Transition-state analysis of the facilitated alkylation of ribonuclease A by bromoacetate

Ep, Lennette; Bv, Plapp

doi:10.1021/bi00585a015

Cited by 17 publications

(10 citation statements)

References 57 publications

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“…X-ray diffraction (15), chemical modification (16), and pH-rate studies (17) are all consistent with an enzymatic reaction mechanism in which the rate-limiting transition state for RNA cleavage is similar to that shown in Fig. 2.…”

supporting

confidence: 67%

A bait and switch hapten strategy generates catalytic antibodies for phosphodiester hydrolysis

Wentworth

Liu

Wentworth

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

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General base catalysis supplied by the histidine-12 (H-12) residue of ribonuclease (RNase) A has long been appreciated as a major component of the catalytic power of the enzyme. In an attempt to harness the catalytic power of a general base into antibody catalysis of phosphodiester bond hydrolysis, the quaternary ammonium phosphate 1 was used as a bait and switch hapten. Based on precedence, it was rationalized that this positively charged hapten could induce a counter-charged residue in the antibody binding site at a locus suitable for it to deprotonate the 2-hydroxyl group of the anhydroribitol phosphodiester substrate 2. After murine immunization with hapten 1, mAb production yielded a library of 35 antibodies that bound to a BSA-1 conjugate. From this panel, two were found to catalyze the cyclization-cleavage of phosphodiester 2. Kinetic studies at pH 7.49 (Hepes, 20 mM) and 25°C showed that the most active antibody, MATT.F-1, obeyed classical Michaelis-Menten kinetics with a K m ‫؍‬ 104 M, a k cat ‫؍‬ 0.44 min ؊1 , and a k cat ͞k uncat ‫؍‬ 1.7 ؋ 10 3 . Hapten 1 stoichiometrically inhibits the catalytic activity of the antibody. MATT.F-1 is the most proficient antibodycatalyst (1.6 ؋ 10 7 M ؊1 ) yet generated for the function of phosphodiester hydrolysis and emphasizes the utility of the bait and switch hapten paradigm when generating antibody catalysts for processes for which general-base catalysis can be exploited.The hydrolysis of phosphodiester bonds, such as those found in DNA and RNA, is a reaction of fundamental importance in living systems. Consequently, there are intense efforts centered around the development of novel phosphodiesterases for use in biochemistry and medicine (1-5). Our approach to this area has been to exploit the diversity of the murine immune system (6, 7) to generate antibodies possessing phosphodiesterase activity. Preliminary success in this area was based on our work with oxotechnetium(v) and oxorhenium(V) complexes that inhibit ribonuclease (RNase) U 2 (EC 3.1.27.4) activity (8-10). The oxorhenium(v) hapten 3, a putative transition state analog for the cyclization-cleavage of oligonucleotides, generated a catalytic antibody, 2G12, that catalyzes the hydrolysis of uridine 3Ј-(p-nitrophenyl) phosphate (UpOC 6 H 4 -p-NO 2 ) 4 (11) (Fig. 1).The most studied of the natural ribonucleases is bovine pancreatic RNase A (EC 3.1.27.5) (12-14). X-ray diffraction (15), chemical modification (16), and pH-rate studies (17) are all consistent with an enzymatic reaction mechanism in which the rate-limiting transition state for RNA cleavage is similar to that shown in Fig. 2.Although this mechanism has stimulated much speculation in the fields of bioorganic chemistry and enzymology (18)(19)(20)(21)(22), it does seem clear that the imidazole group of histidine 12 (H-12) acts as a general base by deprotonating the 2Ј oxygen and that the imidazolium group of histidine 119 (H-119) acts as a general acid by either protonating the 5ЈЈ oxygen of the leaving group (classical mechanism) or a non...

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supporting

confidence: 67%

A bait and switch hapten strategy generates catalytic antibodies for phosphodiester hydrolysis

Wentworth

Liu

Wentworth

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

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“…The constants, E, and k,', are the pH-independent alkylation rate constants at unprotonated and protonated His 12. The kinetic scheme is simplified by assuming that E3' = 0, K, = K,', K, = K,' and acetate ion binds negligibly to the unprotonated form of the free enzyme (9) and not all to the RNase A * bromoacetamido nucleoside complexes, E -AL and EH+ -AL. K, = K,' implies that binding of the nucleoside does not alter the ionization constant for His12 relative to its value in the free enzyme.…”

Section: Abbreviations: Rnase a Bovine Pancreatic Ribonuclease A; T-mentioning

confidence: 99%

“…Second, acetate binds negligibly to the unprotonated Hisl 2 form of RNase A. Between 12" and 37", the ratio of the limiting dissociation constants of the RNase Abromoacetate complex at high pH to that at low pH values exceeds 100 (9). Third, bromoacetate binding to RNase A is a good model for acetate binding.…”

Section: Abbreviations: Rnase a Bovine Pancreatic Ribonuclease A; T-mentioning

confidence: 99%

Enthalpic and entropic determinants for the specificity of alkylation of the histidine‐12 residue of ribonuclease A by four bromoacetamido nucleoside affinity labels and bromoacetamide

Pincus¹,

Hummel²,

Brandt‐Rauf³

et al. 1990

International Journal of Peptide and Protein Research

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The binding and alkylation rate constants for the reaction of four bromoacetamido pyrimidine nucleosides and bromoacetamide with bovine pancreatic ribonuclease A (RNase A) have been determined as a function of temperature. The four nucleoside derivatives react exclusively or preferentially with the NE2 atom of histidine-12 and include 2'-bromoacetamido-2'-deoxyuridine, 2'-bromoacetamido-2'-deoxyxylofuranosyluracil, 3'-bromoacetamido-3'-deoxythymidine and 3'-bromoacetamido-3'-deoxyarabinofuranosy~uraci~. Transition-state parameters, AH: and AS:, reveal that nucleosides with "up" OH groups experience relative rate enhancements which have been attributed to contacts between these groups and the enzyme in the transition state (1). Variations in alkylation rates are explained in terms of different degrees of entropic destabilization (2) of the nucleosides in the enzyme * affinity label complex.

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“…If two nonidentical acidic groups react with the modifying agent, the concentration of the reactive, unprotonated or dissociated, form is given by the Michaelis pH functions (Cornish-Bowden, 1976), and plots of kapp. verus pH are bell-shaped (Lennette & Plapp, 1979). A study of the pH dependence of covalent modification by two-protonic state electrophiles has been presented by Brocklehurst (1982).…”

Section: Ligand Concentrationmentioning

confidence: 99%

“…The temperature dependence of reaction rate constants yields the values for the enthalpy, as well as for the entropy change, of the formation of the activated complex of the reaction under study (Frost & Pearson, 1961;Gutfreund, 1972;Laidler & Bunting, 1973). It has been pointed out by Lennette & Plapp (1979) that, in contrast with studies of enzyme catalysis, the thermodynamic parameters for the rate constants of the reaction of modifying agents with proteins can always be compared with the parameters of the reaction of the same modifying agent with small molecules containing the same functional groups as those with which they react in the intact protein. 'Active-site directed reagents resemble substrates in their behaviour towards enzymes: they bind to the active site and their rates of reaction with the enzyme are facilitated, presumably by one or more catalytic factors.…”

Section: Thermodynamics Of Protein Modification Reactionsmentioning

confidence: 99%

Kinetics of protein modification reactions

Rakitzis¹

1984

Biochemical Journal

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Transition-state analysis of the facilitated alkylation of ribonuclease A by bromoacetate

Cited by 17 publications

References 57 publications

A bait and switch hapten strategy generates catalytic antibodies for phosphodiester hydrolysis

A bait and switch hapten strategy generates catalytic antibodies for phosphodiester hydrolysis

Enthalpic and entropic determinants for the specificity of alkylation of the histidine‐12 residue of ribonuclease A by four bromoacetamido nucleoside affinity labels and bromoacetamide

Kinetics of protein modification reactions

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