Novel DL-galactan hybrids from the red seaweed Gymnogongrus torulosus are potent inhibitors of herpes simplex virus and dengue virus

A novel series of DL-galactan hybrids extracted from the red seaweed Gymnogongrus torulosus, was evaluated for its in vitro antiviral properties against herpes simplex virus type 2 (HSV-2) and dengue virus 2 (DEN-2). These compounds were very active against both viruses with inhibitory concentration 50% (IC50) values in the range 0.6-16 microg/ml for HSV-2 and 0.19-1.7 microg/ml for DEN-2, respectively, as determined in a virus plaque reduction assay in Vero cells. The DL-galactans lacked of cytotoxic effects, on stationary as well as on actively dividing cells, and anticoagulant properties. Some of the compounds showed a variable level of direct inactivating effect on both virions, with virucidal concentration 50% values exceeding the IC50s obtained by plaque reduction assay. Full inhibitory activity was achieved when the galactans were present during virus adsorption period, suggesting that the mode of action of these compounds is an interference in the binding of the surface envelope glycoprotein with the cell receptor.     

Effect of antiviral agents on replication of herpes simplex virus type 1 in brain cultures.

An in vitro tissue culture system consisting of reaggregated embryonic brain cells was used to evaluate the inhibition of herpes simplex type 1 (HSV-1) by several antiviral compounds. The efficacy of acyclovir, vidarabine, bromovinyldeoxyuridine, and 9-(1,3-dihydroxy-2-propoxymethyl) guanine in HSV-1-infected Vero cell monolayer cultures was compared with that seen with brain cell aggregates. At a mean 50% inhibitory dose with Vero cells, acyclovir showed a 99% reduction of virus titer in brain cell aggregates. Vidarabine and 9-(1,3-dihydroxy-2-propoxymethyl) guanine gave a dose-dependent reduction in virus titer with Vero cells; however, in aggregate cultures treated with the same drugs a dose-dependent decrease at 24 h was followed by an increase to a point of no inhibition at 72 h postinfection. Pretreatment of brain cell aggregates with a hybrid human leukocyte interferon (Le IF-AD) reduced virus titers at 48 h postinfection but did not maintain this reduction at 72 h. In contrast, infected Vero cell monolayer cultures demonstrated a dose-dependent reduction in virus titers with Le IF-AD. Postinfection treatment with Le IF-AD did not reduce plaque formation in Vero cells but was effective in reducing virus titer in HSV-1-infected brain cell aggregates at 48 h postinfection. Antiviral concentrations of up to 200 micrograms or 200,000 IU/ml for interferon did not appear morphologically toxic to brain cells. Antiviral therapy of HSV-1-infected brain cell aggregates may more closely mimic in vivo responses than monolayer cultures.     

Effects of dimethyl prostaglandin A1 on herpes simplex virus and human immunodeficiency virus replication.

We have investigated the direct effect of dimethyl prostaglandin A1 (dmPGA1) on the replication of herpes simplex virus (HSV) and human immunodeficiency virus type 1 (HIV-1). dmPGA1 significantly inhibited viral replication in both HSV and HIV infection systems at concentrations of dmPGA1 that did not adversely alter cellular DNA synthesis. The 50% inhibitory concentration (ID50) for several HSV type 1 (HSV-1) strains ranged from 3.8 to 5.6 micrograms/ml for Vero cells and from 4.6 to 7.3 micrograms/ml for human foreskin fibroblasts. The ID50s for two HSV-2 strains varied from 3.8 to 4.5 micrograms/ml for Vero cells; the ID50 was 5.7 micrograms/ml for human foreskin fibroblasts. We found that closely related prostaglandins did not have the same effect on the replication of HSV; dmPGE2 and dmPGA2 caused up to a 60% increase in HSV replication compared with that in untreated virus-infected cells. HIV-1 replication in acutely infected T cells (VB line) and chronically infected macrophages was assessed by quantitative decreases in p24 concentration. The effective ID50s were 2.5 micrograms/ml for VB cells acutely infected with HIV-1 and 5.2 micrograms/m for chronically infected macrophages. dmPGA1 has an unusual broad-spectrum antiviral activity against both HSV and HIV-1 in vitro and offers a new class of potential therapeutic agents for in vivo use.     

Characterization of inhibitory action of concanamycins against herpes simplex virus.

Concanamycins A (Conmy A) and B (Conmy B), well-known inhibitors of the vacuolar proton-ATPase, were isolated from the culture broth of Streptomyces sp. strain FK51 as antiherpetic agents. These compounds showed potent inhibition of herpes simplex virus type 1 (HSV-1) replication in an in vitro assay system, having antiviral activities with 50% inhibitory concentrations of 0.072 and 0.51 ng/ml for Conmy A and Conmy B, respectively. While the attachment of HSV-1 to Vero cells was not inhibited, both of the compounds blocked the penetration of virus into host cells. When added to the late stages of virus replication, the concanamycins also exerted marked inhibitory effects on the production of viruses. Release of progeny viruses was found to be suppressed by the agents. SDS-PAGE analysis of isotope-labelled HSV-specific proteins revealed that the synthesis of beta proteins was moderately inhibited and some of the glycoproteins were synthesized with reduced molecular weights. Western blot analysis using antibodies against two HSV-specific glycoproteins (gC and gD) showed differences in their syntheses between untreated and Conmy A-treated cells. Syncytium formation by HSV-1 strain HF was inhibited, and small plaques with rounded cells were formed in Conmy A-treated cell cultures. When wild-type HSV-1 was serially propagated under the selective pressure of Conmy A, and the resulting progeny viruses were grown in drug-free medium, their plaque morphology of syncytium and sensitivity to Conmy A were the same as those of parent virus. From these findings, antiherpetic activities of Conmy A and B might be mainly dependent on their activities as vacuolar proton-ATPase inhibitors with intracellular translocation of glycoproteins and the inhibition of the maturation of virus glycoproteins.     

Effect of Treatment with 5-Ethyl-2′-Deoxyuridine on Herpes Simplex Virus Encephalitis in Normal and Immunosuppressed Mice

5-Ethyl-2'-deoxyuridine (5-ethyl-dUrd), an analog of thymidine, was evaluated for its capacity to inhibit herpes simplex virus (HSV) replication in vitro and in vivo. The 50% effective dose concentration of 5-ethyl-dUrd for HSV types 1 and 2 (HSV-1 and -2) cultured in Vero cells was 6 and 9 mug/ml, respectively. Levels of 5-ethyl-dUrd 14-fold in excess of the 50% effective dose for HSV-1 did not inhibit the formation of confluent monolayers by Vero cells, suggesting that the compound was not cytotoxic or inhibitory for mammalian cells. In vivo studies showed that 5-ethyl-dUrd was effective in significantly reducing mortality when administered to young adult mice after subcutaneous infection with HSV-2. Intraperitoneal and intravenous inoculation of drug (250 mg/kg per day) resulted in a 50% survivor rate at 15 days. Comparative studies with adenine arabinoside at 250 mg/kg per day gave a 40% survivor rate. Intramuscular injection of 5-ethyl-dUrd at a concentration as high as 2,000 mg/kg per day for 10 days was well tolerated by uninfected animals, and HSV-2-infected mice treated at this dosage had a 100% survival rate. Treatment with 5-ethyl-dUrd at a concentration of 500 mg/kg per day significantly increased the mean survival times of HSV-1- and HSV-2-infected mice immunosuppressed by irradiation; however, the fatal course of the infection was not altered. Assay for virus in tissues showed that 5-ethyl-dUrd treatment delayed progression of the infection into the central nervous system, indicating suppression of virus replication in the tissues.     

The N-7-substituted acyclic nucleoside analog 2-amino-7-[(1,3-dihydroxy-2-propoxy)methyl]purine is a potent and selective inhibitor of herpesvirus replication.

2-Amino-7-[(1,3-dihydroxy-2-propoxy)methyl]purine (compound S2242) represents the first antivirally active nucleoside analog with the side chain attached to the N-7 position of the purine ring. Compound S2242 strongly inhibits the in vitro replication of both herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) (50% effective concentration [EC50], 0.1 to 0.2 microgram/ml), varicella-zoster virus (EC50, 0.01 to 0.02 microgram/ml) and thymidine kinase (TK)-deficient strains of HSV (EC50, 0.4 microgram/ml) and varicella-zoster virus (EC50, 0.2 to 0.5 microgram/ml). Potent activity was also observed against murine cytomegalovirus (EC50, 1 microgram/ml), human cytomegalovirus (HCMV) (EC50, 0.04 to 0.1 microgram/ml), and human herpesvirus 6 (EC50, 0.0005 microgram/ml). Compound S2242 (i) was not cytotoxic to confluent Vero, HeLa, or human fibroblast cells at concentrations of > 100 micrograms/ml, (ii) proved somewhat more cytostatic to Vero, HEL, HeLa, and C127I cells than ganciclovir, and (iii) was markedly more cytostatic than ganciclovir to the growth of the human lymphocytic cell lines HSB-2 and CEM degrees. In contrast to ganciclovir, (i) compound S2242 proved not to be cytocidal to murine mammary carcinoma (FM3A) cells transfected with the HSV-1 or HSV-2 TK gene, (ii) exogenously added thymidine had only a limited effect on its anti-HSV-1 activity, and (iii) the compound was not phosphorylated by HSV-1-encoded TK derived from HSV-1 TK-transfected FM3A cells, indicating that the compound is not activated by a virally encoded TK. Compound S2242 inhibited (i) the expression of late HCHV antigens at an EC50 of 0.07 microgram/ml (0.6 microgram/ml for ganciclovir) and (ii) HCMV DNA synthesis at an EC50 of 0.1 microgram/ml (0.32 microgram/ml for ganciclovir), i.e., values that are close to the EC50S for inhibition of HCMV-induced cytopathogenicity. Neither ganciclovir nor S2242 had any effect on the expression of immediate-early HCMV antigens, which occurs before viral DNA synthesis. In time-of-addition experiments, S2242 behaved like ganciclovir and acyclovir; i.e., the addition of the drugs could be delayed until the onset of viral DNA synthesis.     

Antiherpesvirus activity of 9-(4-hydroxy-3-hydroxy-methylbut-1-yl)guanine (BRL 39123) in cell culture.

The activity of 9-(4-hydroxy-3-hydroxymethylbut-1-yl)guanine (BRL 39123) against several herpesviruses was compared with that of acyclovir (ACV). In plaque reduction tests with clinical isolates of herpes simplex virus type 1 (HSV-1), herpes simplex virus type 2 (HSV-2), and varicella-zoster virus, mean 50% inhibitory concentrations (IC50S) (n = number tested) for BRL 39123 were 0.4 (n = 17), 1.5 (n = 13), and 3.1 (n = 5) micrograms/ml, respectively. Corresponding IC50S for ACV were 0.2, 0.6, and 3.8 micrograms/ml. Cytomegalovirus was relatively resistant to BRL 39123 (IC50, 51 micrograms/ml), but equid herpesvirus 1, bovid herpesvirus 2, and felid herpesvirus 1 were susceptible (IC50S, 1.6, 1.2, and 0.9 micrograms/ml, respectively). BRL 39123 was inactive against an HSV-1 strain which does not express thymidine kinase activity, but a DNA polymerase mutant selected for resistance to ACV was sensitive to BRL 39123 (IC50, 1.5 micrograms/ml). In contrast to the results from plaque reduction tests, BRL 39123 was more active than ACV against HSV-1 and of equal activity against HSV-2 in virus yield reduction assays in MRC-5 cells. After treatment of HSV-infected cultures for short periods, BRL 39123 was considerably more effective than ACV at reducing virus replication, and furthermore, after removal of extracellular BRL 39123, virus replication remained depressed for long periods, whereas such persistent activity was not observed with ACV. Neither compound significantly affected MRC-5 cell replication at 100 micrograms/ml, but at 300 micrograms/ml BRL 39123 was more inhibitory than ACV.     

Antiherpesviral and anticellular effects of 1-beta-D-arabinofuranosyl-E-5-(2-halogenovinyl) uracils

1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl) uracil (BV-ara-U) and 1-beta-D-arabinofuranosyl-E-5-(2-chlorovinyl)uracil (CV-ara-U) were tested for their anti-herpesviral activity in virus rating method, a plaque reduction method, and a virus yield reduction method, using human embryonic lung fibroblast (HEL-F) cells, At a concentration as low as 0.1 microgram/ml, both drugs exerted a marked inhibitory effect on the development of cytopathogenic effect induced by herpes simplex virus type 1 (HSV-1) infection and on the multiplication and plaque formation of HSV-1. Neither BV-ara-U nor CV-ara-U was significantly active against HSV type 2 (HSV-2). They scarcely inhibited growth of HEL-F cells, mouse L, and murine leukemia cells. Compared with 1-beta-D-arabinofuranosylthymine and 5-iodo-deoxyuridine, BV-ara-U and CV-ara-U were more than 10 times as active against HSV-1 and much less active against HSV-2. BV-ara-U was as active as E-5-(2-bromovinyl)-2'-deoxyuridine against HSV-1 and less inhibitory to growth of HEL-F cells. Cellular deoxyribonucleic acid synthesis was not significantly influenced by the new derivatives of arabinosyluracil, even at a concentration as high as 300 microgram/ml. The derivatives showed extremely marked inhibition of deoxyribonucleic acid synthesis in HSV-1-infected cells, whereas their inhibitory effect on deoxyribonucleic acid synthesis in HSV-2-infected cells was much lower than that in HSV-1-infected cells. These findings indicate that BV-ara-U and CV-ara-U are selectively inhibitory to HSV-1 multiplication.     

Inhibition of herpes simplex virus types 1 and 2 in vitro infection by sulfated derivatives of Escherichia coli K5 polysaccharide

Herpes simplex virus type 1 (HSV-1) and HSV-2 are neurotropic viruses and common human pathogens causing major public health problems such as genital herpes, a sexually transmitted disease also correlated with increased transmission and replication of human immunodeficiency virus type 1 (HIV-1). Therefore, compounds capable of blocking HIV-1, HSV-1, and HSV-2 transmission represent candidate microbicides with a potential added value over that of molecules acting selectively against either infection. We report here that sulfated derivatives of the Escherichia coli K5 polysaccharide, structurally highly similar to heparin and previously shown to inhibit HIV-1 entry and replication in vitro, also exert suppressive activities against both HSV-1 and HSV-2 infections. In particular, the N,O-sulfated [K5-N,OS(H)] and O-sulfated epimerized [Epi-K5-OS(H)] forms inhibited the infection of Vero cells by HSV-1 and -2, with 50% inhibitory concentrations (IC₅₀) between 3 ± 0.05 and 48 ± 27 nM, and were not toxic to the cells at concentrations as high as 5 μM. These compounds impaired the early steps of HSV-1 and HSV-2 virion attachment and entry into host cells and reduced the cell-to-cell spread of HSV-2. Since K5-N,OS(H) and Epi-K5-OS(H) also inhibit HIV-1 infection, they may represent valid candidates for development as topical microbicides preventing sexual transmission of HIV-1, HSV-1, and HSV-2.     

三种小干扰RNA干扰VP16 mRNA对单纯疱疹病毒-1复制的影响研究

目的探讨体外合成小干扰RNA(siRNA),在RNA干扰(RNAi)技术条件下,单纯疱疹病毒-1(HSV-1)感染Vero细胞过程中,病毒间层蛋白VP16的生物学功能。方法用T7RNA聚合酶体外合成针对VP16mRNA的三种siRNA。用脂质体2000转染Vero细胞后接种HSV-1,感染后不同时相点(12,24,36,48,60,72hpi)分别采取实验组(R)和对照组(C)标本,检测病毒滴度值,绘制子代病毒一步生长曲线。用同位素标记新合成的VP16进行免疫沉淀法检测病毒蛋白表达的变化。结果病毒子代一步生长曲线显示,转染siRNA的实验组Vero细胞接种HSV-1后24h(24hpi),病毒滴度明显低于对照组;12hpi也观察到病毒滴度低于对照组的现象;多位点的siRNA具有协同作用;实验组病毒滴度高峰出现时间后移大约12h。siRNA影响了病毒的蛋白表达。结论T7RNA聚合酶体外合成的siRNA可以用于RNAi技术研究;HSV-1间层蛋白VP16对病毒复制和组装、成熟起重要的生物学作用。     

Efficacies of antiherpesvirus nucleosides against two strains of herpes simplex virus type 1 in Vero and human embryo lung fibroblast cells.

Antiviral activities of five nucleoside analogs against the VR-3 and WT-34 strains of herpes simplex virus type 1 (HSV-1) were investigated in Vero and human embryo lung fibroblast (HEL) cells. In HEL cells, the compounds showed antiviral activities against both strains of HSV-1, but in Vero cells, the antiviral activities of the compounds were reduced in proportion to their antiviral indexes (the 50% inhibitory dose [ID50] for cell growth divided by the 50% plaque reduction dose for virus). The ratio of the ID50 in Vero cells to the ID50 in HEL cells was larger in VR-3-infected cells than in WT-34-infected cells. The following results were obtained. (i) Thymidine kinase (TK; EC 2.7.1.21) activity in the VR-3- or WT-34-infected Vero cells was about half that in VR-3- or WT-34-infected HEL cells. Induction of viral TK was especially low in the VR-3-infected Vero cells. (ii) The ID50 of the plaque reduction assay in hypoxanthine, aminopterin, and thymidine medium revealed that the activity of cellular thymidylate synthetase (EC 2.1.1.45) was important in viral replication in VR-3-infected Vero cells. (iii) The VR-3-infected cells required larger thymidine and thymidine phosphate pools for viral replication than the WT-34-infected cells did, although uptake of 1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl) uracil into infected cells was equal for both strains. (iv) In the VR-3-infected Vero cells, the quantity of 1-beta-D-arabinofuranosyl-E-5-(2-bromovinyl)uracil triphosphate was smaller than that in VR-3-infected HEL cells and WT-34-infected Vero and HEL cells.     

Novel 3-sulphonamido-quinazolin-4(3H)-one derivatives: microwave-assisted synthesis and evaluation of antiviral activities against respiratory and biodefense viruses

We designed and synthesized novel 2,3-disubstituted quinazolin-4(3H)-ones by microwave technique and characterized them by spectral analysis. Synthesized compounds were screened for cytotoxicity and for antiviral activity against influenza A (H1N1, H3N2 and H5N1), severe acute respiratory syndrome corona, dengue, yellow fever, Venezuelan equine encephalitis (VEE), Rift Valley fever, and Tacaribe viruses in cell culture. A neutral red uptake assay was used to determine 50% virus-inhibitory concentrations (EC50) of test compounds and their 50% cytotoxicity concentration (CC50) in uninfected Madin-Darby canine kidney, Vero, and Vero 76 cells; selectivity indices (ratio of CC50 to EC50) were derived from the data. The compound 4-(6,8-dibromo-4-oxo-2-phenyl quinazolin-3(4H)-yl)-N-(4,5-dimethyloxazol-2yl) benzenesulphonamide 15 inhibited the replication of avian influenza (H5N1) virus (EC50 = 8.4 microg/ml, CC50 > 100 microg/ml, SI > 11.9) as did 4-(6-bromo-4oxo-2phenylquinazolin-3(4H)-yl) benzene]sulphonamide 5 (EC50 = 3 microg/ml, CC50 = 32 microg/ml, SI = 11). Compound 5 was also moderately active against VEE and Tacaribe viruses. The methodology described in this report is applicable for rapid synthesis of many compounds with potential antiviral properties.     

Antiviral activity of 2-amino-4,4alpha-dihydro-4alpha-7-dimethyl-3H-phenoxazine-3-one on poliovirus

2-Amino-4,4alpha-dihydro-4alpha-7-dimethyl-3H-phenoxazine-3-one (Phx), which was produced by the reaction of bovine hemoglobin with 2-amino-5-methylphenol, inhibited the proliferation of poliovirus in Vero cells between 0.25 microg/ml and 2 microg/ml with maximal antiviral acitivity at 1 microg/ml. These results suggest that Phx may be useful to prevent the proliferation of poliovirus infection.     

HSV-2333株在Vero细胞中持续感染及增殖特性研究

[目的]探讨单纯疱疹病毒Ⅱ型（HSV-2）在非洲绿猴肾细胞（Vero细胞）中感染及增殖的特性。【方法】将HSV-2接种于Vero细胞中培养和传代，制备电镜样品观察，于不同时间收获病毒液并测毒力，进行pH值、血清以及在Vero细胞传代、不同感染复数等不同培养条件的摸索。【结果】pH值、残留牛血清是HSV-2在Vero细胞培养的影响因素，最佳收毒时间为36-72h。在Vero细胞上培养病毒3-5代，病毒毒力较高。【结论】建立了HSV-2在Vero细胞上培养增殖的初步方法，为下一步建立HSV-2的潜伏与激发细胞模型打下基础。     

Study on the apparent resistant strains of herpes simplex virus type 1 against 9-beta-D-arabinofuranosyladenine

The appearance of drug resistant strains of herpes simplex virus type 1 (HSV-1) against 9-beta-D-arabinofuranosyladenine (araA), in comparison with 5-iodo-2'-deoxyuridine (IUdR) and 9-(2-hydroxyethoxymethyl)guanine (acycloguanosine, ACG), has been investigated in green monkey kidney cell cultures (Vero) and human embryo lung cell cultures (HEL). Growth curves of HSV-1 in Vero cells and HEL cells in the presence or absence of 20 micrograms/ml of araA showed that not only the viruses produced by these cells in the presence of araA but also the viruses produced in the absence of araA were resistant to the same concentration of araA. However, both viruses were unable to grow in the presence of a combination of 20 micrograms/ml of araA and 3 micrograms/ml of erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) which is an inhibitor of adenosine deaminase. On the other hand, the viruses produced only in the presence of IUdR or ACG were resistant to each drug. All virus clones obtained from five serial clonings in the presence of araA alone or araA and EHNA in combination were not resistant to araA. These results show that the strain of HSV-1 resistant to araA is an apparently resistant strain, and a truly resistant strain to araA may not be established as easily as the truly resistant strains to IUdR and ACG.     

Anti-HSV-1 activity of synthetic humic acid-like polymers derived from p-diphenolic starting compounds

A panel of ten humic-acid-like polymers was synthesized by oxidation of p-diphenolic compounds and characterized by relative molecular weights, FT-IR spectra and functional group analysis. Using the XTT-based tetrazolium reduction assay EZ4U, both the low-molecular starting compounds and the synthesized polymers were examined for antiviral and cytotoxic activities in HSV-1-infected Vero cells. With the exception of hydroquinone, 2,5-dihydroxytoluene and 2,5-dihydroxybenzoquinone, the starting compounds failed to inhibit herpesvirus replication. The polymeric oxidation products, however, developed anti-HSV-1 activity with EC50 values in the range of 0.65 (2,5-DHPOP) and 322 microg/ml (2,5-DHBQOP). The CC50 values of the polymers varied among 32.0 (TMHYDROP) and >512 microg/ml (2,5-DHBQOP, HYDSULFOP). The most effective polymers were found to be 2,5-DHPOP 2,5-DHTOP and GENOP (EC50: 0.65, 1.6 and 2.2 microg/ml, respectively, and SI: > or = 400, > or = 80 and > or = 58, respectively). Functional group analysis revealed that increasing numbers of carboxyl groups together with a high content of hydroxyl groups tend to enhance the antiviral activity of polymers derived from p-diphenolic compounds.     

Sulphated and sulphonated polymers inhibit the initial interaction of hepatitis B virus with hepatocytes

The initial step during hepatitis B virus (HBV) infection is the specific attachment of the virus to the hepatocyte. Here we studied whether the binding of HBV to hepatocytes can, as is the case with most other enveloped viruses, be blocked by polyanionic compounds. Viral particles produced by HepAD38 cells were used as inoculum and HBV-negative HepG2 cells, as well as primary human hepatocytes, as target cells. Three sulphated polymers, that is, PAVAS (a co-polymer of acrylic acid with vinyl alcohol sulphate), heparin and dextran sulphate (DS) (MW 5000), and the sulphonated polymer PAMPS [poly(2-acryl-amido-2-methyl-1-propanesulfonic acid] (MW approximately 7000-12000), proved strong inhibitors of the binding of HBV to HepG2 cells and primary hepatocytes. The 50% effective concentration (EC50) for inhibition of HBV binding to HepG2 cells by PAVAS, heparin, DS and PAMPS was 1.3 microg/ml, 1.6 microg/ml, 1.8 microg/ml and 3.3 microg/ml, respectively, and to primary hepatocytes 1.6 microg/ml (PAVAS), 1.6 microg/ml (heparin), 2.6 microg/ml (DS) and 4.1 microg/ml (PAMPS). These values are in the same range as the concentrations required for these compounds to prevent such viruses as herpesviruses and HIV from binding to cells. These findings may be helpful in elucidating the mechanism of the initial interaction of HBV with hepatocytes.     

Polysaccharides as antiviral agents: antiviral activity of carrageenan.

A number of polysaccharides showed good antiviral activity against several animal viruses. At 5 micrograms/ml, carrageenan prevented the cell monolayer from destruction by herpes simplex virus type 1 (HSV-1) growth. At 10 micrograms/ml, carrageenan reduced the formation of new infectious HSV-1 by almost five logs. No cytotoxic effects were detected with concentrations of carrageenan up to 200 micrograms/ml. When 10 micrograms of carrageenan per ml was added at the beginning of HSV-1 infection of HeLa cells, there was potent inhibition of viral protein synthesis, and the cells continued synthesizing cellular proteins. This did not occur if carrageenan was added 1 h after HSV-1 infection. The use of [35S]methionine-labeled virions to analyze the entry of HSV-1 or Semliki Forest virions into cells indicated that carrageenan had no effect on virus attachment or virus entry. Moreover, carrageenan did not block the early permeabilization of cells to the toxic protein alpha-sarcin. These results suggest that this sulfated polysaccharide inhibits a step in virus replication subsequent to viral internalization but prior to the onset of late viral protein synthesis.     

In vitro activity of polyhydroxycarboxylates against herpesviruses and HIV

The antiviral activity of 17 polyhydroxycarboxylates derived from phenolic compounds was evaluated against herpesviruses and HIV. When present during virus adsorption several of the polymers exhibited potent activity against herpes simplex virus type 1 (HSV-1), HSV-2, thymidine kinase deficient HSV-1, human cytomegalovirus (HCMV) and HIV-1 and HIV-2 at concentrations that were not toxic to the host cells. A close correlation was found between the 50% inhibitory concentrations of the polyhydroxycarboxylates against HCMV-induced cytopathicity, their inhibitory effect on the expression of HCMV-specific immediate early antigens and their inhibitory effects on HCMV adsorption to the cells. The antiviral activity of the phenolic polymers was dependent on the presence of a sufficient number of carboxylic groups. The mechanism of antiviral action of the polyhydroxycarboxylates can thus be ascribed to inhibition of virus adsorption. This type of compound may have potential in a vaginal gel to prevent sexual transmission of HSV and HIV.