Synthesis of Novel Inhibitors of IdeS, a Bacterial Cysteine Protease Including Studies of Stereoselective Reductive Aminations
Abstract
Abstract
The cysteine protease IdeS is an IgG degrading enzyme secreted by the bacterium Streptococcus
pyogenes to evade the human immune system. In this thesis several inhibitors of IdeS have been
synthesized and evaluated. Such inhibitors should be highly useful when elucidating the detailed
mechanism of IdeS action. They might also have a potential as treatment of acute and severe infections
caused by the bacteria. Further, IdeS has a therapeutic application of its own due to the proteolytic ability
and an IdeS inhibitor might contribute during the development.
Only irreversible, unselective inhibitors of IdeS were known five years ago. In this thesis, three strategies
with the aim to synthesize and identify more inhibitors have been undertaken. Focus was first set on
compounds with a substructure resembling the known inhibitors but with reversible warheads, i.e. nitrile,
azide and aldehyde functions. The aldehyde derivatives were found to provide the first reversible
inhibitors of IdeS.
Then, to avoid covalent interactions and obtain more selective inhibitors, a substrate based strategy was
undertaken. A 3-aminopiperidine fragment was used as replacement of either of the two residues adjacent
to the scissile bond in IgG. Such fragments can be synthesized from N-protected 3-aminopiperidone and
amino acid esters in reductive aminations in which a stereogenic center is formed. A series of di-, tri- and
tetrapeptide analogues, together with eight peptides covering the cleavage site of IgG, were screened for
their capacity to inhibit the cysteine proteases IdeS, SpeB and papain. Several analogues showed
inhibition capacity, two compounds showed also high selectivity for IdeS. In contrast, none of the tested
peptides showed any inhibition. Computational docking studies indicate that the identified IdeS peptide
analogues and the non-active peptides do not share the same binding site in IdeS. Probably, the piperidine
moiety hinders the inhibitor to enter the catalytic site.
A more detailed study of the stereoselectivity in the reductive aminations affording the 3-aminopiperidine
fragment showed that a large protecting group (trityl) together with a large reducing agent (NaBH(O-2-
ethylhexanoyl)3) gave the highest diastereomeric ratio. The highest ratio obtained was 21:79 when Lproline
methyl ester was used. The newly formed stereogenic center had the R-configuration, determined
by chemical correlation. Computer based conformational analysis combined with Boltzmann distribution
calculations implies an axial attack by the reducing reagent on the intermediary imine.
To improve the potency of the two identified di- and tripeptide analogues synthetic routes to
conformationally restricted N-containing bicyclic derivatives was undertaken in a third strategy. Five
compounds with different bicyclic scaffolds were screened for their inhibition capacity towards IdeS and
papain. One of the compounds was able to inhibit the first step of proteolytic cleavage of IgG by IdeS, a
process usually completed in seconds.
Parts of work
PAPER I: Synthesis and biological evaluation of reversible inhibitors of IdeS,
a bacterial cysteine protease and virulence determinant. Bioorganic & Medicinal Chemistry 2009, 17, 3463-3470; ::doi::10.1016/j.bmc.2009.03.026 PAPER II: Stereoselective Reductive Amination with 3-Piperidone and Amino Acid Esters for the Synthesis of Gly-Xaa Mimetics. submitted to Journal of Organic Chemistry PAPER III: 3-Aminopiperidine Based Peptide Analogues as Selective Noncovalent Inhibitors of the Bacterial Cysteine Protease IdeS.submitted to Journal of Medicinal Chemistry PAPER IV: Nitrogen-containing bicyclic derivatives as potential inhibitors of IdeS. manuscript
Degree
Doctor of Philosophy
University
University of Gothenburg. Faculty of Science
Institution
Department of Chemistry ; Institutionen för kemi
Disputation
Fredagen 21 oktober 2011, kl. 10.15, föreläsningssal KA, Kemigården 4
Date of defence
2011-10-21
kristina.berggren@chem.gu.se
Date
2011-09-30Author
Berggren, Kristina
Keywords
Cysteine protease inhibition,
IdeS, SpeB, Papain,
Conformational restriction
Peptidomimetics
Publication type
Doctoral thesis
ISBN
978-91-628-8347-8
Language
eng