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Pleconaril

Pleconaril is an experimental oral with the C<sub>18</sub>H<sub>18</sub>F<sub>3</sub>N<sub>3</sub>O<sub>3</sub>, designed to inhibit replication of viruses in the Picornaviridae family, particularly enteroviruses and rhinoviruses, by binding to a hydrophobic pocket in the viral and inducing conformational changes that disrupt receptor binding and uncoating. Developed jointly by ViroPharma and Sanofi-Synthélabo (formerly Sterling Winthrop) in the late , pleconaril demonstrated promising efficacy in early clinical trials for treating picornavirus-induced respiratory infections, such as the , by significantly reducing symptom duration and severity in adults when administered early. It also showed activity against severe enteroviral conditions, including and syndrome in neonates, positioning it as a potential candidate for life-threatening infections. Despite these results, pleconaril's development was discontinued in 2002 after the U.S. (FDA) declined approval for treatment due to safety concerns, including induction of the —which could interact with oral contraceptives—and common side effects such as headache, diarrhea, and nausea. It received designation in 2014 for certain rare enteroviral infections but remains unapproved for any indication. As of 2025, ongoing research includes three-year follow-up data showing reduced decline in in patients treated with pleconaril and , and synergistic combinations with other antivirals like rupintrivir and mindeudesivir for EV-D68 and other enteroviruses.

Background

Description and properties

Pleconaril is a small-molecule antiviral agent belonging to the class, specifically designed as an orally administered targeting non-enveloped viruses within the Picornaviridae family. Its is C<sub>18</sub>H<sub>18</sub>F<sub>3</sub>N<sub>3</sub>O<sub>3</sub>, with a molecular weight of 381.35 g/mol. Physically, pleconaril appears as a white to off-white crystalline solid, with a of 61–62°C and a of approximately 1.271 g/cm³; it exhibits poor in (less than 0.1 mg/mL) but is soluble in organic solvents such as DMSO (up to 100 mg/mL). Due to its low aqueous , pleconaril is typically formulated for as 200 mg hard capsules or as an oral solution/suspension at concentrations around 40 mg/mL.

Target pathogens

Pleconaril is primarily targeted at members of the Picornaviridae family, particularly viruses within the genus, such as coxsackieviruses, echoviruses, and polioviruses, as well as the genus, which is the predominant cause of the . These non-enveloped, positive-sense single-stranded viruses lack effective antiviral therapies, making pleconaril a candidate for addressing infections ranging from mild respiratory illnesses to severe conditions like and . The drug exhibits broad-spectrum activity against picornaviruses, inhibiting over 90% of the 101 known rhinovirus serotypes and more than 99% of clinical isolates in vitro at achievable concentrations of 2–3 μg/mL. Specifically, pleconaril demonstrates potent inhibition of with IC<sub>50</sub> values typically ranging from 0.01 to 1 μg/mL (approximately 0.02–2 μM) for susceptible strains across these genera, reflecting its efficacy against representative examples like A9 (IC<sub>50</sub> 0.005 μM) and echovirus 11 (MIC<sub>90</sub> 0.02 μM). Despite this specificity, pleconaril's spectrum is limited to non-enveloped picornaviruses and shows no activity against enveloped viruses or other non-picornaviral pathogens, such as influenza viruses or herpesviruses, due to its targeted capsid-binding mechanism. This narrow focus underscores its development to fill unmet medical needs in treating non-polio enteroviral diseases, which cause significant morbidity in immunocompromised patients, and rhinoviral infections, which are linked to exacerbations in vulnerable populations.

Development and history

Discovery and preclinical studies

Pleconaril, known chemically as WIN 63843, emerged from a series of capsid-binding antiviral compounds developed at Sterling Winthrop Research Institute starting in the late 1970s. Initial efforts focused on identifying inhibitors of picornavirus replication, beginning with the discovery of arildone (WIN 38020) in 1979, which targeted the viral capsid and demonstrated activity against poliovirus and related enteroviruses in early in vitro screens. Through iterative chemical optimization, researchers synthesized and tested hundreds of analogs, refining structural features such as isoxazole and oxadiazole moieties to enhance binding affinity to the hydrophobic pocket in the VP1 capsid protein. This lead optimization process, spanning the 1980s, culminated in pleconaril's identification as a broad-spectrum candidate by the early 1990s, with a U.S. patent application filed on April 15, 1992, by inventors Guy D. Diana and Theodore J. Nitz, assigned to Sterling Winthrop Inc. (later transferred to Sanofi following the 1994 acquisition). Preclinical studies confirmed pleconaril's potent inhibition of and replication across diverse serotypes. For instance, it exhibited submicromolar values against 214 of 215 clinical isolates, with particularly strong activity against 11 ( ≤ 0.02 μM), preventing viral uncoating by stabilizing the . These assays, conducted in cell cultures such as and , highlighted its broad-spectrum potential while showing minimal at effective concentrations. Early challenges included improving oral , as initial analogs suffered from poor ; structural modifications, such as incorporating a propyl linker between the phenoxy and isoxazole groups, addressed this by enhancing without compromising potency. In animal models, pleconaril demonstrated efficacy in reducing and disease severity. Oral administration in suckling mice infected with A9 reduced mortality by up to 90% at doses of 200 mg/kg/day and lowered viral titers in tissues by 1–4 log10. Similar protective effects were observed in weanling mice with A21 and adult mice with B3, where treatment decreased heart and viral loads by 4–7 log10 and alleviated symptoms of enteroviral , such as and . These studies, performed in the late 1990s, supported progression to human trials after ViroPharma acquired U.S. and Canadian rights in 1995, following screening of over 200 optimized analogs.

Regulatory and approval status

Pleconaril was submitted for approval by ViroPharma as a (NDA) to the U.S. (FDA) in 2001 for the treatment of the caused by picornaviruses. The FDA advisory rejected the application in 2002, citing insufficient evidence of clinical efficacy and safety concerns, particularly its induction of cytochrome P450 3A4 (CYP3A4), which could lead to significant drug interactions. Following the rejection, ViroPharma re-licensed rights to an intranasal formulation of pleconaril to in 2003, with the company exercising its option in 2004 to pursue further development and commercialization in the U.S. and . conducted a phase II in 2007 evaluating the intranasal form for symptoms and exacerbations, but the program did not advance to further regulatory submission, and oral pleconaril development was discontinued. As of 2025, pleconaril has not received full marketing approval in the United States or any other country. Despite the lack of approval, pleconaril has been accessible through the FDA's program (formerly known as compassionate use) for treating severe, life-threatening enteroviral infections, such as and chronic , where no other options exist. Over 300 patients have received pleconaril under this program for documented enteroviral infections by 2021, with favorable outcomes reported in many cases of immunocompromised or patients. Pleconaril retains (IND) status with the FDA, supporting ongoing research including its 2014 orphan drug designation for symptomatic enteroviral infection in neonates. It remains unavailable for commercial use but can be obtained through manufacturer-sponsored protocols for eligible severe cases.

Pharmacology

Mechanism of action

Pleconaril exerts its antiviral activity by binding to a conserved hydrophobic pocket located beneath the canyon region on the surface of the protein in picornaviruses. This pocket, situated within the β-barrel domain of , is typically occupied by a sphingosine-like known as the "pocket factor," which helps stabilize the viral during maturation. Upon binding, pleconaril displaces this pocket factor and occupies the site with its core and extended heterocyclic rings, fitting snugly due to favorable hydrophobic interactions and hydrogen bonding with residues such as Tyr152. studies, including structures deposited in the (e.g., PDB ID: 1C8M for human 16 complexed with pleconaril from 1999), reveal that the drug induces minor conformational shifts in the protein, with root-mean-square deviations typically less than 0.8 Å in 16, thereby rigidifying the structure. By filling the pocket, pleconaril stabilizes the viral against conformational changes necessary for uncoating, preventing the release of the viral into the host . This stabilization inhibits the acid-induced transition from the native A particle to the altered B or C particle forms that occurs in the acidic environment of endosomes following . Although pleconaril can alter the virus's interaction with host receptors by modifying region's flexibility, it does not directly block viral attachment to the surface or subsequent replication processes. Instead, its primary inhibitory effect occurs post-attachment and pre-replication, specifically by maintaining integrity during the endosomal acidification step, thereby trapping the within the intact virion. Structural analyses confirm that pleconaril's binding orientation— with its isoxazole ring near the pocket entrance and the trifluoromethyl-substituted phenyl ring deeper within—optimizes occupancy and enhances capsid compression, contributing to the drug's broad-spectrum activity against various picornaviruses. These insights from crystallographic data underscore how pleconaril mimics and displaces the natural pocket factor to lock the capsid in a non-infectious conformation, effectively halting the early stages of viral infection without interfering with later replication events.

Pharmacokinetics

Pleconaril exhibits rapid oral absorption, with peak plasma concentrations (C<sub>max</sub>) of approximately 1.1–2.4 μg/mL achieved 1.5–5 hours after single doses of 200–400 mg in adults. The absolute oral bioavailability is about 70% when administered in the fed state, and food intake significantly enhances absorption by approximately 2.2-fold compared to fasting conditions, primarily by increasing the extent rather than the rate of uptake. Following absorption, pleconaril is widely distributed throughout the body, including key tissues such as the , liver, nasal secretions, and (CNS). The volume of distribution is approximately 1.9 L/kg, and the drug is highly bound to proteins (>99%). It demonstrates excellent penetration into the CNS, with concentrations in tissue several-fold higher than in serum, although free unbound levels in may be lower due to extensive protein binding. Pleconaril undergoes primary hepatic metabolism, predominantly via the 3A4 () enzyme, producing inactive metabolites. The drug acts as an inducer of , leading to autoinduction upon repeated dosing that can reduce its own plasma concentrations by enhancing clearance. This induction effect persists for at least 6 days after discontinuation but resolves within 13 days. Elimination of pleconaril occurs primarily through biliary and fecal excretion, with approximately 80% of an oral dose recovered in within 48 hours and the remainder via urine. The apparent elimination half-life following a single dose averages 6–7 hours in fed adults, though it may shorten with chronic administration due to autoinduction. No specific dose adjustments are required for mild renal or hepatic impairment based on available data.

Clinical studies

Trials for picornaviral infections

Pleconaril underwent Phase III clinical trials in the late 1990s and early 2000s for the treatment of common colds caused by rhinoviruses, involving over 2,000 adult participants across two multicenter, double-blind, randomized, -controlled studies. In these trials, patients received 400 mg of oral pleconaril three times daily for 5 days, starting within 24 hours of symptom onset. The primary endpoint was the time to complete resolution of symptoms, with secondary measures including symptom severity and . Pleconaril reduced the median duration of illness by approximately 1 day compared to (from about 7 days to 6 days; P < 0.001) and decreased symptom severity scores by 19% by day 2 (P < 0.05), though benefits were primarily observed in picornavirus-confirmed cases. Viral load in nasopharyngeal samples showed a greater median percentage reduction by day 3 in the treatment group versus (97.7% vs. 90.3%; P < 0.001). However, trials for rhinovirus prevention, such as a nasal spray formulation, did not demonstrate statistically significant reductions in infection rates or symptom prevention. For enteroviral infections, pleconaril was evaluated in a Phase II/III analysis of two placebo-controlled trials focusing on meningitis in adults and children, with 240 confirmed enterovirus-positive cases out of 607 randomized patients. Dosing was 200 mg orally three times daily for 7 days. The key endpoint was time to resolution of headache, a primary symptom of meningitis. Overall, there was no significant difference in median time to headache resolution (P = 0.15), but subgroups with moderate to severe nausea or high baseline headache scores showed reductions of 1 to 2.5 days (e.g., 7 days vs. 9.5 days for nausea subgroup; P = 0.009). A separate double-blind trial in infants ≤12 months with suspected enteroviral meningitis (n=21 evaluable, 20 confirmed) used 5 mg/kg orally three times daily for 7 days but found no significant differences in symptom duration, hospitalization length, or viral clearance from cerebrospinal fluid via culture or PCR. In neonates with enterovirus sepsis, a randomized, double-blind, placebo-controlled trial (n=61; 43 pleconaril, 18 placebo) administered 5-8.5 mg/kg orally every 8 hours for 7 days. The primary endpoint of oropharyngeal culture positivity on day 5 was negative in both groups (0%), but pleconaril showed a non-significant trend toward faster time to culture negativity (median 4 vs. 7 days; P = 0.08) and reduced PCR positivity at final sampling (23% vs. 58%; P = 0.02), with a non-significant trend toward lower mortality (23% vs. 44% in intent-to-treat; P = 0.02 overall but P = 0.26 for confirmed cases). Compassionate use data from a registry of 38 patients with potentially life-threatening enteroviral infections, including neonatal sepsis cases, reported an 80% clinical response rate, with virological clearance in 92% of assessed cases and improved survival in severe presentations like hepatitis and myocarditis. Outcomes indicated marginal efficacy for mild picornaviral infections such as common colds but more promising results for severe enteroviral cases, including chronic meningoencephalitis in immunocompromised patients, where symptom resolution and viral suppression were observed in up to 75% of treated individuals. These trial results contributed to regulatory challenges, as the modest benefits for common colds did not meet approval thresholds despite antiviral activity.

Trials for other indications

Pleconaril has been investigated in phase II clinical trials during the 2000s for its potential to mitigate asthma exacerbations associated with rhinovirus infections, a common picornavirus trigger. In a randomized, double-blind, placebo-controlled study involving asthmatic participants exposed to rhinovirus (NCT00394914), intranasal pleconaril was evaluated for reducing exacerbation frequency during the cold season. In a phase II trial (n=311) of intranasal pleconaril in asthmatic participants with rhinovirus exposure, there was no significant reduction in exacerbation frequency (p=0.425) compared to placebo, but the trial and broader development program were halted due to regulatory and safety concerns related to the compound's overall profile. More recently, a phase II randomized trial (DiViD intervention study) assessed pleconaril in combination with ribavirin for new-onset type 1 diabetes (T1D) in children and adolescents, hypothesizing an enteroviral role in disease etiology. Conducted in 96 participants aged 6-15 years, the 26-week treatment preserved stimulated C-peptide levels—a key marker of beta-cell function—at 12 months (mean 0.55 pmol/mL in the treatment group vs. 0.39 pmol/mL in placebo; adjusted mean difference 0.057, 95% CI 0.004-0.11, P=0.037), with a relative decline of 11% versus 24% in the placebo group. These findings, published in Nature Medicine, suggest antiviral therapy may slow beta-cell loss in early T1D. A three-year follow-up of the DiViD study showed no significant difference in C-peptide levels at 3 years (treatment 0.25 vs. placebo 0.17 pmol/ml; P=0.12), indicating the initial benefits were not sustained long-term. Exploratory small-scale studies in the 2010s have examined pleconaril for polio-like (AFM), a severe enteroviral condition, though evidence remains limited to preclinical analogs and case observations rather than dedicated trials. Anecdotal benefits have also been noted in immunodeficient patients with persistent enteroviral shedding, such as those with or experiencing chronic meningoencephalitis; compassionate use of pleconaril led to viral clearance and clinical improvement in isolated cases without large randomized controlled trials. As of 2025, investigational new drug applications support ongoing trials of pleconaril for T1D preservation and severe enteroviral diseases. No phase III trials have advanced for non-picornaviral indications due to challenges in establishing broader efficacy.

Resistance and limitations

Viral resistance mechanisms

Pleconaril inhibits picornaviruses by binding to a hydrophobic pocket in the VP1 capsid protein, and viral resistance primarily arises from point mutations in the VP1 gene that alter this pocket, thereby reducing the drug's binding affinity. In human rhinoviruses, naturally resistant strains often feature substitutions at VP1 residues 152 (tyrosine to phenylalanine) and 191 (valine to leucine), which sterically hinder pleconaril integration into the pocket; experimental substitution of valine 191 to leucine in susceptible HRV-14 reduces susceptibility, while the double mutation confers full resistance. Acquired resistance involves similar pocket alterations, with clinical isolates showing mutations at various VP1 sites such as 98, 124, 142, and 191, leading to decreased drug efficacy. In vitro studies using engineered mutants of rhinoviruses demonstrate resistant variants with 10- to 40-fold higher IC<sub>50</sub> values compared to wild-type strains, often due to single changes like 150 to in HRV-14. These resistant strains exhibit cross-resistance to other inhibitors, such as pirodavir and vapendavir, as the mutations similarly disrupt shared binding interactions within the VP1 pocket. Resistance emergence frequency in such selections is approximately 5 × 10<sup>-5</sup>, indicating a moderate barrier to under drug pressure. Clinically, resistance develops in 10-20% of treated patients, with 10.7% showing ≥10-fold reduced and 2.7% fully resistant isolates (IC<sub>50</sub> >3.8 μg/ml) after pleconaril exposure in trials. In chronic infections among immunodeficient patients, such as those with agammaglobulinemia harboring persistent , pleconaril fails to suppress , suggesting pre-existing or rapidly emerging . Resistant variants typically display reduced , evidenced by lower titers and shorter illness duration, with no observed . This limits pleconaril's utility for prolonged therapy, prompting proposals for combination regimens with agents like rupintrivir to delay onset. Recent studies have shown that combining pleconaril with rupintrivir and delays development in enteroviruses, though these remain untested clinically.

Clinical and pharmacological limitations

Pleconaril demonstrates variable efficacy across serotypes, with in vitro studies showing potent inhibition of most clinical isolates but reduced activity against certain strains such as B3 (CVB3), where the <sub>90</sub> reaches 0.37 μM compared to 0.02 μM for 11 (EV11). In clinical trials for common colds caused by picornaviruses, pleconaril reduced symptom duration by approximately one day and eased severity, but these benefits were modest and inconsistent across all infections. Furthermore, its therapeutic window is narrow, requiring administration within hours of symptom onset to achieve meaningful reductions in illness duration and , which limits practical application in routine settings where early is challenging. A significant pharmacological limitation is pleconaril's induction of 3A4 () enzyme activity, which accelerates its own metabolism and that of other substrates like ethinyl estradiol upon repeated dosing, potentially leading to subtherapeutic levels after prolonged treatment. This auto-induction contributed to concerns over interactions and inconsistent , playing a central role in the FDA's rejection of pleconaril for approval. Practical barriers further restrict pleconaril's use, including the lack of rapid, widely available diagnostic tests for identification, which complicates timely initiation in non-severe cases where symptoms overlap with other respiratory illnesses. Although available through compassionate use programs for over 300 patients with severe enteroviral infections, its unapproved status confines it to niche applications in life-threatening scenarios rather than routine prophylaxis or broad . These combined limitations—modest and serotype-dependent , narrow treatment timing, metabolic auto-induction, and diagnostic hurdles—have prevented pleconaril from achieving widespread clinical adoption beyond investigational contexts.

Safety profile

Adverse effects

Pleconaril was generally well tolerated in large-scale clinical trials, with the majority of adverse effects classified as mild or moderate in severity. The most frequently reported adverse effects included , , and . Headache occurred more commonly in the pleconaril group than in recipients, though incidences were low and symptoms were typically self-resolving within days. Nausea was observed in 6% of pleconaril-treated patients compared to 4% in the group, while diarrhea affected 9% versus 7%, respectively; these gastrointestinal effects were also generally mild and transient. Serious adverse effects were uncommon, with an incidence of less than 1% across two double-blind, -controlled trials involving over 2,000 participants (1,046 receiving pleconaril and 1,050 receiving ). Four serious events occurred in the pleconaril arm compared to two in , but none were deemed drug-related except for one instance of overdose that resolved without long-term consequences; no fatalities were attributed to pleconaril treatment. Additional laboratory findings included modest elevations in mean serum cholesterol (by approximately 5 mg/dL in 3% of patients) and platelet counts (by 15 × 10³/mm³ in 6% of patients) among those receiving , though these changes were not associated with clinical symptoms. Management of common adverse effects typically involved supportive care for gastrointestinal symptoms, with dose reduction or discontinuation reserved for persistent or severe cases.

Drug interactions

Pleconaril induces the activity of 3A4 (), accelerating the metabolism of CYP3A4 substrates and leading to clinically significant pharmacokinetic interactions. This induction is particularly concerning with oral contraceptives, as pleconaril reduces the area under the curve of plasma ethinyl estradiol levels by approximately 34% after single-dose administration, thereby decreasing contraceptive efficacy and elevating the risk of . Similar effects may occur with other CYP3A4 substrates, such as the antihistamine , potentially altering its exposure, though terfenadine is now rarely used due to its independent association with QT prolongation. No significant pharmacokinetic interactions have been reported with antiretrovirals or common antibiotics, based on available clinical data. Due to these interactions, pleconaril is contraindicated with hormonal contraceptives, and alternative non-estrogen-based birth control methods are recommended during and shortly after treatment to mitigate pregnancy risks. These findings stem from dedicated drug interaction studies conducted in the 1990s and early 2000s, which highlighted CYP3A4-related risks as a key factor in the drug's regulatory challenges.

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