individuals with an unknown hamartomatous polyposis, 4 had mutations in STK11 (1), BMPR1A (2), and SMAD4 (1). Of the 23 patients with hyperplastic/mixed polyposis, 2 had PTEN mutations. Substantial discrepancies in histopathology results were seen.
Systematic molecular classification of 49 patients with unexplained hamartomatous or hyperplastic polyposis uncovered a potential novel susceptibility gene, ENG, for juvenile polyposis. Importantly, given the substantial proportion of patients found to have germline mutations, more extensive analysis of the known susceptibility genes is indicated. Rereview of histology results by a dedicated gastrointestinal pathologist should be considered routinely, as organ-specific surveillance rests on defining syndromic diagnosis.
错构瘤性息肉病患者或增生性/混合性息肉病患者中有相当比例仍未得到特异性临床和分子诊断,或表现不典型。做出综合征诊断很重要,因为它指导治疗,尤其是监测和预防性手术。
在对组织病理学结果进行集中重新评估的背景下,通过广泛的分子分析对不明原因的错构瘤性或增生性/混合性息肉病患者进行系统分类。
设计、地点和患者:2002年5月2日至2004年12月15日,对来自外部机构的49名无亲属关系患者(28名)和一家综合癌症中心的患者(21名)进行了一项基于转诊的前瞻性研究。对PTEN、BMPR1A、STK11(测序、缺失)、SMAD4和ENG(测序)进行种系分析,对BRAF、MYH和BHD进行特定外显子筛查,并重新评估息肉组织病理学结果。
不明原因息肉病患者的分子、临床和组织病理学发现。
49名患者中,11名(22%)有生殖系突变。在14名幼年息肉病患者中,2名早发性疾病患者的ENG发生突变,ENG编码内皮糖蛋白,以前仅与遗传性出血性毛细血管扩张症相关;1名患者有包含PTEN和BMPR1A的半合子缺失;1名患者有SMAD4突变。1名先前被归类为黑斑息肉综合征的个体有PTEN缺失。在9名不明错构瘤性息肉病患者中,4名患者的STK11(1名)、BMPR1A(2名)和SMAD4(1名)发生突变。在23名增生性/混合性息肉病患者中,2名有PTEN突变。组织病理学结果存在显著差异。
对49名不明原因错构瘤性或增生性息肉病患者进行系统分子分类,发现了一种潜在的幼年息肉病新易感基因ENG。重要的是,鉴于发现有生殖系突变的患者比例相当大,表明需要对已知的易感基因进行更广泛的分析。由于器官特异性监测取决于明确综合征诊断,因此应常规考虑由专门的胃肠病理学家重新评估组织学结果。
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