Kunwar Somesh Vikramdeo, Shashi Anand, Sarabjeet Kour Sudan, Paramahansa Pramanik, Seema Singh, Andrew K. Godwin, Ajay Pratap Singh, Santanu Dasgupta
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Respiratory complex I (RCI) was the key target, which harbored 44% (74/168) of the overall mtDNA mutations. A panel of 11 hotspot mtDNA mutations was identified among 19%–38% TNBCs, which were detectable in the serum-derived EVs with 82% specificity. Overall, 38% of the metastatic tumor-signature mtDNA mutations were traceable in the EVs. An appreciable number of mtDNA mutations were homoplasmic (18%, 31/168), novel (14%, 23/168), and potentially pathogenic (9%, 15/168). The overall and RCI-specific mtDNA mutational load was higher in women with African compared to European ancestry accompanied by an exclusive abundance of respiratory complex (RC) protein NDUFB8 (RCI) and SDHB (RCII) therein. Increased mtDNA (<i>p</i> < 0.0001) content was recorded in both tumors and EVs along with an abundance of CL (<i>p</i> = 0.0001) content in the EVs. Aggressive tumor-signature mtDNA mutation detection and measurement of mtDNA and CL contents in the EVs bear the potential to formulate noninvasive early detection and recurrence prediction strategies.</p>","PeriodicalId":12093,"journal":{"name":"FASEB bioAdvances","volume":"5 10","pages":"412-426"},"PeriodicalIF":2.5000,"publicationDate":"2023-09-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://faseb.onlinelibrary.wiley.com/doi/epdf/10.1096/fba.2023-00070","citationCount":"0","resultStr":"{\"title\":\"Profiling mitochondrial DNA mutations in tumors and circulating extracellular vesicles of triple-negative breast cancer patients for potential biomarker development\",\"authors\":\"Kunwar Somesh Vikramdeo, Shashi Anand, Sarabjeet Kour Sudan, Paramahansa Pramanik, Seema Singh, Andrew K. 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A panel of 11 hotspot mtDNA mutations was identified among 19%–38% TNBCs, which were detectable in the serum-derived EVs with 82% specificity. Overall, 38% of the metastatic tumor-signature mtDNA mutations were traceable in the EVs. An appreciable number of mtDNA mutations were homoplasmic (18%, 31/168), novel (14%, 23/168), and potentially pathogenic (9%, 15/168). The overall and RCI-specific mtDNA mutational load was higher in women with African compared to European ancestry accompanied by an exclusive abundance of respiratory complex (RC) protein NDUFB8 (RCI) and SDHB (RCII) therein. Increased mtDNA (<i>p</i> < 0.0001) content was recorded in both tumors and EVs along with an abundance of CL (<i>p</i> = 0.0001) content in the EVs. 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引用次数: 0
摘要
癌症三阴性患者的早期检测和复发预测具有挑战性。我们旨在开发基于线粒体DNA(mtDNA)的液体生物标志物,以改善TNBC的管理。线粒体基因组(MG)富集和下一代测序绘制了32个转移性TNBC的73个样本(64个组织和9个细胞外小泡[EV]样本)中的整个MG。我们测量了肿瘤和相应循环EVs中mtDNA和心磷脂(CL)含量、NDUFB8和SDHB蛋白的表达。我们鉴定了168个非同义mtDNA突变,其中73%(123/186)为编码突变,27%(45/168)为非编码突变。20%的突变是核苷酸颠换。呼吸复合体I(RCI)是关键靶点,它携带了44%(74/168)的mtDNA突变。在19%-38%的TNBC中鉴定出一组11个热点mtDNA突变,在血清来源的EV中可检测到,特异性为82%。总的来说,38%的转移性肿瘤标志性mtDNA突变在EVs中是可追踪的。相当数量的mtDNA突变是同质的(18%,31/168)、新的(14%,23/168)和潜在的致病性(9%,15/168)。与欧洲血统相比,非洲血统女性的总体和RCI特异性mtDNA突变负荷更高,并伴有独特丰度的呼吸复合物(RC)蛋白NDUFB8(RCI)和SDHB(RCII)。线粒体DNA增加(p p = 0.0001)含量。侵袭性肿瘤标志性mtDNA突变检测和EVs中mtDNA和CL含量的测量有可能制定无创的早期检测和复发预测策略。
Profiling mitochondrial DNA mutations in tumors and circulating extracellular vesicles of triple-negative breast cancer patients for potential biomarker development
Early detection and recurrence prediction are challenging in triple-negative breast cancer (TNBC) patients. We aimed to develop mitochondrial DNA (mtDNA)-based liquid biomarkers to improve TNBC management. Mitochondrial genome (MG) enrichment and next-generation sequencing mapped the entire MG in 73 samples (64 tissues and 9 extracellular vesicles [EV] samples) from 32 metastatic TNBCs. We measured mtDNA and cardiolipin (CL) contents, NDUFB8, and SDHB protein expression in tumors and in corresponding circulating EVs. We identified 168 nonsynonymous mtDNA mutations, with 73% (123/186) coding and 27% (45/168) noncoding in nature. Twenty percent of mutations were nucleotide transversions. Respiratory complex I (RCI) was the key target, which harbored 44% (74/168) of the overall mtDNA mutations. A panel of 11 hotspot mtDNA mutations was identified among 19%–38% TNBCs, which were detectable in the serum-derived EVs with 82% specificity. Overall, 38% of the metastatic tumor-signature mtDNA mutations were traceable in the EVs. An appreciable number of mtDNA mutations were homoplasmic (18%, 31/168), novel (14%, 23/168), and potentially pathogenic (9%, 15/168). The overall and RCI-specific mtDNA mutational load was higher in women with African compared to European ancestry accompanied by an exclusive abundance of respiratory complex (RC) protein NDUFB8 (RCI) and SDHB (RCII) therein. Increased mtDNA (p < 0.0001) content was recorded in both tumors and EVs along with an abundance of CL (p = 0.0001) content in the EVs. Aggressive tumor-signature mtDNA mutation detection and measurement of mtDNA and CL contents in the EVs bear the potential to formulate noninvasive early detection and recurrence prediction strategies.