Genetic Analysis of Osteosarcoma Cells in a 9-year-old Boy: Genes Involved in Cell Cycle Control.

Q3 Medicine

Acta medica academica Pub Date : 2025-04-01 DOI:10.5644/ama2006-124.474

Dragan Jovanovic, Alwajih Tariq, Sara Dlugos

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Abstract

Objective: This study describes mutations of genes that stimulate and regulate cell growth, programmed cell death, DNA repair, and cell growth suppression in a boy with osteosarcoma.

Case report: We report a case of bone sarcoma in a 9-year-old boy with possible familial predisposition. In our patient, only a subset of tumor cells expressed the ATRX protein, which is known to control the expression of several genome regions. The function of the p53 protein, which acts as a transcription factor that regulates the DNA damage repair response, cell cycle progression, and apoptosis pathways, is lost in 40-50% of malignant cells. Retinoblastoma was positive in the predominant subset of tumor cells. Deletion is found on chromosome 9, cytoband 9p21.3, where the genes for CDKN2A and CDKN2B are located. Neoplastic cells were SATB2-positive in a substantial subset, with nuclear staining. The SATB2 protein is a DNA-binding protein involved in transcriptional regulation and chromatin remodeling. Chromosomal losses of 8p and 19q11-q13.43 were also found. These regions contain several tumor suppressor genes, including NKX3.1, whose reduced expression correlates with 8p loss in high-grade tumors. Although there was no known cancer syndrome in the family, the maternal grandfather had a similar tumor requiring amputation.

Conclusion: Chromosomal instability is a hallmark of osteosarcoma and is characterized by heterogeneous and extensive genetic complexity. Various numerical and structural genomic rearrangements have been described in cancer cells. However, there is little consistent genetic change to understand the etiopathogenesis of this aggressive tumor.

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一名9岁男孩骨肉瘤细胞的遗传分析：参与细胞周期控制的基因。

目的：本研究描述了男孩骨肉瘤中刺激和调节细胞生长、程序性细胞死亡、DNA修复和细胞生长抑制的基因突变。病例报告：我们报告一例骨肉瘤在一个9岁的男孩与可能的家族易感性。在我们的患者中，只有一部分肿瘤细胞表达ATRX蛋白，已知该蛋白控制几个基因组区域的表达。p53蛋白作为一种调节DNA损伤修复反应、细胞周期进程和凋亡途径的转录因子，其功能在40-50%的恶性细胞中丧失。视网膜母细胞瘤在肿瘤细胞的主要亚群中呈阳性。在CDKN2A和CDKN2B基因所在的9号染色体细胞带9p21.3上发现缺失。大部分肿瘤细胞satb2阳性，有核染色。SATB2蛋白是一种dna结合蛋白，参与转录调控和染色质重塑。8p和19q11-q13.43染色体缺失也被发现。这些区域包含几种肿瘤抑制基因，包括NKX3.1，其表达减少与高级别肿瘤中的8p缺失相关。虽然家族中没有已知的癌症综合征，但外祖父患有类似的肿瘤，需要截肢。结论：染色体不稳定性是骨肉瘤的标志，其特点是异质性和广泛的遗传复杂性。各种数字和结构的基因组重排已经在癌细胞中被描述。然而，很少有一致的遗传变化来理解这种侵袭性肿瘤的发病机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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