Synergistic interactions between interleukin 1, tumor necrosis factor, and lymphotoxin in bone resorption

Cytokines with bone-resorbing activity include IL 1 beta (pI 7), IL 1 alpha (pI 5), tumor necrosis factor (TNF), and lymphotoxin (LT). Possible interaction between IL 1 beta, the major mediator with osteoclast-activating factor (OAF) activity, and other cytokines was studied. By itself, IL 1 beta was 13-fold more potent than IL 1 alpha and 1000-fold more potent than either TNF or LT in stimulating bone resorption. Suboptimal concentrations of IL 1 beta or IL 1 alpha in combination with suboptimal concentrations of TNF or LT resulted in synergistic bone-resorptive responses (1.5 to 10 times the expected responses if their effects were additive). Synergy between either form of IL 1 and TNF or LT resulted in a twofold increase in activity of IL 1, and a 100-fold increase in activity of TNF or LT. However, even with optimal synergy, IL 1 beta remained 20-fold more potent in inducing bone resorption than TNF or LT. Because IL 1 beta is considerably more potent than TNF and LT in stimulating bone resorption either alone or under synergistic conditions, it is unlikely that TNF and LT are responsible for more than a minor proportion of the total bone-resorbing activity formerly referred to as OAF.     

Mechanism of action of food-associated polycyclic aromatic hydrocarbon carcinogens

The polycyclic aromatic hydrocarbon carcinogens are formed in the inefficient combustion of organic matter and contaminate foods through direct deposition from the atmosphere or during cooking or smoking of foods. These potent carcinogens and mutagens require metabolism to dihydrodiol epoxide metabolites in order to express their biological activities. In vitro studies show that these reactive metabolites can react with the bases in DNA with different specificities depending upon the hydrocarbon from which they are derived. Thus, the more potent carcinogens react more extensively with adenine residues in DNA than do the less potent carcinogens, with the result that mutation at A . T base pairs is enhanced for the more potent carcinogens. In the past few years, considerable clarification of the mechanism of metabolic activation have been achieved and the focus for the immediate future is expected to be on how the reactive metabolites actually bring about biological responses.     

The genetic activity of N6-hydroxyadenine and 2-amino-N6-hydroxyadenine in Escherichia coli, Salmonella typhimurium and Saccharomyces cerevisiae

The genetic activity of 2-amino-N6-hydroxyadenine or 2-amino-N-hydroxylaminopurine (AHA) and N6-hydroxyadenine or 6-N-hydroxylaminopurine (HAP) was studied in S. typhimurium, E. coli and Saccharomyces cerevisiae strains. AHA was a more potent mutagen for bacteria and a less potent mutagen for yeast than HAP. The mutagenic activity of analogs was not influenced by excision, mutagenic or double-strand DNA repair mutations. On the other hand, the uvrBdel mutation has a drastic effect on the mutagenicity and toxicity of both analogs in the Salmonella strains studied. HAP was a very potent mutagen in yeast with a low capability of inducing mitotic recombination contrary to common mutagens, possessed unique intergenic specificity and was able to induce mutations in diploids at rather high frequency.     

Azido-containing aryl beta-diketo acid HIV-1 integrase inhibitors

Aryl beta-diketo acids (ADK) comprise a general class of potent HIV-1 integrase (IN) inhibitors, which can exhibit selective inhibition of strand transfer reactions in extracellular recombinant IN assays and provide potent antiviral effects in HIV-infected cells. Recent studies have shown that polycyclic aryl or aryl rings bearing aryl-containing substituents are components of potent members of this class. Reported herein is the first use of azido functionality as an aryl replacement in beta-diketo acid IN inhibitors. The ability of azido-containing inhibitors to exhibit potent inhibition of IN and antiviral protection in HIV-infected cells, renders the azide group of potential value in the further development of ADK-based IN inhibitors.     

Potent antitumor N-mustard derivatives of 9-anilinoacridine, synthesis and antitumor evaluation

A series of 9-anilinoacridine N-mustard derivatives, in which the alkylating N-mustard residue was linked to the C-3' or C-4' position of the anilino ring with an O-ethylene spacer, was synthesized and evaluated for cytotoxicity against human lymphoblastic leukemic cells (CCRF-CEM) in culture. The results showed that all of the new compounds exhibited potent cytotoxicity with IC(50) values ranging from 0.002 to 0.7 microM, which were as potent or significantly more potent than 3-(9-acridinylamino)-5-hydroxymethylaniline (AHMA). Compound 9 did not exhibit cross-resistance against both vinblastine-resistant (CCRF-CEM/VBL) and taxol-resistant (CCRF-CEM/taxol) cells. Additionally, compound 9 demonstrated potent antitumor effect in nude mice bearing human breast carcinoma MX-1 xenografts, resulting in complete tumor remission in two out of three mice at the maximal dose of 1-2mg/kg (Q3Dx7) or 3mg/kg (Q4Dx5) via intravenous injection.     

SAR of α7 nicotinic receptor agonists derived from tilorone: exploration of a novel nicotinic pharmacophore

The well-known interferon-inducer tilorone was found to possess potent affinity for the agonist site of the α7 neuronal nicotinic receptor (K(i)=56 nM). SAR investigations determined that both basic sidechains are essential for potent activity, however active monosubstituted derivatives can also be prepared if the flexible sidechains are replaced with conformationally rigidified cyclic amines. Analogs in which the fluorenone core is replaced with either dibenzothiophene-5,5-dioxide or xanthenone also retain potent activity.     

Synthesis of potent and highly selective nonguanidine azetidinone inhibitors of human tryptase

Azetidinones such as BMS-363131 (2) and BMS-363130 (3), which contain a guanidine group in the C-3 side chain were previously shown to be very potent inhibitors of human tryptase with high selectivity versus other serine proteases, including trypsin. In this letter, we describe the discovery of a number of potent azetidinone tryptase inhibitors in which the guanidine moiety at the ring C-3 position is replaced with primary or secondary amine or aminopyridine functionality. In particular, BMS-354326 (4) is a highly potent tryptase inhibitor (IC(50)=1.8 nM), which has excellent selectivity against trypsin and most other related serine proteases.     

Mixed tetraoxanes containing the acetone subunit as antimalarials

Eleven new tetraoxanes possessing cholic acid-derived carrier and isopropylidene moiety were synthesized and were tested in vitro and in vivo. In vitro screening revealed that nine of them were more potent against CQ-resistant W2 than CQ-susceptible D6 strain and that two of them were equally or more potent than artemisinin and mefloquine against multi-drug resistant TM91C235 strain. Amine 8 cured all mice at the dose of 160mg/kg/day, while the anilide 9 exhibited MCD相似文献   

Potent biphenyl- and 3-phenyl pyridine-based inhibitors of acetyl-CoA carboxylase

We report the synthesis and enzymatic evaluation of potent inhibitors of acetyl-CoA carboxylases (ACCs) containing biphenyl or 3-phenyl pyridine cores. These compounds inhibit both ACC1 and ACC2, or are moderately selective for either enzyme, depending on side chain substitution. Typical activities of the most potent compounds in this class are in the low double-digit to single-digit nanomolar range in in vitro assays using human ACC1 and ACC2 enzymes.     

Synthesis and antitumor activity of camptothecin derivatives bearing five-membered heterocycle containing 10-substituents

A series of new camptothecin derivatives bearing five-membered ring heterocycle containing substituents in the 10-position were synthesized and evaluated for in vitro cytotoxic activity. Camptothecin derivatives bearing a pyrrole or a thiophene ring were significantly more potent than camptothecin, however those bearing furan were less potent than camptothecin.     

Cyclobutane derivatives as potent NK1 selective antagonists

A series of novel cyclobutane derivatives as potent and selective NK1 receptor antagonists is described. Several compounds in this series exhibited high in vitro binding affinity (Ki 相似文献   

Synthesis and anti-inflammatory evaluation of 4-anilinofuro[2,3-b]quinoline and 4-phenoxyfuro[2,3-b]quinoline derivatives. Part 3

Mast cells, neutrophils and macrophages are important inflammatory cells that have been implicated in the pathogenesis of acute and chronic inflammatory diseases. To explore a novel anti-inflammatory agent, we have synthesized certain 4-anilinofuro[2,3-b]quinoline and 4-phenoxyfuro[2,3-b]quinoline derivatives and evaluated their anti-inflammatory activities by reaction of 3,4-dichlorofuro[2,3-b]quinoline with appropriate Ar-NH(2) or Ar-OH. Compounds 6a and 15 were proved to be more potent than the reference inhibitor, mepacrine for the inhibition of rat peritoneal mast cell degranulation with IC(50) values of 6.5 and 16.4 microM, respectively. Compounds 2b, 6a, 10, and 15 also showed potent inhibitory activity (IC(50)=7.2-29.4 microM) for the secretion of lysosomal enzyme and beta-glucuronidase from neutrophils. These results also indicated that oxime derivatives are more potent than the respective ketone precursors (6a> or =2a; 7a> or =3), and the substituent such as Me at the oxime decreased inhibitory activity (6a> or =6b; 7a> or =7b). Among these derivatives, compound 6a showed the most potent activity with IC(50) values of 6.5-11.6 microM for the inhibition of mast cell degranulation and neutrophil degranulation.     

Synthesis and biological studies of dermorphin and its analogs substituted at positions 5 and 7

Dermorphin and seven of its analogs substituted at positions 5 and/or 7, have been synthesized by the solid phase method employing mainly 9-fluorenylmethyloxycarbonylamino acid trichlorophenyl esters in presence of l-hydroxybenzotriazole, the solid support being the Merrifield resin. Among the analogs synthesized, the most interesting is [Tyr7]dermorphin. It is one of the most potent dermorphin analogs reported so far. Compared to the natural peptide, it is about two times more potent in the GPI (in vitro) and nearly 1.4 times more potent in its analgesic activity in mice by the hot plate test (in vivo). Further, its antidiarrhoeal activity in mice (in vivo) is comparable to that of dermorphin. On the other hand, [Thr7]dermorphin is almost as potent as dermorphin.     

Species differences in structure-activity relationships of adenosine agonists and xanthine antagonists at brain A1 adenosine receptors

A series of 28 adenosine analogs and 17 xanthines has been assessed as inhibitors of binding of N6-R-[3H]phenylisopropyladenosine binding to A1 adenosine receptors in membranes from rat, calf, and guinea pig brain. Potencies of N6-alkyl- and N6-cycloalkyladenosines are similar in the different species. However, the presence of an aryl or heteroaryl moiety in the N6 substituent results in marked species differences with certain such analogs being about 30-fold more potent at receptors in calf than in guinea pig brain. Potencies at receptors in rat brain are intermediate. Conversely, 2-chloroadenosine and 5'-N-ethylcarboxamidoadenosine are about 10-fold less potent at receptors in calf brain than in guinea pig brain. Potencies of xanthines, such as theophylline, caffeine and 1,3-dipropylxanthine are similar in the different species. However, the presence of an 8-phenyl or 8-cycloalkyl substituent results in marked species differences. For example, a xanthine amine conjugate of 1,3-dipropyl-8-phenylxanthine is 9-fold more potent at receptors in calf than in rat brain and 110-fold more potent in calf than in guinea pig brain. Such differences indicate that brain A1 adenosine receptors are not identical in recognition sites for either agonists or antagonists in different mammalian species.     

Standard protecting groups create potent and selective kappa opioids: salvinorin B alkoxymethyl ethers

Protection of salvinorin B as standard alkoxyalkyl ethers yielded highly potent kappa opioid receptor agonists. Ethoxymethyl ether 6 is among the most potent and selective kappa agonists reported to date. Fluoroethoxymethyl ether 11 is the first potent, selective fluorinated kappa ligand, with potential use in MRI and PET studies. Further enlargement of the alkoxy group, alkylation of the acetal carbon, or heteroatom substitution all reduced activity. These protecting groups may prove useful in related work not only by enabling the use of harsher synthetic conditions, but potentially by optimizing the potency of the products.     

Is calmodulin inhibition involved in shape transformations induced by amphiphiles in erythrocytes?

Potent antihaemolytic and shape transforming amphiphilic compounds were studied for their ability to inhibit calmodulin-activated phosphodiesterase activity. Some echinocytogenic and stomatocytogenic amphiphiles were potent calmodulin inhibitors. The most potent echinocytogenic and stomatocytogenic amphiphiles, however, had no or only weak inhibitory effect. Our results show that there is no causal relationship between the ability of amphiphiles to induce antihaemolysis or shape transformations in erythrocytes and their ability to inhibit calmodulin-activated phosphodiesterase activity, and it is suggested that calmodulin is not involved in shape transformations induced by amphiphiles.     

Conformationally restrained cyclic peptides as antagonists of luteinizing hormone-releasing hormone

Using minimum energy calculations and molecular dynamics techniques the preferred conformational states of LHRH and its analogues have been reported to involve a modified beta-bend between residues 5 to 8. Based on some of these models cyclic peptide analogues of LHRH antagonists were synthesised using solid phase peptide synthesis methodology. The analogues were tested for their ability to inhibit ovulation in normal cycling rats. Some analogues were also tested in receptor binding and in vitro LH release assays. The most potent cyclic peptide analogue, Ac-D-Phe(p-C1)-D-Phe(p-C1)-D-Trp-Ser-Glu-D-Arg-Leu-Lys-Pro-D-Ala-NH2 (V), had an ED50 value of 91.9 micrograms/kg in the inhibition of ovulation test. The corresponding linear peptide (IV) was about three times less potent. Analogues with smaller or larger ring sizes or with modifications within the ring were also prepared but these were either less potent or inactive, up to a dose of 1000 micrograms/kg, in inhibiting ovulation in normal cycling rats.     

Anticonvulsant sugar sulfamates. Potent cyclic sulfate and cyclic sulfite analogues of topiramate

Exploration structure-activity relationships surrounding the clinically effective antiepileptic drug topiramate (1) led to a series of potent anticonvulsants with a 4,5-cyclic sulfate or 4,5-cycli sulfite functionality. Key derivative 2 (RWJ-37947) is ca. 8 times more potent than topiramate in mice; it also features a long duration of action and a very favorable neurotoxicity index.     

Conjugation to an antifibrin monoclonal antibody enhances the fibrinolytic potency of tissue plasminogen activator in vitro

Tissue plasminogen activator (tPA) was covalently linked by disulfide bonds to a monoclonal antibody specific for the amino terminus of the beta chain of fibrin (antibody 59D8). The activity of the tPA-59D8 conjugate was compared with that of tPA, urokinase (UK), and a UK-59D8 conjugate. For lysis of fibrin monomer, tPA was 10 times as potent as UK, whereas both UK-59D8 and tPA-59D8 conjugates were 100 times as potent as UK and 10 times as potent as tPA. Conjugation of tPA or UK to antibody 59D8 produced a 3.2-4.5-fold enhancement in clot lysis in human plasma over that of the respective unconjugated plasminogen activator. However, the UK-59D8 conjugate was only as potent as tPA alone. Antibody-conjugated tPA or UK consumed less fibrinogen, alpha 2-antiplasmin, and plasminogen than did the unconjugated activators, at equipotent fibrinolytic concentrations. Antibody targeting thus appears to increase the concentration of tPA in the vicinity of a fibrin deposit, which thereby leads to enhanced fibrinolysis.