M O'Driscoll scite author profile

M O'Driscoll

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St Bartholomew's Hospital, University of London, Queen Mary University of London

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Supracrystallographic resolution of interactions contributing to enzyme catalysis by use of natural structural variants and reactivity-probe kinetics

Brocklehurst

Kowlessur

et al. 1988

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1. The influence on the reactivities of the catalytic sites of papain (EC 3.4.22.2) and actinidin (3.4.22.14) of providing for interactions involving the S1-S2 intersubsite regions of the enzymes was evaluated by using as a series of thiol-specific two-hydronic-state reactivity probes: n-propyl 2-pyridyl disulphide (I) (a 'featureless' probe), 2-(acetamido)ethyl 2'-pyridyl disulphide (II) (containing a P1-P2 amide bond), 2-(acetoxy)ethyl 2'-pyridyl disulphide (III) [the ester analogue of probe (II)] and 2-carboxyethyl 2'-pyridyl disulphide N-methylamide (IV) [the retroamide analogue of probe (II)]. Syntheses of compounds (I), (III) and (IV) are reported. 2. The reactivities of the two enzymes towards the four reactivity probes (I)-(IV) and also that of papain towards 2-(N'-acetyl-L-phenylalanylamino)ethyl 2'-pyridyl disulphide (VII) (containing both a P1-P2 amide bond and an L-phenylalanyl side chain as an occupant for the S2 subsite), in up to four hydronic (previously called protonic) states, were evaluated by analysis of pH-dependent stopped-flow kinetic data (for the release of pyridine-2-thione) by using an eight-parameter rate equation [described in the Appendix: Brocklehurst & Brocklehurst (1988) Biochem. J. 256, 556-558] to provide pH-independent rate constants and macroscopic pKa values. The analysis reveals the various ways in which the two enzymes respond very differently to the binding of ligands in the S1-S2 intersubsite regions despite the virtually superimposable crystal structures in these regions of the molecules. 3. Particularly striking differences between the behaviour of papain and that of actinidin are that (a) only papain responds to the presence of a P1-P2 amide bond in the probe such that a rate maximum at pH 6-7 is produced in the pH-k profile in place of the rate minimum, (b) only in the papain reactions does the pKa value of the alkaline limb of the pH-k profile change from 9.5 to approx. 8.2 [the value characteristic of a pH-(kcat./Km) profile] when the probe contains a P1-P2 amide bond, (c) only papain reactivity is affected by two positively co-operative hydronic dissociations with pKI congruent to pKII congruent to 4 and (d) modulation of the reactivity of the common -S(-)-ImH+ catalytic-site ion-pair (Cys-25/His-159 in papain and Cys-25/His-162 in actinidin) by hydronic dissociation with pKa approx. 5 is more marked and occurs more generally in reactions of actinidin than is the case for papain reactions.(ABSTRACT TRUNCATED AT 400 WORDS)

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Differences in the chemical and catalytic characteristics of two crystallographically ‘identical’ enzyme catalytic sites. Characterization of actinidin and papain by a combination of pH-dependent substrate catalysis kinetics and reactivity probe studies targeted on the catalytic-site thiol group and its immediate microenvironment

Salih

Malthouse

Kowlessur

et al. 1987

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The characteristics of actinidin (EC 3.4.22.14) and papain (EC 3.4.22.2), two cysteine proteinases whose catalytic-site regions appear to superimpose to a degree that approaches atomic co-ordinate accuracy of both crystal structures, were evaluated by determining (a) the pH-dependence in acid media of the acylation process of the catalytic act (k+2/Ks) using N alpha-benzoyl-L-arginine p-nitroanilide (L-Bz-Arg-Nan) as substrate and (b) the sensitivity of the reactivity of the catalytic-site thiol group and its pH-dependence to structural change in small, thiol-specific, two-protonic-state reactivity probes (2,2'-dipyridyl disulphide and methyl 2-pyridyl disulphide) where enzyme-probe contacts should be restricted to areas close to the catalytic site. Distortion of the catalytic sites of the two enzymes at pH less than 4 was evaluated over time-scales appropriate for both stopped-flow reactivity probe kinetics (less than or equal to 1-2 s) and steady-state substrate catalysis kinetics (3-5 min) by using the 2,2'-dipyridyl disulphide monocation as a titrant for non-distorted catalytic sites. This permitted a lower pH limit to be defined for valid kinetic analysis of both types. The behaviour of the enzymes at pH less than 4 requires a kinetic model in which the apparently biomolecular reaction of enzyme with probe reagent is separated from the process leading to loss of conformational integrity by a potentially reversible step. The acylation of actinidin with L-Bz-Arg-Nan in acidic media occurs in two protonic states, one produced by raising the pH across pKa less than 4 which probably characterizes the formation of -S-/-ImH+ ion pair (pKa approx. 3) and the other, of higher reactivity, produced by raising the pH across pKa 5.5, which may characterize rearrangement of catalytic-site geometry. The pH-dependence of the acylation of papain by L-Bz-Arg-Nan is quite different and is not influenced by protonic dissociation with pKa values in the range 5-6. The earlier conclusion that the acylation of papain depends on two protonic dissociations each with pKa approx. 4 was confirmed. This argument is now more firmly based because titration with 2,2'-dipyridyl disulphide permits the loss of conformational integrity to be taken into account in the analysis of the kinetic data at very low pH. Methyl 2-pyridyl disulphide was synthesized by reaction of pyridine-2-thione with methyl methanethiolsulphonate and its pKa at I = 0.1 was determined by spectral analysis at 307 nm to be 2.8.(ABSTRACT TRUNCATED AT 400 WORDS)

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M O'Driscoll

Supracrystallographic resolution of interactions contributing to enzyme catalysis by use of natural structural variants and reactivity-probe kinetics

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