George Moxley scite author profile

A second cDNA for human tryptase, called fl-tryptase, was cloned from a mast cell cDNA library in lambda ZAP. Its nucleotide sequence and corresponding amino acid sequence were determined and compared with those of a previously cloned tryptase cDNA, now called a-tryptase. The 1,142-base sequence of ,B-tryptase encodes a 30-amino acid leader sequence of 3,089 D and a 245-amino acid catalytic region of 27,458 D. The amino acid sequence of t-tryptase is 90% identical with that of a-tryptase, the first 20 amino acids of the catalytic portions being 100% identical. This identity, together with recognition of each recombinant protein by monoclonal antibodies directed against purified tryptase validate the tryptase identity of both a-tryptase and ,B-tryptase cDNA molecules. Modest differences between the nucleic acid sequences of a-and ,8-tryptase occurred throughout the cDNA molecules except in the 3' noncoding regions, which were identical. Although most highly conserved regions of amino acid sequence in the trypsin superfamily are conserved in both tryptase molecules, fl-tryptase has one carbohydrate binding site compared to two in a-tryptase, and one additional amino acid in the catalytic sequence. Regions of the substrate binding pocket in ,-tryptase (DSCQ, residues 218-221; SWG, residues 243-245) differ slightly from those in a-tryptase (DSCK, residues 217-220; SWD, residues 242-244). The presence of both aand ,-tryptase sequences in each haploid genome was indicated by finding a-and j-tryptase specific fragments after amplification by PCR of genomic DNA in 10 unrelated individuals. Localization of both a-and 8-tryptase sequences to human chromosome 16 was then performed by analysis of DNA preparations from 25 human/hamster somatic hybrids by PCR. It is now possible to assess the expression of each tryptase cDNA by mast cells and the relationship of each gene product to the active enzyme. (J. Clin. Invest. 1990. 86:864-870.)

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Tryptase Precursors Are Preferentially and Spontaneously Released, Whereas Mature Tryptase Is Retained by HMC-1 Cells, Mono-Mac-6 Cells, and Human Skin-Derived Mast Cells

Schwartz

Min

Ren

et al. 2003

105

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Tryptase (α and β) levels in serum are used to assess mast cell involvement in human disease. Using cultured cells, the current study examines the hypothesis that protryptase(s) are spontaneously secreted by mast cells at rest, whereas mature tryptase(s) are stored in secretory granules until their release by activated cells. HMC-1 cells have only β-tryptase genes and the corresponding mRNA. Mono-Mac-6 cells have both α- and β-tryptase genes but preferentially express α-tryptase. Mono-Mac-6 cells spontaneously secrete most of their tryptase, which consists of α-protryptase, whereas mature tryptase is retained inside these cells. HMC-1 cells also spontaneously secrete most of their tryptase, identified as β-protryptase, and retain mature tryptase. Skin-derived mast cells retain most of their tryptase, which is mature, and spontaneously secrete protryptase(s). Total tryptase levels in plasma are detectable but no different in healthy subjects with and without the gene for α-tryptase, consistent with pro forms of both α- and β-tryptase being spontaneously secreted. Thus, protryptase(s) are spontaneously secreted by resting mast cells, whereas mature tryptase is retained by mast cells until they are activated to degranulate.

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Sexual dimorphism in innate immunity

Moxley¹,

Posthuma²,

Carlson³

et al. 2002

Arthritis & Rheumatism

111

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Associations between Statin use and changes in pain, function and structural progression: a longitudinal study of persons with knee osteoarthritis

2012

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George Moxley

RAGE and arthritis: the G82S polymorphism amplifies the inflammatory response

Cloning and characterization of a second complementary DNA for human tryptase.

Tryptase Precursors Are Preferentially and Spontaneously Released, Whereas Mature Tryptase Is Retained by HMC-1 Cells, Mono-Mac-6 Cells, and Human Skin-Derived Mast Cells

Sexual dimorphism in innate immunity

Associations between Statin use and changes in pain, function and structural progression: a longitudinal study of persons with knee osteoarthritis

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