This study examined the effect of integrin cytoplasmic domain-associated protein 1α (ICAP-1α) and its mutatants T38A and I138A on the adhesion, migration and tube formation of 2H-11 cells.rAAV-ICAP-1α, rAAV-T38A an...This study examined the effect of integrin cytoplasmic domain-associated protein 1α (ICAP-1α) and its mutatants T38A and I138A on the adhesion, migration and tube formation of 2H-11 cells.rAAV-ICAP-1α, rAAV-T38A and rAAV-I138A were constructed.After infection, the expression of ICAP-1α and p-ERK1/2, p-c-Jun protein was measured by Western blotting.Adhesion ability was evaluated by using MTT.Cell migration was determined by using Boyden chamber method.Tube formation test was conducted on Matrigel.The results showed that in ICAP-1α, T38A and I138A groups, ICAP-1α protein expression was increased.In T38A and I138A groups, phospho-ERK1/2, phospho-c-Jun protein expressions were significantly increased as compared with the control group and the GFP group.ICAP-1α group protein expression was obviously decreased when compared with the control group and the GFP group.Cell adhesion ratio was 0.1429±0.0080 in control group, 0.1434±0.0077 in GFP group and the ratio in T38A and I138A groups increased to 0.3210±0.0082 and 0.3250±0.0079, respectively.In ICAP-1α group, the ratio was decreased to 0.1005±0.0073.In T38A and I138A groups, the number of migrating 2H-11 cells was increased to 31.45±3.20 and 33.10±5.40 against 18.51±2.80 in control group and 20.47±3.12 in GFP group.In ICAP-1α group, the number was decreased to 12.06±1.72.The number of tube-like structures was increased to 20.41±2.54 in T38A and to 22.26±3.07 in I138A groups as compared to those of control group 12.45±1.84 and GFP group 13.63±2.71.In ICAP-1α group, the number of tube-like structures was decreased to 8.32±1.24.It was suggested that rAAV-T38A and rAAV-I138A transfection can substantially increase 2H-11 cell adhesion, migration and angiogenisis, while rAAV-ICAP-1α can greatly inhibit the effect.These effects might be correlated with ERK1/2 and c-Jun protein phosphorylation.展开更多
Peptide-MHC class I complex (pMHC) is a specific ligand for TCR recognition, and important for CD8^+T cell activation. Here we described a genetically engineered divalent class I major histocompatibility complex (...Peptide-MHC class I complex (pMHC) is a specific ligand for TCR recognition, and important for CD8^+T cell activation. Here we described a genetically engineered divalent class I major histocompatibility complex (MHC) molecule, H-2K^d/IgG2aFc, a fusion protein consisting of the extracellular domains of H-2K^d, a murine MHC class I molecule, and the Fc region of IgG2a. This fusion protein is expected to attach the H-2K^d molecule to the surface of murine macrophage (MФ) through its Fc portion binding to Fc receptor (FcR) of MФ. cDNAs coding for the extracellular domains of H-2K^d and the Fc region of IgG2a were cloned respectively, and then recombined into plasmid pcDNA3.1(+). The H-2K^d/IgG2aFc protein was expressed by the plasmid-transfected cell line J558L, and purified from its supernatant with a Staphylococcal Protein A (SPA) column. The fusion protein showed a 58.4 kDa band as revealed by SDS-PAGE and Western blotting with murine IgG-specific antibody, which consists with that expected for extracellular domains of H-2K^d heavy chain plus the Fc region of IgG2a. The sandwich ELISA assay with antibodies specific for Fc portion and for H-2K^d indicated the fusion protein consists of both Fc portion and H-2K^d. Peritoneal MФ of C57BL/6 (H-2K^b) can be stained with H-2K^d specific monoclonal antibody (mAb) after incubated with the H-2K^d/IgG2aFc fusion protein. These results demonstrate the fusion protein can be used to attach the H-2K^d molecule to the surface of murine MФ, and provides a novel means to manipulate the T cell recognized epitope on the surface of murine MФ, which can be applied to activate antigen-specific cytotoxic T lymphocyte (CTL).展开更多
基金supported by a grant from the National Natural Science Foundation of China (No.30670856)
文摘This study examined the effect of integrin cytoplasmic domain-associated protein 1α (ICAP-1α) and its mutatants T38A and I138A on the adhesion, migration and tube formation of 2H-11 cells.rAAV-ICAP-1α, rAAV-T38A and rAAV-I138A were constructed.After infection, the expression of ICAP-1α and p-ERK1/2, p-c-Jun protein was measured by Western blotting.Adhesion ability was evaluated by using MTT.Cell migration was determined by using Boyden chamber method.Tube formation test was conducted on Matrigel.The results showed that in ICAP-1α, T38A and I138A groups, ICAP-1α protein expression was increased.In T38A and I138A groups, phospho-ERK1/2, phospho-c-Jun protein expressions were significantly increased as compared with the control group and the GFP group.ICAP-1α group protein expression was obviously decreased when compared with the control group and the GFP group.Cell adhesion ratio was 0.1429±0.0080 in control group, 0.1434±0.0077 in GFP group and the ratio in T38A and I138A groups increased to 0.3210±0.0082 and 0.3250±0.0079, respectively.In ICAP-1α group, the ratio was decreased to 0.1005±0.0073.In T38A and I138A groups, the number of migrating 2H-11 cells was increased to 31.45±3.20 and 33.10±5.40 against 18.51±2.80 in control group and 20.47±3.12 in GFP group.In ICAP-1α group, the number was decreased to 12.06±1.72.The number of tube-like structures was increased to 20.41±2.54 in T38A and to 22.26±3.07 in I138A groups as compared to those of control group 12.45±1.84 and GFP group 13.63±2.71.In ICAP-1α group, the number of tube-like structures was decreased to 8.32±1.24.It was suggested that rAAV-T38A and rAAV-I138A transfection can substantially increase 2H-11 cell adhesion, migration and angiogenisis, while rAAV-ICAP-1α can greatly inhibit the effect.These effects might be correlated with ERK1/2 and c-Jun protein phosphorylation.
基金supported by a grant from the National Natural Science Foundation of China(NO.30271201).
文摘Peptide-MHC class I complex (pMHC) is a specific ligand for TCR recognition, and important for CD8^+T cell activation. Here we described a genetically engineered divalent class I major histocompatibility complex (MHC) molecule, H-2K^d/IgG2aFc, a fusion protein consisting of the extracellular domains of H-2K^d, a murine MHC class I molecule, and the Fc region of IgG2a. This fusion protein is expected to attach the H-2K^d molecule to the surface of murine macrophage (MФ) through its Fc portion binding to Fc receptor (FcR) of MФ. cDNAs coding for the extracellular domains of H-2K^d and the Fc region of IgG2a were cloned respectively, and then recombined into plasmid pcDNA3.1(+). The H-2K^d/IgG2aFc protein was expressed by the plasmid-transfected cell line J558L, and purified from its supernatant with a Staphylococcal Protein A (SPA) column. The fusion protein showed a 58.4 kDa band as revealed by SDS-PAGE and Western blotting with murine IgG-specific antibody, which consists with that expected for extracellular domains of H-2K^d heavy chain plus the Fc region of IgG2a. The sandwich ELISA assay with antibodies specific for Fc portion and for H-2K^d indicated the fusion protein consists of both Fc portion and H-2K^d. Peritoneal MФ of C57BL/6 (H-2K^b) can be stained with H-2K^d specific monoclonal antibody (mAb) after incubated with the H-2K^d/IgG2aFc fusion protein. These results demonstrate the fusion protein can be used to attach the H-2K^d molecule to the surface of murine MФ, and provides a novel means to manipulate the T cell recognized epitope on the surface of murine MФ, which can be applied to activate antigen-specific cytotoxic T lymphocyte (CTL).
