Tsutomu Tsuji

Staphylococcal Superantigen-Like Protein 3 Binds to the Toll-Like Receptor 2 Extracellular Domain and Inhibits Cytokine Production Induced by Staphylococcus aureus, Cell Wall Component, or Lipopeptides in Murine Macrophages

ABSTRACT Staphylococcal superantigen-like proteins (SSLs) are a family of exoproteins sharing structural similarity with superantigens, but no superantigenic activity. Corresponding host target proteins or receptors against a portion of SSLs in the family have been identified. In this study, we show that SSL3 specifically binds to Toll-like receptor 2 (TLR2) and inhibits the stimulation of macrophages by TLR2 ligands. An approximately 100-kDa protein was recovered by using recombinant His-tagged SSL3-conjugated Sepharose from the lysate of porcine spleen, and the protein was identified as porcine TLR2 by peptide mass fingerprinting analysis. The SSL3-conjugated Sepharose recovered human and mouse TLR2 but not TLR4 from human neutrophils and mouse macrophage RAW 264.7 cells, as well as a recombinant TLR2 extracellular domain chimera protein. The production levels of interleukin 12 (IL-12) from mouse macrophages treated with heat-killed Staphylococcus aureus and of tumor necrosis factor alpha (TNF-α) from RAW 264.7 cells induced by peptidoglycan or lipopeptide TLR2 ligands were strongly suppressed in the presence of SSL3. The mutation of consensus sialic acid-containing glycan-binding residues in SSL3 did not abrogate the binding ability to TLR2 or inhibitory activity on TLR2, indicating that the interaction of SSL3 with TLR2 was independent of the sialic acid-containing glycan-binding residues. These findings demonstrate that SSL3 is able to bind the extracellular domain of TLR2 and interfere with TLR2 function. The present study provides a novel mechanism of SSL3 in immune evasion of S. aureus via interfering with its recognition by innate immune cells.

Cytokine secretion from human monocytes potentiated by P-selectin-mediated cell adhesion.

Background/Aim: P-selectin is a carbohydrate-recognizing cell adhesion molecule expressed on activated platelets and endothelial cells. It plays a crucial role in the recruitment of leukocytes to inflammatory and hemorrhagic sites. Cell adhesion mediated by P-selectin induces leukocyte activation, such as the generation of reactive oxygen species and the expression of blood coagulation factors. We assessed how P-selectin-mediated cell adhesion affects cytokine secretion from monocytes. Methods: Human peripheral blood monocytes were cultured in a plate that had been coated with P-selectin purified from human platelets, and cytokines released in the culture supernatant from monocytes were determined by ELISA. Results: The secretion of tumor necrosis factor (TNF)-α, interleukin (IL)-1β, IL-6, IL-8, IL-12 and macrophage inflammatory protein-1β increased 3- to 10-fold in response to P-selectin compared with unstimulated monocytes. We next examined the effects of cytokine treatment of monocytes on their susceptibility to P-selectin. The secretion of TNF-α from monocytes in response to P-selectin was increased when monocytes were preincubated with granulocyte/macrophage colony-stimulating factor, monocyte chemotactic protein-1 or interferon-γ (IFN-γ); IFN-γ was the most effective in potentiating TNF-α secretion from monocytes. Conclusion: These results suggest that the interaction of monocytes with P-selectin plays an important role not only in their trafficking but also in the regulation of cytokine production by these cells.

Potentiation of tumor cell invasion by co-culture with monocytes accompanying enhanced production of matrix metalloproteinase and fibronectin

Macrophages are a major population of immune cells, and those that infiltrate into tumor tissues and affect the malignant behavior of tumor cells are called tumor-associated macrophages (TAMs). We previously reported that human peripheral blood monocytes could be induced in vitro to differentiate into TAM-like cells by co-culture with tumor cells. In the present study, we characterized changes in the invasive phenotype of tumor cells after co-culture with monocytes, and found that MKN1 gastric carcinoma cells acquired higher invasive potential into Matrigel-reconstituted basement membranes, accompanied by enhanced production of matrix metalloproteinase (MMP)-9. The increased invasiveness was inhibited in the presence of an arginyl–glycyl–aspartic acid peptide, suggesting that the process is dependent on the integrin-extracellular matrix interaction. We also found that these cells secreted fibronectin into the culture medium and expressed α5 integrin on their surface at higher levels after the co-culture with monocytes for 5xa0days. The conditioned medium of monocytes also potentiated MKN1 cell invasion; however, the potentiation was lowered by the depletion of tumor necrosis factor (TNF)-α from the conditioned medium with an antibody-protein G-Sepharose conjugate. In addition, the treatment of MKN1 cells with TNF-α promoted invasion of these cells, as well as secretion of MMP-9 and fibronectin. These results suggest that TNF-α secreted from monocytes is, at least in part, involved in the changes in invasive phenotype of tumor cells during co-culture with monocytes.

Monocyte differentiation induced by co-culture with tumor cells involves RGD-dependent cell adhesion to extracellular matrix

Macrophages that infiltrate tumor tissues, or tumor-associated macrophages (TAMs), affect the malignant behaviors of tumor cells. In this study, we attempted to induce monocytes to differentiate into TAM-like cells producing matrix metalloproteinases (MMPs) by co-culture with tumor cells. When human monocytes were co-cultured for 3-7 days with tumor cell lines, monocytes differentiated to produce MMP-9, accompanied by morphological changes. The in vitro cell invasion of MKN1 human gastric carcinoma cells into Matrigel membranes was promoted in the presence of differentiated monocytes, and the enhancement of cell invasion by differentiated monocytes was correlated with their MMP-9 productivity. The addition of an RGD (Arg-Gly-Asp) peptide to the culture significantly inhibited monocyte differentiation. The MMP-9 production from monocytes was diminished by the depletion of fibronectin from the conditioned media with gelatin-Sepharose, and potentiated by culturing them in fibronectin-coated plates. These results suggest that cell adhesion to the extracellular matrix plays a crucial role in monocyte differentiation into TAM-like cells.

Phorbol Ester-dependent Phosphorylation Regulates the Association of p57/Coronin-1 with the Actin Cytoskeleton

The p57/coronin-1 protein is a member of the coronin family of actin-binding proteins, which are characterized by the presence of WD (tryptophan/aspartic acid) repeats and a coiled-coil motif in the molecule. It is selectively expressed in immune cells and has been suggested to play crucial roles in leukocyte functions, including cell migration and phagocytosis. In this study we examined the effects of p57/coronin-1 phosphorylation on the association of the protein with actin. Treatment of HL60 human leukemic cells or p57/coronin-1-transfected HEK293 cells with phorbol 12-myristate 13-acetate (PMA) reduced the association of p57/coronin-1 with the actin cytoskeleton, as indicated by cell fractionation experiments and by fluorescence microscopic observation. Two-dimensional gel electrophoresis of HL60 cell lysate revealed that p57/coronin-1 was phosphorylated upon PMA stimulation of the cells, giving two major and two minor spots of phosphorylated forms, each with distinct isoelectric points. The p57/coronin-1 molecules associated with the cytoskeleton in PMA-treated HL60 cells were phosphorylated at lower levels than those recovered in the cytosolic fraction. In addition, p57/coronin-1 co-sedimented with F-actin polymerized in vitro had lower phosphorylation levels than the molecules remaining in the supernatant. By affinity chromatographic analysis using anti-p57/coronin-1 antibody-conjugated Sepharose, p57/coronin-1 derived from PMA-treated HL60 cells showed lower affinity for actin than that from untreated cells. Finally, recovery of p57/coronin-1 in the actin cytoskeleton-rich fraction from neutrophil-like differentiated HL60 cells decreased during phagocytosis, concomitant with enhanced phosphorylation of p57/coronin-1. These results strongly suggest that the phosphorylation of p57/coronin-1 down-regulates its association with actin and modulates the reorganization of actin-containing cytoskeleton.

Laminin-421 produced by lymphatic endothelial cells induces chemotaxis for human melanoma cells

Melanoma has a high tendency to metastasize to lymph nodes, which is one of the clinicopathological factors to indicate poor prognosis. Recent investigations have shown the importance of lymphangiogenesis in lymph node metastasis in a variety of human tumors including melanoma. However, molecular mechanism of lymphatic metastasis is still poorly defined. We examined influence of interactions between normal lymphatic endothelial cells (LECs) and melanoma cells on cell migration. Medium conditioned with LEC (LEC‐CM) contained chemotactic and chemokinetic activities for human melanoma cell lines. The chemotactic activity was fractionated in more than 100u2003kDa, and inactivated by heat‐treatment. The chemotactic activity of LEC‐CM was abolished by immunodepletion with anti‐laminin‐1 antibody. And immunoprecipitation and Western blot analyses revealed that LEC‐CM contained laminin‐421. When melanoma C8161 cells were treated with function‐blocking antibodies to integrin α3 or α6, their chemotactic responses to LEC‐CM were markedly reduced. Furthermore, the knock‐down of tetraspanin CD151 weakened the chemotactic responses of C8161 and MeWo cells to LEC‐CM. These data suggest that laminin‐421 secreted by LEC possibly facilitates lymphatic metastasis through the induction of chemotaxis of melanoma cells.

Staphylococcal superantigen-like protein 8 (SSL8) binds to tenascin C and inhibits tenascin C-fibronectin interaction and cell motility of keratinocytes.

Staphylococcal superantigen-like protein (SSL), a family of exotoxins composed of 14 SSLs, exhibits no superantigenic activity despite of its structural similarity with superantigens. Several SSLs have been revealed to bind to host immune molecules such as IgA, IgG, complement and cell surface molecules expressed on immune cells, but the physiological function of SSL family has not been fully identified. In this study we attempted to isolate host target proteins of SSLs from human breast milk using SSLs-conjugated Sepharose. SSL8-conjugated Sepharose specifically recovered tenascin C (TNC), a multimodular and multifunctional extracellular matrix protein. Pull down analysis using SSL8-conjugated Sepharose and recombinant truncated fragments of TNC revealed that SSL8 interacts with fibronectin (FN) type III repeats 1-5 of TNC. The interaction of TNC with immobilized FN was attenuated, the scratch wound closure by HaCaT human keratinocytes was delayed and the inhibition of cell spreading on FN by TNC was recovered in the presence of SSL8. These findings suggest that SSL8 binds to TNC, thereby inhibits the TNC-FN interaction and motility of keratinocytes. The present study added a novel role of SSL family protein as an interrupting molecule against the function of extracellular matrix.

Platelets attenuate production of cytokines and nitric oxide by macrophages in response to bacterial endotoxin

Abstract Considerable evidence has been accumulated concerning the roles of platelets in immune responses. In the present study, we examined the functional modulation of macrophages by platelets. When mouse bone marrow-derived macrophages (BMDMs) were co-cultured with platelets, BMDMs produced lower levels of nitric oxide (NO), tumor necrosis factor-α (TNF)-α, and interleukin (IL)-6 in response to a bacterial endotoxin (LPS) and zymosan. The attenuation in the macrophage susceptibility to LPS appeared to be mediated by soluble factors secreted from platelets. The mRNA levels of NOS2 (iNOS), TNF-α, and IL-6 in LPS-stimulated BMDMs that had been cultured with a conditioned medium of platelets were also decreased as analyzed by RT-qPCR. The ability of the platelet-conditioned medium to suppress macrophage NO production was recovered in a high-molecular-weight fraction (>670 kDa) after gel-filtration chromatography on a Superose 6 column. These results suggest that platelets control the susceptibility of macrophages to prevent excessive responses to LPS and provide mechanistic insight into a previous report that experimental thrombocytopenia aggravated organ failure in LPS-induced endotoxemia.

Involvement of transcription factor Ets‐1 in the expression of the α3 integrin subunit gene

The α3β1 integrin is an adhesion receptor for extracellular matrix proteins, and plays crucial roles in cell motility, proliferation, and differentiation. The aberrant expression of this adhesion molecule on tumor cells is frequently associated with their malignant behaviors. We previously reported that the Ets transcription factor‐binding consensus sequence 133 bp upstream of the mouse α3 integrin gene is an important element for its expression in various tumor cell lines. In the present study, we attempted to identify a transcription factor bound to the Ets‐consensus sequence, and found that Ets‐1 bound to this sequence in an electrophoretic mobility shift assay, chromatin immunoprecipitation assay, and pull‐down assay with a tandem repeat of the sequence as adsorbent. We next examined the role of Ets‐1 in α3 integrin gene expression by use of a luciferase assay with a reporter plasmid containing the 5′‐flanking region of the α3 integrin gene. Cotransfection of HEK293T cells with an Ets‐1 expression construct and the reporter plasmid increased luciferase activity. By contrast, transfection of HT1080 cells (high α3 integrin expresser) with a dominant‐negative mutant of Ets‐1 decreased luciferase activity. Overexpression of Ets‐1 in HepG2 hepatocellular carcinoma cells (low α3 integrin expresser) upregulated α3 integrin expression as assessed by immunoprecipitation. Finally, the induction of α3 integrin gene expression in HepG2 cells after transforming growth factor‐β1 treatment was abrogated by the dominant‐negative mutant of Ets‐1. These results suggest that Ets‐1 is involved in transcriptional activation of the α3 integrin gene through its binding to the Ets‐consensus sequence at −133 bp.

Constitutive Turnover of Phosphorylation at Thr-412 of Human p57/coronin-1 Regulates the Interaction with Actin

Background: Biological functions of actin-binding protein p57/coronin-1 may be regulated by phosphorylation. Results: Ser-2 and Thr-412 were identified as major phosphorylation sites of p57/coronin-1, and the phosphorylation at Thr-412 reduced the binding affinity for actin. Conclusion: Physical interaction between p57/coronin-1 and actin is regulated by phosphorylation at Thr-412. Significance: The results provide mechanistic insight into the actin-related immunological processes. The actin-binding protein p57/coronin-1, a member of the coronin protein family, is selectively expressed in hematopoietic cells and plays crucial roles in the immune response through reorganization of the actin cytoskeleton. We previously reported that p57/coronin-1 is phosphorylated by protein kinase C, and the phosphorylation down-regulates the association of this protein with actin. In this study we analyzed the phosphorylation sites of p57/coronin-1 derived from HL60 human leukemic cells by MALDI-TOF-MS, two-dimensional gel electrophoresis, and Phos-tag® acrylamide gel electrophoresis in combination with site-directed mutagenesis and identified Ser-2 and Thr-412 as major phosphorylation sites. A major part of p57/coronin-1 was found as an unphosphorylated form in HL60 cells, but phosphorylation at Thr-412 of p57/coronin-1 was detected after the cells were treated with calyculin A, a Ser/Thr phosphatase inhibitor, suggesting that p57/coronin-1 undergoes constitutive turnover of phosphorylation/dephosphorylation at Thr-412. A diphosphorylated form of p57/coronin-1 was detected after the cells were treated with phorbol 12-myristate 13-acetate plus calyculin A. We then assessed the effects of phosphorylation at Thr-412 on the association of p57/coronin-1 with actin. A co-immunoprecipitation experiment with anti-p57/coronin-1 antibodies and HL60 cell lysates revealed that β-actin was co-precipitated with the unphosphorylated form but not with the phosphorylated form at Thr-412 of p57/coronin-1. Furthermore, the phosphorylation mimic (T412D) of p57/coronin-1 expressed in HEK293T cells exhibited lower affinity for actin than the wild-type or the unphosphorylation mimic (T412A) did. These results indicate that the constitutive turnover of phosphorylation at Thr-412 of p57/coronin-1 regulates its interaction with actin.