MATERIAL AND METHODS: Forty fresh frozen tumor tissues along with blood samples of brain tumor patients were analyzed for mtMSI by PCR amplification of genomic DNAs, and the amplicons were directly sequenced in both directions using Sanger sequencing.
RESULTS: Microsatellite analysis revealed that 20% (8 out of 40) of the tumors were mtMSI positive with a total of 8 mtMSI changes. All mtMSI markers were detected in D310 and D16184 of the D-loop region. Additionally, no significant association was observed between mtMSI status and clinicopathological features.
CONCLUSION: The variations, specifically the mtMSI, suggest that the mitochondrial DNA (mtDNA) can be targeted for genomic alteration in brain tumors. Therefore, the specific role of mtDNA alteration in brain tumor development and prognosis requires further investigation.
Materials and Methods: Genomic DNA was extracted from 21 fresh-frozen tumor tissues and blood samples of the same meningioma patients. The entire mtDNA D-loop region (positions 16024-576) was polymerase chain reaction amplified using designed primers, and then amplification products were purified before the direct DNA sequencing proceeds.
Results: Overall, 10 (47.6%) patients were detected to harbor a total of 27 somatic mtDNA D-loop mutations. Most of these mtDNA mutations were identified in the hypervariable segment II (40.7%), with 33.3% being located mainly in the conserved sequence block II of the D310 sequence. Furthermore, 58 different germline variations were observed at 21 nucleotide positions.
Conclusion: Our results suggest that mtDNA alterations in the D-loop region may be an important and early event in developing meningioma. Further studies are needed, including validation in a larger patient cohort, to verify the clinicopathological outcomes of mtDNA mutation biomarkers in meningiomas.
METHODS: A total of 50 patients with pathologically confirmed brain tumors (13 LGGs, 20 HGGs, and 17 meningiomas) were enrolled in this study. mtDNA was detected by using polymerase chain reaction (PCR) technique and later confirmed via Sanger DNA sequencing.
RESULTS: Overall, mtDNA was observed in 16 (32%) patients and it was significantly correlated with the type of tumor group and sex, being more common in the HGG group and in male patients.
CONCLUSION: The prevalence of mtDNA in Malaysian glioma and meningioma cases has been described for the first time and it was, indeed, comparable with previously published studies. This study provides initial insights into mtDNA in brain tumor and these findings can serve as new data for the global mitochondrial DNA mutations database.