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MT1-MMP inhibits the activity of Bst-2 via their cytoplasmic domains dependent interaction

International Journal of Molecular Sciences (2016) 17(6)
DOI: 10.3390/ijms17060818
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Abstract

Bst-2 (bone marrow stromal cell antigen 2) is a type II membrane protein, and it acts as a tetherin to inhibit virion releasing from infectious cells. Membrane type-1 matrix metalloproteinase (MT1-MMP) is a protease. It plays a pivotal role in cellular growth and migration by activating proMMP-2 into active MMP2. Our results here elaborate that MT1-MMP inhibits the tetherin activity of Bst-2 by interacting with Bst-2, and the cytoplasmic domains of both Bst-2 and MT1-MMP play critical roles within this interaction. Based on our experimental data, the assays for virion release and co-immunoprecipitation have clearly demonstrated that the activity of Bst-2 is markedly inhibited by MT1-MMP via their interaction; and both the N-terminal domain of Bst-2 and the C-terminal domain of MT1-MMP are important in the interaction. Immunostaining and Confocal Microscopy assay shows that MT1-MMP interacts with Bst-2 to form granular particles trafficking into cytoplasm from membrane and, finally, results in Bst-2 and MT1-MMP both being inhibited. In addition, mutant experiments elucidate that the N-terminal domain of Bst-2 is not only important in relating to the activity of Bst-2 itself, but is important for inhibiting the MT1-MMP/proMMP2/MMP2 pathway. These findings suggest that MT1-MMP is a novel inhibitor of Bst-2 in MT1-MMP expressed cell lines and also indicate that both the N-terminal domain of Bst-2 and the C-terminal domain of MT1-MMP are crucial in down-regulation.

Figures

  • Figure 1. Expression of Bst-2 and its activity inhibition by MT1-MMP in MDCK cells and HT1080 cells. (A,B) Cells seeded in 6-plates were treated with or without IFN-α; and then mRNA and protein levels of Bst-2 were assayed using RT-PCR and western-blot; (C,D) cells were divided into two parts and seeded in 6-plates overnight, plasmids pNL4-3/ΔVpu, Bst-2 and MT1-MMP were transfected or co-transfected in HT1080 cells and MDCK cells as described in figures; 48 h after transfection, one part culture for Bst-2 activity assay, the fractional release of p24 capsid was determined as the concentration of p24 antigen in the supernatants divided by the total concentration of p24 antigen in both the supernatants and cell lysates; the other part of the cells was for western-blot assay. * p < 0.01; ** p < 0.05.
  • Figure 3. MT1-MMP interacted and co-localized with Bst-2 in HT1080 and MDCK cells. (A,B) Cells were cultured in 10-cm dishes and transfected with HA-Bst-2 (HT1080 cells) and co-transfected HABst-2 with MT1-MMP (MDCK cells) as indicated in figures; 48 h after transfection, cells were harvested and lysed for co-immunoprecipitation with MT1-MMP antibody or HA-tag antibody, respectively; then HA-Bst-2 or MT1-MMP was checked with related antibodies as described in figures in co-immunoprecipitated protein complexes; (C) HT1080 and MDCK cells were seeded and grown on glass coverslips in 6-well plates overnight; then transfected with HA-Bst-2 alone in HT1080 cells,
  • Figure 3. MT1-MMP interacted and co-localized with Bst-2 in 1080 and MDCK cells. (A,B) Cells were cultured in 10-cm dishes and transfected with HA-Bst-2 (HT1080 cells) and co-transfected HABst-2 with MT1-MMP (MDCK cells) as indicated in figures; 48 h after transfection, cells were harvested and lysed for co-immunoprecipitation with MT1-MMP antibody or HA-tag antibody, respectively; then HA-Bst-2 or MT1-MMP was checked with related antibodies as described in figures in co-immunoprecipitated protein complexes; (C) HT1080 and MDCK cells were seeded and grown on glass coverslips in 6-well plates overnight; then transfected with HA-Bst-2 alone in HT1080 cells,
  • Figure 4. Role of N-terminal domain (NT domain) of Bst-2 in the activity regulation of Bst-2 and the interaction between Bst-2 and MT1-MMP. (A,B) HT1080 and MDCK cells were divided into two parts and seeded in 6-well plates overnight, and then transfected with plasmids as shown in figures; 48 h later, one part of the culture was used for Bst-2 activity assay by measuring the percentage of released p24 capsids in supernatants in the total concentration of p24 antigen in both supernatants and cell lysates; another part of the cells was lysed for western-blot assay; (C) MDCK cells only were seeded in 10-cm plates and transfected with plasmids as shown in figures; 48 h after transfection, cells were harvested and then co-immunoprecipitation assay was employed to check the interaction between HA-Bst-2/ΔNT and MT1-MMP, and further identify the importance of the N-terminal domain of Bst2 in the interaction of Bst-2 and MT1-MMP. * p < 0.01. IP: Immunoprecipitation; IB: Immunoblotting; WB: Western blotting; HA: HA-molecule corresponding to amino acids 98-106.
  • Figure 5. Effect of the C-terminal domain of MT1-MMP on the tetherin activity of Bst-2 and the interaction between these two proteins. (A,B) HT1080 and MDCK cells were divided into two parts and seeded in 6-plates overnight, and then transfected as indicated in figures; 48 h after transfection, one part of the cultures was used for Bst-2 activity assay as described above; and the other part of the cells was harvested for western-blot assay; (C,D) MDCK cells were cultured in 10-cm dishes overnight and transfected as in figures; 48 h later, cells were harvested and then co-immunoprecipitation assay was employed to check the interaction between HA-Bst-2 and MT1-MMP/ΔC, and further identify the importance of the C-terminal domain of MT1-MMP in the interaction of Bst-2 and MT1-MMP. * p < 0.01.
  • Figure 6. Effect of the N-terminal domain of Bst-2 on MT1-MMP activity and MT1-MMP-promoted cell growth and migration. MDCK cells and HT1080 cells were seeded in 6-well plates overnight and transfected as described in figures; (A) 24 h after transfection, medium were changed into DMEM with 5% FBS; another 24 h later, culture medium were collected and centrifuged at 12,000 rpm for 10 min, and then subjected to zymography gel assay; then, cells were harvested and lysed for Westernblot assay; (B,C) also 24 h after transfection, the culture containing the same amount of cells (1 × 103) was mixed with 500 mL of type I collagen (2.5 mg/mL) and allowed to gel at 37 °C in 24-well plates to give rise to three-dimensional collagen lattice; it was then cultured with new medium for one week. The gel lattices containing cells and cells grown in gel lattice were photographed with a video camera; (D) after transfected HT1080 and MDCK cells growing to almost confluency in 6-well plates; a scratch wound assay was employed to check the effect of wide type Bst-2 and Bst-2/ΔNT on cellular migration ability induced by MT1-MMP; (E,F) the quantification of the 3-D gel lattices (lattice diameter) in (B) and the percentages of wound closure in wound healing assays (the quantification of wound healing assays) in (D). Error bars indicate s.d. among three individual experiments. * p < 0.05.

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Fan, L., Liu, L., Zhu, C., Zhu, Q., Lu, S., & Liu, P. (2016). MT1-MMP inhibits the activity of Bst-2 via their cytoplasmic domains dependent interaction. International Journal of Molecular Sciences, 17(6). https://doi.org/10.3390/ijms17060818

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