Peacock Zachary S, Schwab Joseph H, Faquin William C, Hornicek Francis J, Benita Yair, Ebb David H, Kaban Leonard B
Assistant Professor, Department of Oral and Maxillofacial Surgery, Massachusetts General Hospital and Harvard School of Dental Medicine, Boston, MA.
Assistant Professor, Department of Orthopaedics, Massachusetts General Hospital and Harvard Medical School, Boston, MA.
J Oral Maxillofac Surg. 2017 Feb;75(2):298-308. doi: 10.1016/j.joms.2016.07.014. Epub 2016 Jul 26.
To compare the genetic and protein expression of giant cell lesions (GCLs) of the maxillofacial (MF) and axial/appendicular (AA) skeletons. We hypothesized that when grouped according to biologic behavior and not simply by location, MF and AA GCLs would exhibit common genetic characteristics.
This was a prospective and retrospective study of patients with GCLs treated at Massachusetts General Hospital from 1993 to 2008. In a preliminary prospective study, fresh tissue from 6 aggressive tumors each from the MF and AA skeletons (n = 12 tumors) was obtained. RNA was extracted and amplified from giant cells (GCs) and stromal cells first separated by laser capture microdissection. Genes highly expressed by GCs and stroma at both locations were determined using an Affymetrix GeneChip analysis. As confirmation, a tissue microarray (TMA) was created retrospectively from representative tissue of preserved pathologic specimens to assess the protein expression of the commonly expressed genes found in the prospective study. Quantification of immunohistochemical staining of MF and AA lesions was performed using Aperio image analysis to determine whether immunoreactivity was predictive of aggressive or nonaggressive behavior.
Five highly ranked genes were found commonly in GCs and stroma at each location: matrix metalloproteinase-9 (MMP-9), cathepsin K (CTSK), T-cell immune regulator-1 (TCIRG1), C-type lectin domain family-11, and zinc finger protein-836. MF (n = 40; 32 aggressive) and AA (n = 48; 28 aggressive) paraffin-embedded tumors were included in the TMA. The proteins CTSK, MMP-9, and TCIRG1 were confirmed to have abundant expression within both MF and AA lesions. Only the staining levels for TCIRG1 within the GCs predicted the clinical behavior of the MF lesions.
MMP-9, CTSK, and TCIRG1 are commonly expressed by GCLs of the MF and AA skeletons. This supports the hypothesis that these lesions are similar but at different locations. TCIRG1 has not been previously associated with GCLs and could be a potential target for molecular diagnosis and/or therapy.
比较颌面部(MF)和中轴/附属骨骼(AA)巨细胞病变(GCLs)的基因和蛋白表达。我们假设,根据生物学行为而非简单的位置进行分组时,MF和AA GCLs将表现出共同的遗传特征。
这是一项对1993年至2008年在马萨诸塞州总医院接受治疗的GCLs患者进行的前瞻性和回顾性研究。在一项初步前瞻性研究中,从MF和AA骨骼各6例侵袭性肿瘤(n = 12个肿瘤)中获取新鲜组织。首先通过激光捕获显微切割分离巨细胞(GCs)和基质细胞,然后从其中提取RNA并进行扩增。使用Affymetrix基因芯片分析确定两个部位的GCs和基质中高表达的基因。作为验证,从保存的病理标本的代表性组织中回顾性构建组织微阵列(TMA),以评估前瞻性研究中发现的共同表达基因的蛋白表达。使用Aperio图像分析对MF和AA病变的免疫组织化学染色进行定量,以确定免疫反应性是否可预测侵袭性或非侵袭性行为。
在每个部位的GCs和基质中共同发现了五个排名靠前的基因:基质金属蛋白酶-9(MMP-9)、组织蛋白酶K(CTSK)、T细胞免疫调节因子-1(TCIRG1)、C型凝集素结构域家族-11和锌指蛋白-836。TMA纳入了MF(n = 40;32例侵袭性)和AA(n = 48;28例侵袭性)石蜡包埋肿瘤。证实蛋白CTSK、MMP-9和TCIRG1在MF和AA病变中均有丰富表达。只有GCs内TCIRG1的染色水平可预测MF病变的临床行为。
MMP-9、CTSK和TCIRG1在MF和AA骨骼的GCLs中共同表达。这支持了这些病变相似但位于不同部位的假设。TCIRG1此前尚未与GCLs相关联,可能是分子诊断和/或治疗的潜在靶点。
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