ABSTRACT
Objective To establish a method of SYBR Green Ⅰ FQ-PCR for detecting the expression of miR-202 in peripheral blood mononuclear cells ( PBMC ) and analyze the expression of miR-202 and its clinical significance in MM.Methods Reverse transcription was performed with specific stemloop primer for miR-202,and then FQ-PCR was used to detected the expression of miR-202 in 21 MM patients and 20 healthy people.Data was presented as mean ± standard deviation ( (x) ± s ).Non-parametric Mann-Whitney test was used to analyze the difference between MM group and control group.In addition,1∶ 125 dilution of one test sample was detected by repeated 5 times,and the same sample was tested one time a day for 3 days,repeated 5 each time.The assessment of repeatability of measurements was done by calculating standard deviation and variation coefficient from threshold cycle (Ct).Results FQ-PCR detection of miR-202 in PBMC was amplified by the standard S-curve,with a single melting curve peak and no complex peak,which showed good specificity.The assay showed good reproducibility (intra-assay coefficient 1.2% and inter-assay coefficient 3.2% ) and high sensitivity ( 12.8 pmol/μ1).The expression of miR-202 in MM was 0.014 ( 0.007 - 0.221 ) and 1.844 ( 0.162 - 3.966 ) in normal controls.The expression level of miR-202 was significantly higher in MM than in normal controls (U =48.000,P <0.01 ).Conclusions FQ-PCR provide us a rapid,sensitive and specific method for detection of miR-202.The expression level of miR-202 is higher in MM than in normal controls.It is possible to play a role in MM progress and may be a useful marker to evaluate the development and treatment of MM.
ABSTRACT
Objective To investigate the action and mechanism of NF-κB pathway in up-regulating B cell-activating factor receptor (BAFF-R) expression in multiple myeloma cells induced by IFN-γ.Methods Activated NF-κB were detected with Western blot, while the expression of BAFF-R were measured with RT-PCR and ELISA, and investigated the effect of BAY11-7082 on transcription of BAFF-R mRNA and translation of protein in multiple myeloma cells stimulated by IFN-γ. Results IFN-γ can induce the degradation of IκB-α in time-dependent and dosage-dependent manner, and up-regulated BAFF-R expression in multiple myeloma cells. BAY11-7082, an NF-κB inhibitor, inhibited not only the transcription of BAFF-R mRNA but also the protein of regulated by IFN-γin dosage-dependent manner. Conclusion NFκB may play an important role in high expression of BAFF-R in multiple myeloma cells induced by IFN-γ.