Potential use of antiviral agents in polio eradication.In 1988, the World Health Assembly launched the Global Polio Eradication Initiative, which aimed to use large-scale vaccination with the oral vaccine to eradicate polio worldwide by the year 2000. Although important progress has been made, polio remains endemic in several countries. Also, the current control measures will likely be inadequate to deal with problems that may arise in the postpolio era. A panel convoked by the National Research Council concluded that the use of antiviral drugs Antiviral Drugs Definition Antiviral drugs are medicines that cure or control virus infections. Purpose Antivirals are used to treat infections caused by viruses. may be essential in the polio eradication strategy. We here report on a comparative study of the antipoliovirus activity of a selection of molecules that have previously been reported to be inhibitors of picornavirus picornavirus Any of a group of the smallest known animal viruses. (Pico refers to their small size, rna to their core of RNA.) This group of spheroidal viruses includes viruses that attack the vertebrate intestinal tract and often invade the central nervous system as well replication and discuss their potential use, alone or in combination, for the treatment or prophylaxis of poliovirus poliovirus /po·lio·vi·rus/ (pol´-e-o-vi?rus) the causative agent of poliomyelitis, separable, on the basis of specificity of neutralizing antibody, into three serotypes designated types 1, 2, and 3. infection. ********** The Global Polio Eradication Initiative (GPEI GPEI Global Polio Eradication Initiative GPEI Global Phishing Enforcement Initiative (Microsoft) ) was launched by the World Health Assembly 20 years ago. The principal idea behind the GPEI was to eliminate polio worldwide by the year 2000 by means of large-scale vaccination with the oral live attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. polio vaccine (OPV OPV poliovirus vaccine live oral. OPV abbr. oral poliovirus vaccine ) developed by Albert Sabin (1). The GPEI has resulted, since 1988, in a decrease in poliomyelitis poliomyelitis (pō'lēōmī'əlī`tĭs), polio, or infantile paralysis, acute viral infection, mainly of children but also affecting older persons. cases from 350,000 to <2,000 (2,3). Today, poliovirus (PV) is endemic in 4 countries (Nigeria, India, Pakistan, and Afghanistan), whereas the virus was prevalent in > 125 countries at the time the initiative was launched (4). When wild PV transmission has been interrupted, the World Health Organization proposes ending the global routine OPV to prevent the risk for vaccine-associated paralytic paralytic /par·a·lyt·ic/ (par?ah-lit´ik) 1. affected with or pertaining to paralysis. 2. a person affected with paralysis. par·a·lyt·ic adj. 1. poliomyelitis, chronic infection of immunodeficient persons, and the reestablishment of poliomyelitis through circulating vaccine-derived PV (5). A panel was convened by the National Research Council to evaluate the potential for an antiviral drug as one of the tools to minimize poliomyelitis risk after OPV cessation. The conclusion of the panel was that it would be appropriate, and possibly essential, to develop antiviral drugs for PV infection, as an additional tool to address the problems that might arise in the "post-polio" era (6). Antiviral agents do not confer immunity but could be used prophylactically as well as therapeutically. They could protect inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. polio vaccine (IPV IPV poliovirus vaccine inactivated. IPV abbr. inactivated poliovirus vaccine IPV see infectious pustular vulvovaginitis. ) recipients from PV infection, limit spread until immunity can be ensured and help clear vaccine-derived PV from persistently infected persons (7). The ideal drug would be safe, inexpensive, easy to use, stable, and manifest broad activity toward PV strains. To date, few, if any, drug discovery programs for PV have been initiated. Therefore, research initiatives leading to the successful development of anti-PV drugs will have to rely on the current knowledge of existing picornavirus antiviral agents. Antipicornavirus compounds that reached clinical trials are scarce, and despite the fact that some of these drugs have demonstrated activity against certain picornavirus-associated conditions in humans, no specific antipicornavirus agent has yet been approved by the US Food and Drug Administration (FDA FDA abbr. Food and Drug Administration FDA, n.pr See Food and Drug Administration. FDA, n.pr the abbreviation for the Food and Drug Administration. ) (8). A substantial number of small molecule compounds have been reported as potent inhibitors of the replication of picornaviruses in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. (8). These compounds could serve as scaffolds for the development of more potent and selective inhibitors of PV. The information available on their structure-activity relationship and their mechanism of action could be exploited as a solid base for developing a specific anti-PV therapy. We report on a comparative study of a selected series of antipicornavirus drugs for their ability to inhibit PV replication in vitro. The unique aspect of this report lies in the fact that I) certain drugs (e.g., rupintrivir) were specifically developed to treat rhinovirus rhinovirus Any of a group of picornaviruses capable of causing common colds in humans. The virus is thought to be transmitted to the upper respiratory tract by airborne droplets. and other infections and have never been evaluated for their ability to block PV replication and 2) the selected compounds have never been compared in parallel by using the same technique against the 3 vaccine strains. Rationale for Selection of Antipicornavirus Drugs Because this study was triggered by the recognition that antiviral drugs will be needed in the postvaccination era as a countermeasure against the persistence or reemergence in the environment of vaccine-associated virus, we decided to confine our study to the 3 Sabin Sa·bin , Albert Bruce 1906-1993. American microbiologist and physician who developed a live-virus vaccine against polio (1957), replacing the killed-virus vaccine invented by Jonas Salk. strains used for vaccination. The aim was to include compounds that act on different targets in the picornavirus replication cycle (preferably 1 or 2 compounds per target) (Figure 1). When a rather large number of molecules had been described that act through the same target (e.g., for the capsid capsid /cap·sid/ (kap´sid) the shell of protein that protects the nucleic acid of a virus; it is composed of structural units, or capsomers. cap·sid n. binding agents), we selected those compounds that were in the most advanced state of development and preferably had been studied in a clinical setting. When only 1 or a few compounds had been described for a particular target (for example, with enviroxime, the sole protein 3A-targeting drug reported so far), the impact in the clinical setting was considered less important. Ribavirin ribavirin /ri·ba·vi·rin/ (ri?bah-vi´rin) a broad-spectrum antiviral used in the treatment of severe viral pneumonia caused by respiratory syncytial virus, particularly in high-risk infants; also used in conjunction with interferon was included as a reference standard, since it was regarded as a broad-spectrum inhibitor of positive-strand RNA viruses RNA viruses, n See viruses. . [FIGURE 1 OMITTED] Methods The antiviral and cytotoxic activities of the selected compounds were initially determined by means of a cell protection assay. In this assay, a soluble tetrazolium compound (3-[4,5-dimethylthiazol-2-yl]-5-[3-carboxymethoxyphenyl] -2-[4-sulfophenyl]-2H-tetrazolium [MTS (1) See Microsoft Transaction Server. (2) (Modular TV System) The stereo channel added to the NTSC standard, which includes the SAP audio channel for special use. 1. MTS - Message Transport System. 2. ]), when used in combination with an electron transfer reagent (phenazine phen·a·zine also phen·a·zin n. A yellow crystalline compound, C6H4N2C6H4, used in the manufacture of dyes. phenazine 1. methosulfate [PMS (Pantone Matching System) A color matching system that has a unique number assigned to more than 500 different colors and shades. This standard for the printing industry has been built into many graphics and desktop publishing programs to ensure color accuracy. ]) is bioreduced by viable cells in culture, a reaction that is colorimetrically quantified. The antiviral and cytotoxic activities were expressed as mean effective concentration ([EC.sub.50], the compound concentration that inhibits virus-induced cytopathic effect [CPE (Customer Premises Equipment) Communications equipment that resides on the customer's premises. CPE - Customer Premises Equipment ] formation by 50%) and 50% cytotoxic concentration ([CC.sub.50]). Therapeutic indexes (TIs) were expressed as the ratio between the [CC.sub.50] and the [EC.sub.50]. Briefly, HeLa cells HeLa cells cells of the first continuously cultured carcinoma strain, descended from a human cervical carcinoma; used in the study of life processes, including viruses, at the cell level. (ATCC ATCC American Type Culture Collection, see there CCL-2), grown to confluency in 96-well plates, were infected with 100 50% cell culture infectious doses of virus. After an adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). period of 2 hours at 37[degrees]C, unadsorbed virus was removed and serial dilutions of the compounds were added. The cultures were further incubated at 37[degrees]C for 3 days, until complete CPE was observed in the infected and untreated virus control. For cytotoxicity determination, uninfected cultures were incubated with dilution series of compound for 3 days at 37[degrees]C. After removal of the medium, 90 [micro]L medium and 10 [micro]L MTS/PMS (Promega, Leiden, the Netherlands) were added to each well; after an incubation period incubation period n. 1. See latent period. 2. See incubative stage. Incubation period of 2 hours at 37[degrees]C, the optical density of each well was read at 498 nm in a microplate reader. [EC.sub.50] values were calculated as previously described (9). Results Capsid-binding Agents One of the best studied targets for antiviral therapy in picornaviruses is a hydrophobic pocket underneath the canyon floor that surrounds each 5-fold axis of the the diameter of the sphere which is perpendicular to the plane of the circle. See also: Axis viral capsid. Binding of specific inhibitors into this pocket increases virion virion Entire virus particle, consisting of an outer protein shell (called a capsid) and an inner core of nucleic acid (either RNA or DNA). The core gives the virus infectivity, and the capsid provides specificity (i.e., determines which organisms the virus can infect). rigidity, thus inhibiting attachment or disassembly dis·as·sem·ble v. dis·as·sem·bled, dis·as·sem·bling, dis·as·sem·bles v.tr. To take apart: disassemble a toaster. v.intr. 1. of the viral particle after receptor binding (10). Consequently, the release of the viral genome into the host cell is prevented and viral replication is inhibited. Two of the most extensively characterized series of capsid-binding agents are the so-called WIN compounds, developed by Sterling Winthrop (New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of , NY, USA), and a series of pyridazine analogs developed by the Janssen Research Foundation (Beerse, Belgium). The prototypes of these series are pleconaril (11) and pirodavir (12), respectively. In clinical studies, pleconaril was a promising candidate for treating the common cold, but it was disapproved by the FDA in 2002, mainly because of possible interactions with other drugs, including those for birth control. Soon thereafter, pleconaril was licensed to Schering-Plough, which in 2007 completed a phase II clinical trial Noun 1. phase II clinical trial - a clinical trial on more persons than in phase I; intended to evaluate the efficacy of a treatment for the condition it is intended to treat; possible side effects are monitored phase II to study the effects of pleconaril nasal spray on common cold symptoms and asthma exacerbations following human rhinovirus (HRV HRV Croatia (ISO Country code) HRV Heart Rate Variability HRV Human Rhinovirus HRV Heat Recovery Ventilator HRV High Resolution Visible HRV Haute Resolution Visible HRV Hypersonic Research Vehicle HRV Hercules Recovery Vehicle ) exposure. Meanwhile, pleconaril is still being used successfully on a compassionate basis for treating life-threatening enterovirus infections Enterovirus Infections Definition Enteroviruses are so named because they reproduce initially in the gastrointestinal tract after infection occurs. in children (13). Notably, it was effective in stopping virus excretion in a child persistently infected with PV, when combined with gamma globulin-mediated virus clearance (14). In another trial with a persistently infected person, however, treatment produced no benefit (7). Intranasal in·tra·na·sal adj. Within the nose. pirodavir (R77975) was active in some clinical trials of human experimental rhinovirus infections, but lack of therapeutic efficacy and metabolic instability after oral administration halted further development. As shown in the Table, pleconaril and pirodavir, as well as a pirodavir analog (R78206) (15) inhibited PV2 and PV3 replication with [EC.sub.50] values <2 [micro]mol/L and TIs of 60 to >179. However, only R78206 exhibited inhibitory activity against PV1. Pirodavir proved 5- to 20-fold less active on PV 1 replication, and pleconaril was inactive up to the highest concentration tested. Protease Inhibitors Protease Inhibitors Definition A protease inhibitor is a type of drug that cripples the enzyme protease. An enzyme is a substance that triggers chemical reactions in the body. A second approach to inhibiting PV replication is by targeting the virus-encoded proteases 2A and/or 3C. These enzymes cleave cleat, cleave claw of any cloven-footed animal. the single polyprotein, encoded by the PV genome, into mature proteins. Rupintrivir (AG-7088, Pfizer, New York, NY, USA) is an irreversible inhibitor of the 3C function (16,17). Despite some successful trials in patients that were experimentally infected with HRV, rupintrivir was not able to mitigate disease severity in studies of natural rhinovirus infection, and clinical development was stopped (18). Further efforts by Pfizer resulted in the development of compound 1, an inhibitor with a similar mechanism of action and with an excellent oral bioavailability bioavailability /bio·avail·a·bil·i·ty/ (bi?o-ah-val?ah-bil´i-te) the degree to which a drug or other substance becomes available to the target tissue after administration. bi·o·a·vail·a·bil·i·ty n. (18). Both compounds inhibited all 3 PV strains with [EC.sub.50]s <1 [micro]mol/L and TIs of >322 to >19,230 (Table). Rupintrivir was the most potent compound of the selected series with [EC.subl.50] values in the nanomolar range (5-40 nmol/L) against each of the 3 tested PV strains (Table). Protein 3A Inhibitors Enviroxime is a benzimidazole ben·zim·id·az·ole n. A crystalline compound that is used in organic synthesis and that inhibits the growth of certain microorganisms and parasitic worms. benzimidazole a group of compounds with anthelmintic properties. derivative that inhibits the replication of enteroviruses Enteroviruses Viruses which live in the gastrointestinal tract. Coxsackie viruses, viruses that cause hand-foot-mouth disease, are an enterovirus. Mentioned in: Hand-Foot-and-Mouth Disease and rhinoviruses in vitro by targeting the nonstructural protein 3A (19,20). Enviroxime inhibited the replication of all 3 strains of PV, with [EC.sub.50] values of 35-200 nmol/L and TIs of 290-1,657 (Table). Previous in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. studies with enviroxime, however, have shown toxicity and only weak to moderate activity, due to poor solubility and pharmacokinetics (21-24). Structural derivatives of enviroxime such as the [C.sub.2]- and vinylacetylene analogs were reported to have a better oral bioavailability and pharmacologic profile (25,26) and may therefore be considered as leading candidates for further development. Nucleoside Analogs The nucleoside analog ribavirin is an antiviral drug with broad-spectrum activity against RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic and DNA viruses. Ribavirin is used in combination with interferon in the treatment of hepatitis C virus
abbr. hepatitis C virus HCV 1 Hepatitis C virus, see there 2. Human coronavirus. See Coronavirus. ) infection (27) and as an aerosol to treat respiratory syncytial virus infections in children (28). As expected, ribavirin proved to be a weak inhibitor of PV replication with [EC.sub.50] values of 50-60 [micro]mol/L (TIs >1.6). Valopicitabine is the oral valine valine (văl`ēn), organic compound, one of the 22 α-amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. ester prodrug of another nucleoside analog, 2'-C-methylcytidine. The 5'-triphosphate of 2'-C-methylcytidine is an inhibitor of HCV polymerase (29). Clinical development of valopicitabine for the treatment of HCV infection was recently stopped, mainly because of gastrointestinal side effects Side effects Effects of a proposed project on other parts of the firm. . The compound was shown to exhibit relatively broad-spectrum activity against positive-sense single-stranded RNA viruses, including inhibition of the replication of foot-and-mouth-disease virus (30). It can be assumed that the mechanism by which 2'-C-methylcytidine inhibits picornaviruses is also by inhibition of the viral polymerase. As shown in the Table, 2'-C-methylcytidine inhibited the replication of PV strains with [EC.sub.50] values of 3.9-29 [micro]mol/L (TIs >3.4 - >25.6). The adenosine adenosine /aden·o·sine/ (ah-den´o-sen) a purine nucleoside consisting of adenine and ribose; a component of RNA. It is also a cardiac depressant and vasodilator used as an antiarrhythmic and as an adjunct in myocardial perfusion imaging analog of valopicitabine, as well as another nucleoside analog, 4'-azidocytidine (a potent inhibitor of HCV replication) were also included in this study. 2'-C-methyladenosine proved equipotent Adj. 1. equipotent - having equal strength or efficacy potent, stiff, strong - having a strong physiological or chemical effect; "a potent toxin"; "potent liquor"; "a potent cup of tea", "a stiff drink" ([approximately equal to]5 [micro]mol/L) against all 3 PV strains; whereas 4'-azidocytidine proved inactive (Table). Protein 2C Inhibitors MRL-1237 and 2-([alpha]-hydroxybenzyl)-benzimidazole (HBB HBB Home Based Business HBB Human Beat Box (vocal percussion) HBB Hot Bi Babe (polyamory) HBB Hemoglobin--beta Locus HBB Hot Beverage Bag (US Army) HBB Hemoglobin B ) are inhibitors that target the enteroviral nonstructural protein 2C (31,32). MRL-1237 showed antiviral activity against PV strains 1, 2, and 3 with TIs >19. HBB appeared to be a weak inhibitor of PV replication with [EC.sub.50]s of 200-300 [micro]mol/L and TIs >1.3. Compounds with Unknown Mechanism of Action Compound MDL-860 was discovered as a broadspectrum inhibitor of picornavirus replication, although the precise mechanism of antiviral activity has never been unraveled (33). The anti-PV activity of MDL-860 proved comparable to that of the 2C inhibitor MRL-1237. To further confirm the activity observed in the CPE reduction assays, infectious virus yield reduction assays were carried out on the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. of PV1-infected cultures. As depicted in Figure 2, rupintrivir, the most active compound in the CPE reduction assay, caused a 6-[log.sub.10] decrease of infectious virus production at 100 [micro]mol/L, and reduced virus progeny formation 10-1,000-fold at concentrations of 10-100 nmol/L. Conversely, pleconaril, which did not protect against PV1-induced CPE formation, was not able to reduce infectious virus yield. A similar correlation between CPE formation and infectious virus production was observed for all other compounds included in the study (data not shown). Discussion and Perspectives From our comparative study, rupintrivir and its analog compound 1 emerged as highly potent and broad-spectrum anti-PV compounds, without any signs of cytotoxicity up to the highest concentrations tested. The in vitro activity of these protease inhibitors against PV is comparable to their activity against various strains of HRV, the virus against which the compounds were originally developed (17,35). Given the excellent oral bioavailability (35) and its favorable pharmacokinetic profile, compound 1 may be an attractive candidate for further study for the treatment and prophylaxis of PV infection. The pirodavir analog R78206 also displayed potent, broad-spectrum activity against PV. As was the case with rupintrivir, pirodavir did not appear to offer sufficient potential for treating HRV infection and was not further developed. The compound, however, was well tolerated; thus, pirodavir (and its analogs) may, alone or combined with other antiviral agents, open perspectives for treating PV infection. One major problem with pirodavir and its analog, however, is the poor pharmacokinetic profile after systemic dosing due to hydrolysis hydrolysis (hīdrŏl`ĭsĭs), chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. of the ester bond. Orally bioavailable analogs of pirodavir were developed at Biota (Melbourne, Victoria, Australia) but appeared to have a limited activity toward PV strains (36). Another compound that has undergone extensive clinical evaluation for enteroviral infections is pleconaril. The compound is relatively potent in inhibiting PV2 and PV3 replication, but has no activity against PV1, which limits its potential for PV. Besides pleconaril and pirodavir (analog), several other potent capsid-binding agents have been reported (reviewed in [8]). [FIGURE 2 OMITTED] Enviroxime, discovered in 1980, which exhibits potent anti-PV activity, was not developed because of unfavorable pharmacokinetics. However, a further exploration of the potential of enviroxime analogs could be worthwhile, in an attempt to improve the activity, selectivity, and in particular, the pharmacokinetic profile (25,26). Compounds that have been less well characterized but that still may form a starting point for the synthesis of more potent and selective inhibitors of PV replication are MRL-1237 and MDL-860. Unraveling the precise mode of antiviral activity and the molecular interaction with their antiviral target may allow structure-based drug design. Nucleoside polymerase inhibitors that have been developed for treating HCV infection may also have the potential to inhibit other single-stranded positive-sense RNA viruses. Here we demonstrate that the active component of the anti-HCV drug valopicitabine inhibits the replication of all 3 PV strains. If such a drug becomes available for treating HCV infections, it could also be used "off-label" to treat PV infection. However, 4'-azidocytidine, a potent inhibitor of HCV replication (37), was devoid of anti-PV activity up to the highest concentrations tested. As reported before and confirmed here, ribavirin proved to be a relatively weak inhibitor of PV replication (TIs >1.8). Although ribavirin has limited activity against HCV when used as monotherapy, its potency is markedly increased when it is given in combination with pegylated interferon. Since extensive clinical experience exists regarding the use of ribavirin in treating HCV infection, it may be possible and beneficial to explore the potential of the combined use of ribavirin with drugs such as rupintrivir, pirodavir, or their analogs. Because of the high mutation rate of the viral RNA-dependent RNA polymerase, drug-resistant PV mutants have been readily selected in cell culture (32,38). The possibility that the use of antiviral drugs to treat polio would result in the appearance of drug-resistant variants cannot therefore be excluded. It should be noted, however, that the most potent inhibitors of in vitro PV replication that we identified here (the 3C inhibitors rupintrivir and compound 1, the capsid binders R78206 and pleconaril, and the 3A inhibitor enviroxime), act on different targets in the viral replication cycle. The use in combination of drugs with different modes of action will likely delay or prevent the emergence of drug-resistant variants. Moreover, the period of treatment during an acute PV outbreak would likely be much shorter than treatment regimens for such chronic infections as HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. or HCV, reducing the chance that drug-resistant strains will emerge. As highlighted earlier, the need for adequate antiviral drugs against PV (most likely in combination with IPV) in the final stages of polio eradication is obvious. In a recent report from the World Health Organization (39), an advisory committee concurred with the proposal to establish a "PV antiviral initiative," to take forward the key recommendations proposed during the National Research Council meeting on antiviral agents against PV. In the present study, several drugs, some of which have been (rupintrivir, pirodavir, valopicitabine, compound 1) or are being (pleconaril) studied in the clinical setting, are reported to inhibit the in vitro replication of PVs to varying degrees. These drugs, used alone or in combination, may have potential for the treatment or prophylaxis of PV infections. These and other compounds may serve as starting points for the design of more potent PV inhibitors with favorable safety and pharmacokinetic profiles. Acknowledgments We thank Elite Ehrenfeld for motivating J.N. to initiate this study. We also thank Mike Bray and Ellie Ehrenfeld for critical reading of the manuscript. This work was supported by the VIZIER vizier Arabic wazir Chief minister of the 'Abbasid caliphs and later a high government official in various Muslim countries. The office was originally held and defined by the Barmakids in the 8th century; they acted as the caliph's representative to the EU FP7-Integrated Project (ESHG-CT-2004-51196) and VIRGIL (European surveilance network for vigilance against viral resistance). Mr De Palma Palma or Palma de Mallorca (päl`mä thā mälyôr`kä), city (1990 pop. 325,120), capital of Majorca island and of Baleares prov., Spain, on the Bay of Palma. is a doctoral candidate in the Virology virology, study of viruses and their role in disease. 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Table. Inhibitory activity of selected compounds against replication
of poliovirus Sabin strains 1, 2, and 3 in HeLa cells, as determined
by a CPE reduction assay *
[EC.sub.50] ([micro]mol/L)
Compound PV1 PV2
Capsid binders
Pirodavir analog
(R78206) 0.76 [+ or -] 0.18 0.22 [+ or -] 0.19
Pleconaril >100 1.1 [+ or -] 0.6
Pirodavir (R77975) 10 [+ or -] 1 1.7 [+ or -] 0.1
Protease inhibitors
Rupintrivir 0.022 [+ or -] 0.028 0.041 [+ or -] 0.024
Compound 1 0.26 [+ or -] 0.24 0.31 [+ or -] 0 .21
3A inhibitor
Enviroxime 0.2 [+ or -] 0.25 0.056 [+ or -] 0.020
Nucleoside analogs
Ribavirin 57 [+ or -] 13 64 [+ or -] 4
2'-C-methylcytidine
([dagger]) 15 [+ or -] 18 29 [+ or -] 27
2'-C-methyladenosine 5.5 [+ or -] 0.0 5.6 [+ or -] 0.1
4'-azidocytidine >100 >100
2C inhibitors
HBB 300 [+ or -] 68 225 [+ or -] 128
MRL-1237 5.3 [+ or -] 0.3 4.6 [+ or -] 1.4
Unknown target
MDL-860 6.0 [+ or -] 1.6 3.6 [+ or -] 2.2
[EC.sub.50]
([micro]mol/L) Toxicity
([CC.sub.50];
Compound PV3 [micro]mol/L)
Capsid binders
Pirodavir analog
(R78206) 0.11 [+ or -] 0.10 27 [+ or -] 34
Pleconaril 0.22 [+ or -] 0.15 66 [+ or -] 6
Pirodavir (R77975) 0.56 [+ or -] 0.03 100
Protease inhibitors
Rupintrivir 0.0052 [+ or -] 0.0046 100
Compound 1 0.060 [+ or -] 0 .000 100
3A inhibitor
Enviroxime 0.035 [+ or -] 0.029 58 [+ or -] 6
Nucleoside analogs
Ribavirin 55 [+ or -] 7 100
2'-C-methylcytidine
([dagger]) 3.9 [+ or -] 2.3 100
2'-C-methyladenosine 5.4 [+ or -] 0.4 84 [+ or -] 0
4'-azidocytidine >100 >100
2C inhibitors
HBB 295 [+ or -] 88 >400
MRL-1237 3.8 [+ or -] 2.5 >100
Unknown target
MDL-860 2.2 [+ or -] 1.5 >100
Compound TI (min-max)
Capsid binders
Pirodavir analog
(R78206) 35-245
Pleconaril <0.66-300
Pirodavir (R77975) >10->179
Protease inhibitors
Rupintrivir >2,439->19,231
Compound 1 >322->1,667
3A inhibitor
Enviroxime 290-1,657
Nucleoside analogs
Ribavirin >1.6->1.8
2'-C-methylcytidine
([dagger]) >3.4->26
2'-C-methyladenosine 15
4'-azidocytidine ><1
2C inhibitors
HBB >1.3->1.8
MRL-1237 >19->26
Unknown target
MDL-860 >17->45
* CPE, cytopathic effect; [EC.sub.50], 50% effective concentration;
[CC.sub.50], 50% cytotoxic concentration; PV, poliovirus; TI,
therapeutic index ([CC.sub.50]/[EC.sub.50]), minimum; max, maximum;
HBB, 2-([alpha]-hydroxybenzyl)-benzimidazole.
([dagger]) Valopicitabine (oral valine ester prodrug of
2'-C-methylcytidine).
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