胆管癌细胞系中线粒体基因组的改变

Athitaya Faipan, Sirinya Sitthirak, Arporn Wangwiwatsin, Nisana Namwat, Poramate Klanrit, Attapol Titapan, Apiwat Jareanrat, Vasin Thanasukarn, Natcha Khuntikeo, Luke Boulter, Watcharin Loilome
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We used Oxford Nanopore Technologies (ONT), a long-read sequencing technology capable of synthesizing the whole mitochondrial genome, which facilitates enhanced identification of complicated rearrangements in mitogenomics. The analysis revealed a high frequency of SNVs and INDELs, particularly in the D-loop, MT-RNR2, MT-CO1, MT-ND4, and MT-ND5 genes. Significant mutations were detected in all CCA cell lines, with particularly notable non-synonymous SNVs such as m.8462T C in KKU-023, m.9493G A in KKU-055, m.9172C A in KKU-100, m.15024GC in KKU-213A, m.12994G A in KKU-452, and m.13406G A in MMNK-1, which demonstrated high pathogenicity scores. The presence of these mutations suggests the potential for mitochondrial dysfunction and CCA progression. Analysis of mtDNA structural variants (SV) revealed significant variability among the cell lines. We identified 208 SVs in KKU-023, 185 SVs in KKU-055, 231 SVs in KKU-100, 69 SVs in KKU-213A, 172 SVs in KKU-452, and 217 SVs in MMNK-1. 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引用次数: 0

摘要

胆管癌(CCA)是一种起源于胆管的多种恶性肿瘤。线粒体是真核细胞的能量转换器,含有环状线粒体 DNA(mtDNA),其突变率高于核 DNA。mtDNA 的异质变异可能会增加癌症相关死亡的风险,从而成为潜在的预后标志。在本研究中,我们研究了五种 CCA 细胞系(包括 KKU-023、KKU-055、KKU-100、KKU213A 和 KKU-452)的 mtDNA 变异,并将它们与非肿瘤性胆管细胞 MMNK-1 细胞系进行了比较。我们使用了牛津纳米孔技术公司(ONT)的一种长线程测序技术,该技术能够合成整个线粒体基因组,有助于在有丝分裂基因组学中更好地识别复杂的重排。分析结果显示,SNV 和 INDELs 频率很高,尤其是在 D-环、MT-RNR2、MT-CO1、MT-ND4 和 MT-ND5 基因中。在所有 CCA 细胞系中都检测到了显著的突变,其中尤为突出的是非同义 SNV,如 KKU-023 中的 m.8462T C、KKU-055 中的 m.9493G A、KKU-100 中的 m.9172C A、KKU-213A 中的 m.15024GC、KKU-452 中的 m.12994G A 和 MMNK-1 中的 m.13406G A,这些突变显示出较高的致病性。这些突变的存在表明线粒体功能障碍和 CCA 进展的可能性。对 mtDNA 结构变异(SV)的分析表明细胞系之间存在显著差异。我们在 KKU-023 中发现了 208 个 SV,在 KKU-055 中发现了 185 个 SV,在 KKU-100 中发现了 231 个 SV,在 KKU-213A 中发现了 69 个 SV,在 KKU-452 中发现了 172 个 SV,在 MMNK-1 中发现了 217 个 SV。这些 SV 包括缺失、重复和倒位,在 KKU-100 中观察到的变异性最高,而在 KKU-213A 中观察到的变异性最低。我们的研究结果强调了 CCA 细胞系中 mtDNA 突变的多样性,突出了这些突变对线粒体功能和 CCA 细胞系进展的潜在影响。未来的研究需要调查这些变异的功能影响、它们与 CCA 中核 DNA 的相互作用以及它们作为治疗干预靶点的潜力。
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Mitochondrial genomic alterations in cholangiocarcinoma cell lines
Cholangiocarcinoma (CCA) is a diverse collection of malignant tumors that originate in the bile ducts. Mitochondria, the energy converters in eukaryotic cells, contain circular mitochondrial DNA (mtDNA) which has a greater mutation rate than nuclear DNA. Heteroplasmic variations in mtDNA may suggest an increased risk of cancer-related mortality, serving as a potential prognostic marker. In this study, we investigated the mtDNA variations of five CCA cell lines, including KKU-023, KKU-055, KKU-100, KKU213A, and KKU-452 and compared them to the non-tumor cholangiocyte MMNK-1 cell line. We used Oxford Nanopore Technologies (ONT), a long-read sequencing technology capable of synthesizing the whole mitochondrial genome, which facilitates enhanced identification of complicated rearrangements in mitogenomics. The analysis revealed a high frequency of SNVs and INDELs, particularly in the D-loop, MT-RNR2, MT-CO1, MT-ND4, and MT-ND5 genes. Significant mutations were detected in all CCA cell lines, with particularly notable non-synonymous SNVs such as m.8462T C in KKU-023, m.9493G A in KKU-055, m.9172C A in KKU-100, m.15024GC in KKU-213A, m.12994G A in KKU-452, and m.13406G A in MMNK-1, which demonstrated high pathogenicity scores. The presence of these mutations suggests the potential for mitochondrial dysfunction and CCA progression. Analysis of mtDNA structural variants (SV) revealed significant variability among the cell lines. We identified 208 SVs in KKU-023, 185 SVs in KKU-055, 231 SVs in KKU-100, 69 SVs in KKU-213A, 172 SVs in KKU-452, and 217 SVs in MMNK-1. These SVs included deletions, duplications, and inversions, with the highest variability observed in KKU-100 and the lowest in KKU-213A. Our results underscore the diverse mtDNA mutation landscape in CCA cell lines, highlighting the potential impact of these mutations on mitochondrial function and CCA cell line progression. Future research is required to investigate the functional impacts of these variants, their interactions with nuclear DNA in CCA, and their potential as targets for therapeutic intervention.
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