The role of miR-370 and miR-138 in the regulation of BMP2 suppressor gene expression in colorectal cancer: preliminary studies.

PURPOSE: Colorectal cancer (CRC) is the fourth-most common cancer worldwide and the second most common cancer cause of death in the world. The components of the TGFß-signalling pathway, which are often affected by miRNAs, are involved in the regulation of apoptosis and cell cycle. Therefore, in the current study, the expression of BMP2 gene in CRC tissues at different clinical stages compared to the non-tumour tissues has been assessed. Moreover, the plasma BMP2 protein concentration in the same group of CRC patients has been validated. Due to the constant necessity to conduct further research of the correlation between specific miRNAs and mRNAs in CRC, in silico analysis has been performed to select miRNAs that regulate BMP2 mRNA. METHODS: The cDNA samples from tumor and non-tumor tissue were used in a qPCR reaction to determine the mRNA expression of the BMP2 gene and the expression of selected miRNAs. The concentration of BMP2 protein in plasma samples was also measured. RESULTS: It was indicated that BMP2 was downregulated in CRC tissue. Moreover, miR-370 and miR-138 expression showed an upward trend. Decreased BMP2 with accompanied increasing miR-370 and miR-138 expression was relevant to the malignant clinicopathological features of CRC and consequently poor patient prognosis. CONCLUSION: Our data suggest that miR-370 with its clear expression in plasma samples may be a potential diagnostic marker to determine the severity of the disease in patients at a later stage of colorectal cancer.

Towards understanding the interaction of (S)-thalidomide with nucleobases.

Interaction of (S)-thalidomide molecule with four nucleobases: adenine, guanine, cytosine and thymine, is investigated in details employing density functional theory methods. Different mutual positions of the molecules are considered, with the starting geometries enabling hydrogen bond interactions between the monomers. Optimization of geometrical parameters is carried out within the B3LYP/6-311G** approximation and followed by evaluation of vibrational frequencies. Binding and interaction energies are calculated employing exchange-correlation functionals including long-range corrections and properly diffuse basis sets. The strongest interaction exists within the (S)-thalidomide-guanine complex. Interestingly, in one of the investigated (S)-thalidomide-guanine complexes two bifurcated hydrogen bonds are observed. The two hydrogens involved in one of them are bonded to a carbon atom in the α position relative to carbonyl group. The present study can be useful in the design of new anticancer and antiviral drugs interacting selectively with DNA or RNA.