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ABSTRACT: HAb18G/CD147 is a transmembrane glycoprotein of the immunoglobulin superfamily (IgSF) and is reported to be correlated with invasion and metastasis of many cancers. The crystal structure of HAb18G/CD147 ectodomain has shown that it can form homodimers in crystal. However, the functional significance of HAb18G/CD147 dimerization remains unclear. In the present study, guided by the crystal structure, we performed extensive mutational and functional studies to identify residues critical for dimerization and molecular function of HAb18G/CD147. Fourteen mutants were purified and evaluated for their ability to form dimers in solution and in living cells. Subsequent functional validation revealed that K63E and S193A mutants, which disrupted CD147 dimerization both in solution and in living cells, showed clearly dominant-negative effects on MAPK activation, MMP2 induction and invasiveness in tumor cells. Taken together, the present study provides mutational and functional evidences demonstrating for the first time the functional importance of CD147 dimerization and its direct correlation with invasion and metastasis of tumor cells.
Biochemical and Biophysical Research Communications 02/2012; 419(3):517-22. · 2.48 Impact Factor
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Pu Zhao,
Wei Zhang,
Shi-Jie Wang,
Xiao-Ling Yu,
Juan Tang,
Wan Huang,
Yong Li, Hong-Yong Cui,
Yun-Shan Guo,
Jan Tavernier,
Si-He Zhang,
Jian-Li Jiang,
Zhi-Nan Chen
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ABSTRACT: Tumor cells can move as individual cells in two interconvertible modes: mesenchymal mode and amoeboid mode. Cytoskeleton rearrangement plays an important role in the interconversion. Previously, we reported that HAb18G/CD147 and annexin II are interacting proteins involved in cytoskeleton rearrangement, yet the role of their interaction is unclear. In this study we found that the depletion of HAb18G/CD147 produced a rounded morphology, which is associated with amoeboid movement, whereas the depletion of annexin II resulted in an elongated morphology, which is associated with mesenchymal movement. The extracellular portion of HAb18G/CD147 can interact with a phosphorylation-inactive mutant of annexin II and inhibit its phosphorylation. HAb18G/CD147 inhibits Rho signaling pathways and amoeboid movement by inhibiting annexin II phosphorylation, promotes membrane localization of WAVE2 and Rac1 activation by way of the integrin-FAK-PI3K/PIP3 signaling pathway, and promotes the formation of lamellipodia and mesenchymal movement. Conclusion: These results suggest that the interaction of HAb18G/CD147 with annexin II is involved in the interconversion between mesenchymal and amoeboid movement of hepatocellular carcinoma cells.
Hepatology 08/2011; 54(6):2012-24. · 11.66 Impact Factor
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ABSTRACT: βig-h3 is a TGF-β (transforming growth factor β)-induced ECM (extracellular matrix) protein that induces the secretion of MMPs (matrix metalloproteinases). However, the mechanism of induction is yet to be established. In this study, siRNAs (small interfering RNAs) targeted against βig-h3 were transfected into SMMC-7721 cells [a HCC (human hepatocellular carcinoma) cell line] to knockdown the expression of βig-h3. We found that NiCl2, a potent blocker of extracellular Ca2+ entry, reduced βig-h3-induced secretion of MMP-2 and -9. Further investigation suggested that reduction in the levels of βig-h3 decreased the secretion of MMP-2 and -9 that was enhanced by an increase in the concentration of extracellular Ca2+. SNAP (S-nitroso-N-acetylpenicillamine), a NO (nitric oxide) donor, and 8-Br-cGMP (8-bromo-cGMP) inhibited thapsigargin-induced Ca2+ entry and MMP secretion in the invasive potential of human SMMC-7721 cells. Further, the inhibitory effects of 8-Br-cGMP and SNAP could be significantly enhanced by down-regulating βig-h3. βig-h3 attenuates the negative regulation of NO/cGMP-sensitive store-operated Ca2+ entry. Our findings suggest that the expression of βig-h3 might play an important role in the regulation of store-operated Ca2+ entry to increase the invasive potential of HCC cells.
Cell Biology International 03/2011; 35(8):811-7. · 1.48 Impact Factor
