Multi-functionalization of lithographically designed gold nanodisks by plasmon-mediated reduction of aryl diazonium salts.

Plasmon-driven surface functionalization of nanoparticles is receiving increasing attention as it allows locally tailored chemical reactivity to be generated on the nanoparticle surface. The extension to surface multi-functionalization still represents a major breakthrough in chemistry. We address this issue by triggering regiospecific surface double-functionalization under plasmon excitation, using diazonium salts as surface functionalization agents.

PMS-601, a new platelet-activating factor receptor antagonist that inhibits human immunodeficiency virus replication and potentiates zidovudine activity in macrophages.

We assessed the anti-human immunodeficiency virus (anti-HIV) activity in vitro of new platelet-activating factor (PAF) receptor antagonists, as PAF and viral replication are thought to be involved in HIV neuropathogenesis. We found that PMS-601 inhibited proinflammatory cytokine synthesis and HIV replication in macrophages and potentiated the antiretroviral activity of zidovudine. These results suggest that PMS-601 is of potential value as an adjuvant treatment for HIV infection.

[Antiretroviral ant anti-inflammatory properties of a novel platelet activation factor antagonist, PMS-601]. / Propriétés antirétrovirales et anti-inflammatoires d'un nouvel antagoniste du facteur d'activation des plaquettes, la PMS-601.

The platelet-activating factor (PAF) plays a major role in neuropathogenesis associated with human immunodeficiency virus (HIV) infection by enhancing the inflammatory syndrome and viral replication, particularly in cells of the macrophage lineage, and its neurotoxic properties. We therefore evaluated the ability of PAF-R antagonists to inhibit HIV-1 replication and down-modulate the synthesis of pro-inflammatory mediators in healthy or HIV-1-infected macrophages. PMS-601 demonstrated the highest anti-HIV activity. Considering its mode of action and anti-inflammatory properties, PMS-601 interferes with early and late steps of the HIV biological cycle and decreases the synthesis of PAF, TNF-alpha, MIP-1 alpha, MIP-1 beta and RANTES. Altogether, these results suggest that PAF-receptor antagonists, and particularly PMS-601, could be of potential value as treatment adjuvants in HIV infection.

Structure-activity relationships in platelet-activating factor (PAF). 10. From PAF antagonism to inhibition of HIV-1 replication.

Excessive levels of PAF and cells of macrophage lineage appear to play an important role in neuronal cell injury, inflammatory syndrome, and HIV replication in CNS resulting in AIDS dementia complex (ADC). The beneficial effects of PAF receptor antagonists are evident and give rise to expected therapeutic strategies for neurotrauma. Piperazine derivatives bearing a "cache-oreilles" (ear-muff) electronic distribution are able to inhibit in vitro PAF effects and, thus, could be used in pathologies where this mediator is involved. Therefore, their potential anti-HIV activity was investigated, and we find that (i) these PAF antagonists are effectively active in HIV-infected monocyte-derived macrophages (MDM) but there is no correlation between both anti-HIV and anti-PAF activities; (ii) the presence of a carbamate function (compounds 1a-d) is favorable to the antiviral activity; (iii) the lipophilicity of the substituent on the piperazinic cycle seems to be less important for the anti-PAF activity than for the antiviral one. Our leading compound, PMS 601 (compound 1a), presents a dual activity with IC(50) of 8 and 11 microM for anti-PAF and anti-HIV activity, respectively, without cytotoxic events at 1000 microM in MDM. Although its mode of action is not clearly defined, these data suggest that PMS 601, which displays no effect on acellular reverse transcriptase or protease tests, deserves further investigation in the treatment of HIV-1-associated dementia.

Effect of the new imidazoline derivative S-22068 (PMS 847) on insulin secretion in vitro and glucose turnover in vivo in rats.

We have investigated the possible mechanisms underlying the antihyperglycaemic effect of the imidazoline derivative S-22068. In vitro, in the presence of 5 mmol/l glucose, S-22068 (100 micromol/l) induced a significant and sustained increase in insulin secretion from isolated, perifused, rat islets and a marked sensitization to a subsequent glucose challenge (10 mmol/l). S-22068 (100 micromol/l was able to antagonize the stimulatory effect of diazoxide on 86Rb efflux from preloaded islets incubated in the presence of 20 mmol/l glucose. Experiments were also performed to investigate whether S-22068 can alter glucose turnover and peripheral insulin sensitivity in vivo in mildly diabetic rats and obese, insulin resistant, Zucker rats. Neither glucose production nor individual tissue glucose utilization was modified by S-22068 in either group of rats. Similar results were obtained whether the studies were performed under basal conditions or during euglycaemic/hyperinsulinemic clamps. The results suggest that S-22068 exerts part of its antihyperglycaemic effect by promoting insulin secretion without alteration of peripheral insulin sensitivity.

Design and synthesis of imidazoline derivatives active on glucose homeostasis in a rat model of type II diabetes. 2. Syntheses and biological activities of 1,4-dialkyl-, 1,4-dibenzyl, and 1-benzyl-4-alkyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)piperazines and isosteric analogues of imidazoline.

Piperazine derivatives have been identified as new antidiabetic compounds. Structure-activity relationship studies in a series of 1-benzyl-4-alkyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)piperazines resulted in the identification of 1-methyl-4-(2', 4'-dichlorobenzyl)-2-(4',5'-dihydro-1'H-imidazol-2'-yl)piperazine, PMS 812 (S-21663), as a highly potent antidiabetic agent on a rat model of diabetes, mediated by an important increase of insulin secretion independently of alpha2 adrenoceptor blockage. These studies were extended to find additional compounds in these series with improved properties. In such a way, substitution of both piperazine N atoms was first optimized by using various alkyl, branched or not, and benzyl groups. Second, some modifications of the imidazoline ring and its replacement by isosteric heterocycles were carried out, proceeding from PMS 812, to evaluate their influence on the antidiabetic activity. The importance of the distance between the imidazoline ring and the piperazine skeleton was studied third. Finally, the influence of the N-benzyl moiety was also analyzed compared to a direct N-phenyl substitution. The pharmacological evaluation was performed in vivo using glucose tolerance tests on a rat model of type II diabetes. The most active compounds were 1,4-diisopropyl-2-(4', 5'-dihydro-1'H-imidazol-2'-yl)piperazine (41a), PMS 847 (S-22068), and 1,4-diisobutyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)piperazine (41b), PMS 889 (S-22575), which strongly improved glucose tolerance without any side event or hypoglycemic effect. More particularly, PMS 847 proved to be as potent after po (100 micromol/kg) as after ip administration and appears as a good candidate for clinical investigations.

Potent antihyperglycaemic property of a new imidazoline derivative S-22068 (PMS 847) in a rat model of NIDDM.

Recent data suggest that some imidazoline derivatives can lower plasma glucose in experimental animal models of diabetes. We studied the activity of an imidazoline S-22068, in rat model of non-insulin-dependent diabetes mellitus (NIDDM) produced with a low dose of streptozotocin (35 mg kg(-1), i.v.) in the adult. The respective increase over basal value in glucose (deltaG) and insulin (deltaI), and the rate of glucose disappearance (K), were measured during a 30 min intravenous glucose tolerance test. After an intraperitoneal injection of S-22068 (24 mg kg(-1)), deltaG (mM min(-1)) was decreased (91.67+/-5.83 vs 120.5+/-3.65; P<0.001), whereas K was increased (1.74+/-0.09 vs 1.18+/-0.05; P<0.001). Although insulinaemia was increased at time-point 0 of the test, deltaI was unchanged. During oral glucose tolerance tests (OGTT), S-22068 (24 mg kg(-1), p.o.) improved glucose tolerance, and its efficiency was potentiated after chronic treatment (15 days). Basal glycaemia was unaffected by the treatment. Under the same conditions, a higher dose of S-22068 (40 mg kg(-1)) further improved glucose tolerance without causing hypoglycaemia. Binding experiments revealed that S-22068 displays no affinity for either adrenoceptors or the two imidazoline receptors I1 or I2. These results demonstrate that S-22068 improves glucose tolerance without causing hypoglycaemia. Thus S-22068 represents a new potential option in the treatment of NIDDM.

Design and synthesis of imidazoline derivatives active on glucose homeostasis in a rat model of type II diabetes. 1. Synthesis and biological activities of N-benzyl-N'-(arylalkyl)-2-(4',5'-dihydro-1'H-imidazol-2'-yl)piperazines .

The physiopathology of non-insulin-dependent diabetes mellitus is associated with a dysfunction in the regulation of insulin secretion. The alpha 2-adrenoceptors have been reported to be involved in this alteration, although alpha 2-antagonists containing an imidazoline ring may stimulate insulin secretion independently of alpha 2-adrenoceptor blockage. Recently, a new "imidazoline-binding site" involved in the control of K(+)-ATP channels in the B cell has been proposed. In the course of searching for new antidiabetic agents, 1-alkyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)-4-benzylpiperazines, 1-benzyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)-4-alkylpiperazines, and 1-benzyl-2-(4',5'-dihydro-1'H-imidazol-2'-yl)-4-benzylpiperazines have been designed and evaluated as potential adrenoceptor antagonists. Pharmacological evaluation was performed in vivo using glucose tolerance tests performed on a rat model of type II diabetes obtained by injection of a low dose (35 mg/kg) of streptozotocin (STZ). For some compounds, binding experiments were performed on alpha 2 adrenoceptors and I1 and I2 imidazoline-binding sites. The biological and physicochemical data have been combined with molecular modeling studies to establish structure-activity relationships. The most active compound was 1-(2',4'-dichlorobenzyl)-2-(4',5'-dihydro-1'H-imidazol-2'-yl)- 4-methylpiperazine (7f); intraperitoneal administration (100 mumol/kg) of 7f strongly improved glucose tolerance in STZ diabetic rats. This effect seemed at least partly mediated by a significant increase of insulin secretion. Other compounds of the same family (7b, 16f, 23b) have also shown potent activity. We found no correlation between in vivo antihyperglycemic properties and in vitro affinities for alpha 2-adrenoceptors or I1, and I2 binding sites. These compounds can be considered as antihyperglycemic agents potentially useful for treatment of type II diabetes and are currently under complementary investigation.

Design and modeling of new platelet-activating factor antagonists. 2. Synthesis and biological activity of 1,4-bis-(3',4',5'-trimethoxybenzoyl)-2-alkyl and 2-alkyloxymethylpiperazines.

In the continuation of our investigations on the structure of platelet-activating factor (PAF)-receptor, 25 additional 2-substituted 1,4-bis-(poly- and mono methoxybenzoyl)-piperazines were synthesized and their in vitro biological activities measured. Substituent at position 2 is representative of the classical balance lipophilicity/hydrophilicity, i.e. alkyl, phenylalkyl, alkoxy and polyalkoxy groups. A potent PAF-induced platelet aggregation inhibitory activity measured in PRP medium is obtained with 5c, IC50 = 6 x 10(-8) M, which displaces the [3H]PAF from platelet membrane with an EC50 = 6 x 10(-8) M, and compound 4 presents an EC50 of 3 x 10(-8) M. Examination of structure-activity relationships shows that molecules bearing a hydrophilic or slightly hydrophobic appendix in position-2 are still potent; their IC50 being included between 10(-6) and 10(-7) M. After quantitative analysis, it seems that in PRP medium, the role of serum albumin must be taken into account instead of a pure hydrophobic interaction of the appendix Z into the receptor. The role of the methoxy groups in producing a potent antagonistic activity is demonstrated by syntheses of several 2-octylpiperazine analogs. These specific features will be quantitatively analysed in the following related publication (part 3).

Design and modeling of new platelet-activating factor antagonists. 3. Relative importance of hydrophobicity and electronic distribution in piperazinic series.

Extensive analysis of results obtained in earlier publications (Lamouri et al. (1993); Tavet et al. (1996) led us to reexamine our interpretations and conclusions about hydrophobic and electronic distribution effects. In terms of hydrophobicity balance, a bilinear regression has been derived between lipophilicity of the appendix in position-2, f(Z), versus anti-aggregant activity for 45 homogeneous compounds including data from both papers (Parts 1 and 2). These features reinforce the conclusion that the kinetic phase in the experimental medium is probably determinant. Consequently, the role of electronic distribution is preponderant at the level of the receptor. Two specific studies demonstrated that decrease of negative electrostatic potential effects of the largest "cache-oreilles' system lowered the anti-aggregant activity (comparison of compounds 1f, 2, 3 and 4), on one hand and, on the other hand, the combined effect of phenyl groups created negative wells, as observed there with a diphenyl-methyl moiety, instead of an usual trimethoxybenzoyl function (comparison of compounds 8 and 10). It was clearly demonstrated that this moiety does not work by means of a hydrophobic anchorage: comparison of compounds 9, 10 and 11.

Preventive effects of two PAF-antagonists, PMS 536 and PMS 549, on cyclosporin-induced LLC-PK1 oxidative injury.

The present study was undertaken to evaluate the effects of platelet activating factor (PAF) antagonists, PMS 536 and PMS 549, on LLC-PK1 toxicity induced by Cyclosporin A (CsA). The LLC-PK1 cell line was used as an in vitro model. CsA cytotoxicity was determined in relation with ATP content. Alkaline phosphatase and N-acetyl-beta-glucosaminidase activities, which are directly correlated with tubular cell damage, were used as markers for renal injury. CsA alone provoked in the LLC-PK1 cell line a marked decrease in cell viability (55%) and membrane integrity (56%), and a significant increase in AP and NAG activities and in oxidized glutathione level. The ATP decrease and the ADP increase, resulting in a decline of the ATP/ADP ratio, is indicative of an anoxic energy charge. Co-treatment with CsA plus PMS 536 or PMS 549 resulted in a minor decrease in cell viability and in significant membrane integrity recovery. Moreover, the ATP depletion and the increase in ATP metabolites, hypoxanthine and uric acid induced by CsA were strongly prevented by PAF antagonists. In contrast, GSSG level remained high as in CsA-treated cells, but GSH level was in the range of controls. Our results suggest that both PAF antagonists attenuate CsA oxidative injury and prevent energy metabolism disturbances probably by maintaining cell integrity. The lipophilicity of both molecules may be responsible for membrane stabilization and may confer the protective effects observed in energy metabolism. The results obtained with PMS 536 and PMS 549 are indicative of interactions between PAF and CsA in renal injury and suggest the therapeutic potential of these PAF-antagonists against CsA-induced nephrotoxicity.

Effect of S-21663 (PMS 812), an imidazoline derivative, on glucose tolerance and insulin secretion in a rat model of type II diabetes.

We have studied the activity of S-21663 (PMS 812), a new imidazoline derivative, in a rat model of Type II diabetes obtained by i.v. injection of a low dose (35 mg/kg) of streptozotocin, using glucose tolerance tests. Glucose tolerance and insulin secretion were measured as the delta G and the delta l, i.e., the respective increase in glycemia and insulinemia over 30 min after the glucose load. The rate of glucose disappearance was calculated as the K coefficient and the insulin response to glucose as the delta l/delta G. After i.p. injection of S-21663, delta G (millimoles per liter per minute) was decreased (71.7 +/- 10.1 vs. 112.6 +/- 15.1; P < .05), whereas K was increased (3.3 +/- 0.3 vs. 1.5 +/- 0.1; P < .05). Insulin secretion was also largely improved (delta l/delta G: 90.9 +/- 22.2 vs. 18.3 +/- 2.6; P < .05). Oral administration of the product was almost as efficient as i.p. injection. Chronic treatment (15 days) increased the efficiency. Insulin secretion measured in vitro at both 2.8 and 16.6 mM glucose was quadrupled by S-21663 (100 microM). S-21663 binds neither to alpha-2 adrenoceptors nor to known imidazoline binding sites. S-21663 can be considered as a potential hypoglycemic agent in Type II diabetes.

Design and modeling of new platelet-activating factor antagonists. 1. Synthesis and biological activity of 1,4-bis(3',4',5'-trimethoxybenzoyl)-2-[[(substituted carbonyl and carbamoyl)oxy]methyl]piperazines.

To further investigate our hypothesis on the structure of the platelet-activating factor (PAF) receptor, 35 compounds derived from 1,4-bis(3',4',5'-trimethoxybenzoyl)piperazine were synthesized and their in vitro antagonistic effect was measured. Substitution of the compounds in position 2, by ester or carbamate groups, giving increased steric hindrance and hydrophobicity, increased the platelet aggregation inhibitory activity from 2 microM (without substitution, compound 2) to 0.07 microM (compound 1h) and gave a maximum displacement of [3H]PAF from platelet membrane of 0.05 microM (compound 1k). It appears that the PAF antagonistic effect is only weakly enantiospecific, as observed in many cases including antagonists structurally related or not to PAF. 3D electrostatic potential maps (calculated at -10 kcal/mol) of such compounds revealed a double "Cache-oreilles" (ear-muffs) system. One of these systems has been previously described (distance between atoms generating negative wells, 11-14 A). The second shorter "Cache-oreilles" (6-7 A) system appears to be required for increased PAF antagonistic activity. This short distance between groups generating the negative wells is present in the gingkolides, a series of naturally occurring PAF antagonists. The present study indicates that the structure of the PAF receptor may be more complicated than our initial hypothesis and may be a tetrapolarized structure, with alternants of electropositive and hydrophobic areas. This modified hypothesis is in agreement with recent publications concerning PAF antagonists bearing a cationic moiety.

PAF receptor and "Cache-oreilles" effect. Simple PAF antagonists.

Nine simple and structurally flexible PAF antagonists were synthesized and their inhibitory effects on PAF induced platelet aggregation were measured. Compounds with PAF antagonistic activity exhibited a negative electrostatic potential generated by two trimethoxyphenyl groups (isocontour at -10 Kcal/mole) at various distances between the negative clouds. The optimal distance between the atoms generating the "cache-oreilles" system for exhibiting potent PAF antagonistic activity is estimated to be 11-13 A. In the flexible molecules studied, the dispersion of the electronic distribution is not necessarily favorable for anti-PAF activity. The data support the simple bipolarized model for the PAF receptor that has been proposed by the authors.

PAF-receptor. III. Conformational and electronic properties of PAF-like agonists and antagonists.

In order to compare electronic and conformational properties of PAF-agonists and PAF-antagonists, 14 analogues structurally related to PAF were studied. A common conformation of the glycerol backbone was present in all agonists and all constrained or flexible antagonists. The distinction between agonists and antagonists appears to be casted on position-2 where the folded conformation of the substituent for agonists should be the most probable. In position-3 the gauche conformation can be adopted by all the analysed compounds. The electrostatic potential well at -30 kcal/mol stretches to the carbonyl group in position-2 in the folded conformation of the agonists. On the contrary, in constrained antagonists, a second negative zone appears around the carbamate group. Given the modelling results, the triethylammonium PAF analogue considered in literature as a weak agonist, was resynthesized and proved to be more potent than previously reported. These experimental results confirm our hypothesis in terms of a common conformation of agonist and antagonist PAF-like molecules.

Platelet activating factor antagonists. Structure of N,N'-bis(3,4,5-trimethoxybenzoyl)-2-piperazinylmethyl 2,2-dimethylpropanoate.

Racemic title compound, C30H40N2O10, Mr = 588.65, triclinic, P1-, a = 10.154 (7), b = 11.820 (9), c = 15.038 (8) A, alpha = 96.02 (5), beta = 1.07.54 (4), and gamma = 110.34 (5) degrees, V = 1569 (2) A3, Z = 2, Dx = 1.25 g cm-3, Cu K alpha, lambda = 1.5418 A, mu = 7.4 cm-1, F(000) = 628, T = 293 K, R = 0.0470, wR = 0.0481 for 1961 unique observed reflections. The piperazine ring adopts a chair conformation and the molecule shows limited flexibility of the pseudo-twofold-related trimethoxybenzoyl moieties. The planes through the piperazine and the two trimethoxyphenyl rings are oriented almost perpendicular to each other. Apart from a few possible weak hydrogen bonds, the molecules are held together by weak pi overlap and van der Waals forces.