Structural Basis for Elastolytic Substrate Specificity in Rodent α-Chymases

Kervinen, Jukka; Abad, M.C.; Crysler, Carl; Kolpak, Michael X.; Mahan, Andrew; Masucci, John A.; Bayoumy, Shariff; Cummings, Maxwell D.; Yao, Xiang; Olson, Matthew W.; Garavilla, Lawrence de; Kuo, Lawrence C.; Deckman, Ingrid C.; Spurlino, John

doi:10.1074/jbc.m707157200

Cited by 16 publications

(21 citation statements)

References 49 publications

(73 reference statements)

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“…Residues with side chains of intermediate size, such as Val 216 in murine and hamster ␣-chymases and Ser 216 in granzyme M, are associated with elastase and Met-ase activity, respectively, but have little if any ability to hydrolyze peptides after aromatic amino acids. The "gatekeeping" role of residue 216 also is supported by the structural and modeling studies (19,20,23,31), including those in the present work, which suggests that the 216 side chain influences the volume, shape, and hydrophobicity of the binding pocket accommodating the P1 residue of the substrate (see Fig. 6).…”

Section: Discussionsupporting

confidence: 58%

“…In the case of elastolytic chymases, notably the mouse chymase MCP-5 and its rat ortholog, the switch from chymotryptic to elastolytic specificity is attributable to natural mutation of a single amino acid (19,20). Similar elastolytic properties have recently been described for hamster ␣ chymase (23). Thus, small changes in structure, including alteration of just one amino acid in the vicinity of the substrate-binding site, can cause large changes in function.…”

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confidence: 65%

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Guinea Pig Chymase Is Leucine-specific

Caughey

Beauchamp

Schlatter

et al. 2008

Journal of Biological Chemistry

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To explore guinea pigs as models of chymase biology, we cloned and expressed the guinea pig ortholog of human chymase. In contrast to rats and mice, guinea pigs appear to express just one chymase, which belongs to the ␣ clade, like primate chymases and mouse mast cell protease-5. The guinea pig enzyme autolyzes at Leu residues in the loop where human chymase autolyzes at Phe. In addition, guinea pig ␣-chymase selects P1 Leu in a combinatorial peptide library and cleaves Ala-Ala-ProLeu-4-nitroanilide but has negligible activity toward substrates with P1 Phe and does not cleave angiotensin I. This contrasts with human chymase, which cleaves after Phe or Tyr, prefers P1 Phe in peptidyl 4-nitroanilides, and avidly hydrolyzes angiotensin I at Phe 8 to generate bioactive angiotensin II. The guinea pig enzyme also is inactivated more effectively by ␣ 1 -antichymotrypsin, which features P1 Leu in the reactive loop. Unlike mouse, rat, and hamster ␣-chymases, guinea pig chymase lacks elastase-like preference for P1 Val or Ala. Partially humanized A216G guinea pig chymase acquires human-like P1 Phe-and angiotensin-cleaving capacity. Molecular models suggest that the wild type active site is crowded by the Ala 216 side chain, which potentially blocks access by bulky P1 aromatic residues. On the other hand, the guinea pig pocket is deeper than in Val-selective chymases, explaining the preference for the longer aliphatic side chain of Leu. These findings are evidence that chymase-like peptidase specificity is sensitive to small changes in structure and provide the first example of a vertebrate Leu-selective peptidase.

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Section: Discussionsupporting

confidence: 58%

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confidence: 65%

Guinea Pig Chymase Is Leucine-specific

Caughey

Beauchamp

Schlatter

et al. 2008

Journal of Biological Chemistry

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“…Subsequent mutations led to acquisition of specialized activity and higher catalytic efficiency. More generally, these results reveal how small changes in structure in this family of immune peptidases can cause large changes in function, as also occurred in mouse, rat and hamster α-chymase (56, 57), which switched from chymotryptic to elastolytic activity, and in guinea pig α-chymase, which switched from chymotryptic to leu-ase activity (45). Although cathepsin G appears to be microbicidal in mice (6), in the context of chronic airway infection in humans with cystic fibrosis cathepsin G interferes with killing of certain bacteria (11).…”

Section: Discussionmentioning

confidence: 64%

How Immune Peptidases Change Specificity: Cathepsin G Gained Tryptic Function but Lost Efficiency during Primate Evolution

Raymond

Trivedi

Makarova

et al. 2010

The Journal of Immunology

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Cathepsin G is a major secreted serine peptidase of neutrophils and mast cells. Studies in Ctsg-null mice suggest that cathepsin G supports antimicrobial defenses but can injure host tissues. The human enzyme has unusual “Janus-faced” ability to cleave peptides at basic (tryptic) as well as aromatic (chymotryptic) sites. Tryptic activity has been attributed to acidic Glu226 in the primary specificity pocket and underlies proposed important functions such as activation of pro-urokinase. However, most mammals, including mice, substitute Ala for Glu226, suggesting that human tryptic activity may be anomalous. To test this hypothesis, human cathepsin G was compared with mouse wild type and humanized active site mutants, revealing that mouse primary specificity is markedly narrower than that of human cathepsin G, with much greater Tyr activity and selectivity and near absence of tryptic activity. It also differs from human in resisting tryptic peptidase inhibitors (e.g., aprotinin), while favoring angiotensin destruction at Tyr4 over activation at Phe8. Ala226Glu mutants of mouse cathepsin G acquire tryptic activity and human ability to activate pro-urokinase. Phylogenetic analysis reveals that the Ala226Glu missense mutation appearing in primates 31–43 million years ago represented an apparently unprecedented way to create tryptic activity in a serine peptidase. We propose that tryptic activity is not an attribute of ancestral mammalian cathepsin G, which was primarily chymotryptic, and that primate-selective broadening of specificity opposed the general trend of increased specialization by immune peptidases and allowed acquisition of new functions.

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“…The hamster has 2 known chymases. Hamster chymase-1, which converts Ang I to Ang II (35), is a homolog of MMCP4 (27), and hamster chymase-2, which does not, is a homolog of MMCP5 (36). We tested and found that 4-[1-(naphthalen-1-yl methyl)-1H-benzimidazol-2-yl sulfanyl]-butyric acid (CI-B) inhibits purified hamster chymase-1 with a K I of 30.6 ± 3.75 nM (n = 4).…”

Section: Chronic Ace Inhibition Causes Chymase Release Into the LV Ismentioning

confidence: 99%

Mast cell chymase limits the cardiac efficacy of Ang I–converting enzyme inhibitor therapy in rodents

Wei¹,

Hase²,

Inoue³

et al. 2010

J. Clin. Invest.

129

147

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Ang I-converting enzyme (ACE) inhibitors are widely believed to suppress the deleterious cardiac effects of Ang II by inhibiting locally generated Ang II. However, the recent demonstration that chymase, an Ang IIforming enzyme stored in mast cell granules, is present in the heart has added uncertainty to this view. As discussed here, using microdialysis probes tethered to the heart of conscious mice, we have shown that chronic ACE inhibitor treatment did not suppress Ang II levels in the LV interstitial fluid (ISF) despite marked inhibition of ACE. However, chronic ACE inhibition caused a marked bradykinin/B2 receptor-mediated increase in LV ISF chymase activity that was not observed in mast cell-deficient Kit W /Kit W-v mice. In chronic ACE inhibitor-treated mast cell-sufficient littermates, chymase inhibition decreased LV ISF Ang II levels substantially, indicating the importance of mast cell chymase in regulating cardiac Ang II levels. Chymase-dependent processing of other regulatory peptides also promotes inflammation and tissue remodeling. We found that combined chymase and ACE inhibition, relative to ACE inhibition alone, improved LV function, decreased adverse cardiac remodeling, and improved survival after myocardial infarction in hamsters. These results suggest that chymase inhibitors could be a useful addition to ACE inhibitor therapy in the treatment of heart failure.

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Structural Basis for Elastolytic Substrate Specificity in Rodent α-Chymases

Cited by 16 publications

References 49 publications

Guinea Pig Chymase Is Leucine-specific

Guinea Pig Chymase Is Leucine-specific

How Immune Peptidases Change Specificity: Cathepsin G Gained Tryptic Function but Lost Efficiency during Primate Evolution

Mast cell chymase limits the cardiac efficacy of Ang I–converting enzyme inhibitor therapy in rodents

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