Expression and Functional Assessment of Some Featured Coding and Non-coding RNAs Encoded by 8q24 Chromosomal Region in CML Patients

Abstract

Background: The association between the human chromosomal 8q24 region and cancer development remains dim. The proto-oncogene MYC is known as the most prominent target of this chromosomal region. However, numerous cancer-associated genetic alterations in the region extend beyond the MYC locus. Accordingly, it is likely that the MYC oncogene is not the only target of these carcinogenesis-related alterations. Objectives: In the present study, the expression of MYC and the correlation between MYC and two non-coding RNAs, namely PVT1 (circular and linear forms) and CASC11, which are residents of the 8q24 region in the MYC neighborhood, were investigated in chronic myeloid leukemia (CML). Methods: Real-time polymerase chain reaction (PCR) was used to assess BCR-ABL transcripts and categorize positive and negative (normal) samples for CML. Afterward, real-time PCR was exploited to evaluate the expression of different genes, including MYC, linear PVT1, circular PVT (CircPVT1), CASC11, and ACTB in CML and normal samples. Results: We found that the expression of linear PVT1 is significantly increased in CML compared with normal samples. However, CircPVT1, CASC11, and MYC did not show significantly altered expression between CML and normal groups. The experimental and in silico analyses of the correlation coefficients of gene expressions suggested changes in the correlations between the gene expressions in CML compared with normal samples. We also assessed the miR-trapping potential of PVT1 and CASC11 and the possible effects of these interactions on signaling pathways. Our findings indicated that these lncRNAs could have a possible regulatory link with critical pathways associated with leukemogenesis. Conclusions: Our results indicate that non-coding genes surrounding MYC within the 8q24 region might have regulatory roles in CML carcinogenesis.