Expression of Sp1 in NK/T cell lymphoma cell lines and its influence on cell invasion / 白血病·淋巴瘤

Objective To identify the expression of transcription factor Sp1 in NK/T-cell lymphoma (NK/TCL) cell lines and to investigate the role of Sp1 in regulation of cell invasion. Methods Real-time PCR, immunofluorescence and Western blot were performed to detect the expression of Sp1 in NK/TCL cell lines SNK-1 and SNK-6 and normal NK cells. Expression levels of IGF-1R and MMP-2 were measured by real-time PCR and Western blot, respectively. Transwell assay was applied to observe the effects of mythramycin A(MIT) on cell invasion. Results Sp1 expression in mRNA and protein were over-expression in NK/TCL cell lines SNK-1 and SNK-6 when compared with normal NK cells. Inhibition of Sp1 by MIT remarkably reduced expression of IGF-1R and MMP-2 in SNK-1, SNK-6 and as a result, or significantly suppressed cell invasion. Expression levels of Sp1 mRNA in SNK-1 and SNK-6 were (9.4±0.3) and (10.6±0.3) foldsincrease as compared with that of control group, respectively (P=0.005 2, P=0.003 7). Levels of Sp1 protein were (5.4±0.3) and (8.6±0.5) foldsincrease times than control groups, respectively (P=0.008 3, P=0.006 9). Inhibition of Sp1 by MIT (100 nmol/L) remarkably reduced expression levels of IGF-1R mRNA by (83.9±3.7) % and (65.8±4.2) % (P = 0.008 2, P = 0.009 7) as compared with controls. Meanwhile, levels of IGF-1R protein were reduced by (51.5±7.1) % and (49.6±9.1) % (P = 0.017 8, P = 0.015 5) as compared with control group. Inhibition of Sp1 by MIT (100 nmol/L) significantly reduced cell invasion and MMP-2 expression in the two cell lines,the cell invasion rates were reduced by (29.6±6.4) % and (37.2±7.6) % (P =0.041 8, P = 0.037 2) in SNK-1 and SNK-6 as compared with control group. The MMP-2 protein levels were found to be (52.7±4.7) % and (29.7±5.6) % (P = 0.028 6, P = 0.020 2) of control group. Conclusion Sp1 is over-expressed in NK/TCL cell lines, and it promotes NK/TCL cell invasion by up-regulating IGF-1R and further increasing MMP-2 expression.

Residue analysis of acephate and its metabolite methamidophos in open field and greenhouse pakchoi (Brassica campestris L.) by gas chromatography-tandem mass spectrometry.

To analyze the dynamic degradation and final residues of acephate and its metabolite methamidophos, field-experiments with pakchoi (Brassica campestris L.) in open field and greenhouse were carried out in Beijing, China in 2004 and 2005. The degradation dynamics and final residues were determined by gas chromatography (GC) equipped with a pulsed flame photometric detector and GC coupled to mass spectrometry (MS)/MS after acephate was applied on open field and green house pakchoi (B. campestris L.). The dynamic degradation results showed that the half-lives of acephate and methamidophos in open field pakchoi were 1.36 days with dynamic degradation equation C( t ) = 133.01e( - 0.5107t ), and 2.86 days with C( t ) = 6.5753e( - 0.2422t ), respectively. While the half-lives of acephate and methamidophos in the greenhouse were 1.07 days with C( t ) = 59.134e( - 0.4353t ) and 0.79 days with C( t ) = 0.2703e( - 0.2595t ), respectively. The final residue analysis demonstrated that >50% of total methamidophos were resulted from the degradation of acephate 7 and 18 days after it was applied on the greenhouse pakchoi, respectively. While in the open-field pakchoi, >90% of total methamidophos was found to be the metabolite of acephate.