| 1. |
- Andersson, Mattias K., 1978-
(författare)
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Cleavage Specificity of Mast Cell Chymases
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Mast cells (MC) are potent inflammatory cells that are known primarily for their prominent role in IgE mediated allergies. However, they also provide beneficial functions to the host, e.g. in bacterial and parasitic defence. MCs react rapidly upon stimulation by releasing potent granule-stored mediators, and serine proteases of the chymase or tryptase families are such major granule constituents. As a first step towards a better understanding of the biological function of these proteases, we have determined the extended cleavage specificities of four mammalian mast cell chymases, by utilizing a substrate phage display approach. The specificities of these enzymes have then been used to compare their functional characteristics.The major mucosal MC chymase in mice, mMCP-1, was found to possess a strict preference in four amino acid positions of the peptide substrate. Using this sequence to search the mouse proteome for potential in vivo substrates led to the identification of several very interesting potential novel substrates. Some of them may explain the increased epithelial permeability provided by this enzyme.Human MCs, express only one single α-chymase, and the rodent α-chymases have secondarily gained elastase-like primary cleavage specificity. However, rodents express additional chymases, the β-chymases, and rodent β-chymases may have adopted the function of the α-chymases. The cleavage specificities of the human chymase and two rodent β-chymases were therefore determined (rat rMCP-1 and mouse mMCP-4). N-terminal of the cleaved bond the three chymases showed similar preferences, but C-terminal the human chymase and mMCP-4 shared a high preference for acidic amino acids in the P2´ position and therefore seem to be functional homologues. The molecular interactions mediating the preference for acidic amino acids in position P2´ were further investigated. By site-directed mutagenesis of the human chymase, amino acids Arg143 and Lys192 were concluded to synergistically mediate this preference.Our data show that chymases, of different MC subpopulations, display quite different extended cleavage specificities. However mouse do possess a MC chymase with almost identical cleavage specificity as the human MC chymase indicating a strong evolutionary pressure to maintain this enzyme specificity.
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| 2. |
- Braga, Tiago, et al.
(författare)
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Reduction with dithiothreitol causes serglycin-specific defects in secretory granule integrity of bone marrow derived mast cells
- 2009
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Ingår i: Molecular Immunology. - : Elsevier BV. - 0161-5890 .- 1872-9142. ; 46:3, s. 422-428
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Tidskriftsartikel (refereegranskat)abstract
- Mast cell granule maturation and storage of granule components has previously been shown to be critically dependent on serglycin (SG), a proteoglycan abundantly stored in mast cell secretory granules. The N-terminal portion of serglycin contains a conserved disulfide motif that is similar to motifs found in secretory granule compounds of neuroendocrine cells. Interference with such motifs of neuroendocrine cells with dithiothreitol (DTT) has previously been shown to cause cellular missorting. To investigate the implication for serglycin, serglycin(+/+) and serglycin(-/-) bone marrow derived mast cells (BMMCs) were treated with DTT followed by assessment of proteoglycan synthesis and secretory granule integrity. Treatment of serglycin(+/+) BMMCs with DTT almost completely abolished biosynthetic incorporation of (35)S-sulfate into proteoglycans, caused a dramatic reduction of granular staining with May Grünwald/Giemsa as well as disruption of granule dense core formation as shown by transmission electron microscopy. In addition, the storage of carboxypeptidase A, a major secretory granule compound, was markedly reduced following DTT treatment. In contrast, none of these effects were seen after treatment of SG(-/-) BMMCs with DTT, indicating that they were serglycin-specific. Notably, DTT treated serglycin(+/+) BMMCs showed similar morphology as did the serglycin(-/-) BMMCs. DTT treatment affected neither the viability of the BMMCs nor the mRNA levels for serglycin or carboxypeptidase A. Together, these data indicate that DTT causes dramatic, serglycin-specific effects on mast cell granule. These findings are thus in accordance with a role for the N-terminal disulfide motif in serglycin for regulation of mast cell secretory granule integrity.
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| 3. |
- Braga, Tiago, et al.
(författare)
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Serglycin proteoglycan is required for secretory granule integrity in mucosal mast cells
- 2007
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Ingår i: Biochemical Journal. - 0264-6021 .- 1470-8728. ; 403:1, s. 49-57
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Tidskriftsartikel (refereegranskat)abstract
- SG (serglycin) PGs (proteoglycans) are strongly implicated in the assembly of MC (mast cell) granules. However, this notion has mainly been on the basis of studies of MCs of the connective tissue subtype, whereas the role of SG PG in mucosal MCs has not been explored. In the present study, we have addressed the latter issue by using mice with an inactivated SG gene. Bone marrow cells were differentiated in vitro into the mucosal MC phenotype, expressing the markers mMCP (mouse MC protease) -1 and -2. Biosynthetic labelling experiments performed on these cells revealed an ~80% reduction of 35SO42− incorporation into PGs recovered from SG−/− cells as compared with SG+/+ counterparts, indicating that SG is the dominating cell-associated PG of mucosal MCs. Moreover, the absence of SG led to defective metachromatic staining of mucosal MCs, both in vivo and in the in vitro-derived mucosal MCs. Ultrastructural analysis showed that granules were present in similar numbers in SG+/+ and SG−/− cells, but that their morphology was markedly affected by the absence of SG, e.g. with electron-dense core formation only seen in SG+/+ granules. Analysis of the MC-specific proteases showed that mMCP-1 and mMCP-7 were completely independent of SG for storage, whereas mMCP-2 showed a partial dependence. In contrast, mMCP-4 and -6, and carboxypeptidase A were strongly dependent on SG for storage. Together, our data indicate that SG PG is of crucial importance for assembly of mature mucosal MC granules, but that the specific dependence on SG for storage varies between individual granule constituents.
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| 4. |
- Duelli, Annette, et al.
(författare)
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Mast cell differentiation and activation is closely linked to expression of genes coding for the serglycin proteoglycan core protein and a distinct set of chondroitin sulfate and heparin sulfotransferases
- 2009
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Ingår i: Journal of Immunology. - : The American Association of Immunologists. - 0022-1767 .- 1550-6606. ; 183:11, s. 7073-7083
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Tidskriftsartikel (refereegranskat)abstract
- Serglycin (SG) proteoglycan consists of a small core protein to which glycosaminoglycans of chondroitin sulfate or heparin type are attached. SG is crucial for maintaining mast cell (MC) granule homeostasis through promoting the storage of various basic granule constituents, where the degree of chondroitin sulfate/heparin sulfation is essential for optimal SG functionality. However, the regulation of the SG core protein expression and of the various chondroitin sulfate/heparin sulfotransferases during MC differentiation and activation are poorly understood. Here we addressed these issues and show that expression of the SG core protein, chondroitin 4-sulfotransferase (C4ST)-1, and GalNAc(4S)-6-O-sulfotransferase (GalNAc4S6ST) are closely linked to MC maturation. In contrast, the expression of chondroitin 6-sulfotransferase correlated negatively with MC maturation. The expression of N-deacetylase/N-sulfotransferase (NDST)-2, a key enzyme in heparin synthesis, also correlated strongly with MC maturation, whereas the expression of the NDST-1 isoform was approximately equal at all stages of maturation. MC activation by either calcium ionophore or IgE ligation caused an up-regulated expression of the SG core protein, C4ST-1, and GalNAc4S6ST, accompanied by increased secretion of chondroitin sulfate as shown by biosynthetic labeling experiments. In contrast, NDST-2 was down-regulated after MC activation, suggesting that MC activation modulates the nature of the glycosaminoglycan chains attached to the SG core protein. Taken together, these data show that MC maturation is associated with the expression of a distinct signature of genes involved in SG proteoglycan synthesis, and that MC activation modulates their expression.
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| 5. |
- Groschwitz, Katherine R., et al.
(författare)
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Mast cells regulate homeostatic intestinal epithelial migration and barrier function by a chymase/Mcpt4-dependent mechanism
- 2009
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Ingår i: Proceedings of the National Academy of Sciences of the United States of America. - : Proceedings of the National Academy of Sciences. - 0027-8424 .- 1091-6490. ; 106:52, s. 22381-22386
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Tidskriftsartikel (refereegranskat)abstract
- Altered intestinal barrier function is postulated to be a central predisposing factor to intestinal diseases, including inflammatory bowel diseases and food allergies. However, the mechanisms involved in maintaining homeostatic intestinal barrier integrity remain undefined. In this study, we demonstrate that mice deficient in mast cells (Kit(W-sh/W-sh) [Wsh]) or mast cell chymase (Mcpt4(-/-)) have significantly decreased basal small intestinal permeability compared with wild-type (WT) mice. Altered intestinal barrier function was linked to decreased intestinal epithelial cell migration along the villus/crypt axis, altered intestinal morphology, and dysregulated claudin-3 crypt expression. Remarkably, engraftment of Wsh mice with WT but not Mcpt4(-/-) mast cells restored intestinal epithelial cell migration, morphology, and intestinal epithelial barrier function. Collectively, these findings identify a mechanism by which mast cells regulate homeostatic intestinal epithelial migration and barrier function.
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| 6. |
- Gruic, Mirjana, et al.
(författare)
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Serglycin-deficient cytotoxic T lymphocytes display defective secretory granule maturation and granzyme B storage
- 2005
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Ingår i: Journal of Biological Chemistry. - 0021-9258 .- 1083-351X. ; 280:39, s. 33411-33418
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Tidskriftsartikel (refereegranskat)abstract
- Cytotoxic T lymphocytes eliminate infected and tumor cells mainly by perforin/granzyme-induced apoptosis. Earlier studies suggested that serglycin-proteoglycans form macromolecular complexes with granzymes and perforin in the cytotoxic granule. Serglycin-proteoglycans may also be involved in the delivery of the cytolytic machinery into target cells. We have developed a serglycin-deficient mouse strain, and here we studied the importance of serglycin-proteoglycans for various aspects of cytotoxic T lymphocyte function. 35SO4(2-) radiolabeling of serglycin-deficient cells demonstrated a dramatic reduction of incorporated label as compared with wild type cells, indicating that serglycin is by far the dominating proteoglycan species produced by the cytotoxic T lymphocyte. Moreover, lack of serglycin resulted in impaired ability of cytotoxic T lymphocytes to produce secretory granule of high electron density, although granule of lower electron density were produced both in wild type and serglycin-deficient cells. The serglycin deficiency did not affect the mRNA expression for granzyme A, granzyme B, or perforin. However, the storage of granzyme B, but not granzyme A, Fas ligand, or perforin, was severely defective in serglycin-deficient cells. Serglycin-deficient cells did not display defects in late cytotoxicity toward target cell lines. Taken together, these results point to a key role for serglycin in the storage of granzyme B and for secretory granule maturation but argue against a major role for serglycin in the apoptosis mediated by cytotoxic T lymphocytes.
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| 7. |
- Grujic, Mirjana, et al.
(författare)
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Delayed contraction of the CD8+ T cell response toward lymphocytic choriomeningitis virus infection in mice lacking serglycin
- 2008
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Ingår i: Journal of Immunology. - 0022-1767 .- 1550-6606. ; 181:2, s. 1043-1051
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Tidskriftsartikel (refereegranskat)abstract
- We previously reported that the lack of serglycin proteoglycan affects secretory granule morphology and granzyme B (GrB) storage in in vitro generated CTLs. In this study, the role of serglycin during viral infection was studied by infecting wild-type (wt) mice and serglycin-deficient (SG(-/-)) mice with lymphocytic choriomeningitis virus (LCMV). Wt and SG(-/-) mice cleared 10(3) PFU of highly invasive LCMV with the same kinetics, and the CD8(+) T lymphocytes from wt and SG(-/-) animals did not differ in GrB, perforin, IFN-gamma, or TNF-alpha content. However, when a less invasive LCMV strain was used, SG(-/-) GrB(+) CD8(+) T cells contained approximately 30% less GrB than wt GrB(+) CD8(+) T cells. Interestingly, the contraction of the antiviral CD8(+) T cell response to highly invasive LCMV was markedly delayed in SG(-/-) mice, and a delayed contraction of the virus-specific CD8(+) T cell response was also seen after infection with vesicular stomatitis virus. BrdU labeling of cells in vivo revealed that the delayed contraction was associated with sustained proliferation of Ag-specific CD8(+) T cells in SG(-/-) mice. Moreover, wt LCMV-specific CD8(+) T cells from TCR318 transgenic mice expanded much more extensively in virus-infected SG(-/-) mice than in matched wt mice, indicating that the delayed contraction represents a T cell extrinsic phenomenon. In summary, the present report points to a novel, previously unrecognized role for serglycin proteoglycan in regulating the kinetics of antiviral CD8(+) T cell responses.
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| 8. |
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| 9. |
- Henningsson, Frida, et al.
(författare)
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A role for serglycin proteoglycan in granular retention and processing of mast cell secretory granule components
- 2006
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Ingår i: The FEBS Journal. - : Wiley. - 1742-464X .- 1742-4658. ; 273:21, s. 4901-4912
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Tidskriftsartikel (refereegranskat)abstract
- In the absence of serglycin proteoglycans, connective tissue-type mast cells fail to assemble mature metachromatic secretory granules, and this is accompanied by a markedly reduced ability to store neutral proteases. However, the mechanisms behind these phenomena are not known. In this study, we addressed these issues by studying the functionality and morphology of secretory granules as well as the fate of the secretory granule proteases in bone marrow-derived mast cells from serglycin(+/+) and serglycin(-/-) mice. We show that functional secretory vesicles are formed in both the presence and absence of serglycin, but that dense core formation is defective in serglycin(-/-) mast cell granules. The low levels of mast cell proteases present in serglycin(-/-) cells had a granular location, as judged by immunohistochemistry, and were released following exposure to calcium ionophore, indicating that they were correctly targeted into secretory granules even in the absence of serglycin. In the absence of serglycin, the fates of the serglycin-dependent proteases differed, including preferential degradation, exocytosis or defective intracellular processing. In contrast, beta-hexosaminidase storage and release was not dependent on serglycin. Together, these findings indicate that the reduced amounts of neutral proteases in the absence of serglycin is not caused by missorting into the constitutive pathway of secretion, but rather that serglycin may be involved in the retention of the proteases after their entry into secretory vesicles.
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| 10. |
- Lindkvist, Björn, et al.
(författare)
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Cathepsin B activates human trypsinogen 1 but not proelastase 2 or procarboxypeptidase B
- 2006
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Ingår i: Pancreatology. - : Elsevier BV. - 1424-3903. ; 6:3, s. 224-231
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Tidskriftsartikel (refereegranskat)abstract
- Background/Aims: Activation of trypsinogen to trypsin is a crucial step in the development of acute pancreatitis. The cause of this activation is not known although suggested explanations include autoactivation, cathepsin B-mediated activation and activation by mast cell tryptase. The aim of this study was to investigate cathepsin B and tryptase activation of pancreatic zymogens. Methods: Trypsinogen-1, proelastase, and procarboxypeptidase B were purified from human pancreatic juice. Human cathepsin B and beta I- tryptase are commercial products. Activation and degradation of zymogens were measured by activity towards specific substrates for trypsin and pancreatic elastase, ELISAs for procarboxypeptidase B and its activation peptide, and a radioimmunoassay for the trypsinogen activation peptide. Results: Cathepsin B caused activation of trypsinogen-1 with a trypsin yield of about 30% of that produced by enterokinase. Proelastase and procarboxypeptidase B was not activated by cathepsin B. None of the zymogens were inactivated by cathepsin B. Neither monomeric nor tetrameric tryptase could activate any of the examined zymogens. Conclusion: Cathepsin B is a competent activator of trypsinogen-1, although not as efficient as enterokinase. If cathepsin B is to play a role in protease activation in acute pancreatitis, this most probably occurs by activation of trypsinogen.
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