Tsuda Yusuke, Okajima Koichi, Ishibashi Yuki, Zhang Liuzhe, Hirai Toshihide, Kage Hidenori, Shinozaki-Ushiku Aya, Oda Katsutoshi, Tanaka Sakae, Kobayashi Hiroshi
Department of Orthopedic Surgery, The University of Tokyo Hospital, Tokyo 113-8655, Japan.
Department of Oral and Maxillofacial Surgery, The University of Tokyo Hospital, Tokyo 113-8655, Japan.
Med Int (Lond). 2024 Feb 22;4(2):17. doi: 10.3892/mi.2024.141. eCollection 2024 Mar-Apr.
Malignant giant cell tumor of bone (GCTB) is identified by the presence of multinucleated giant cells, with an aggressive behavior and a high risk of metastasis, which has not been genetically characterized in detail. H3 histone family member 3A () gene mutations are highly recurrent and specific in GCTB. The present study analyzed the clinical information and genomic sequencing data of eight cases of malignant GCTB (out of 384 bone sarcoma samples) using an anonymized genomic database. There were 5 males and 3 females among the cases, with a median age of 33 years at the time of the initial diagnosis. H3F3A G34W and G34L mutations were detected in 3 patients and 1 patient, respectively. In 75% of cases without mutation, mitogen-activated protein kinase (MAPK) signaling pathway gene alterations were found (KRAS single nucleotide variant, KRAS amplification, nuclear respiratory factor 1 fusion). Moreover, the collagen type I alpha 2 chain fusion was detected in remaining one case. The most frequent gene alterations were related to cell cycle regulators, including , , cyclin-dependent kinase inhibitor 2A/B and cyclin E1 (75%, 6 of 8 cases). On the whole, the present study discovered recurrent MAPK signaling gene alterations or other gene alterations in cases of malignant GCTB. Of note, two fusion genes should be carefully validated following the pathology re-review by sarcoma pathologists. These two fusion genes may be detected in resembling tumors, which contain giant cells, apart from malignant GCTB. The real-world data used herein provide a unique perspective on genomic alterations in clinicopathologically diagnosed malignant GCTB.
骨恶性巨细胞瘤(GCTB)通过多核巨细胞的存在得以识别,具有侵袭性行为和高转移风险,其基因特征尚未得到详细描述。H3组蛋白家族成员3A(H3F3A)基因突变在GCTB中高度频发且具有特异性。本研究使用匿名基因组数据库分析了8例恶性GCTB(在384例骨肉瘤样本中)的临床信息和基因组测序数据。病例中有5名男性和3名女性,初次诊断时的中位年龄为33岁。分别在3例和1例患者中检测到H3F3A G34W和G34L突变。在75%未发生H3F3A突变的病例中,发现有丝分裂原活化蛋白激酶(MAPK)信号通路基因改变(KRAS单核苷酸变异、KRAS扩增、核呼吸因子1融合)。此外,在其余1例中检测到I型胶原α2链融合。最常见的基因改变与细胞周期调节因子有关,包括CDK4、CDK6、细胞周期蛋白依赖性激酶抑制剂2A/B和细胞周期蛋白E1(75%,8例中的6例)。总体而言,本研究在恶性GCTB病例中发现了频发的MAPK信号基因改变或其他基因改变。值得注意的是,在肉瘤病理学家重新审查病理后,应仔细验证这两个融合基因。除了恶性GCTB外,在含有巨细胞的相似肿瘤中可能检测到这两个融合基因。本文使用的真实世界数据为临床病理诊断的恶性GCTB中的基因组改变提供了独特视角。
