Effect of some isoquinoline alkaloids on enzymatic activity of acetylcholinesterase and monoamine oxidase

It has been shown, that some benzo[c]-phenanthridine and diisoquinoline alkaloids isolated from Chelidonium majus L. and Macleaya (Bocconia) cordata and M. microcarpa (berberine, sanguinarine, chelidonine) and of drugs ("Ukrain" and "Sanguirythrine") inhibited the enzyme activity of acetylcholinesterase from human erythrocyte and monoamine oxidase from the rat liver. All agents under study have been shown to be reversible inhibitors of the enzymatic hydrolysis of acetylthiocholine. It has been determined that chelidonine belonged to reversible inhibitors of a competitive type, all other examined agents have been demonstrated to be inhibitors of a mixed competitive-noncompetitive type, and a greater contribution to the inhibition was made by the competitive constituent. Among all examined agents berberine, sanguinarine and "Sanguirythrine" were the strongest inhibitors of this reaction and chelidonine and "Ukrain" were much weaker. All agents under study have been shown to be irreversible inhibitors of the oxidative deamination reaction of serotonine and tyramine and not to influence the oxidative deamination reaction of benzylamine as a substrate. Among the examined agents, alkaloid sanguinarine and drug "Ukrain" are the strongest inhibitors of the reaction, alkaloids berberine, sanguinarine and "Sanguirythrine" exhibit a weaker action.     

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.     

Effect of various proteinase inhibitors on ovulation of explanted hamster ovaries

Hamster ovaries explanted at 21:00-24:00 h on the day of pro-oestrus were incubated with microbial proteinase inhibitors until 10:30 h on the next morning and the ovulatory blocking effect of these inhibitors was examined. Amongst 11 proteinase inhibitors examined, talopeptin, a specific inhibitor for metallo-proteinases, and alpha-MAPI, a specific inhibitor for serine and thiol proteinases, were the strongest blockers. These 2 inhibitors exhibited a chronological discrepancy in their blocking effect on ovulation. S-SI, plasminostreptin, elastatinal, antipain and chymostatin, which are inhibitors for serine proteinases, partly but significantly inhibited ovulation. The results suggest that, in addition to a metallo-proteinase reported previously, a proteinase which is sensitive to alpha-MAPI is essential for the ovulatory process, and that serine proteinase(s) also participate in ovulation of the hamster ovary.     

Evaluating scoring functions for docking and designing beta-secretase inhibitors

Several simple scoring methods were examined for 2 series of beta-secretase (BACE-1) inhibitors to identify a docking/scoring protocol which could be used to design BACE-1 inhibitors in a drug discovery program. Both the PLP1 score and MMFFs interaction energy (E(inter)) performed as well or better than more computationally intensive methods for a set of substrate-based inhibitors, while the latter performed well for both sets of inhibitors.     

Novobiocin inhibits the repair of potentially lethal damage but not the repair of sublethal damage

Because of the critical role of the DNA topoisomerases in the synthesis and conformation of DNA, and the well-known observation that radiation inhibits replicative DNA synthesis, we have examined the possibility that inhibitors of these enzymes might influence radiation lethality. In particular, using protocols involving the administration of either fresh or conditioned medium, we examined the ability of intercalative and nonintercalative inhibitors to affect the expression of potentially lethal damage and/or sublethal damage. The inhibitors examined were amsacrine, teniposide, etoposide, and novobiocin; only the latter compound was clearly effective in a selective way at nontoxic concentrations, and this was observed specifically in reference to the repair of potentially lethal damage effected by incubation in conditioned medium. These results are another example of differences between the repair of sublethal versus potentially lethal damage that further support distinctions between the two. At a mechanistic level, these and other data suggest that the property of novobiocin that is relevant in the foregoing is its metabolic inhibition of replicative DNA synthesis, a process which may be more important in the repair of potentially lethal damage as opposed to sublethal damage.     

Non-specific effects of leukotriene synthesis inhibitors on HeLa cell physiology

We examined the effects of various leukotriene synthesis inhibitors on calcium signalling in HeLa cells, before and after transfection with BLT₁. All of the inhibitors studied were found to reduce increases in intracellular calcium concentration induced by BLT₁, but also by an ionophore or activation of various G-protein coupled receptors, regardless of BLT₁ expression. In order to explore the mechanism of these apparently general effects we examined HeLa cell expression of leukotriene receptors and biosynthetic enzymes and found that the genes for key leukotriene synthesis enzymes and all of the leukotriene receptors were not expressed. Leukotrienes are involved in the pathology of a variety of cancers, and for HeLa cells leukotrienes have been reported to be important for aspects of the carcinogenic phenotype. We find that leukotriene synthesis inhibitors have non-specific effects, so careful controls are necessary to avoid interpreting non-specific effects as evidence for leukotriene involvement.     

Ectopic NGAL expression can alter sensitivity of breast cancer cells to EGFR,Bcl-2, CaM-K inhibitors and the plant natural product berberine

Neutrophil gelatinase-associated lipocalin (NGAL, a.k.a Lnc2) is a member of the lipocalin family and has diverse roles. NGAL can stabilize matrix metalloproteinase-9 from autodegradation. NGAL is considered as a siderocalin that is important in the transport of iron. NGAL expression has also been associated with certain neoplasias and is implicated in the metastasis of breast cancer. In a previous study, we examined whether ectopic NGAL expression would alter the sensitivity of breast epithelial, breast and colorectal cancer cells to the effects of the chemotherapeutic drug doxorubicin. While abundant NGAL expression was detected in all the cells infected with a retrovirus encoding NGAL, this expression did not alter the sensitivity of these cells to doxorubicin as compared with empty vector-transduced cells. We were also interested in determining the effects of ectopic NGAL expression on the sensitivity to small-molecule inhibitors targeting key signaling molecules. Ectopic NGAL expression increased the sensitivity of MCF-7 breast cancer cells to EGFR, Bcl-2 and calmodulin kinase inhibitors as well as the natural plant product berberine. Furthermore, when suboptimal concentrations of certain inhibitors were combined with doxorubicin, a reduction in the doxorubicin IC₅₀ was frequently observed. An exception was observed when doxorubicin was combined with rapamycin, as doxorubicin suppressed the sensitivity of the NGAL-transduced MCF-7 cells to rapamycin when compared with the empty vector controls. In contrast, changes in the sensitivities of the NGAL-transduced HT-29 colorectal cancer cell line and the breast epithelial MCF-10A cell line were not detected compared with empty vector-transduced cells. Doxorubicin-resistant MCF-7/Dox^R cells were examined in these experiments as a control drug-resistant line; it displayed increased sensitivity to EGFR and Bcl-2 inhibitors compared with empty vector transduced MCF-7 cells. These results indicate that NGAL expression can alter the sensitivity of certain cancer cells to small-molecule inhibitors, suggesting that patients whose tumors exhibit elevated NGAL expression or have become drug-resistant may display altered responses to certain small-molecule inhibitors.     

Mitochondrial inhibitors show preferential cytotoxicity to human pancreatic cancer PANC-1 cells under glucose-deprived conditions

Large areas of tumor are nutrient-starved and hypoxic due to a disorganized vascular system. Therefore, we screened small molecules to identify cytotoxic agents that function preferentially in nutrient-starved conditions. We found that efrapeptin F had preferential cytotoxicity to nutrient-deprived cells compared with nutrient-sufficient cells. Because efrapeptin F acts as a mitochondrial complex V inhibitor, we examined whether inhibitors of complex I, II, III, and V function as cytotoxic agents preferentially in nutrient-deprived cells. Interestingly, these inhibitors showed preferential cytotoxicity to nutrient-deprived cells and caused cell death under glucose-limiting conditions, irrespective of the presence or absence of amino acids and/or serum. In addition, these inhibitors were preferentially cytotoxic to nutrient-deprived cells even under hypoxic conditions. Further, efrapeptin F showed antitumor activity in vivo. These data indicate that mitochondrial inhibitors show preferential cytotoxicity to cancer cells under glucose-limiting conditions, and these inhibitors offer a promising strategy for anticancer therapeutic.     

Antioxidant activity of synthetic cytokinin analogues: 6-alkynyl- and 6-alkenylpurines as novel 15-Lipoxygenase inhibitors

Synthetic cytokinin analogues as well as the well known CKs 6-benzylaminopurine (BAP), kinetin and trans-zeatin were examined for antioxidant activity. The compounds were tested as potential diphenylpicrylhydrazyl (DPPH) scavengers and as inhibitors of 15-lipoxygenase (15-LO). The natural plant hormones were essentially inactive in both assays, but several synthetic analogues have a profound inhibiting effect on 15-lipoxygenase from soybeans. The same compounds were only weak DPPH scavengers and they may therefore be regarded as so-called non antioxidant inhibitors of 15-LO.     

Design and synthesis of 3-fluoro-2-oxo-3-phenylpropionic acid derivatives as potent inhibitors of 4-hydroxyphenylpyruvate dioxygenase from pig liver.

Several rationally designed analogs of 3-fluoro-2-oxo-3-phenylpropionic acid were chemically synthesized, and the reactions of the hydrate form of these compounds with 4-hydroxyphenylpyruvate dioxygenase from pig liver as inhibitors were examined. Compounds 14a and 14b were found to be potent competitive inhibitors of the enzyme with Ki values of 10 and 22 microM, respectively.     

Novel potent and selective calcium-release-activated calcium (CRAC) channel inhibitors. Part 2: Synthesis and inhibitory activity of aryl-3-trifluoromethylpyrazoles

To identify potent and selective calcium-release-activated calcium (CRAC) channel inhibitors, we examined the structure-activity relationships of the pyrazole and thiophene moieties in compound 4. Compound 25b was found to exhibit highly potent and selective inhibitory activity for CRAC channels and further modifications of the pyrazole and benzoyl moieties of compound 25b produced compound 29. These compounds were potent inhibitors of IL-2 production in vitro and also acted as inhibitors in pharmacological models of diseases resulting from T-lymphocyte activation, after oral administration.     

Effects of proteinase inhibitors on preimplantation embryos in the rat

Proteinase inhibitors of microbial origin were injected into the uterine horns of mated rats at 14:00 h on Day 5 of pregnancy (spermatozoa in vaginal smear = Day 1), and 5 or 6 h later the embryos were flushed from the horns and examined. Chymostatin and alpha-MAPI, inhibitors of chymotrypsin-like serine proteinase and thiol proteinases, as well as thiolstatin, an inhibitor of thiol proteinases, significantly inhibited embryo growth. The inhibitory activity of alpha-MAPI on embryonic growth was distinctly greater than that of thiolstatin, although the ID50 values of the two inhibitors to papain are similar. Antipain and leupeptin which are inhibitors of trypsin-like and thiol proteinases, and talopeptin, an inhibitor of metal proteinases, significantly interrupted the removal of the zona pellucida from expanding blastocysts. These results suggest that (1) a chymotrypsin-like proteinase seems to be important to the growth of the embryo, (2) a thiol proteinase may participate in embryonic growth, and (3) a trypsin-like proteinase and a metal proteinase are likely to participate in zonalysis.     

Substituted spiro [2.3'] oxindolespiro [3.2″]-5,6-dimethoxy-indane-1″-one-pyrrolidine analogue as inhibitors of acetylcholinesterase

Series of pyrolidine analogues were synthesized and examined as acetylcholinesterase (AChE) inhibitors. Among the compounds, compounds 4k and 6k were the most potent inhibitors of the series. Compound 4k, showed potent inhibitory activity against acetyl cholinesterase enzyme with IC(50) 0.10 μmol/L. Pyrolidine analogues might be potential acetyl cholinesterase agents for AD.     

In Search of Selective Inhibitors of Cysteine Protease,Cathepsin K

Two potential azapeptide inhibitors of cathepsin K were designed and synthesized. To analyze in detail interactions between these azainhibitors and the investigated cysteine protease, molecular dynamics simulations were performed. For the obtained compounds the equilibrium constants for dissociation of inhibitor – enzyme complex, K_i, were determined. The examined azapeptides proved to be not as potent inhibitors of cathepsin K as they were expected to be according to the results of simulations. However, these calculations provide valuable information about probable structures of this type of peptidomimetics in the catalytic pocket of cathepsin K, which could be useful in designing of more selective inhibitors of this cysteine protease.     

Special considerations in the purification of the GM3 ganglioside-forming enzyme, CMP-sialic acid:lactosylceramide alpha 2-3 sialyltransferase (SAT-1): effects of protease inhibitors on rat hepatic SAT-1 activity

Co-purification of an endogenous proteolytic activity has been proposed as the cause for the size heterogeneity of sialyltransferases. Reported herein are results on the effects of various protease inhibitors, sulfhydryl-reducing agents and antimicrobial agents on SAT-1 activity. Addition of protease inhibitors to immunoaffinity-purified rat liver SAT-1 dramatically affects its activity. All protease inhibitors examined, with the exception of PMSF, inhibited the purified enzyme. The most inhibitory were the cysteine (thiol) protease inhibitors. This effect is less spectacular when the effect of these inhibitors was studied on SAT-1 activity in Golgi-enriched microsomes, although the inhibition was greatest by the cysteine protease inhibitors. One dramatic effect, found in both cases, was the apparent activation of SAT-1 activity in the presence of beta-mercaptoethanol.     

SAR studies of 3-cyclopropanecarbonyloxy-2-cyclohexen-1-one as inhibitors of 4-hydroxyphenylpyruvate dioxygenase

Various 3-cyclopropanecarbonyloxy-2-cyclohexen-1-one 1 derivatives have been synthesized and tested as inhibitors of 4-hydroxyphenylpyruvate dioxygenase (4-HPPD) from pig liver. The inhibition results indicated that well-positioned dicarbonyl groups as well as the cyclopropyl group of 1 were essential for potent inhibition. Substitution at the 2-position of the ring system has a significant effect on inhibitor potency, while the 5-position can undergo substantial variations and retain inhibitor potency. In the compounds examined, 2-chloro substituted 12 is the best inhibitor of all with IC(50) of 15 nM, the rest of the synthesized analogues were less potent inhibitors than the parent compound.     

Identification of farnesoid X receptor modulators by a fluorescence polarization-based interaction assay

Farnesoid X receptor (FXR) serves as a receptor for chenodeoxycholic acid (CDCA) and other bile acids, and it coordinates cholesterol and lipid metabolism. Because targeting the FXR-CDCA interaction might provide a way to regulate lipid homeostasis, we developed an FXR binding assay based on fluorescence polarization. Employing a fluorescently labeled CDCA (CDCA-F), we showed that CDCA-F selectively bound to the ligand binding domain of FXR (FXR-LBD) among nuclear receptors. The assay was then used for screening inhibitors against the FXR-CDCA interaction, thereby discovering four relatively potent inhibitors. The selected inhibitors were further studied for changes in intrinsic tryptophan fluorescence of FXR-LBD to gain structural insights into the interaction. Furthermore, transactivation effects of the inhibitors on the human bile salt excretory pump (BSEP) promoter were examined to reveal their cellular activities in the FXR-mediated pathway. Therefore, we demonstrated that the developed assay would offer an efficient primary screening tool for identifying FXR modulators.     

Human skin fibroblast collagenase inhibitor. Comparative studies in human connective tissues, serum, and amniotic fluid

In order to gain insight into the biological significance of a collagenase inhibitor secreted by human skin fibroblasts, we examined various human connective tissues and body fluids for such a protein. The inhibitors found in these tissues were compared immunologically to skin fibroblast inhibitor by Ouchterlony analysis and by the development of a highly specific enzyme-linked immunosorbent assay (ELISA). Using this ELISA, cell cultures of human skin fibroblasts, corneal fibroblasts, gingival fibroblasts, and adult and fetal lung fibroblasts secreted similar amounts of immunoreactive inhibitor protein. Each culture medium displayed a reaction of immunologic identity with skin fibroblast inhibitor when examined in Ouchterlony gel diffusion. In testing for functional inhibitory activity, the same 1:1 stoichiometry of collagenase inhibition was observed in each culture medium that characterizes the human skin inhibitor. Other mesodermally derived human cell types, including human fetal osteoblasts, uterine smooth muscle cells, fibrosarcoma cells, and explants of tendon and articular cartilage behaved in the same manner as the fibroblast cultures. Because collagenase inhibitors with biochemical similarities to skin fibroblast inhibitor have been described in serum and in amniotic fluid, we also examined these sources of inhibitory proteins. The data indicate that both serum and amniotic fluid contain collagenase inhibitors which are immunologically and functionally identical with the skin fibroblast inhibitor. The concentration of inhibitor in serum, as measured by ELISA assay, is 1.03 +/- 0.27 micrograms/ml. The results suggest that collagenase inhibitors which are functionally equivalent and immunologically identical with human skin fibroblast collagenase inhibitor are synthesized by many, if not all, fetal and adult mesodermal tissues in the human organism. The inhibitor apparently gains access to certain body fluids such as serum and amniotic fluid. This inhibitor protein may, therefore, function in the regulation of collagen degradation in most human connective tissues.