Mechanistic insights into the inhibition of serine proteases by monocyclic lactams.

Although originally discovered as inhibitors of pencillin-binding proteins, beta-lactams have more recently found utility as serine protease inhibitors. Indeed through their ability to react irreversibly with nucleophilic serine residues they have proved extraordinarily successful as enzyme inhibitors. Consequently there has been much speculation as to the reason for the general effectiveness of beta-lactams as antibacterials or inhibitors of hydrolytic enzymes. The interaction of analogous beta- and gamma-lactams with a serine protease was investigated. Three series of gamma-lactams based upon monocyclic beta-lactam inhibitors of elastase [Firestone, R. A. et al. (1990) Tetrahedron 46, 2255-2262.] but with an extra methylene group inserted between three of the bonds in the ring were synthesized. Their interaction with porcine pancreatic elastase and their efficacy as inhibitors were evaluated through the use of kinetic, NMR, mass spectrometric, and X-ray crystallographic analyses. The first series, with the methylene group inserted between C-3 and C-4 of the beta-lactam template, were readily hydrolyzed but were inactive or very weakly active as inhibitors. The second series, with the methylene group between C-4 and the nitrogen of the beta-lactam template, were inhibitory and reacted reversibly with PPE to form acyl-enzyme complexes, which were stable with respect to hydrolysis. The third series, with the methylene group inserted between C-2 and C-3, were not hydrolyzed and were not inhibitors consistent with lack of binding to PPE. Comparison of the crystal structure of the acyl-enzyme complex formed between PPE and a second series gamma-lactam and that formed between PPE and a peptide [Wilmouth, R. C., et al. (1997) Nat. Struct. Biol. 4, 456-462.] reveals why the complexes formed with this series were resistant to hydrolysis and suggests ways in which stable acyl-enzyme complexes might be obtained from monocyclic gamma-lactam-based inhibitors.     

Tripeptidic BACE1 inhibitors devised by in-silico conformational structure-based design

Previously reported pentapeptidic BACE1 inhibitors, designed using a substrate-based approach, were used as lead compounds for the further design of non-peptidic BACE1 inhibitors. Although these peptidic and non-peptidic inhibitors, with a hydroxymethylcarbonyl isostere as a substrate transition-state mimic, exhibited potent BACE1 inhibitory activities, their molecular-sizes appeared a little too big (molecular weight of >600daltons) for developing practical anti-Alzheimer's disease drugs. To develop lower weight BACE1 inhibitors, a series of tripeptidic BACE1 inhibitors were devised using a design approach based on the conformation of a virtual inhibitor bound to the BACE1 active site, also called 'in-silico conformational structure-based design'. Although these tripeptidic BACE1 inhibitors contained some natural amino acid residues, they are expected to be useful as lead compounds for developing the next generation BACE1 inhibitors, due to their low molecular size and unique structural features compared with previously reported inhibitors.     

Pyridazine and pyridazinone derivatives as potent and selective factor XIa inhibitors

Pyridazine and pyridazinone derivatives were designed and synthesized as coagulation factor XIa inhibitors. Potent and selective inhibitors with single digit nanomolar affinity for factor XIa were discovered. Selected inhibitors demonstrated moderate oral bioavailability.     

Isolation of six cysteine proteinase inhibitors from human urine. Their physicochemical and enzyme kinetic properties and concentrations in biological fluids

Six cysteine proteinase inhibitors were isolated from human urine by affinity chromatography on insolubilized carboxymethylpapain followed by ion-exchange chromatography and immunosorption. Physicochemical and immunochemical measurements identified one as cystatin A, one as cystatin B, one as cystatin C, one as cystatin S, and one as low molecular weight kininogen. The sixth inhibitor displayed immunochemical cross-reactivity with salivary cystatin S but had a different pI (6.85 versus 4.68) and a different (blocked) N-terminal amino acid. This inhibitor was tentatively designated cystatin SU. The isolated inhibitors accounted for nearly all of the cysteine proteinase inhibitory activity of the urinary pool used as starting material. The enzyme inhibitory properties of the inhibitors were investigated by measuring inhibition and rate constants for their interactions with papain and human cathepsin B. Antisera raised against the inhibitors were used in immunochemical determinations of their concentrations in several biological fluids. The combined enzyme kinetic and concentration data showed that several of the inhibitors have the capacity to play physiologically important roles as cysteine proteinase inhibitors in many biological fluids. Cystatin C had the highest molar concentration of the inhibitors in seminal plasma, cerebrospinal fluid, and milk; cystatin S in saliva and tears; and kininogen in blood plasma, synovial fluid, and amniotic fluid.     

Structure-based prediction of Mycobacterium tuberculosis shikimate kinase inhibitors by high-throughput virtual screening

A structure-based virtual screening protocol was used to predict Mycobacterium tuberculosis shikimate kinase (MtSk) inhibitors. Docking simulations were performed using eHiTS software and 644 drug-like compounds were identified as potential inhibitors. Forty-two percent of such inhibitors had a structural relationship to a triazole or a tetrazole heteroaromatic system which may provide a candidate lead for the discovery of MtSk inhibitors.     

Detection of protease inhibitors by a reverse zymography method, performed in a tris(hydroxymethyl)aminomethane-Tricine buffer system

A new detecting method for protease inhibitors, especially for low-molecular-weight inhibitors, is reported. Inhibitor samples were separated on a protein substrate-SDS-polyacrylamide gel in a Tris-Tricine buffer system that improves the separation and identification of peptides and low-molecular-weight proteins. After electrophoresis, the gel was incubated with the target proteases to hydrolyze the background protein substrate. The inhibitor bands, which were protected from proteolysis by the target proteases, were stained. Standard low-molecular-weight inhibitors, such as pepstatin A for pepsin or matrix metalloproteases inhibitor I for collagenase, as well as larger inhibitors, such as soybean trypsin inhibitor or aprotinin for tryspin and cystatin C for papain, were demonstrated by this method and showed clear blue inhibitor bands in the white background when the gels were treated with the target proteases. Some significant applications of this method are introduced. This method is an ideal system for discovering new protease inhibitors in small natural samples.     

Purification and characterization of proteinase inhibitors from wild soja (Glycine soja) seeds

Nine proteinase inhibitors, I-VIIa, VIIb, and VIII, were isolated from wild soja seeds by ammonium sulfate fractionation and successive chromatographies on SP-Toyopearl 650M, Sephacryl S-200SF, and DEAE-Toyopearl 650S columns. Reverse-phase HPLC finally gave pure inhibitors. All of the inhibitors inhibited trypsin with dissociation constants of 3.2-6.2 x 10(-9) M. Some of the inhibitors inhibited chymotrypsin and elastase as well. Two inhibitors (VIIb and VIII) with a molecular weight of 20,000 were classified as a soybean Kunitz inhibitor family. Others (I-VIla) had a molecular weight of about 8,000, and were stable to heat and extreme pH, suggesting that these belonged to the Bowman-Birk inhibitor family. Partial amino acid sequences of four inhibitors were also analyzed. The complete sequence of inhibitor IV was ascertained from the nucleotide sequences of cDNA clones encoding isoinhibitors homologous to soybean C-II.     

Synthesis and biological evaluation of reversible inhibitors of IdeS,a bacterial cysteine protease and virulence determinant

Analogues of the irreversible protease inhibitors TPCK and TLCK have been synthesized and tested as inhibitors of the bacterial cysteine protease IdeS excreted by Streptococcus pyogenes. Eight compounds were identified as inhibitors of IdeS in an in vitro assay. The most potent compounds contained an aldehyde function, thus acting as efficient reversible inhibitors, nitrile and azide derivatives showed moderate activity.     

Novel heterocycle-substituted pyrimidines as inhibitors of NF-kappaB transcription regulation related to TNF-alpha cytokine release

Novel heterocyclic ring-substituted pyrimidines have been designed as inhibitors of glycogen synthase kinase-3beta (GSK-3beta) from the modification of known inhibitors. Several potent inhibitors exhibiting nanomolar activities were discovered against GSK-3beta kinase as well as in an NF-kappaB reporter gene assay. Based on the results from in vitro TNF-alpha release inhibition and in vivo endotoxima, these inhibitors are expected to be useful candidates for treatment of inflammation-related diseases.     

Indolizines as novel potent inhibitors of 15-lipoxygenase

15-Lipoxygenase (15-LO) has been implicated in oxidation of low-density lipoproteins (LDL) and this enzyme may be involved in the development of atherosclerosis. We have examined 1-substituted indolizines as possible inhibitors of 15-LO from soy beans and from rabbit reticulocytes. Most compounds studied were significantly more active as inhibitors of 15-LO from soy beans than quercetin. The indolizines were slightly less potent inhibitors of the mammalian enzyme, but we found good correlation between inhibitory activity against both 15-LO enzymes studied. Several of the compounds were only weak DPPH scavengers and they may therefore be regarded as so-called non antioxidant inhibitors of 15-LO.     

Synthesis and evaluation of novel aromatic substrates and competitive inhibitors of GABA aminotransferase

The design, synthesis, and evaluation of novel gamma-aminobutyric acid aminotransferase (GABA-AT) inhibitors and inactivators can lead to the discovery of new GABA-related therapeutics. To this end, a series of aromatic amino acid compounds was synthesized to aid in the design of new inhibitors and inactivators of GABA-AT. All compounds were tested as competitive inhibitors of GABA-AT. The amino acids with benzylic amines were also tested as substrates for GABA-AT. It was found that these compounds were all poor competitive inhibitors of GABA-AT, but some were substrates of the enzyme, suggesting their utility as scaffolds for potential GABA-AT mechanism-based inactivators. Computer modeling was used to rationalize the substrate activity of the various compounds.     

A new structural theme in C2-symmetric HIV-1 protease inhibitors: ortho-substituted P1/P1' side chains

In this report, the rapid syntheses of 24 novel C2-symmetric HIV-1 protease inhibitors are described. Two ortho-iodobenzyloxy containing C-terminal duplicated inhibitors served as starting materials for microwave-enhanced palladium(0)-catalyzed carbon-carbon bond forming reactions (Suzuki, Sonogashira, Heck, and Negishi). Highly potent inhibitors equipped with ortho-functionalized P1/P1' side chains as the structural theme were identified. Computational efforts were applied to study the binding mode of this class of inhibitors and to establish structure-activity relationships. The overall orientation of the inhibitors in the active site was reproduced by docking which suggested three possible conformations of the P1/P1' groups of which two seem more plausible.     

Potent and selective small molecule inhibitors of specific isoforms of Cdc2-like kinases (Clk) and dual specificity tyrosine-phosphorylation-regulated kinases (Dyrk)

Continued examination of substituted 6-arylquinazolin-4-amines as Clk4 inhibitors resulted in selective inhibitors of Clk1, Clk4, Dyrk1A and Dyrk1B. Several of the most potent inhibitors were validated as being highly selective within a comprehensive kinome scan.     

Characteristics of the squalene synthase inhibitors produced by a Streptomyces species isolated from soils

Microorganisms producing squalene synthase inhibitors were screened from soils. A high producer was selected and identified as a Streptomyces species. Two active inhibitors were obtained from culture broths via a series of purification processes involving solvent extraction, WK-10 cation-exchange column chromatography, HP-20 adsorption column chromatography, silica-gel column chromatography, preparative HPLC, and crystallization. The inhibitors were confirmed as macrolactins A and F with molecular weights of 402 by UV-absorption spectrometry, fast atom bombardment mass spectometry, and 13C- and 1H-NMR analyses. Kinetic results for macrolactins A and F showed that they appear to be noncompetitive inhibitors of rat liver squalene synthase with IC50 values of 1.66 and 1.53 micromol/L, respectively. Since mammalian squalene synthase was used, these inhibitors have significant potential as therapeutic agents for hyperlipemia and suppression of cholesterol biosynthesis.     

Large Scale Purification of Isoinhibitors of Trypsin from Swine Colostrum Using Zinc Chelate Chromatography and Chromatofocusing

Low molecular weight trypsin inhibitors were purified from swine colostrum on a large scale under mild conditions. Ammonium sulfate fractionation and metal chelate chromatography on zinc chelate Sepharose and phenyl Sepharose were used for removal of the bulk of proteins. The inhibitors showed only a weak hydrophobic interaction with phenyl Sepharose even in the presence of 1 M (Nll₄)₂SO4, and advantage was taken of this property to remove the inhibitors from contaminating colostrum proteins which remained tightly adsorbed to phenyl Sepharose under these conditions. The low and high molecular weight inhibitors were then separated by gel filtration on Bio-Gel P-300. The low molecular weight material was eluted in three major inhibitor fractions on DEAE-Sepharose.

Chromatofocusing of these fractions provided greater resolution of the inhibitors, and several previously unreported inhibitor peaks were detected. The six major inhibitors purified by chromatofocusing were homogeneous as judged by polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate. These inhibitors were composed of a single polypeptide chain with a molecular weight of 18,000 as determined by Sephacryl S-200 gel filtration and polyacrylamide qel electrophoresis in the presence of sodium dodecyl sulfate and e-mercaptoethanol. The specific activities of the pure inhibitors were approximately 30% higher than those previously reported.     

Effects of anion and cation inhibitors and carbonic anhydrase inhibitors upon the activity of the gypsy moth (Lepidoptera: Lymantriidae) nucleo-polyhedrovirus

Twenty chemicals that were reported to act as anion transport inhibitors, cation transport inhibitors, and inhibitors of carbonic anhydrase activity were tested at a 1% concentration (wt:wt) for their effects upon the biological activity of the gypsy moth, Lymantria dispar (L.), nucleopolyhedrovirus (LdMNPV). Among the five anion transport inhibitors tested, flufenamic acid acted as a viral enhancer. None of the seven inhibitors of K+ enhanced viral activity and three (4-aminopyridine, diacetyl, and procaine) significantly reduced the activity of LdMNPV. All four Na+ transport inhibitors (abietic acid, amiloride, dicyclohexylcarbodiimide, triamterene) acted as viral enhancers. Triamterene was the most active enhancer, as the LC50 was reduced by approximately 1,750-fold. Five carbonic anhydrase inhibitors were tested and four (acetazolamide, hydrochlorothiazide, methazolamide, sulfanilamide) enhanced the activity of LdMNPV. Acetazolamide (a carbonic anhydrase inhibitor), amiloride (a Na+ transport inhibitor), and flufenamic acid (an anion transport inhibitor) were tested singly and in different combinations. Every combination tested (acetazolamide/amiloride, acetazolamide/flufenamic acid, amiloride/flufenamic acid, acetazolamide/amiloride/flufenamic acid) significantly decreased the LC50 from 7.79 PIB/mm2 to a value as low as 0.008 PIB/mm2 (amiloride/flufenamic acid).     

Studies on the effect of glycoprotein processing inhibitors on fusion of L6 myoblast cell lines

The effect of oligosaccharide processing inhibitors on the fusion of L6 myoblasts was studied. The glucosidase inhibitors, castanospermine, 1-deoxynojirimycin and N-methyl-deoxynojirimycin were potent inhibitors of myoblast fusion, as was the mannosidase II inhibitor, swainsonine. Inhibition of fusion was reversed when inhibitors were removed. However, the mannosidase I inhibitor, 1-deoxymannojirimycin did not inhibit fusion. Changes in cell membrane oligosaccharide structure were followed by monitoring the binding of concanavalin A (conA) and wheat germ agglutinin (WGA) to cell surface membranes in cells treated with processing inhibitors. All the processing inhibitors resulted in increased binding of conA and decreased binding of WGA; this is consistent with the known mechanisms of inhibition of the inhibitors used in the study. Inhibition of fusion by the processing inhibitors also resulted in reduced activities of creatine phosphokinase, an enzyme used as a marker for biochemical differentiation during fusion. Treatment of a non-differentiating conA-resistant cell line with processing inhibitors did not induce fusion, but the cells did show altered lectin-binding properties. The main conclusion drawn from these studies is that cell surface glycoproteins probably containing the mannose (Man)9 structure are important for the fusion reaction.     

Proteinase inhibitors as antistress proteins in higher plants

Physicochemical and functional characteristics of plant protein proteinase inhibitors as antistress biopolymers were studied to determine the mechanisms for plant resistance to phytopathogens and to obtain disease-resistant cereal and leguminous cultures. The activity of trypsin, chymotrypsin, and subtilisin inhibitors varied in monocotyledonous and dicotyledonous cultures. Study varieties of leguminous and cereal cultures were shown to contain endogenous inhibitors specific to proteinases of phytopathogenic fungi Fusarium, Colletotrichum, Helminthosporium, and Botrytis. These inhibitors were characterized by species specificity and variety specificity. Protease inhibitors from buckwheat seeds inhibited proteases of fungal pathogens and suppressed germination of spores and growth of the fungal mycelium. Our results suggest that proteinaceous inhibitors of proteinases are involved in the protective reaction of plants under stress conditions.     

Design, synthesis, and evaluation of trifluoromethyl ketones as inhibitors of SARS-CoV 3CL protease

A series of trifluoromethyl ketones as SARS-CoV 3CL protease inhibitors was developed. The inhibitors were synthesized in four steps from commercially available compounds. Three different amino acids were explored in the P1-position and in the P2-P4 positions varying amino acids and long alkyl chain were incorporated. All inhibitors were evaluated in an in vitro assay using purified enzyme and fluorogenic substrate peptide. One of the inhibitors showed a time-dependent inhibition, with a K(i) value of 0.3 microM after 4h incubation.