Michalova Kvetoslava, Martinek Petr, Mezencev Roman, Gupta Sounak, Williamson Sean, Wasco Matthew, Mohanty Sambit, Magi-Galluzzi Cristina, Cañete-Portillo Sofia, Aron Manju, Kandukuri Shivani, Lobo João, Barkan Güliz A, Kilic Irem, Strakova-Peterikova Andrea, Pivovarcikova Kristyna, Michal Michael, Michal Michal, Ulbright Thomas M, Acosta Andres M
Department of Pathology, Faculty of Medicine, Charles University.
Bioptical Laboratory, Ltd, Plzen, Czech Republic.
Am J Surg Pathol. 2025 Mar 1;49(3):217-226. doi: 10.1097/PAS.0000000000002344. Epub 2024 Dec 27.
Juxtaglomerular cell tumor (JxGCT) is a rare type of renal neoplasm demonstrating morphologic overlap with some mesenchymal tumors such as glomus tumor (GT) and solitary fibrous tumor (SFT). Its oncogenic drivers remain elusive, and only a few cases have been analyzed with modern molecular techniques. In prior studies, loss of chromosomes 9 and 11 appeared to be recurrent. Recently, whole-genome analysis identified alterations involving genes of MAPK-RAS pathway in a subset, but no major pathogenic alterations have been discovered in prior whole transcriptome analyses. Considering the limited understanding of the molecular features of JxGCTs, we sought to assess a collaborative series with a multiomic approach to further define the molecular characteristics of this entity. Fifteen tumors morphologically compatible with JxGCTs were evaluated using immunohistochemistry for renin, single-nucleotide polymorphism array (SNP), low-pass whole-genome sequencing, and RNA sequencing (fusion assay). In addition, methylation analysis comparing JxGCT, GT, and SFT was performed. All cases tested with renin (n=11) showed positive staining. Multiple chromosomal abnormalities were identified in all cases analyzed (n=8), with gains of chromosomes 1p, 10, 17, and 19 and losses of chromosomes 9, 11, and 21 being recurrent. A pathogenic HRAS mutation was identified in one case as part of the SNP array analysis. Thirteen tumors were analyzed by RNA sequencing, with 2 revealing in-frame gene fusions: TFG::GPR128 (interpreted as stochastic) and NAB2::STAT6 . The latter, originally diagnosed as JxGCT, was reclassified as SFT and excluded from the series. No fusions were detected in the remaining 11 cases; of note, no case harbored NOTCH fusions previously described in GT. Genomic methylation analysis showed that JxGCT, GT, and SFT form separate clusters, confirming that JxGCT represents a distinct entity (ie, different from GT). The results of our study show that JxGCTs are a distinct tumor type with a recurrent pattern of chromosomal imbalances that may play a role in oncogenesis, with MAPK-RAS pathway activation being likely a driver in a relatively small subset.
球旁细胞瘤(JxGCT)是一种罕见的肾脏肿瘤,在形态学上与一些间叶性肿瘤存在重叠,如血管球瘤(GT)和孤立性纤维瘤(SFT)。其致癌驱动因素仍不明确,仅有少数病例采用现代分子技术进行了分析。在先前的研究中,9号和11号染色体缺失似乎较为常见。最近,全基因组分析在一部分病例中发现了涉及MAPK-RAS途径基因的改变,但在先前的全转录组分析中未发现主要的致病改变。鉴于对JxGCT分子特征的了解有限,我们试图采用多组学方法评估一个协作系列,以进一步明确该实体的分子特征。对15例形态学上符合JxGCT的肿瘤进行了评估,采用免疫组化检测肾素、单核苷酸多态性阵列(SNP)、低深度全基因组测序和RNA测序(融合检测)。此外,还进行了比较JxGCT、GT和SFT基因组甲基化分析。所有检测肾素的病例(n = 11)均显示阳性染色。在所有分析的病例(n = 8)中均发现了多个染色体异常,1p、10、17和19号染色体增加以及9、11和21号染色体缺失较为常见。在1例病例中,作为SNP阵列分析的一部分,鉴定出一个致病性HRAS突变。对13例肿瘤进行了RNA测序,其中2例发现了框内基因融合:TFG::GPR128(解释为随机发生)和NAB2::STAT6。后者最初诊断为JxGCT,后重新分类为SFT并被排除在该系列之外。在其余11例病例中未检测到融合;值得注意的是,没有病例存在先前在GT中描述的NOTCH融合。基因组甲基化分析表明,JxGCT、GT和SFT形成了独立的聚类,证实JxGCT是一个独特的实体(即与GT不同)。我们的研究结果表明,JxGCT是一种独特的肿瘤类型,具有常见的染色体失衡模式,可能在肿瘤发生中起作用,MAPK-RAS途径激活可能是一小部分病例的驱动因素。
