Comparison of coupling subsites and inhibition effects of piperidine alkaloids and aminoketones on plant amine oxidases.

In the present work we compare the binding subsites of inhibitors from a series of alkaloids and aminoketones on pea and sainfoin diamine oxidase (EC 1.4.3.6; DAO) by the graphical method. As standard competitive inhibitors we have chosen oxoanalogs of the substrates, namely, 1,4-diamino-2-butanone and 1,5-diamino-3-pentanone, which were compared with the alkaloids (+)-sedamine, (-)-norallosedamine, (-)-norsedamine, L-lobeline, cinchonine and aromatic analogs of aliphatic aminoketones such as 1-amino-3-phenyl-3-propanone and 1-amino-3-phenyl-2-propanone. In the case of pea DAO all inhibitors compete for the same subsites with 1,4-diamino-2-butanone and 1,5-diamino-3-pentanone (alpha = infinity). In the case of sainfoin enzyme they are bound to other subsites and the interaction constants (0 < alpha < 1) point to a positive attraction between these two types of inhibitors. With sainfoin DAO, 1-amino-3-phenyl-3-propanone is bound into the same subsite as 1,4-diamino-2-butanone. Cinchonine and 1-amino-3-phenyl-3-propanone are bound to two different subsites and the value of the interaction constant (1 < alpha < infinity) shows repulsion between the inhibitors.     

Interaction between alpha-2 macroglobulin and trypsin with synthetic trypsin inhibitors]

The complex formed between trypsin (Tn) and alpha 2 Macroglobulin (alpha 2 M) retains the whole hydrolytic activity of the enzyme for synthetic substrates. Moreover synthetic inhibitors of low molecular weight stiel inhibit this activity. A comparative study of three inhibitors (Benzylamine, Butylamine, Benzamidine) has been carried out and shows that their behavior is similar. These inhibitors bind trypsin when it is bound to alpha 2 M and reciprocally alpha 2 M can bind Tn-inhibitor complex. Nevertheless the dissociation constant of the enzyme-inhibitor complex (Ki) is increased by alpha 2 M. In the case of Benzamidine the value of Ki is 2.22.10(-5) M for native enzyme and 13.4.10(-5) M for Tn-alpha 2 M and in the case of Butylamine this value increases from 0.5.10(-3) M to 2.95.10(-3) M. These variations of the Ki values are due to the modification of the accessibility of the inhibitor to the active site. Unpublished results show that the alpha 2 M molecule undergoes a deep structural modification in the course of the complex formation, which must lead to an increase of the value of Ki. This structural modification is probably irreversible so that the alpha 2 M complex has never been dissociated without altering the alpha 2 M molecule. The increase of the values of Ki cannot therefore result in an effective decrease of the association constant of the Tn-alpha 2 M complex.     

Natural inhibitors targeting osteoclast-mediated bone resorption

Human cathepsin K, matrix metalloproteinase 9, and alpha(V)beta(3) integrin are the key regulators in osteoclast-mediated bone resorption. In this paper, we found natural inhibitors 1-10 for them by enzyme inhibition assays. Inhibitors 1-7, 8-9, and 10 are novel inhibitors of human cathepsin K, matrix metalloproteinase 9, and alpha(V)beta(3), respectively.     

Comparison of the inhibition of thrombin by three plasma protease inhibitors.

Human alpha-thrombin is inhibited by the circulating protease inhibitors alpha1-antitrypsin, antithrombin III, and alpha2-macroglobulin. Kinetic analyses of the inhibitor thrombin interactions were carried out utilizing either fibrinogen or the synthetic substrate Bz-Phe-Val-Arg-p-nitroanilide as substrates to determine residual thrombin activity. These studies demonstrated that the inhibition of thrombin by alpha1-antitrypsin, antithrombin III, and alpha2-macroglobulin followed second-order kinetics. The rate constants for the inhibition of thrombin by alpha1-antitrypsin, antithrombin III, and alpha2-macroglobulin are 6.51 +/- 0.38 x 10(3), 3.36 +/- 0.34 x 10(5), and 2.93 +/- 0.02 x 10(4) M-1 min-1, respectively. Comparison of the second-order rate constants and the normal plasma levels of the three inhibitors demonstrates that, under the in vitro conditions utilized, antithrombin III is five times and alpha2-macroglobulin is one-third as effective as alpha1-antitrypsin in the inhibition of thrombin.     

Elucidation of the mechanism of selective inhibition of mammalian DNA polymerase alpha by 2-butylanilinopurines: development and characterization of 2-(p-n-butylanilino)adenine and its deoxyribonucleotides.

2-(p-n-Butylanilino)adenine (BuAA), an homolog of the DNA polymerase alpha (pol alpha)-specific inhibitor, N2-(p-n-butylphenyl)guanine (BuPG), was transformed to its 2'-deoxyribonucleoside, BuAdA, and the corresponding 2'-deoxyribonucleoside 5'-phosphates, BuAdAMP, BuAdADP, and BuAdATP. All five forms of BuAA are highly selective inhibitors of mammalian pol alpha, and the action of each is subject to specific competitive antagonism by dATP. BuAdADP, and BuAdATP, like the corresponding forms of BuPG, are very potent pol alpha inhibitors, displaying apparent Ki's of less than 3 nanomolar on natural activated templates. BuAdATP, like BuPdGTP, also inhibits pol alpha-catalysed reactions directed by non-complementary, thymine-deficient templates, and it does so via a mechanism subject to specific antagonism by its natural homolog, dATP. The results of the BuAdATP-homopolymer experiments complement those of analogous experiments with BuPdGTP and the dCTP-specific pol alpha inhibitor, aphidicolin, and strengthen the suggestion that mammalian pol alpha contains dNDP and dNTP binding sites which can recognize specific bases without direction by templates.     

Selective inhibition of vitamin D hydroxylases in human keratinocytes

Human keratinocytes convert 25(OH)D(3) to hormonally active 1alpha,25(OH)(2)D(3) and respond to its antiproliferative/prodifferentiating action in vitro and in vivo. Levels and activity of 1alpha,25(OH)(2)D(3) are short-lived. 1alpha,25(OH)(2)D(3) induces 24-hydroxylase (CYP24) that rapidly metabolizes the hormone, yielding a cascade of side-chain oxidized products and this eventually results in the loss of activity. Aiming at stabilizing the levels of active hormone, we have searched for potent, selective inhibitors of CYP24. Selective inhibition was crucial in order to avoid impairment of 1alpha,25(OH)(2)D(3) synthesis, catalyzed by 1alpha-hydroxylase - a related member of cytochrome P-450 (CYP) superfamily. We describe here the testing protocol, using primary human keratinocyte cultures as an appropriate source of CYP24 and 1alpha-hydroxylase, (3)H-25(OH)D(3) (at physiological concentrations) as substrate and sensitive HPLC techniques to analyze the complex metabolite profiles. Four hundred potential inhibitors were screened by this method; most of them were synthesized in our laboratory. These compounds (entitled azoles) were capable of direct binding to the heme iron and of additional interactions with other parts of the enzyme. In this paper, we present VID400 and SDZ 89-443, as first examples of powerful selective CYP24 inhibitors. As anticipated, these compounds increased the levels of 1alpha-hydroxylated products generated from (3)H-25(OH)D(3) and extended their lifetime. Importantly, blocking of 24-hydroxylation led to a switch in metabolism, namely to preferential conversion of 1alpha,25(OH)(2)D(3) to 1alpha,25(OH)(2)-3epi-D(3). As spin-off from our program, selective inhibitors of 1alpha-hydroxylase were also found (e.g. SDZ 88-357). Using (3)H-25(OH)D(3) as substrate in the absence of SDZ 88-357, CYP24 showed high preference for freshly generated 1alpha-hydroxylated metabolites over abundant 25(OH)D(3). In the presence of SDZ 88-357, we noticed a great increase in 24-hydroxylation of (3)H-25(OH)D(3). Besides their use as valuable tools in elucidating regulatory mechanisms, inhibitors of VD hydroxylases may give rise to novel therapeutic strategies, especially in defects of cell growth and differentiation.     

Further studies of plasma protease inhibitors in the hedgehog, Erinaceus europaeus; collagenase, papain and plasmin inhibitors

Hedgehog plasma was separated by gel filtration on Sephacryl S-200, the fractions resolved by electrophoresis and the electrophoretograms characterized for collagenase, papain and plasmin inhibiting activities with the high mol. wt substrate casein. The three inhibitors previously identified as alpha 2-, alpha 2-beta- and beta-macroglobulins were found to inhibit all three proteases. These were the only collagenase inhibitors found in plasma. Hedgehog alpha 2-chymotrypsin inhibitor and beta-protease inhibitor were both found to also inhibit papain. Three new inhibitors specific for papain (gamma-, alpha 2- and alpha 1-cysteine protease inhibitors) and one for plasmin (alpha 2-antiplasmin) were also found, bringing the number of protease inhibitors in hedgehog plasma to 14. Immunological cross-reactivity as studied by immunoelectrophoresis showed homology between hedgehog alpha 2-macroglobulin and rat murinoglobulin I and between hedgehog alpha 2-antithrombin and rat antithrombin III.     

Selective inhibitors of CYP24: mechanistic tools to explore vitamin D metabolism in human keratinocytes

Human keratinocytes are fully competent cells of the vitamin D (VD) hormone system. They have the capacity to generate VD, to convert it to hormonally active 1alpha,25(OH)(2)D(3) and subsequently, to metabolize the hormone by self-induced CYP24. These reactions generate a cascade of highly transient products and, eventually terminate biologic activity. To elucidate regulatory principles in the VD cascade in more detail, we made use of novel selective CYP24 inhibitors, recently synthesized by our group. Here, we describe the effects of VID400 and SDZ 89-443 on the metabolism of 20 nM (3)H-25(OH)D(3) in human keratinocytes, analyzed by sensitive HPLC methods. First, we present evidence that freshly generated 1alpha,25(OH)(2)D(3) does not down-regulate 1alpha-hydroxylation, as commonly assumed. The transient time course of 1alpha,25(OH)(2)D(3), could be explained by its fast 24-hydroxylation to polar products, undetectable by usual HPLC-analysis of organic extracts. On inhibition of CYP24, 1alpha-hydroxylation continued throughout extended periods, indicating its constitutive nature. Asking whether 1alpha,25(OH)(2)D(3) derived metabolites [1alpha,25(OH)(2)-3epi-D(3), 1alpha,24(R),25(OH)(3)D(3), 1alpha,25(OH)(2)-24oxo-D(3), 1alpha,23(S),25(OH)(3)-24-oxo-D(3) and calcitroic acid] would regulate 1alpha-hydroxylase, we pre-treated cells with 20 nM of these metabolites for 5 h and 24 h. Subsequent incubation with (3)H-25(OH)D(3) demonstrated that neither metabolite substantially impaired 1alpha-hydroxylase, while all of them transiently induced CYP24 activity. Analyzing the effects of VID400 on the kinetics of (3)H-25(OH)D(3), we showed that 1alpha-hydroxylation rather than 24-hydroxylation was rate-limiting in the C-24 oxidation pathway - again suggesting constitutive expression of 1alpha-hydroxylase. CYP24 inhibitors effectively increased the levels and lifetime of all transient 1alpha-hydroxylated metabolites, especially of 1alpha,25(OH)(2)-3epi-D(3) that became the predominant lipid soluble metabolite. Highly increased levels of 1alpha,23(S),25(OH)(3)-24-oxo-D(3), the metabolite preceding side chain cleavage, indicated involvement of CYP24 also in the terminal step of the cascade. Besides using inhibitors of CYP24 as tools to explore mechanisms in the VD cascade, they also appear to be valuable to discover the intrinsic biologic functions of distinct metabolites.     

A peptide of the alpha 3(IV) chain of type IV collagen modulates stimulated neutrophil function via activation of cAMP-dependent protein kinase and Ser/Thr protein phosphatase

Previous reports from our laboratories showed that type IV collagen from anterior lens capsule (ALC) inhibited stimulated neutrophil function. This property was shown to reside in the region comprising residues 185-203 of the non-collagenous domain (NC1) of the alpha 3(IV) chain. We also reported that ALC-type IV collagen or the synthetic alpha 3(IV) 185-203 peptide, induced a rise in intracellular cAMP which persisted for up to 60 minutes. In the present work we extend our previous studies on signal transduction by alpha 3(IV) 185-203 and we provide new data showing the involvement of cAMP-dependent PKA and protein phosphatases. The data also show that the alpha 3(IV) peptide triggered a rise in intracellular calcium that was dependent on phospholipase C activation. Inhibitors of the Ca(2+)/calmodulin system suppressed both the alpha 3(IV) 185-203 peptide-induced cAMP increase and the inhibitory activity of the peptide on f-Met-Leu-Phe triggered O(2)(-) generation. When alpha 3(IV) 185-203 peptide-induced calcium mobilization was blocked by U-73122, an inhibitor of phospholipase C activation, or by BAPTA/AM, a chelator of intracellular calcium, the inhibitory effect of the peptide on PMA-triggered O(2)(-) production was also abolished. These findings provide evidence that signal transduction by the alpha 3(IV) peptide occurs via pathways which involve calcium. Indeed, the cAMP increase was shown to be mediated by adenosine and adenosine A2 receptors and required calcium elevation, since adenosine deaminase, theophilline, dimethylpropargylxanthine, trifluoperazine or autocamtide-2 related inhibitory peptide, suppressed the activity of the alpha 3(IV) peptide. The inhibitory effect of the peptide on f-Met-Leu-Phe-induced O(2)(-) generation was slightly affected by 1 microM KT5720 or H89, two inhibitors of cAMP-dependent PKA, but was completely suppressed by 10 nM calyculin A or 10 microM okadaic acid, two inhibitors of ser/thr phosphatases. These results suggest that Ser/Thr protein phosphatases and/or cAMP-dependent PKA are involved in signal transduction by the alpha 3(IV) 185-203 peptide and is consistent with the concept that adenosine receptor occupancy modulates neutrophil function.     

Phosphatidylinositol 3-kinase-dependent mitogen-activated protein/extracellular signal-regulated kinase kinase 1/2 and NF-kappa B signaling pathways are required for B cell antigen receptor-mediated cyclin D2 induction in mature B cells

Phosphatidylinositol 3-kinase (PI-3K) has been linked to promitogenic responses in splenic B cells following B cell Ag receptor (BCR) cross-linking; however identification of the signaling intermediates that link PI-3K activity to the cell cycle remains incomplete. We show that cyclin D2 induction is blocked by the PI-3K inhibitors wortmannin and LY294002, which coincides with impaired BCR-mediated mitogen-activated protein/extracellular signal-related kinase kinase (MEK)1/2 and p42/44ERK phosphorylation on activation residues. Cyclin D2 induction is virtually absent in B lymphocytes from mice deficient in the class I(A) PI-3K p85alpha regulatory subunit. In contrast to studies with PI-3K inhibitors, which inhibit all classes of PI-3Ks, the p85alpha regulatory subunit is not required for BCR-induced MEK1/2 and p42/44ERK phosphorylation, suggesting the contribution of another PI-3K family members in MEK1/2 and p42/44ERK activation. However, p85alpha(-/-) splenic B cells are defective in BCR-induced IkappaB kinase beta and IkappaBalpha phosphorylation. We demonstrate that NF-kappaB signaling is required for cyclin D2 induction via the BCR in normal B cells, implicating a possible link with the defective IkappaB kinase beta and IkappaBalpha phosphorylation in p85alpha(-/-) splenic B cells and their ability to induce cyclin D2. These results indicate that MEK1/2-p42/44ERK and NF-kappaB pathways link PI-3K activity to Ag receptor-mediated cyclin D2 induction in splenic B cells.     

Synthesis and biological evaluation of 1,1-difluoro-2-(tetrahydro-3-furanyl)ethylphosphonic acids possessing a N9-purinylmethyl functional group at the ring. a new class of inhibitors for purine nucleoside phosphorylases.

1,1-Difluoro-2-(tetrahydro-3-furanyl)ethylphosphonic acids cis-3 and trans-3 possessing a N9-purinylmethyl functionality at the ring were synthesized and tested as "multi-substrate analogue" inhibitors for purine nucleoside phosphorylases. Radical cyclization of allyic alpha,alpha-difluorophosphonate (E)-7 was applied to construct the alpha,alpha-difluorophosphonate-functionalized tetrahydrofuranyl moiety. The IC50 values of cis-3 and trans-3 for human erythrocyte PNP-catalyzed phosphorylation of inosine were determined to be 88 and 320 nM, respectively. The stereochemistry of the inhibitors was found to affect significantly the inhibitory potency.     

Alternative changes of activity of alpha2-macroglobulin and alpha1-antitrypsin in rat blood following damage in capsaicin-sensitive nerves

Effects of functional ablation of peptidergic sensory nerves with neurotoxic doses of capsaicin (150 mg/kg, s/c) as well as of their stimulation with small doses of capsaicin (5 mg/kg, i/p) on activity of proteinase inhibitors: alpha1-antitrypsin (alpha1-AT)-serine proteinase inhibitor and alpha2-macroglobulin (alpha2-MG)-nonspecific inhibitor were investigated in rat blood. The present results indicate alternative changes in activity of these proteinase inhibitors after damage of capsaicin-sensitive nerves: increasing decline in activity of alpha1-AT 1 and 3 or 14 days after administration of capsaicin and increase in activity of alpha2-MG land 3 day after the injection. The stimulation of afferent nerves with capsaicin did not change activity of the proteinase inhibitors 1 and 24 hours after the injection. It is suggested that the stable decrease in activity of alpha1-AT during a long period after the damage of capsaicin-sensitive nerves indicates an important role for these nerves in the regulating alpha1-AT that may exert a tonic effect on the activity alpha1-AT.     

Interaction of angiotensin I-converting enzyme with two potent tricyclic inhibitors

Inhibition of rabbit lung angiotensin I-converting enzyme was studied with two inhibitors that combined tricyclic mimics of a substrate C-terminal dipeptide recognition unit with a 4-phenylbutanoic acid fragment. The overall inhibition constant for [4S-[4 alpha, 7 alpha(R*),12b beta]]-7-[S-(1-carboxy-3-phenylpropyl) amino]-1,2,3,4,6,7,8,12b-octahydro-6-oxopyrido[2,1-a] [2] benzazepine-4-carboxylic acid (MDL 27,088) was approximately 4 pM, whereas that for [4R-[4 alpha, 7 alpha(S*), 12b beta]]-7-[S-(1-carboxy-3-phenylpropyl)amino]-3,4,6,7,8, 12b-hexahydro-6-oxo-1H-[1,4]thiazino[3,4-a] [2]benzazepine-4-carboxylic acid (MDL 27,788) was estimated to be 46 pM. The formation of an initial complex of target enzyme and MDL 27,088 and its slower isomerization to a second complex were characterized kinetically. Both compounds appear to be among the most potent inhibitors known for this enzyme.     

Functionalised 2,3-dimethyl-3-aminotetrahydrofuran-4-one and N-(3-oxo-hexahydrocyclopenta[b]furan-3a-yl)acylamide based scaffolds: synthesis and cysteinyl proteinase inhibition

A stereoselective synthesis of functionalised (2R,3R)-2,3-dimethyl-3-amidotetrahydrofuran-4-one, its (2S,3R)-epimer and (3aR,6aR)-N-(3-oxo-hexahydrocyclopenta[b]furan-3a-yl)acylamide cysteinyl proteinase inhibitors has been developed using Fmoc-protected scaffolds 6-8 in a solid-phase combinatorial strategy. Within these scaffolds, the introduction of an alkyl substituent alpha to the ketone affords chiral stability to an otherwise configurationally labile molecule. Preparation of scaffolds 6-8 required stereoselective syntheses of suitably protected alpha-diazomethylketone intermediates 9-11, derived from appropriately protected alpha-methylthreonines (2R,3R)-12, (2R,3S)-13 and a protected analogue of (1R,2R)-1-amino-2-hydroxycyclopentanecarboxylic acid 14. Application of standard methods for the preparation of amino acid alpha-diazomethylketones, through treatment of the mixed anhydride or pre-formed acyl fluorides of intermediates 12-14 with diazomethane, proved troublesome giving complex mixtures. However, the desired alpha-diazomethylketones were isolated and following a lithium chloride/acetic acid promoted insertion reaction provided scaffolds 6-8. Elaboration of 6-8 on the solid phase gave alpha,beta-dimethyl monocyclic ketone based inhibitors 38a-f, 39a,b,d,e,f and bicyclic inhibitors 40a-e that exhibited low micromolar activity against a variety of cysteinyl proteinases.     

Matrix metalloproteinase expression and activity following prostaglandin F(2 alpha)-induced luteolysis

Luteal tissue contains matrix metalloproteinases (MMPs) that cleave specific components of the extracellular matrix (ECM) and are inhibited by tissue inhibitors of metalloproteinases (TIMPs). We previously reported a decrease in luteal TIMP-1 within 15 min of prostaglandin F(2 alpha) (PGF(2 alpha))-induced luteolysis. An increase in the MMP:TIMP ratio may promote ECM degradation and apoptosis, as observed in other tissues that undergo involution. The objectives of these experiments were to determine whether 1) PGF(2 alpha) affects expression of mRNA encoding fibrillar collagenases (MMP-1 and -13), gelatinases A and B (MMP-2 and -9), membrane type (mt)-1 MMP (MMP-14), stromelysin (MMP-3), and matrilysin (MMP-7), and 2) PGF(2 alpha) increases MMP activity during PGF(2 alpha)-induced luteolysis in sheep. Corpora lutea (n = 3-10/time point) were collected at 0, 15, and 30 min and 1, 2, 4, 6, 12, 24, and 48 h after PGF(2 alpha) administration. Northern blot analysis confirmed the presence of all MMPs except MMP-9. Expression of mRNA for the above MMPs (except MMP-2) increased significantly (P < 0.05) by 30 min, and all MMPs increased significantly (P < 0.05) by 6 h after PGF(2 alpha) administration. Expression of MMP-14 mRNA increased significantly (P < 0.05) by 15 min post-PGF(2 alpha) and remained elevated through 48 h. MMP activity in luteal homogenates (following proenzyme activation and inactivation of inhibitors) was increased significantly (P < 0.05) by 15 min and remained elevated through 48 h post-PGF(2 alpha). MMP activity was localized (in situ zymography) to the pericellular area of various cell types in the 0-h group and was markedly increased by 30 min post-PGF(2 alpha). MMP mRNA expression and activity were significantly increased following PGF(2 alpha) treatment. Increased MMP activity may promote ECM degradation during luteolysis.     

Asymmetric synthesis and affinity of potent sialyltransferase inhibitors based on transition-state analogues

Inhibitors that are structurally related to the transition-state model of the proposed SN1-type mechanism of sialyl transfer, exhibit particularly high binding affinities to alpha(2-6)sialyltransferases. Furthermore, replacing the neuraminyl residue with a simple aryl or hetaryl ring and substituting the carboxylate group for a phosphonate moiety, improves both binding affinity and synthetic accessibility. Herein we report on the synthesis and inhibition of a wide range of novel, potent transition-state analogue based alpha(2-6)sialyltransferase inhibitors comprising a planar anomeric carbon, an increased distance between the anomeric carbon and the CMP leaving group, and at least two negative charges. We also present a short, efficient asymmetric synthesis of the most promising benzyl inhibitors, providing rapid access to large quantities of highly potent, stereochemically-pure (>96% de) inhibitors for further biological investigation (e.g.(R)-3b, Ki = 70 nM).     

Kinetics and physiologic relevance of the inactivation of alpha 1-proteinase inhibitor, alpha 1-antichymotrypsin, and antithrombin III by matrix metalloproteinases-1 (tissue collagenase), -2 (72-kDa gelatinase/type IV collagenase), and -3 (stromelysin).

Serpins encompass a superfamily of proteinase inhibitors that regulate many of the serine proteinases involved in inflammation and hemostasis. In vitro, many serpins are catalytically inactivated by proteinases that they do not inhibit, leading to the concept of proteolytic down-regulation of serpin inhibitory capacity. The extent to which down-regulation of serpin activity occurs in vivo is debated, since little is known of the rates at which the process occurs. To address this debate, we have measured the rates of inactivation of three serpins, alpha 1-proteinase inhibitor (alpha 1PI), alpha 1-antichymotrypsin (alpha 1ACT), and antithrombin III (ATIII), by three human matrix metalloproteinases (MMPs-1, -2, and -3) thought to be involved in tissue destruction and repair. Our object was to establish a working kinetic model which can be used to predict whether serpin inactivation by these proteinases is likely to occur in vivo. We determined the rates of inactivation of these three serpins by each of the MMPs and compared these to rates of inhibition of the MMPs by an endogenous inhibitor, alpha 2-macroglobulin. An equation designed to predict the extent of substrate hydrolyzed by an enzyme in the presence of an enzyme inhibitor gave the following predictions of the inactivation in vivo: (i) ATIII is unlikely to be inactivated by the MMPs. (ii) MMP-2 (72-kDa gelatinase/type IV collagenase) is unlikely to inactivate any of the three serpins. (iii) MMP-1 (tissue collagenase) will inactivate alpha 1PI and alpha 1ACT only when its concentration saturates that of its controlling inhibitors. (iv) MMP-3 (stromelysin) may inactivate small amounts of alpha 1PI and more significant amounts of alpha 1ACT, even in the presence of its controlling inhibitors. Any physiologic or pathologic inactivation of these serpins by these MMPs that occurs in vivo will probably be due to MMP-3, and will likely only take place in tissues and inflammatory loci where the concentration of MMP inhibitors is depressed.     

Investigation of the effects of some sulfonamide derivatives on the activities of glucose-6-phosphate dehydrogenase, 6-phospho gluconate dehydrogenase and glutathione reductase from human erythrocytes

In this study, the in vitro effects of some sulfonamide derivatives, which are carbonic anhydrase inhibitors, on the enzymes activities of glucose-6-phosphate dehydrogenase, 6-phospho gluconate dehydrogenase and glutathione reductase were investigated. For this purpose, these three enzymes were purified from human erythrocytes. Purification procedure composed of four steps; preparation of the hemolysate, ammonium sulfate precipitation, 2',5'-ADP Sepharose 4B affinity chromatography, and gel filtration chromatography on Sephadex G-200. 5-(3alpha-Hydroxy-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (1), 5-(3alpha,12alpha-Dihydroxy-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (2), 5-(3alpha,7alpha,12alpha-Trihydroxy-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (3), 5-(3alpha,Acetoxy-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (4), 5-(3alpha,7alpha,12alpha-Triacetoxy-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (5), 5-(3,7,12-Trioxo-5-beta-cholanamido)-1,3,4-thiadiazole-2-sulfonamide (6), acetazolamide, and dorzolamide were tested in this experiment. Compounds 3, 5, and dorzolamide showed inhibitory effects on the activity of 6-phosphogluconate dehydrogenase, and I(50) values and K(i) constants were calculated as 0.0601 mM, 0.00253 mM, and 1.41 mM and 0.0878 +/- 0.0274 mM, 0.0042 +/- 0.0009 mM, and 3.1446 +/- 0.2081 mM, respectively. Glutathione reductase was also inhibited by 1 and 2. I(50) values and K(i) constants were 0.0471 mM and 0.0723 +/- 0.0388 mM for 1 and 0.0045 mM and 0.0061 +/- 0.0014 mM, for 2. If these sulfonamide derivatives are proposed as drugs, some of which are being used in glaucoma treatment such as acetazolamide and dorzolamide, these results should be taken into consideration concerning via these enzymes.     

3H]prostaglandin F2 alpha membrane binding reexamined

Tritiated prostaglandin F2 alpha ([3H]PGF2 alpha) binding to bovine corpora luteal membranes has been reexamined from the viewpoint of eventual PGF2 alpha receptor purification. Several modifications of the literature on PGF2 alpha binding allow for a more stabilized [3H]PGF2 alpha PGF2 alpha receptor complex which should then facilitate the PGF2 alpha receptor purification. Of particular importance were: identification of protease inhibitors which protect [3H]PGF2 alpha binding and protease inhibitors which are detrimental to subsequent [3H]PGF2 alpha binding; the finding that EGTA treatment of tissue homogenates greatly protects subsequent [3H]PGF2 alpha binding; the observation that Mn(+)+ substitutes for Ca(+)+ and, in fact, among the divalent cations Mn(+)+ greater than Mg(+)+ greater than Ca(+)+ in facilitating [3H]PGF2 alpha binding where as Cd(+)+, Cu(+)+ and Zn(+)+ either have no effect or are detrimental to this binding; the lack of effect of ATP, GTP, GDP and cAMP or of kinase and phosphatase inhibitors and activators to alter binding of [3H]PGF2 alpha to isolated membranes; and the ease with which the [3H]PGF2 alpha-PGF2 alpha receptor complex can be removed from the membrane in spite of the receptor being an integral membrane protein. A new simple technique for separating protein bound [3H]PGF2 alpha (PGF2 alpha receptor-[3H]PGF2 alpha complexes) from free [3H]PGF2 alpha by use of hydroxyapatite (HAP) is introduced. This HAP method is of particular use in solubilized membrane preparations (but can also be used during PG radioimmunoassays to separate free PG from antibody bound PG). These changes were required to facilitate subsequent chromatographic steps leading to identification and purification of the PGF2 alpha receptor. (ABSTRACT TRUNCATED AT 250 WORDS)