The effects of benzylsulfonyl-D-Ser-homoPhe-(4-amidino-benzylamide), a dual plasmin and urokinase inhibitor, on facial skin barrier function in subjects with sensitive skin.

OBJECTIVE: The aim of this study was to optimize the synthesis of the plasmin and urokinase (uPA) inhibitor benzylsulfonyl-D-Ser-homoPhe-(4-amidino-benzylamide) (BSFAB), to characterize its activity and mechanism of action and to assess its use to improve stratum corneum (SC) barrier function. METHODS: Peptide coupling methods were used to synthesize BSFAB, and high-performance liquid chromatography-mass spectrometry (HPLC-MS) together with 1 H- and 13 C-nuclear magnetic resonance spectroscopy (NMR) were applied to clarify its structure and determine its purity. Its binding mode was determined by docking studies to the catalytic domains of plasmin and uPA. Inhibition constants (Ki ) were determined by enzyme kinetic studies, and the effect of BSFAB on plasmin, uPA and transglutaminase 1 expression was evaluated in non-cytokine and cytokine-stimulated keratinocytes. A vehicle-controlled clinical study on SC barrier function was conducted on facial skin of subjects with self-perceived sensitive skin. RESULTS: BSFAB was synthesized with high purity (97.3%). In silico studies indicated that the amidine moiety of BSFAB was anchored in the S1 pocket of both enzymes by binding to Asp189, Ser190 and Gly219, whereas the backbone of the D-Ser residue makes an anti-parallel ß-sheet interaction with Gly216. BSFAB was shown to be an effective inhibitor of plasmin and uPA with Ki values of 29 and 25 nM, respectively. BSFAB also inhibited keratinocyte-secreted protease activities in basal (plasmin inhibition 37.7%, P < 0.05 and uPA inhibition 96.6%, P < 0.01) and cytokine-induced conditions (plasmin inhibition 41.1%, P < 0.05 and uPA inhibition 97.0%, P < 0.001) and stimulated the gene expression of transglutaminase 1 in cytokine-stimulated keratinocytes (approximately 4.5 times increased expression, P < 0.01). Clinically, BSFAB was shown to improve SC barrier integrity (P < 0.02 on day 29) and subjective improvements in the perception of healthy skin (P < 0.05 on day 28). CONCLUSION: BSFAB binds as a reversible competitive inhibitor to the active sites of plasmin and uPA. Additionally, BSFAB positively improved keratinocyte differentiation gene expression (transglutaminase 1). These effects were translated into improvements in SC barrier integrity clinically in subjects with dry and sensitive skin and improved their perception of having a healthy skin condition.

Inhibition of Matriptase Activity Results in Decreased Intestinal Epithelial Monolayer Integrity In Vitro.

Barrier dysfunction in inflammatory bowel diseases implies enhanced paracellular flux and lowered transepithelial electrical resistance (TER) causing effective invasion of enteropathogens or altered intestinal absorption of toxins and drug compounds. To elucidate the role of matriptase-driven cell surface proteolysis in the maintenance of intestinal barrier function, the 3-amidinophenylalanine-derived matriptase inhibitor, MI-432 was used on porcine IPEC-J2 cell monolayer. Studies with two fluorescent probes revealed that short (2 h) treatment with MI-432 caused an altered distribution of oxidative species between intracellular and extracellular spaces in IPEC-J2 cells. This perturbation was partially compensated when administration of inhibitor continued for up to 48 h. Significant decrease in TER between apical and basolateral compartments of MI-432-treated IPEC-J2 cell monolayers proved that matriptase is one of the key effectors in the maintenance of barrier integrity. Changes in staining pattern of matriptase and in localization of the junctional protein occludin were observed suggesting that inhibition of matriptase by MI-432 can also exert an effect on paracellular gate opening via modulation of tight junctional protein assembly. This study confirms that non-tumorigenic IPEC-J2 cells can be used as an appropriate small intestinal model for the in vitro characterization of matriptase-related effects on intestinal epithelium. These findings demonstrate indirectly that matriptase plays a pivotal role in the development of barrier integrity; thus matriptase dysfunction can facilitate the occurence of leaky gut syndrome observed in intestinal inflammatory diseases.

Metabolism and distribution of two highly potent and selective peptidomimetic inhibitors of matriptase.

Matriptase is a serine protease expressed by several types of cancer cells and it participates in tumour growth and progression through the activation of hepatocyte growth factor (HGF) and urokinase-type plasminogen activator (uPA). The metabolism of two potent and selective peptidomimetic inhibitors of matriptase (CJ-1737 and CJ-672) was examined in vitro with enzyme preparations (9000g supernatants, microsomes, and plasma) from dog, pig, rat, and human. It was found that both compounds displayed interesting species-dependent differences. Though CJ-1737 was not metabolized by microsomes, by 9000g supernatants from all species, or by human or rat plasma, canine and porcine plasma enzymes rapidly hydrolysed this compound. In contrast, CJ-672 was metabolized exclusively by enzymes from human liver (microsomes and 9000g supernatants) via a two-step metabolic pathway. Additionally, the distribution of both compounds was investigated in mice. The highest amounts were measured in the kidney and liver, followed by the spleen, lung, and heart. In contrast to CJ-1737, high concentrations of CJ-672 were detected in the colon, indicating an additional biliary excretion. In summary, this work clarifies both the metabolism and distribution of two new matriptase inhibitors and demonstrates important metabolic differences between human enzymes and those from commonly used laboratory animals.

Cloning, purification and biochemical characterization of dipetarudin, a new chimeric thrombin inhibitor.

The development of thrombin inhibitors could provide invaluable progress for antithrombotic therapy. In this paper, we report the cloning, purification and biochemical characterization of dipetarudin, a chimeric thrombin inhibitor composed of the N-terminal head structure of dipetalogastin II, the strongest inhibitor from the assassin bug Dipetalogaster maximus, and the exosite 1 blocking segment of hirudin, connected through a five glycine linker. The cloning of dipetarudin was performed by a simple method which had not been used previously to clone chimeras. Biochemical characterization of dipetarudin revealed that it is a slow, tight-binding inhibitor with a molecular mass (M(r)=7560) and a thrombin inhibitory activity (K(i)=446 fM) comparable to r-hirudin.

Structure-activity relationships of new NAPAP-analogs.

Several new analogs of the known thrombin inhibitor NAPAP were synthesized, in which the P2 glycine residue was substituted by natural and unnatural amino acids. The thrombin inhibitory potency was comparable to that of NAPAP. Several of the compounds had inhibition constants lower than 10 nM and a very high selectivity compared to trypsin, factor Xa and plasmin. In addition, analogs were prepared by alkylation of the N alpha-atom of the 4-amidinophenylalanine in P1 position, which showed a more than 10-fold lower thrombin inhibition. Furthermore, azaglycine was introduced instead of P2 glycine. For most of the inhibitors similar fast elimination rates were seen in rats after intravenous dosing, as found previously for NAPAP. Only some compounds, which contained a second basic group showed a slightly decreased cumulative biliary clearance.

Advances in the development of thrombin inhibitors.

Thromboembolic diseases are a major cause of morbidity and mortality, particularly in the Western world, which has stimulated enormous research efforts by the pharmaceutical industry to introduce new antithrombotic therapies. One strategy is the development of direct inhibitors of the serine protease thrombin, which holds a central position in the final steps of the blood coagulation cascade and in platelet activation. At present there is only limited clinical use of some parenteral preparations of thrombin inhibitors in acute situations, especially when the common antithrombotic drugs heparin, warfarin and aspirin are ineffective or associated with side effects. However, for use in prophylaxis of thrombotic diseases such inhibitors should be orally available, must be safe to avoid bleeding complications and should have an appropriate half-life, allowing once or twice daily dosing to maintain adequate antithrombotically effective blood levels. Details of several new and potent thrombin inhibitors have been published during the last years. For some of them oral bioavailability is claimed and they are effective in in vitro coagulation assays. However, most of them showed only limited efficacy in animal studies with respect to the doses administered. For that reason, effort is concentrated on the evaluation and optimisation of the overall physicochemical characteristics of the inhibitors in order to improve the pharmacokinetics and, thus, the development of promising drug candidates. Nevertheless, only careful clinical studies can give clear answers about the true therapeutical benefit of new developments in this field. This review summarises the current status of direct thrombin inhibitors which are already in clinical use and clinical development and gives an overview on recently published and promising new compounds.

New bivalent thrombin inhibitors with N(alpha)(methyl)arginine at the P1-position.

A series of bivalent thrombin inhibitors was synthesized, consisting of a d-phenylalanyl-prolyl-N(alpha)(methyl)arginyl active site blocking segment, a fibrinogen recognition exosite inhibitor part, and a peptidic linker connecting these fragments. The methylation of the P1 amino acid led to a moderate decrease in affinity compared with the unmethylated analog. In addition, it prevented the thrombin catalyzed proteolysis, independent of the P1' amino acid used. This is a significant advantage compared to the original hirulogs, which strictly require a proline as P1' amino acid to reduce the cleavage C-terminal to the arginyl residue. Several analogs were prepared by incorporation of different P1' amino acids found in natural thrombin substrates. The most potent inhibitor was I-11 [dCha-Pro-N(Me)Arg-Thr-(Gly)5-DYEPIPEEA-Cha-dGlu] with a Ki of 37 pM. I-11 is highly selective and no inhibition of the related serine proteases trypsin, factor Xa and plasmin was observed. The stability of I-11 in human plasma in vitro was strongly improved compared to hirulog-1. In addition, a significantly reduced plasma clearance of I-11 was observed after intravenous injection in rats. Results from molecular modeling suggest that a strong reorganization of the hydrogen bonds in the active site of thrombin may result in the proteolytic stability found in this inhibitor series.

Identification of novel periviscerokinins from single neurohaemal release sites in insects MS/MS fragmentation complemented by Edman degradation.

Three novel members of the periviscerokinin family could be identified directly from extracts of single abdominal perisympathetic organs of blaberoid cockroaches by means of electrospray ionization-quadrupole time of flight (ESI-QTOF) MS. Sequences of these periviscerokinins were confirmed by Edman degradation. Their primary structures are GSSGLIPFGRT-NH2 (Lem-PVK-1), GSSGLISMPRV-NH2 (Lem-PVK-2), and GSSGMIPFPRV-NH2 (Lem-PVK-3). Hitherto only known from the American cockroach, this neuropeptide family contains a highly conserved N-terminus whereas, at the C-terminus, only the penultimate amino-acid residue (Arg) has been found in all members of this peptide family. The identified periviscerokinins are the only abundant myoactive peptides in abdominal perisympathetic organs of blaberoid cockroches and they appear to be absent in the retrocerebral complex. Screening of extracts of single abdominal perisympathetic organs (70-90 microm in diameter), from five different species of the suborder Blaberoidea, revealed that they all contain the three neuropeptides which are described here for the first time.

3-Amidinophenylalanine-based inhibitors of urokinase.

Synthesis and anti-uPA activity of a series of Nalpha-triisopropyl-phenylsulfonyl-protected 3-amidinophenylalanine amides are described. We have explored SAR around the C-terminal amide part for inhibition of uPA, plasmin and trypsin. Modification of the amide part has been found to affect potency but not selectivity. With a Ki of 0.41 microM 2r-L is one of the most potent uPA inhibitors described so far. The X-ray crystal structure of 2r-L was solved in complex with trypsin, superimposed with uPA and the results suggest an unique binding mode of this inhibitor type.

Two-stage method for protein-ligand docking.

A two-stage method for the computational prediction of the structure of protein-ligand complexes is proposed. Given an experimentally determined structure of the protein, in the first stage a large number of plausible ligand conformations is generated using the fast docking algorithm FlexX. In the second stage these conformations are minimized and reranked using a method based on a classical force field. The two-stage method is tested for 10 different protein-ligand complexes. For 9 of them experimentally determined structures are known. It turns out that the two-stage method strongly improves the predictive power as compared to that of the fast docking stage alone. The tenth case is a bona fide prediction of a complex of thrombin with a new inhibitor for which no experimentally determined structure is available so far.

Design and evaluation of novel bivalent thrombin inhibitors based on amidinophenylalanines.

Two bivalent thrombin inhibitors were synthesized, which consist of a benzamidine-based active-site-blocking segment, a fibrinogen recognition exosite inhibitor and a peptidic linker connecting these fragments. BZA-1 hirulog contains an Nalpha-(2-naphthylsulfonyl)-S-3-amidinophenylalanyl-is onipecotic acid residue connected via the carboxyl group to the linker segment. The active-site-directed moiety of BZA-2 hirulog [Nalpha-(2-naphthylsulfonyl-glutamyl)-R-4-amidinophenylal anyl-piperid ide] was coupled to the linker via the side chain of the glutamic acid. Both BZA-hirulogs contain almost identical linker-exo site inhibitor parts, except for the substitution of a glycine as the first linker residue in BZA-1 hirulog by a gamma-amino butyric acid in BZA-2 hirulog, thus increasing flexibility and linker length by two additional atoms. BZA-1 hirulog showed moderate potency (Ki = 0. 50 +/- 0.14 nM), while BZA-2 hirulog was characterized as a slow, tight binding inhibitor of thrombin (Ki = 0.29 +/- 0.08 pM). The stability in human plasma of both analogs was strongly improved compared with hirulog-1. For BZA-2 hirulog a significantly reduced plasma clearance was observed after intravenous injection in rats compared with BZA-1 hirulog and hirulog-1. The X-ray structure of the BZA-2 hirulog in complex with human alpha-thrombin was solved and confirmed the expected bivalent binding mode.

Potent bivalent thrombin inhibitors: replacement of the scissile peptide bond at P(1)-P(1)' with arginyl ketomethylene isosteres.

We have designed highly potent synthetic bivalent thrombin inhibitors, which consist of an active site blocking segment, a fibrinogen recognition exosite blocking segment, and a linker connecting these segments. The bivalent inhibitors bind to the active site and the fibrinogen recognition exosite simultaneously. As a result, the inhibitors showed much higher affinity for thrombin than the individual blocking segments. Various arginyl ketomethylene isosteres ArgPsi[CO-CH(2)-X]P(1)' were incorporated into the bivalent inhibitors as P(1)-P(1)' segment to eliminate the scissile bond. The P(1)' residue is a natural or unnatural amino acid; specifically, the incorporation of mercaptoacetic acid exhibited superiority in synthesis and affinity for thrombin. Inhibitor 16, (D-cyclohexylalanine)-Pro-ArgPsi[CO-CH(2)-S]Gly-(Gly)(4)-Asp-Tyr-G lu- Pro-Ile-Pro-Glu-Glu-Tyr-cyclohexylalanine-(D-Glu)-OH, showed the lowest K(i) value of 3.5 +/- 0.5 x 10(-13) M, which is comparable to that (K(i) = 2.3 x 10(-13) M) of recombinant hirudin. Consequently we successfully reduced the size of the inhibitor from approximately 7 kDa of recombinant hirudin to approximately 2 kDa without losing the affinity.

New thrombin inhibitors based on D-cha-Pro-derivatives.

A series of new analogs with modifications in the C-terminal residue were prepared based on the known thrombin inhibitor D-Phe-Pro-agmatine. These include several compounds alkylated at the N delta-, N omega- and N omega'-atoms of the guanidino group and a number of inhibitors derived from commercially available diamines. All analogs with alkylation of the guanidino group showed very poor activity. In contrast, the most potent and selective inhibitor with a cyclic and basic residue in the P1-position was found to be Ph-CH2-SO2-D-Cha-Pro-4-(amidomethyl) amidinopiperidine 11 with a Ki of 0.27 nM. In addition, a number of compounds were synthesized, in which the basic amidino group of the P1-residue was replaced by a hydroxyl group. Although the inhibition constants of these phenol derivatives showed still remarkable potency (16, Ki = 130 nM), their activity in clotting assays was strongly reduced.

Tyrosine phosphorylation of GSalpha and inhibition of bradykinin-induced activation of the cyclic AMP pathway in A431 cells by epidermal growth factor receptor.

An increasing amount of experimental data suggest that cross-talk exists between pathways involving tyrosine kinases and heterotrimeric G proteins. In a previous study, we demonstrated that bradykinin (BK) increases the intracellular accumulation of cAMP in the human epidermoid carcinoma cell line A431 by stimulating adenylate cyclase activity via a stimulatory G protein (Gsalpha) (Liebmann, C., Graness, A., Ludwig, B., Adomeit, A., Boehmer, A., Boehmer, F.-D., Nürnberg, B., and Wetzker, R. (1996) Biochem. J. 313, 109-118). Here, we present several lines of evidence indicating the ability of epidermal growth factor (EGF) to suppress BK-induced activation of the cAMP pathway in A431 cells via tyrosine phosphorylation of Gsalpha. Gsalpha was specifically immunoprecipitated from A431 cells using the anti-alphas antiserum AS 348. Tyrosine phosphorylation of Gsalpha was detectable in EGF-pretreated cells with monoclonal anti-phosphotyrosine antibodies. Additionally, A431 cells were labeled with [32P]orthophosphate in vivo and treated with EGF, and the resolved immunoprecipitates were subjected to amino acid analysis. The results clearly indicate that EGF induces tyrosine phosphorylation of Gsalpha in A431 cells. Treatment of A431 cells with EGF decreased BK-induced cAMP accumulation in intact cells as well as the stimulation of adenylate cyclase by BK, NaF, and guanyl nucleotides, but not by forskolin. Also, EGF treatment abolished both the BK- and isoprenaline-induced stimulation of guanosine 5'-O-(3-[35S]thiotriphosphate) binding to Gsalpha. In contrast, the BK-evoked, Gq-mediated stimulation of inositol phosphate formation in A431 cells was not affected by EGF pretreatment. Thus, EGF-induced tyrosine phosphorylation of Gsalpha is accompanied by a loss of its susceptibility to G protein-coupled receptors and its ability to stimulate adenylate cyclase via guanyl nucleotide exchange. We propose that Gsalpha may represent a key regulatory protein in the cross-talk between the signal transduction pathways of BK and EGF in A431 cells.

Crystal structure of a peptidyl pyridinium methyl ketone inhibitor with thrombin.

The crystal structure of a complex between a bivalent peptidyl pyridinium methyl ketone inhibitor and human alpha-thrombin has been solved and refined at 2.0 A to an R factor of 0.18. The inhibitor, (D)cyclohexylalanine-Pro-Arg-(CH2N+C5H4CH2CO)-(Gly)4-Asp- Tyr-Glu-Pro-Ile-Pro-Glu-Glu-Ala-cyclo-hexylalanine-(D)Glu (coded P596), which forms a reversible covalent complex with thrombin, is highly potent with a Ki = 4.6 +/- 1.0 x 10(-14) M, lower than that of recombinant hirudin. The N-terminal, active-site-directed portion of the inhibitor is linked to the fibrinogen recognition exosite binding portion by a tetraglycine segment. The strong electron-withdrawing effect provided by the permanent positive charge on the pyridinium nitrogen makes the arginyl carbonyl carbon more susceptible to nucleophilic attack. In the crystal, a covalent P596-thrombin complex is observed. The electron density surrounding the active site portion and the pyridinium of the inhibitor is very well defined, clearly showing the existence of a covalent bond between the Ser195 O gamma and the now tetrahedral carbon of the inhibitor. The decreased binding ability of thrombin inhibitors containing N-terminal acetylation is discussed as is the effect of replacing the P3 (D)phenylalanine with (D)cyclohexylalanine. The electron density surrounding the remainder of the inhibitor is generally well defined, the exceptions being the C-terminal (D)Glu, the highly flexible tetraglycine linker, and some of the solvent-directed side chains.(ABSTRACT TRUNCATED AT 250 WORDS)

New photoaffinity labelled agonists of bradykinin.

Several photoaffinity labelled agonists of the peptide hormone bradykinin (BK) were synthesized by solid phase methods. Their biological activities and binding affinities were determined in both the isolated rat uterus (RUT) and guinea pig ileum (GPI). As photoreactive groups p-benzoyl-phenylalanine (Bpa) and the arylazides azidobenzoic acid (ABA) and azidosalicylic acid (ASA) were attached to the N-terminus of the BK agonists. In addition, Bpa was incorporated at different positions of the BK sequence. Three different types of BK agonists were used. Firstly, the photolabels ASA and ABA were attached to BK or to Lys-BK (kallidin). Secondly, tyrosine containing BK analogues, suitable for radioiodination, were labelled. This series is derived from the naturally occurring analogue phyllokinin [BK-Ile-Tyr(SO3H)] and from BK analogues with tyrosine at position 0 and 3. The third series includes several analogues with D-N-methyl-phenylalanine (D-NMe-Phe) at position 7, which selectively discriminate between the RUT and GPI bradykinin B2 receptors. Among the photoaffinity labelled BK agonists, the iodinatable Lys(ASA)-BK (50.8% on RUT, 73.0% on GPI), ASA-BK (26.3% on RUT), Bpa-BK-Ile-Tyr (13.6% on RUT, 14.0% on GPI) and the iodinated [D-Bpa-1, 3-I-Tyr0]-BK (15.5% on RUT, 19.0% on GPI) retained a relatively high biological activity compared with BK (100%). Thus, although BK agonists are known to allow only very restricted modifications without a strong reduction in biological activity, these compounds should be useful candidates for receptor labelling.

Potent photoaffinity labelled and iodinated antagonists of bradykinin.

Continuing the studies on photoaffinity labelled analogues of the peptide hormone bradykinin (BK), several labelled antagonists were synthesized and characterized regarding their biological activities on rat uterus (RUT) and guinea pig ileum (GPI). The photoreactive amino acid p-benzoyl-phenylalanine (Bpa) was incorporated in potent, iodinated BK analogues at positions -2, -1, 0 and 7. The newly synthesized BK antagonists were derived from HOE 140 ([DArg0, Hyp3, Thi5, D-Tic7, Oic8]-BK) or [D-Phe7]-BK. Because the application of Bpa requires an additional group for the introduction of 125I, iodinated tyrosine was inserted at different positions as a model for radioiodination. Suitable positions for incorporation of tyrosine residues are -1, 0, 3 and 7, whereas the compound with 3-I-Tyr at position 4 had only a low biological activity. The antagonists obtained by modification of HOE 140 generally retained a high antagonistic potency. In this group [D-Bpa-2, 3-I-D-Tyr-1, D-Arg0, Hyp3, Thi5, D-Tic7, Oic8]-BK (pA2 values 8.06 on RUT and 8.15 on GPI) and [Bpa-1, D-Arg0, 3-I-Tyr3, Thi5, D-Tic7, Oic8]-BK (pA2 values 7.55 on RUT and 8.07 on GPI) belong to the most active compounds. The incorporation of D-Bpa at position 7 also resulted in potent analogues. The antagonists [3-I-Tyr-1, D-Arg0, D-Bpa7]-BK (pA2 on RUT 7.69) and [3-I-Tyr-1, D-Arg0, D-Bpa7, Oic8]-BK (pA2 on GPI 7.53) are an alternative to the N-terminal modified HOE 140 analogues. Compounds with D-Bpa7 act as pure competitive antagonists, whereas the HOE 140 derivatives show a mixed antagonism. The comparison of the results between photoaffinity labelled agonists and antagonists suggests that modifications in the series of BK antagonists were better tolerated.

Peptidyl ammonium methyl ketones as substrate analog inhibitors of proline-specific peptidases.

Prolyl endopeptidase (PEP) and dipeptidyl peptidase IV (DP IV) are serine enzymes cleaving highly specific prolyl peptide bonds. Both enzymes were found to be inhibited by newly designed peptidyl ammonium and pyridinium methyl ketones acting as slow binding inhibitors. The most potent inhibitor of PEP is Z-Pro-Pro-CH2N+C5H5 exhibiting a Ki* value of 1.8 nM with a first-order rate constant of Kon 0.0022 s-1 for the formation of the tight enzyme-inhibitor complex. DP IV and H-Pro-Pro-CH2N+ (CH3)3 form an enzyme-inhibitor-complex with an apparent second order rate constant of 2713 M-1 s-1. In contrast to the very stable N-terminal protected Z-Pro-Pro-CH2N+ (CH3)3, the deblocked derivative decomposes rapidly in aqueous solution.

Dipeptidyl peptidase IV in the immune system. Effects of specific enzyme inhibitors on activity of dipeptidyl peptidase IV and proliferation of human lymphocytes.

Dipeptidyl peptidase IV (DP IV) is a membrane peptidase playing a significant role in the process of activation and proliferation of human thymus-derived lymphocytes. This conclusion is drawn from (1) the induction of this enzyme on mitogen-activated T lymphocytes (cf. Schön, E. & Ansorge, S. (1990) Biol. Chem. Hoppe-Seyler 371, 699-705) and (2) the impairment of different functions of activated T cells in the presence of specific inhibitors and antibodies against DP IV (Schön, E. & al. (1987) Eur. J. Immunol 17, 1821-1826). This paper is aimed at testing new active site-specific peptide inhibitors for their efficiency as inhibitors of lymphocyte DP IV and DNA synthesis of mitogen-stimulated lymphocytes. These inhibitors comprise (i) diacylhydroxylamine derivatives of Xaa-Pro or Xaa-Ala peptides, (ii) different oligopeptides with N-terminal Xaa-Pro-sequences, and (iii) amino-acid amides of the pyrrolidide and the thiazolidide type. The thiazolidides of epsilon-(4-nitrobenzyloxycarbonyl)-L-lysine and of L-isoleucine as well as Ala-Pro-nitrobenzoylhydroxylamine are the most effective inhibitors in both test systems, yielding half-maximal inhibitory concentrations in the micromolar range. Cell viability was not impaired in this effective concentration range. Other inhibitors of DP IV are one to two orders of magnitude less efficient in the suppression of lymphocyte proliferation.

Reaction of dipeptidylpeptidase IV with substrate-analogous azapeptides.

The reaction of dipeptidyl peptidase IV (EC 3.4.14.5.) with azapeptide substrates containing azaalanine or azaproline in the P1-position was investigated. Accumulation of a fairly stable acyl-enzyme could be shown for ester substrates. Ala-AzaPro-pNA is a very poor substrate of DP IV and does not accumulate an acyl-enzyme. DP IV does not react with active-site titrants for trypsin-like serine proteases.