Abstract
Inhibitors for glutathione S-transferase (GST) iso-enzymes from rat liver with high affinity for the glutathione-binding site (G-site) have been developed. In previous studies, a model was described for the G-site of GST (Adang, A. E. P., Brussee, J., van der Gen, A., and Mulder, G. J. (1990) Biochem. J. 269, 47-54) in terms of essential and nonessential interactions between groups in glutathione (GSH) and the G-site. Based on this model, compounds were designed that have high affinity for the G-site but cannot be conjugated. In the dipeptide gamma-L-glutamyl-D-aminoadipic acid (gamma-L-Glu-D-Aad), the L-cysteinylglycine moiety is replaced by D-aminoadipic acid. This dipeptide is an efficient competitive inhibitor (toward GSH) of mu class GST isoenzymes with Ki values of 34 microM for GST isoenzyme 3-3 and 8 microM for GST isoenzyme 4-4. Other GSH-dependent enzymes, such as gamma-glutamyl transpeptidase (gamma-GT), glutathione reductase, and glutathione peroxidase, were not inhibited by 1 mM of gamma-L-Glu-D-Aad. Inhibition is also highly stereospecific since gamma-L-Glu-L-Aad is only a poor inhibitor (Ki = 430 microM for GST 3-3). Gamma-L-Glutamyl-D-norleucine also had a much higher Ki value for GST 3-3. Thus, the presence of a delta-carboxylate group in D-Aad appears to be essential for a high affinity inhibitor. An additional hydrophobic group did not result in increased inhibitory potency. In a different approach, the gamma-L-glutamyl moiety in GSH was replaced by delta-L-aminoadipic acid; delta-L-Aad-L-Cys-Gly is an efficient cosubstrate analogue for GSTs with Km values comparable to GSH and Vmax values ranging from 0.24 to 57 mumol/min/mg for the different GSTs. The structures of the efficient inhibitor and the cosubstrate analogue were combined in delta-L-Aad-D-Aad, which had a Ki value of 68 microM with GST 3-3. In order to investigate their possible use in vivo studies, the degradation of gamma-L-Glu-D-Aad and delta-L-Aad-L-Cys-Gly by gamma-GT was investigated. The peptides showed no measurable hydrolysis rates under conditions where GSH was rapidly hydrolyzed. Thus, an efficient, mu class-specific GST inhibitor and a gamma-glutamyl-modified cosubstrate analogue of GSH were developed. Their gamma-GT stability offers the possibility to use these peptides in in vivo experiments.
Highlights
GSTisoenzymes with K ivalues of 34 p~ for glutathione S-transferase (GST) atically substituted by other aminoacids or related structures. isoenzyme 3-3and 8 p~ for GST isoenzyme4-4.Other With theseanalogues, the G-site in pure GiSsoTenzymes was GSH-dependent enzymes, sucahs y-glutamyl transpep- explored, and the findings fromthesestudiespermitted a tidase (y-GT), glutathione reductase, and glutathione description of the GSH-binding site (6-9)
The productsof GST activity, the GSHconjugroup did not result in increased inhibitorpyotency. gates (GS-R), still possess affinity for the active site; their
The y-L-glutamyl moiety in inhibitory potency increased with increasing hydrophobicity cGwrGCaoySSinstsTHhgu-sGibwn.KslgTyta,rshaifvsetrreaoealspmuntale0reansu.fcafcc2eilot4dcoumbtigroeyeupn5sae6ot7rf-aLctpwbo-hmlaseceemuorotebmloei/nsfmbtofriiiaGancndtei/SeiemdpHniigatcnnafa&aioncnlrdiLohdg-it;VbAhu6imeea-tLodafr--dXoDAvirafaa-fnAldGeud-areLSeds-Ttn,htseowaGfreSeItnThhoeanaavlRycseteeagiafvtrfrtoiecetuchymtpifpvaoetarreetadivtinthnaoeivlvaisivbtuodrlloeefi;sunainrghtonaitbtheoiaetfmoferGpsc(rSt1eiovT3sfee)i.tnnhithAneitbliGvlmiittvSoheoTre. sineisshiponieebhcniiiztfboyiicrmtsaolerlossyf, which had a K ivalue of 68 p~ with GST 3-3.In order aimed at the G-siteB.ased on ourprevious results, compounds to investigate theirpossible use in in vivostudies, the were designed that would possess affinity for the G-site but degradation of y-L-Glu-D-Aad and 6-L-Aad-L-Cys-Gly would not be conjugated
Summary
Aad was first protected at the6-carboxylate group withbenzyl alcohol and sulfuric acid (24). (grade 2, bovine kidney), glutathione reductase (type 7, bovine intes- benzylamine.trifluoroacetic acid salt was condensed with the aforetinal mucosa), glutathione disulfide, glutathione peroxidase (bovine mentioned protected L - G h , under previously described conditions erythrocytes), y-glutamyl-p-nitroanilide, and N-t-Boc-L-Glu a-t-bu- (21), to yield N-Cbz-a-O-Bzl-L-Glu-a-(D-Aad-6-O-Bzl)-benzylamine tyl ester were purchased from Sigma. Reaction for 30 min at -40 "C resulted in complete conversiontothe S-hexylpeptide.Crystallization from water(pH 3.5)/ absolute ethanol afforded compound 10 in 50% overall yield. '"C (MeOD, DzO, trifluoroacetic acid): 14.05 ((CH&CH,), 21.19, tration was varied between 0.2 and 1 mM and the y-L-Glu-D-Aad. 23.16, 26.66, 29.53, 32.06, 32.15, 32.97, 34.17, 35.01, 41.99 (10 CHz), 53.35, 54.34 (2 CH),172.20, 173.59, 174.85, 174.92 (2 CONH, COT); TLC analysis revealed only one spot.
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