Righi Alberto, Mancini Irene, Gambarotti Marco, Picci Piero, Gamberi Gabriella, Marraccini Cristina, Dei Tos Angelo Paolo, Simi Lisa, Pinzani Pamela, Franchi Alessandro
Department of Pathology, Rizzoli Institute, 40136, Bologna, Italy.
Department of Clinical and Experimental Biomedical Sciences, University of Florence, 50134, Florence, Italy.
Hum Pathol. 2017 Oct;68:128-135. doi: 10.1016/j.humpath.2017.08.033. Epub 2017 Sep 9.
Mutually exclusive histone 3.3 gene mutations have been recognized in chondroblastoma and giant cell tumor of bone (GCTB), which may be useful for differential diagnostic purposes in morphologically ambiguous cases. Although more than 90% of GCTBs present histone 3.3 variants exclusively in the H3F3A gene, chondroblastoma is mutated mainly in H3F3B. In this study, we examined a series of giant cell-rich primary bone tumors, aiming to evaluate the possible diagnostic role of histone 3.3 mutations in the differential diagnosis between GCTB and giant cell-rich sarcomas. Sixteen cases of nonmetastatic GCTB, 9 GCTBs with lung metastases, and 35 giant cell-rich sarcomas were selected from our institutional archives. Eight chondroblastomas were used as controls. Direct sequencing for the presence of H3F3A and H3F3B variants in coding region between codons 1 and 42, including the hotspot codons (28, 35, and 37), was performed on DNA extracted from formalin-fixed, paraffin-embedded tissue using conventional polymerase chain reaction and fast coamplification at lower denaturation temperature-polymerase chain reaction. Overall, 24 GCTBs (96%) presented a mutation in the H3F3A gene (15 of 16 nonmetastatic and 9 of 9 metastatic). Five sarcomas harbored an H3F3A mutation (3 p.G35W, 1 p.G35L, and 1 p.G35E), and these were all secondary malignant GCTBs. In conclusion, we confirm that H3F3A mutational testing may be a useful adjunct to differentiate GCTB from giant cell-rich sarcomas. Although the presence of H3F3A mutations does not exclude with certainty a diagnosis of sarcoma, the possibility of a malignant evolution of GCTB should also be considered.
在软骨母细胞瘤和骨巨细胞瘤(GCTB)中已发现相互排斥的组蛋白3.3基因突变,这在形态学上模棱两可的病例中可能有助于鉴别诊断。尽管超过90%的GCTB仅在H3F3A基因中存在组蛋白3.3变体,但软骨母细胞瘤主要在H3F3B基因中发生突变。在本研究中,我们检查了一系列富含巨细胞的原发性骨肿瘤,旨在评估组蛋白3.3突变在GCTB与富含巨细胞肉瘤的鉴别诊断中的可能作用。从我们机构的档案中选取了16例非转移性GCTB、9例伴有肺转移的GCTB和35例富含巨细胞的肉瘤。选取8例软骨母细胞瘤作为对照。使用常规聚合酶链反应和较低变性温度下的快速共扩增聚合酶链反应,对从福尔马林固定、石蜡包埋组织中提取DNA的第I至42密码子编码区(包括热点密码子28、35和37)进行H3F3A和H3F3B变体存在情况的直接测序。总体而言,24例GCTB(96%)在H3F3A基因中存在突变(16例非转移性GCTB中的15例和9例转移性GCTB中的9例)。5例肉瘤存在H/H3F3A突变(3例p.G35W、1例p.G35L和1例p.G35E),这些均为继发性恶性GCTB。总之,我们证实H3F3A突变检测可能是区分GCTB与富含巨细胞肉瘤的有用辅助手段。尽管H3F3A突变的存在并不能确定排除肉瘤的诊断,但也应考虑GCTB发生恶性演变的可能性。
