Chymotrypsin inhibition

IMS chromatogram 1351 Chrysamine G 1287 Chrysanthemum morifolium 894 Chymotrypsin, inhibition by aprotinin 1027 Cialic acid 111... 

Figure 8. Reformation of disulfides and inhibitory activities on reoxidation of reduced turkey ovomucoid, a dual inhibitor of bovine trypsin, and a-chy-motrynsin with nonoverlapping sites. The disulfides of turkey ovomucoid were reduced with mercapto-ethanol and the product purified. Reoxidation was made with protein concentrations of 60 fxg/ml in 0.006M. Tris buffer at pH 8.2 at room temperature. (Turkey ovomucoid contains eight disulfides, all of which were reduced to 16 sulfhydryls in this experiment. Of these 14 were found at the first sampling and five at the time the experiment was discontinued.) A9 Trypsin inhibition O, a-chymotrypsin inhibition , sulfhydryls per mole (33).

Figure 2 Atomic model of y-chymotrypsin inhibited by AAAPCK. Only the portion of the enzyme which may interact with the inhibitor is shown...

Tosyl-L-phenylalanine chloromethyl ketone (TPCK) specifically inhibits chymotrypsin by covalently labeling His ". 

The effects of various enzymes on the activity of HPLC fractions that inhibited 3H-PCP binding were investigated. As shown in table 1, pronase (0.5 pg/ml), carboxypeptidase A (0.1 unit/ml), and trypsin (3.0 g/ml ) markedly decreased the potency of 10 n units of PCP-like activity. No significant change in activity was. seen when fractions were incubated with alpha-chymotrypsin. 

Bromomethyl-3,4-dibromo-3,4-dihydrocoumarin 1 (Fig. 11.4) and its chloro-methylated analogue 2b rapidly and progressively inactivate a-chymotrypsin and also the activities of a series of trypsin-like proteases. A benzyl substituent characteristic of good substrates of a-chymotrypsin was introduced at the 3-position to make inhibition more selective. This substituted dihydrocoumarin 3 irreversibly inhibited a-chymotrypsin and other proteases. These functionalized six-membered aromatic lactones, and their five- and seven-membered counterparts, 3//-benzofuran-2-ones 2a26 and 4,5-dihydro-3//-benzo[b]oxepin-2-ones 2c,27 were the first efficient suicide inhibitors of serine proteases. Their postulated mechanism of action is shown in Scheme 11.2. 

Irreversible inhibition is probably due to the alkylation of a histidine residue.43 Chymotrypsin is selectively inactivated with no or poor inhibition of human leukocyte elastase (HLE) with a major difference the inactivation of HLE is transient.42,43 The calculated intrinsic reactivity of the coumarin derivatives, using a model of a nucleophilic reaction between the ligand and the methanol-water pair, indicates that the inhibitor potency cannot be explained solely by differences in the reactivity of the lactonic carbonyl group toward the nucleophilic attack 43 Studies on pyridyl esters of 6-(chloromethyl)-2-oxo-2//-1 -benzopyran-3-carboxylic acid (5 and 6, Fig. 11.5) and related structures having various substituents at the 6-position (7, Fig. 11.5) revealed that compounds 5 and 6 are powerful inhibitors of human leukocyte elastase and a-chymotrypsin thrombin is inhibited in some cases whereas trypsin is not inhibited.21... 

The 6-chloromethyl substituent (series 5 and 6) is required for the inactivation of a-chymotrypsin. Nevertheless, there is only a transient inactivation of HLE and thrombin through the formation of a stable acyl-enzyme in spite of the presence of this group as demonstrated by the spontaneous or hydroxylamine-accelerated reactivation of the treated enzymes (Scheme 11.3, pathway b).21 HLE is specifically inhibited when such an alkylating function is absent (series 7), always through the formation of a transient acyl-enzyme (Table 11.2). 

TABLE 11.1 Inhibition of a-Chymotrypsin and Human Leukocyte Elastase by Phenolic Esters of 6-(Chloromethyl)-2-oxo-2H-l-Benzopyran-3-Carboxylic Acid42... 

TABLE 11.2 Inhibition of Human Leukocyte Elastase, a-Chymotrypsin and Thrombin by 5 -Chloropyrid-3 -yl Derivatives at pH 8.0 and 25°C21... 

These molecules do not inhibit a-chymotrypsin, probably because the protease is unable to open lactam rings in which the amide function has a cis configuration.50... 

Figure 7.11 Linear free energy correlation plots for inhibition of subtilisin BPN mutants by wild type (open circles) and mutant (close circles) chymotrypsin inhibitor 2. Left panel Correlation between AGbinding for the inhibitor and AGm. Right panel Correlation between AGbinding for the inhibitor and AGES.

A large number of potential reversible protease inhibitors exist (Laskowski Kato, 1980). Protein protease inhibitors like Strepromyces Subtilisin Inhibitor (SSI) (Hiromi et al, 1985) and Chymotrypsin Inhibitor (CI-2) (Jonassen, 1980 and McPhalen James, 1988) are known to be very strong inhibitors with inhibition constants at or below 10"10 M. 

The development of nerve gases in World War II, especially di-isopropylphosphofluoridate, (DIPF), promoted urgent investigations of their bases of action. Adrian et al. and Mackworth showed esterases, particularly acetylcholinesterase, were strongly inhibited (1941). The range of hydrolases sensitive to DIPF was extensive and included chymotrypsin and trypsin, both of which were available in purified crystalline form. DI PF was used to inhibit either enzyme, after which... 

Serine protease inhibitor that inhibits trypsin, chymotrypsin, kallikrein, and plasmin Binding is reversible, with most aprotinin-protease complexes dissociating at pH>10or <3 Peptidase inhibitor... 

Inhibits serine proteases such as trypsin and chymotrypsin. Also inhibits cysteine proteases (reversible by reduced thiols) and mammalian acetylcholinesterase Inhibits ATPase, alkaline phosphatase and tyrosine phosphatase Reagent for maintaining -SH groups in the reduced state. Effective for reducing protein disulfide bonds prior to SDS-PAGE... 

Aprotinin is a polypeptide consisting of a chain of 58 amino acid residues, which inhibits stoichiometrically the activity of several proteolytic enzymes such as chymotrypsin, kallikrein, plasmin, and trypsin. Aprotinin is obtained from bovine tissues and purified by a suitable process. It is stored as a bulk solution or lyophilized powder. The amount of two related substances des-Ala-des-Gly-aprotinin and des-Ala-aprotinin is determined by CZE with a 100% analysis. The relative migration times are 0.98 for des-Ala-des-Gly-aprotinin and 0.99 for des-Ala-aprotinin, and the specified limits are 8.0 and 7.5%, respectively. 

Potll inhibitors inhibit several proteases. For example, serine protease inhibitors isolated from Capsicum annum seeds named PSI-1.1 and PST1.2 are strong inhibitors of trypsin and only one order of magnitude less active on chymotrypsin. PSTl.l also has considerable activity against thrombin, whereas factor Xa is inhibited to a lesser extent by PSI-1.1 and PSTl.2. ... 

A novel concept of using bioadhesive polymers as enzyme inhibitors has been developed [97]. Included are derivatives of poly acrylic acid, polycarbophil, and car-bomer to protect therapeutically important proteins and peptides from proteolytic activity of enzymes, endopeptidases (trypsin and a-chymotrypsin), exopeptidases (carboxypeptidases A and B), and microsomal and cytosolic leucine aminopeptidase. However, cysteine protease (pyroglutamyl aminopeptidase) is not inhibited by polycarbophil and carbomer [97]. 

Inhibition of trypsin and other proteases Inhibition of chymotrypsin Transport of lipids... 

The active-site-directed inhibitor tosylphenylalanine chloromethyl ketone that specifically and irreversibly inhibits chymotrypsin. This chloroketone inhibitor relies on its toluene sulfonyl (or tosyl) group for binding into the aromatic binding pocket of chymotrypsin s active site. Inactivation occurs by alkylation of histidine-57 (pseudo-first order rate constant 0.2 min ). See Chymo-trypsin... 

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