Amino acid sequence of a mouse mucosal mast cell protease

The amino acid sequence has been determined of a mouse mucosal mast cell protease isolated from the small intestines of mice infected with Trichinella spiralis. The active protease contains 226 residues. Those corresponding to the catalytic triad of the active site of mammalian serine proteases (His-57, Asp-102, and Ser-195 in chymotrypsin) occur in identical positions. A computer search for homology indicates 74.3% and 74.1% sequence identity of the mouse mast cell protease compared to those of rat mast cell proteases I and II (RMCP I and II), respectively. The six half-cystine residues in the mouse mast cell protease are located in the same positions as in the rat mast cell proteases, cathepsin G, and the lymphocyte proteases, suggesting that they all have identical disulfide bond arrangements. At physiological pH, the mouse and rat mucosal mast cell proteases have net charges of +3 and +4, respectively, as compared to +18 for the protease (RMCP I) from rat connective tissue mast cells. This observation is consistent with the difference in solubility between the mucosal and connective tissue mast cell proteases when the enzymes are extracted from their granules under physiological conditions.     

Amino acid sequence of rat mast cell protease I (chymase)

The amino acid sequence has been determined for rat mast cell protease I (RMCP I), a product of peritoneal mast cells. The active enzyme contains 227 residues, including three corresponding to the catalytic triad characteristic of serine protease (His-57, Asp-102, and Ser-195 in chymotrypsin). A computer search for homology indicates 73% and 33% sequence identity of RMCP I with rat mast cell protease II from mucosal mast cells and bovine chymotrypsin A, respectively. When the structure of RMCP I is compared to those of cathepsin G from human neutrophils and two proteases expressed in activated lymphocytes, 48-49% of the sequences are identical in each case. RMCP I has six half-cystine residues at the same positions as in RMCP II, cathepsin G, and the two lymphocyte proteases, suggesting disulfide pairs identical with those reported for RMCP II. A disulfide bond near the active site seryl residue and substrate binding site, present in pancreatic and plasma serine proteases, is not found in RMCP I or in the other cellular proteases. These results indicate that RMCP I and other chymotrypsin-like proteases of granulocyte and lymphocyte origin are more closely related to each other than to the pancreatic or plasma serine proteases.     

Morphological and functional characteristics of peritoneal mast cells from young rats

To study why neonatal and young rats are resistant to the effects of some secretagogues, such as compound 48/80 and 2.5-S nerve growth factor, we examined peritoneal mast cells from 14–15-day-old rats (young rats) and compared them to peritoneal mast cells from adults. Peritoneal mast cells from young rats contain approximately one-tenth of the amount of histamine observed in adult peritoneal mast cells. However, both cell populations contained similar low levels of the mucosal mast cell-associated protease rat mast cell protease II. Histochemical analysis of peritoneal mast cells from young rats using safranin O and berberine sulphate suggested that only a portion of the granules of these cells contained heparin. At an ultrastructural level the young rat peritoneal mast cell contains relatively few granules. The majority of mast cells from young rats have a bilobed or indented nucleus which is only rarely observed in adult cells. Functionally, the young rat peritoneal mast cell demonstrates a significantly reduced histamine release in response to the connective tissue mast cellspecific secretagogues compound 48/80 and 2.5-S nerve growth factor. In contrast, the percent histamine release in response to the neurotransmitter substance P, which degranulates both connective tissue mast cells and intestinal mucosal mast cells, was similar in the adult cells and the young rat cells. This study demonstrates substantial differences between the young rat and adult peritoneal mast cells which may explain the ability of very young animals to withstand large doses of certain secretagogues.     

Activation of latent human granulocyte gelatinase by rat mast cell protease

Rat peritoneal mast cell extract contains an activator of latent human granulocyte gelatinase. The activator has been partially purified and characterized. It shows a similarity to rat mast cell chymase in several properties including its molecular weight, substrate specificity and sensitivity to inhibitors. The activation of latent gelatinase with rat mast cell protease is dependent on protease concentration, incubation time and is mediated through the catalytic site of the activator. The significance of mast cell protease in the regulation of collagenolytic enzymes is discussed.     

Cloning of the cDNA and gene of mouse mast cell protease-6. Transcription by progenitor mast cells and mast cells of the connective tissue subclass

The cDNA and gene for mouse mast cell protease-6 (MMCP-6) have been sequenced and show MMCP-6 to be translated as a prepro-enzyme with a 21-amino acid hydrophobic leader peptide, a 10-amino acid activation peptide, and a 245-amino acid mature enzyme. The mature form of the enzyme has 73% amino acid sequence identity with human and dog mast cell tryptases. The MMCP-6 gene includes 6 exons, with a total span of 1.8 kilobases. A 208-base pair intron was defined which separates the 5'-untranslated sequence of MMCP-6 from the translation initiation codon, thereby presenting a gene organization which distinguishes tryptic serine proteases from chymotryptic serine proteases of the mast cell secretory granule. By RNA blot analysis with a gene-specific probe, MMCP-6 has a unique subclass distribution in being transcribed in mouse connective tissue mast cells but undetectable in mucosal mast cells. MMCP-6 is the first serine protease of any class to be shown to be significantly transcribed in progenitor, bone marrow-derived mast cells, which can reconstitute both mucosal mast cell and connective tissue mast cell populations in mast cell-deficient mice.     

Characterization of the gene encoding mouse mast cell protease 8 (mMCP-8), and a comparative analysis of hematopoietic serine protease genes

Serine proteases are important granule constituents in several of the major hematopoietic cell lineages. We present here the nucleotide sequence of the gene encoding mouse mast cell protease 8 (mMCP-8). mMCP-8 was initially isolated as a cDNA from a mouse mast cell line, but has recently been found to be expressed primarily by mouse basophils. mMCP-8 and its rat homologues, rMCP-8, -9, and -10, form a new group of mast cell/basophil proteases, which are more closely related to the T-cell granzymes and neutrophil cathepsin G than to the mast cell tryptases and chymases. A dot matrix comparison of the mMCP-8 gene with other closely related hematopoietic serine protease genes shows detectable homology only in the exonic regions of the genes. No indication for conservation in the promoter region or introns was observed. This latter finding indicates that the upstream regulatory region has evolved at a relatively high rate. However, despite the low degree of direct sequence conservation, no major differences in the sizes of introns or exons were observed between mMCP-8 and genes for the closest related hematopoietic serine proteases, the mouse T-cell granzymes and cathepsin G, indicating that after evolutionary separation from the T-cell granzymes and cathepsin G, the majority of mutations primarily involved single base pair substitutions or short insertions or deletions.     

Purification and partial characterization of an alpha-chymotrypsin-like protease of rat peritoneal mast cells.

An alpha-chymotrypsin-like enzyme was isolated from mast cells of the rat peritoneal cavity by extraction with 0.8 M potassium phosphate, 2 per cent protamine sulfate followed by affinity chromatography on hen ovoinhibitor-agarose and adsorption on barium sulfate. This procedure yielded over 9 mg of protease from the peritoneal lavage fluid of 100 rats, equivalent to 44 per cent of the initial activity. The purified protein was homogeneous as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, analytical isoelectric focusing, and amino-terminal sequence analysis. The protease contains no covalently bound carbohydrate and has a molecular weight of approximately 26,000. The enzyme molecule is a single polypeptide chain with an amino-terminal sequence homologous to that of the B chain of bovine alpha-chymotrypsin. The kinetic parameters, Km and kcat, for the hydrolysis of N-benzoyl-L-tyrosine ethyl ester were determined at pH 8.0 and 25 degrees C as 1.1 X 10(-3) M and 84 sec-1, respectively. The value of the second-order rate constant for inactivation of mast cell protease by diisopropylphosphofluoridate was 300 times lower than for bovine alpha-chymotrypsin.     

A chymotrypsin-type serine protease in rat basophilic leukemia cells: evidence for its immunologic identity with atypical mast cell protease

Activity of a chymotrypsin-type serine protease was found in a subline of rat basophilic leukemia (RBL-2H3) cells. The protease was immunologically cross-reactive with anti-atypical mast cell protease immunoglobulin (Ig) G, and its activity was inhibited in a dose-dependent manner by the antibody. The apparent m.w. of the protease that reacted with the antibody was 25,000, which was identical with that of atypical mast cell protease in rat mucosal mast cells. These results show that the chymotrypsin type serine protease in RBL-2H3 cells is immunologically identical with atypical mast cell protease, which was first purified from rat small intestine. Immunohistochemical studies showed that the protease was located not only in intracytoplasmic granules but also in organelles synthesizing protein, such as cisternae of the rough endoplasmic reticulum, perinuclear spaces, and the Golgi apparatus. However, no immunoreactivity was demonstrated in rat basophils. The activity of the protease increased in the exponential phase of growth of RBL-2H3 cells in which some activity was also detected in the medium, and it decreased in the late stationary phase.     

Cloning of the cDNA and gene for mouse mast cell protease 4. Demonstration of its late transcription in mast cell subclasses and analysis of its homology to subclass-specific neutral proteases of the mouse and rat

Based on the amino-terminal amino acid sequence of the mature form of mouse mast cell protease 4 (MMCP-4), previously identified in peritoneal connective tissue mast cells (CTMC) and Kirsten sarcoma virus-immortalized mast cells (KiSV-MC), a 26-mer oligonucleotide probe was constructed and used to clone cDNAs for MMCP-4 from a KiSV-MC1 cDNA library. MMCP-4 is the first secretory granule serine protease of CTMC to be molecularly cloned. Using a cDNA probe derived from the 3'-untranslated portion of the MMCP-4 cDNA, the gene for MMCP-4 and a second highly related gene (mouse mast cell protease-like, MMCP-L) were cloned from a BALB/c mouse genomic DNA library and sequenced entirely, including approximately 2 kilobases of the 5'-flanking region. MMCP-4 and MMCP-L have five exons of identical length, four introns of nearly identical length, and approximately 900 base pairs of 5'-flanking DNA with sequence similarity by dot matrix analysis. By RNA blot analysis with gene-specific probes for MMCP-4 (bases 497-633 of the cDNA) and MMCP-L (bases 502-638 of the cDNA), mRNA for MMCP-4 was present in KiSV-MC5, CTMC, and the intestine of a mouse infected with the parasite Nippostrongylus brasiliensis markedly enriched for mucosal mast cells (MMC); MMCP-L mRNA was detected only in the intestine of the N. brasiliensis-infected mouse. MMCP-4 mRNA was not expressed in normal mouse intestine or in interleukin 3-dependent bone marrow-derived mast cells, which can serve as precursors to both MMC and CTMC. This finding suggests that MMCP-4 is transcribed relatively late in the development of both the CTMC and MMC subclasses and underscores the fact that mouse bone-marrow-derived mast cells are immature mast cells, rather than tissue culture equivalents of the MMC subclass.     

Intestinal mucosal mast cells in Nippostrongylus-infected mice: lack of sensitivity to corticosteroids

Immune reactions to enteric nematodes, in which mast cells are thought to play an important role, are abrogated following corticosteroid treatment of host animals. This is probably due, at least in part, to inhibition of cytokine production by T cells. It has proved difficult to block worm expulsion in mice with corticosteroids. We have therefore examined the effects of corticosteroids on mast cell numbers and concentrations of the mast cell granule-specific serine protease Mouse Intestinal Mast Cell Protease (MIMCP) in the intestines of mice infected with Nippostrongylus brasiliensis. Mucosal mast cell (MMC) numbers and concentrations of MIMCP were unaltered by steroid treatment. This is in marked contrast to Nippostrongylus-infected rats which showed decreases in both mast cell numbers and concentrations of the rat mucosal mast cell protease RMCP II after steroid treatment. This suggests that differentiated murine MMC are less dependent on T cells than those of the rat.     

Chymotrypsin- and trypsin-type serine proteases in rat mast cells: properties and functions

Two of the major enzymes present in and released from rat mast cells are chymotrypsin-type serine protease (chymase) and trypsin-type serine protease (tryptase), and these have been postulated to be important in the inflammatory reactions. There have been no clear data regarding the trypsin-type protease in rat mast cells. Tryptase was recently purified from rat peritoneal mast cells with an associated protein (trypstatin) that inhibited the protease activity above pH 7.5. Chymase was also purified from rat peritoneal cells by employing a one-step method involving hydrophobic chromatography on octyl-Sepharose 4B or arginine-Sepharose 4B. The properties of chymase and tryptase were described in relation to substrate specificity and their relative sensitivity to inhibitors. It was found that proteolytic activities of these enzymes were modulated by naturally occurring substances, such as phosphoglycerides, long-chain fatty acids, and trypstatin. There is as yet little evidence for the physiological roles of these enzymes in the inflammatory reaction. It has been found that the specific, low-molecular-weight inhibitor of chymase, chymostatin, and that of tryptase, leupeptin, inhibit histamine release induced by addition of anti-rat IgE to mast cells. However, the inhibitors with molecular weights of more than 6000 were found to have no effect in this process. The data suggest that chymase and tryptase in mast cell granules play a crucial or significant role in the process of degranulation.