Pentosan polysulfate, a sulfated oligosaccharide, is a potent and selective anti-HIV agent in vitro

Several sulfated oligo- or polysaccharides such as pentosan polysulfate, fucoidan, dextran sulfate, heparin and iota-, kappa- and lambda-carrageenans proved to be potent and selective inhibitors of human immunodeficiency virus type 1 (HIV-1) in vitro. The most potent anti-HIV-1 activity was recorded for the oligosaccharide pentosan polysulfate, its 50% antiviral effective dose (ED50) being 0.19 microgram/ml in MT-4 cells. It inhibited HIV-1 antigen expression in HUT-78 cells at an ED50 of 0.02 microgram/ml, and complete inhibition of HIV-1 antigen expression was obtained at a concentration of 4.0 micrograms/ml. No toxicity for MT-4 cells was observed with pentosan polysulfate at a concentration of 2500 micrograms/ml. The anticoagulant activity of pentosan polysulfate was more than ten-fold lower than that of heparin (14.4 and 177 U/mg, respectively). In fact, pentosan polysulfate achieved its anti-HIV-1 activity at a concentration that is 370-fold below its anticoagulant threshold (1 U). Pentosan polysulfate inhibits virus adsorption to the cells, as was demonstrated by monitoring the association of radiolabeled HIV-1 virions with MT-4 cells.     

两种AZT-氟喹诺酮偶联物体外抗HIV-1及抗菌活性的研究

目的体外测定两种AZT-氟喹诺酮偶联物SRLZ和SROZ的抗HIV-1活性及抗菌活性。方法通过合胞体抑制、HIV-1感染细胞保护、HIV-1 p24抗原测定等方法检测急性感染中化合物对HIV-1实验株、临床分离株的抑制作用和对慢性感染细胞中的病毒复制影响;通过体外金黄色葡萄球菌的抑制实验检测化合物的抗菌活性。结果AZT-氟喹诺酮偶联物SRLZ和SROZ能抑制HIV-1实验株诱导的合胞体形成,减少病毒感染细胞的死亡和抑制病毒在细胞内的复制;SRLZ和SROZ对HIV-1临床分离株也有较好的抑制作用;SRLZ和SROZ对HIV-1的抑制活性与AZT相近;AZT-氟喹诺酮偶联物也能抑制金黄色葡萄球菌,其MIC值与其相应的阳性药物相近。结论SRLZ和SROZ有很好的抗HIV-1活性和抗菌活性。     

具有抗HIV-1活性的新核糖体失活蛋白-栝楼蛋白(英文)

目的:研究新核糖体失活蛋白-栝楼蛋白是否具有抗HIV-1活性。方法:合胞体抑制实验以光镜检查,以ELISA测定HIV-1 p24抗原表达水平,用间接免疫荧光技术测定HIV抗原阳性细胞的百分率。结果:栝楼蛋白对HIV-1诱导C8166细胞形成合胞体有显著的抑制作用。栝楼蛋白显著地抑制了HIV-1急性感染T细胞中p24核心抗原的表达水平和减少了HIV抗原阳性细胞的百分率。栝楼蛋白抑制合胞体形成和HIV抗原阳性细胞的IC_(50)分别是5μg·L~(-1)和0.09mg·L~(-1)。栝楼蛋白不影响慢性感染T细胞中HIV-1 p24抗原表达水平。结论:栝楼蛋白是具有抗HIV-1活性的新的核糖体失活蛋白。     

The mannose-specific plant lectins from Cymbidium hybrid and Epipactis helleborine and the (N-acetylglucosamine)n-specific plant lectin from Urtica dioica are potent and selective inhibitors of human immunodeficiency virus and cytomegalovirus replication in vitro.

A series of four mannose(Man)-, three N-acetylglucosamine (GlcNAc)n-, ten N-acetylgalactosamine/galactose(GalNAc/Gal)-, one 5-acetylneuraminic acid (alpha-2,3-Gal/GalNAc)- and one 5-acetylneuroaminic acid(alpha-2,6-Gal/Gal-NAc)-specific plant agglutinins were evaluated for their antiviral activity in vitro. the mannose-specific lectins from the orchid species Cymbidium hybrid (CA), Epipactis helleborine (EHA) and Listera ovata (LOA) were highly inhibitory to human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2) in MT-4, and showed a marked anti-human cytomegalovirus (CMV), respiratory syncytial virus (RSV) and influenza A virus activity in HEL, HeLa and MDCK cells, respectively. The 50% effective concentration (EC50) of CA and EHA for HIV ranged from 0.04 to 0.08 micrograms/ml, that is about 3 orders of magnitude below their toxicity threshold (50% inhibitory concentration for MT-4 cell growth: 54 to 60 micrograms/ml). Also, the (GlcNAc)n-specific lectin from Urtica dioica (UDA) was inhibitory to HIV-1-, HIV-2-, CMV-, RSV- and influenza A virus-induced cytopathicity at an EC50 ranging from 0.3 to 9 micrograms/ml. The GalNAc/Gal-, alpha-2,3-Gal/GalNAc- or alpha-2,6-Gal/GalNAc-specific lectins were not inhibitory to HIV or CMV at non-toxic concentrations. CA, EHA and UDA proved to be potent inhibitors of syncytium formation between persistently HIV-1- and HIV-2-infected HUT-78 cells and CD4+ Molt/4 (clone 8) cells (EC50: 0.2-2 micrograms/ml). Unlike dextran sulfate, the plant lectins CA, EHA and UDA did not interfere with HIV-1 adsorption to MT-4 cells and RSV- and influenza A virus adsorption to HeLa and MDCK cells, respectively. They presumably interact at the level of virion fusion with the target cell.     

Anti-human immunodeficiency virus type 1 (HIV-1) activity of lectins from Narcissus species

Mannose-specific lectins (MSLs) were isolated from bulbs of fifteen wild Narcissus species growing in Spain and assayed for their HIV-1 infection inhibitory activity in MT-4 cells and compared to the Narcissus pseudonarcissus agglutinin (NPA), the commercially available MSL obtained from daffodils. Almost all the tested MSLs were found to be active, showing EC50 values (microg/mL) similar to that of NPA, with some being comparable to those obtained with dextran sulfate without significant cytotoxicity. However, on a molar basis almost all of the MSLs tested exhibited lower EC50 values than dextran sulfate whilst six MSLs had values lower than AZT. The most efficacious anti-HIV-1 activity was exhibited by the Narcissus tortifolious MSL, which was 10- (microg/mL) and 100- (molarity) fold more potent than dextran sulfate. Significantly, although this MSL was 15-fold less potent than AZT in terms of quantity (microg/mL), it was 68-fold more potent on a molar basis. The antiviral indices, a ratio of the concentrations that produce cytotoxicity and HIV-1 replication, were calculated and three of the MSLs, N. confusus, N. leonensis and N. tortifolius reported 1.5-, 2- and 8.5-fold greater AI values than dextran sulfate or AZT. Comparison of MSL haemagglutination activities (HAA) to their anti-HIV-1 activities showed that there was no significant correlation. It was suggested that this may be due to a dissociation between both activities as a consequence of multiple isolectin composition.     

Inhibitory effect of dextran sulfate and heparin on the replication of human immunodeficiency virus (HIV) in vitro

The polyanionic substances dextran sulfate and heparin were investigated for their antiviral effect on the human immunodeficiency virus (HIV) in vitro. Dextran sulfate and heparin effected a 50% reduction in the cytopathogenicity of HIV for MT-4 cells at a concentration of 4.7 and 7.5 micrograms/ml, respectively. In Molt-4 (clone 8) cells, these values were slightly higher (14.1 and 15.6 micrograms/ml, respectively). No toxicity for the host cells was noted with these compounds at a concentration up to 400 micrograms/ml, so that the selectivity indexes, as based on the ratio of the 50% cytotoxic dose to the 50% antiviral effective dose, were well in excess of 100. These findings may have far reaching implications both diagnostically, when attempts are made to isolate HIV from heparinized blood samples, as therapeutically, to the extent that dextran sulfate or heparin may be useful in blocking HIV replication in vivo.     

New 3'-azido-3'-deoxythymidin-5'-yl O-(omega-hydroxyalkyl) carbonate prodrugs: synthesis and anti-HIV evaluation

Prodrugs of zidovudine (AZT) have been synthesized in an effort to enhance its uptake by HIV-1 infected cells and its anti-HIV activity. The 5'-OH function of AZT was functionalized with various enzymatically labile alkyl groups using specific procedures. The prodrug moieties included 5'-O-carbonate, 5'-O-carbamate, and 5'-O-ester. Analogues of the 3'-azido-3'-deoxythymidin-5'-yl O-(omega-hydroxyalkyl) carbonate series were particularly interesting since they were rearranged through an intramolecular cyclic process during their enzymatic hydrolysis. Evidence of this prodrug rearrangement was confirmed by comparison of the serum half-lives of 5'-O-carbonate prodrugs with their corresponding 5'-O-ester- and 5'-O-carbamate-AZT prodrugs. Interestingly, the anti-HIV-1 activities (EC(50)) of 3'-azido-3'-deoxythymidin-5'-yl O-(4-hydroxybutyl) carbonate 10 in acutely infected MT-4 cells and in peripheral blood mononuclear cells (PBMCs) were 0.5 nM and 0.78 nM, respectively. Compound 10 was 30 to 50 times more potent than its parent drug AZT. Our results suggest that the specific intramolecular rearrangement associated with the 3'-azido-3'-deoxythymidin-5'-yl O-(omega-hydroxyalkyl) carbonate prodrugs could explain the remarkable anti-HIV-1 activity of this series of AZT prodrugs. Prodrug 10 may therefore have better clinical potential than AZT for the treatment of AIDS.     

Targeting of antiviral drugs to T4-lymphocytes. Anti-HIV activity of neoglycoprotein-AZTMP conjugates in vitro

The delivery of the anti-HIV agent 3'-azido-3'-deoxythymidine (AZT), in its 5'-monophosphate form, (in) to human T-lymphocyte MT-4 cells in vitro through covalent coupling to neoglycoproteins was investigated. In vivo application of this drug targeting concept may lead to increased efficacy and/or diminished side effects caused by AZT during the treatment of AIDS and ARC patients. The rationale for the design of the neoglycoprotein carriers is based on the existence of sugar recognizing lectins on T-lymphocytes. Using a phenyl-linkage between sugar and Human Serum Albumin (HSA), various mannose-, fucose-, galactose-and glucose-containing neoglycoproteins were synthesized. The intrinsic anti-HIV activity of these neoglycoproteins was tested in vitro in HIV-1 infected MT-4 cells. Only the derivative having 40 moles mannose per mole protein (Man40HSA) shows pronounced anti-HIV-1 activity itself. This effect may be caused by interference of the Man40HSA with the gp120-CD4 mediated virus/MT-4 cell interaction. After conjugation with AZTMP, the mannose- as well as the fucose- and galactose-containing conjugates exhibited a pronounced activity. Conjugates of glucose-HSA and HSA displayed much less activity in spite of the fact that drug loading was considerably higher, compared with the galactose, mannose and fucose derivatives. In the series of mannose-neoglycoproteins, the Man22HSA-AZTMP conjugate was shown to be more than 30 times as active against HIV-1 compared to HSA-AZTMP. Selectivity indices of Man7 and Man22HSA-AZTMP were exceeding the AZT and AZTMP indices, indicating that these conjugates possess a more selective action. Stability experiments indicate that the potent action of the galactose-, mannose- and fucose-HSA-AZTMP conjugates is not due to a complete extracellular hydrolysis of the covalent drug-protein bond. Since Man22HSA has no intrinsic activity in the concentration range used, the antiviral effect is unlikely to be explained by synergism of the neoglycoprotein by a component of the cell membrane and subsequent internalization and release of the drug from the conjugate may play a role.     

Synthesis and anti-HIV-1 activity of 4,5,6,7-tetrahydro-5-methylimidazo[4,5,1-jk][1,4]benzodiazepin-2(1H)-on e (TIBO) derivatives. 2

In the first paper of this series a new structure with anti-HIV-1 activity was disclosed and analogues were synthesized to explore the structure-activity relationship of changes in the substituent (R) attached at the N-6 position of 9. This study describes the syntheses and anti-HIV-1 testing of analogues with variations of the five-membered urea ring of the 4,5,6,7-tetrahydro-5-methylimidazo[4,5,1-jk] [1,4]benzodiazepin-2(1H)-one (TIBO) structures. Although many different rings were synthesized to replace the cyclic urea of TIBO, most were found to be inactive in inhibiting the replication of the HIV-1 virus in MT-4 cells. The exceptions were replacement of the urea oxygen with sulfur or selenium to give the corresponding thio- or selenoureas. These were found to be more active than the oxygen counterparts. A small series of analogues was synthesized and tested which allowed direct comparison of urea and thiourea derivatives. Without exception, the latter were always more active than the former. The most active compound of this series (8d) was found to inhibit the HIV-1 virus with an IC50 of 0.012 microM which is comparable to that of AZT.     

5-Halogeno-3'-fluoro-2',3'-dideoxyuridines as inhibitors of human immunodeficiency virus (HIV): potent and selective anti-HIV activity of 3'-fluoro-2',3'-dideoxy-5-chlorouridine

The novel 5-chloro-, 5-bromo-, and 5-iodo-derivatives of 3'-fluoro-2',3'-dideoxyuridine (FddUrd), designated FddCIUrd, FddBrUrd, and FddIUrd, respectively, have been synthesized and evaluated for their antiretrovirus activity against human immunodeficiency virus (HIV) and murine Moloney sarcoma virus. All three 5-halogeno-FddUrd analogues inhibited HIV-1 replication in MT4 cells with an effective dose (ED50) of about 0.2-0.4 microM. However, FddCIUrd was markedly more selective in its anti-HIV-1 activity than FddBrUrd or FddIUrd. The selectivity index of FddCIUrd was similar to that of 3'-azido-2',3'-dideoxythymidine (AZT) when evaluated in parallel (1408 and 1603, respectively). The FddUrd derivatives also had a marked inhibitory effect on HIV-2 replication in MT4 cells and HIV-1 induced antigen expression in HUT-78 cells. However, neither FddUrd nor its 5-halogeno derivatives were inhibitory to Moloney sarcoma virus-induced transformation of murine C3H cells. The anti-HIV-1 activity of FddUrd, FddCIUrd, FddBrUrd, and FddIUrd was reversed by the addition of thymidine and 2'-deoxycytidine. The 5-halogeno-FddUrd analogues had a markedly higher affinity for MT4 thymidine kinase than FddUrd (Ki/Km, 4.0-4.7, as compared with 302 for FddUrd).     

Mechanism of inhibitory effect of glycyrrhizin on replication of human immunodeficiency virus (HIV)

Glycyrrhizin (GL) achieved a dose-dependent inhibition of the replication of human immunodeficiency virus type 1 (HIV-1) in MOLT-4 (clone No. 8) cells within the concentration range of 0.075 to 0.6 mM. Within this concentration range, GL also effected a dose-dependent reduction in the protein kinase C (PKC) activity of MOLT-4 (clone No. 8) cells. A well-known PKC inhibitor, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7), also proved inhibitory to HIV-1 replication in MOLT-4 (clone No. 8) cells. PKC inhibition may thus be considered as one of the mechanisms by which GL inhibits HIV-1 replication. In addition, GL may also owe its anti-HIV-1 activity, at least in part, to an interference with virus-cell binding, since the compound at 1.2 mM partially inhibited the adsorption of radiolabeled HIV-1 particles to MT-4 cells. At this concentration GL also suppressed giant cell formation induced by co-culturing MOLT-4 (clone No. 8) cells with MOLT-4/HTLV-III_B cells, whereas the PKC inhibitor H-7 failed to do so.     

Inhibitory effect of tannic acid sulfate and related sulfates on infectivity, cytopathic effect, and giant cell formation of human immunodeficiency virus.

The acquired immune deficiency syndrome (AIDS) is thought to result from infection of T cells by a pathogenic human retrovirus, human immunodeficiency virus [HIV (HTLV-III/LAV)]. In this report, we synthesized sulfated plant polyphenols such as tannic acid sulfate, rutin sulfate, ellagic acid sulfate, (-)-epicatechin sulfate, and (-)-epigallocatechin 3-gallate sulfate, and examined the in vitro inhibitory effect on HIV infection using human T-cell lymphotropic virus type-I-carrying MT-4 cells, which are extremely susceptible to HIV infection. Of the compounds tested, tannic acid sulfate was the most effective and had low cytotoxicity. Tannic acid sulfate completely inhibited the cytopathic effect of HIV and the HIV-specific antigen expression in MT-4 cells at the concentration of 6 micrograms/ml. In addition, this sulfate inhibited giant cell formation in coculture at the concentration of 5 micrograms/ml.     

In vitro antiviral activity of polyoxomolybdates. Mechanism of inhibitory effect of PM-104 (NH4)12H2(Eu4(MoO4(H2O)16(Mo7O24)4) · 13H2O on human immunodeficiency virus type 1

A screening for inhibitors of human immunodeficiency virus type 1 (HIV-1) among various types of isopolyoxomolybdates and heteropolyoxomolybdates was carried out by using an in vitro assay system measuring the cytopathogenicity of HIV-1 in CD4⁺ human MT-4 cells. A novel heteropolyoxomolybdate named PM-104 with the chemical formula (NH₄)₁₂H₂(Eu₄(MoO₄)(H₂O)₁₆(Mo₇O₂₄)₄) · 13H₂O was found to be associated with potent anti-HIV-1 activity.

PM-104 interferes with virus infection at a very early step such as adsorption and/or penetration into the cells. In addition to the cytopathic effect of HIV-1 on MT-4 cells, syncytium formation between mock-infected MOLT-4 cells and MOLT-4 cells chronically infected with either HIV-1 or HIV-2 is suppressed by PM-104. PM-104 also blocks the replication of herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2). The antiviral properties of PM-104 could be attributed to the combined effect of europium atoms and its peculiar three-dimensional anion structure.     

Synthesis and structure-activity relationships of phenylenebis(methylene)-linked bis-azamacrocycles that inhibit HIV-1 and HIV-2 replication by antagonism of the chemokine receptor CXCR4.

Bis-tetraazamacrocycles such as the bicyclam AMD3100 are a class of potent and selective anti-HIV-1 and HIV-2 agents that inhibit virus replication by binding to the chemokine receptor CXCR4, the co-receptor for entry of X4 viruses. With the aim of optimizing the anti-HIV-1 and HIV-2 activity of bis-azamacrocycles, a series of analogues were synthesized which contain neutral heteroatom (oxygen, sulfur) or heteroaromatic (of lower pK(a) than a secondary amine) replacements for the amino groups of AMD3100. The introduction of one or more heteroatoms such as oxygen or sulfur into the macrocyclic ring of p-phenylenebis(methylene)-linked dimers (to give N(3)X or N(2)X(2) bis-macrocycles) gave analogues with substantially reduced anti-HIV-1 (III(B)) and anti-HIV-2 (ROD) potency. In addition, the bis-sulfur analogue was also markedly more cytotoxic to MT-4 cells. However, bis-tetraazamacrocycles featuring a single pyridine group incorporated within the macrocyclic framework exhibited anti-HIV-1 and HIV-2 potency comparable to that of their saturated, aliphatic counterparts. The p-phenylenebis(methylene)-linked dimer of the py[14]aneN(4) macrocycle inhibited HIV-1 replication at a 50% effective concentration (EC(50)) of 0.5 microM while remaining nontoxic to MT-4 cells at concentrations approaching 200 microM. A series of analogues containing macrocyclic heteroaromatic groups of varying pK(a) were also synthesized, and their ability to inhibit HIV replication was evaluated. Replacing the pyridine moiety of the py[14]aneN(4) macrocyclic ring with pyrazine or pyridine groups substituted in the 4-position (with electron-withdrawing or -donating groups) either reduced antiviral potency or increased cytotoxicity to MT-4 cells. Finally, we synthesized a series of analogues in which the ring size of the bis-pyridyl macrocycles was varied between 12 and 16 members per ring including the py[iso-14]aneN(4) ring system, an isomer of the py[14]aneN(4) macrocycle. The p-phenylenebis(methylene)-linked dimer of the py[iso-14]aneN(4) (AMD3329) displayed the highest antiviral activity of the bis-azamacrocyclic analogues reported to date, exhibiting EC(50)'s against the cytopathic effects of HIV-1 and HIV-2 replication of 0.8 and 1.6 nM, respectively, that is, about 3-5-fold lower than the EC(50) of AMD3100. AMD3329 also inhibited the binding of a specific CXCR4 mAb and the Ca(2+) flux induced by SDF-1alpha, the natural ligand for CXCR4, more potently than AMD3100. Furthermore, AMD3329 also interfered with virus-induced syncytium formation at an EC(50) of 12 nM.