分类: 生物学 >> 生物物理学 提交时间: 2016-05-11
摘要: It has been demonstrated that passenger strand cleavage is important for the activation of RNA-induced silencing complex (RISC), which is a crucial step for siRNA-mediated gene silencing. Herein, we report that isonucleotide (isoNA) modification around the cleavage site of the passenger strand would affect the in vitro potency of modified siRNAs by altering the motion pattern of the Ago2-PAZ domain. According to western blotting, q-PCR and antiviral test results, we proved that D-isonucleotide (isoNA) modification at the position 8 of the passenger strand (siMek1-S08D), which is adjacent to the cleavage site, markedly improved the in vitro potency of the modified siRNA, whereas siRNAs with D-isoNA incorporation at position 9 (siMek1-S09D) or L-isoNA incorporation at positions 8 and 9 (siMek1-S08L, siMek1-S09L) displayed lower activity compared to native siRNA. Kinetics evaluation of passenger strand cleavage induced by T. thermophilus Ago (Tt-Ago) showed that D-isoNA modification at position 8 of the passenger strand had no significant influence on the cleavage rate, but L-isoNA modification at position 8 slowed the cleavage rate markedly. Moreover, the results of molecular dynamics simulations showed that D-isoNA modification at position 8 affected the open-close motion of the PAZ domain in the Ago/siRNA complex, which may promote the loading of RISC and release of a passenger strand cleavage product, and consequently accelerate the activation of RISC and enhance silencing activity. However, D-isoNA modification at position 9 or L-isoNA modification at position 8 or 9 exerted opposite influences on the motion of the Ago-PAZ domain.
分类: 生物学 >> 生物物理学 >> 肿瘤学 提交时间: 2016-05-11
摘要: Granzyme M is a serine protease known to be often expressed by natural killer cells and induce target cells apoptosis in combination with perforin. However, we detected granzyme M expression in murine and human cancer cell lines and human tumor samples in our study. Granzyme M increased chemoresistance, colony-formation, cytokine secretion and invasiveness in vitro. Most importantly, granzyme M facilitated tumor growth and metastasis in vivo. Granzyme M induced the epithelial-mesenchymal transition (EMT) in cancer cells associated with STAT3 activation. Our study revealed the role of granzyme M expressed by tumor in chemoresistance, invasion, metastasis and EMT.