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Acyclovir

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Acyclovir Basic information
Acyclovir Chemical Properties
  • Melting point:256-257°C
  • Boiling point:366.71°C (rough estimate)
  • Density 1.3654 (rough estimate)
  • refractive index 1.8000 (estimate)
  • storage temp. −20°C
  • solubility H2O: 0.7 mg/mL
  • pkapKa 2.27 (Uncertain);9.25 (Uncertain)
  • form powder
  • color white
  • Water Solubility Soluble in 1M HCl at 50mg/ml. Soluble in water at 0.7mg/ml. Also soluble in DMSO
  • Merck 14,146
  • Stability:Stable. Incompatible with strong oxidizing agents.
  • InChIKeyMKUXAQIIEYXACX-UHFFFAOYSA-N
  • CAS DataBase Reference59277-89-3(CAS DataBase Reference)
  • IARC3 (Vol. 76) 2000
Safety Information
MSDS
Acyclovir Usage And Synthesis
  • Chemical Propertieswhite to light yellow crystal powder
  • UsesAcyclovir (Zovirax) is a synthetic purine analog derived from guanine. It exerts its effects on the herpes simplex virus (HSV) and varicella-zoster virus by interfering with DNA synthesis through phosphorylation by viral thymidine kinase and subsequent inhibition of viral DNA polymerase, thereby inhibiting viral replication. It is effective against HSV-1 and 2, varicella-zoster virus, Epstein-Barr virus, herpesvirus simiae, and cytomegalovirus. Acyclovir may be administered intravenously, orally, or topically.
    Acyclovir Ointment
  • UsesOrally active acyclic nucleoside with inhibitory activity towards several herpes viruses. Antiviral; hypnotic.
  • IndicationsAcyclovir (Zovirax) is a synthetic purine analog derived from guanine. It exerts its effects on the herpes simplex virus (HSV) and varicella-zoster virus by interfering with DNA synthesis through phosphorylation by viral thymidine kinase and subsequent inhibition of viral DNA polymerase, thereby inhibiting viral replication. It is effective against HSV-1 and 2, varicella-zoster virus, Epstein-Barr virus, herpesvirus simiae, and cytomegalovirus. Acyclovir may be administered intravenously, orally, or topically.
    Acyclovir (400 mg PO b.i.d. or 200 mg PO five times a day) or other antiviral antibiotics can suppress herpes-associated EM. It is of no value once the EM has started. Not all episodes of a herpes simplex recurrence are associated with EM, but in recurrent cases, a 6-month trial of suppressive therapy can be helpful.
  • DefinitionChEBI: An oxopurine that is guanine substituted by a (2-hydroxyethoxy)methyl substituent at position 9.
  • Manufacturing ProcessSolid sodium nitrite (0.97 g) was added at room temperature with stirring over a period of one hour to a solution of 2-chloro-9-(2- hydroxyethoxymethyl)adenine (0.5 g) in glacial acetic acid (10 ml). The reaction mixture was stirred for an additional 4? hours. The white solid was removed by filtration, washed with cold acetic acid and then well triturated with cold water to remove the sodium acetate present. The solid product was retained. The combined acetic acid filtrate and wash was evaporated at reduced pressure and 40°C bath temperature and the residual oil triturated with cold water. The resulting solid material was combined with the previously isolated solid and the combined solids dried and recrystallized from ethanol to give 2-chloro-9-(2-hydroxyethoxymethyl)-hypoxanthine (0.25 g), MP>310°C. Elemental analysis and NMR spectrum were consistent with this structure.
    A mixture of 2-chloro-9-(2-hydroxyethoxymethyl)-hypoxanthine (0.375 g) and methanol (80 ml) saturated with anhydrous ammonia was heated in a bomb at 125°C for 5 hours. The bomb was cooled in an ice bath and the reaction mixture removed. Solvent and excess ammonia were removed under reduced pressure at 50°C. After the residue was triturated with cold water to remove the ammonium chloride formed, the remaining solid was dried and then recrystallized from methanol to give pure 9-(2-hydroxyethoxymethyl) guanine (0.24 g), MP 256.5-257°C.
  • brand nameZovirax (GlaxoSmithKline).
  • Therapeutic FunctionAntiviral
  • Antimicrobial activityActivity is restricted to viruses of the herpes group. Herpes simplex virus (HSV) types 1 and 2, simian herpes virus B and varicella zoster viruses (VZV) are susceptible to concentrations readily attainable in human plasma. The 50% inhibitory concentration (ID50) is 0.1 μmol for HSV-1 and HSV-2 and 3 μmol for VZV, concentrations much below those toxic to cells. Valaciclovir is metabolized to aciclovir, and has the same antiviral profile. Thymidine-kinase-negative HSV mutants and cytomegalovirus (CMV) do not code for thymidine kinase and are generally resistant. Although Epstein–Barr virus (EBV) may have reduced thymidine kinase activity, its DNA polymerase is susceptible to aciclovir triphosphate and shows intermediate susceptibility. Human herpes viruses 6 and 7 are less susceptible than EBV.
  • Acquired resistanceMutations in HSV that involve deficient thymidine kinase or an altered substrate are most common; alterations in the DNA polymerase gene also result in resistance. Resistant mutants may be found in wild virus populations; mutants lacking thymidine kinase activity may be readily induced by passage of HSV in the presence of the drug. Resistant strains have mostly been reported in immunocompromised patients, are generally thymidine-kinase negative, and have decreased virulence. Resistant mutants that retain thymidine kinase activity appear to retain virulence. Emergence of resistant HSV strains is less frequent in immunocompetent patients, occurring in about 2% of those receiving prolonged treatment.
  • General DescriptionAcyclovir, 9-[2-(hydroxyethoxy)methyl]-9H-guanine (Zovirax),is the most effective of a series of acyclic nucleosidesthat possess antiviral activity. In contrast with true nucleosidesthat have a ribose or a deoxyribose sugar attached to apurine or a pyrimidine base, the group attached to the basein acyclovir is similar to an open chain sugar, albeit lackingin hydroxyl groups. The clinically useful antiviral spectrumof acyclovir is limited to herpesviruses. It is most active (invitro) against HSV type 1, about two times less against HSVtype 2, and 10 times less potent against varicella–zostervirus (VZV).
    The ultimate effect of acyclovir is the inhibition of viralDNA synthesis. Transport into the cell and monophosphorylationare accomplished by a thymidine kinase that is encodedby the virus itself.The affinity of acyclovir for the viralthymidine kinase is about 200 times that of the correspondingmammalian enzyme.
    use: oral and parenteral. Oral acyclovir is used in the initialtreatment of genital herpes and to control mild recurrentepisodes. It has been approved for short-term treatment ofshingles and chickenpox caused by VZV. Intravenous administrationis indicated for initial and recurrent infectionsin immunocompromised patients and for the prevention andtreatment of severe episodes. The drug is absorbed slowlyand incompletely from the GI tract, and its oral bioavailabilityis only 15% to 30%. Nevertheless, acyclovir is distributedto virtually all body compartments.
  • Pharmaceutical ApplicationsA synthetic acyclic purine nucleoside analog of the natural nucleoside 2′ deoxyguanosine, formulated for oral and topical use, and as the sodium salt for intravenous infusion. Valaciclovir (the l-valyl ester) is a prodrug formulation supplied as the hydrochloride for oral use.
  • Biological ActivityAntiviral agent, active against herpes simplex viruses HSV-1 and HSV-2 (EC 50 values are 0.85 and 0.86 μ M respectively). Interferes with viral DNA polymerization through competitive inhibition with guanosine triphosphate. Induces apoptosis in cells transfected with HSV-TK (suicidal gene therapy).
  • Mechanism of actionAcyclovir is a synthetic analogue of deoxyguanosine in which the carbohydrate moiety is acyclic. Because of this difference in structure as compared to other antiviral compounds (idoxuridine, vidarabine, and trifluridine), acyclovir possesses a unique mechanism of antiviral activity. The mode of action of acyclovir consists of three consecutive mechanisms. The first of these mechanisms involves conversion of the drug to active acyclovir monophosphate within cells by viral thymidine kinase. This phosphorylation reaction occurs faster within cells infected by herpesvirus than in normal cells, because acyclovir is a poor substrate for the normal cell thymidine kinase. Acyclovir is further converted to di- and triphosphates by a normal cellular enzyme called guanosine monophosphate kinase. In the second mechanism, viral DNA polymerase is competitively inhibited by acyclovir triphosphate with a lower median inhibition concentration (IC50) than that for cellular DNA polymerase. Acyclovir triphosphate is incorporated into the viral DNA chain during DNA synthesis. Because acyclovir triphosphate lacks the 3′-hydroxyl group of a cyclic sugar, it terminates further elongation of the DNA chain. The third mechanism depends on preferential uptake of acyclovir by herpes-infected cells as compared to uninfected cells, resulting in a higher concentration of acyclovir triphosphate and leading to a high therapeutic index between herpes-infected cells compared to normal cells. Acyclovir is active against certain herpesvirus infections. These viruses induce virus-specific thymidine kinase and DNA polymerase, which are inhibited by acyclovir. Thus, acyclovir significantly reduces DNA synthesis in virus-infected cells without significantly disturbing the active replication of uninfected cells.
  • PharmacokineticsOral absorption, aciclovir: c. 20%
    valaciclovir: c. 60%
    Cmax 200 mg oral 4-hourly:1.4–4 μmol after 1.5–1.75 h
    5 mg/kg 8-hourly intravenous infusion: 43.2 μmol steady state
    10 mg/kg 8-hourly intravenous infusion: 88.9 μmol steady state
    Plasma half-life: 3–3.3 h
    Plasma protein binding: 15%
    Absorption
    Therapeutic drug levels are readily attained after oral or intravenous administration, although concentrations achieved by an oral dose are over 90% lower than those after intravenous therapy. Accumulation of the drug is unlikely in patients without renal dysfunction. Valaciclovir is readily absorbed and is converted rapidly and almost completely to aciclovir; absorption is unaffected by food. Peak plasma concentrations of 22 μmol are found in subjects after an oral dose of 1000 mg every 8 h; systemic exposure is comparable to that of intravenous aciclovir 5 mg/kg every 8 h. The peak plasma concentration and area under the concentration–time curve (AUC) do not increase proportionally with increasing doses, presumably due to reduced absorption. The time to peak aciclovir concentration is also dose dependent, ranging from 0.9 to 1.8 h after single oral doses of 100–1000 mg.
    Distribution
    Aciclovir is widely distributed in various tissues and body fluids. Delivery of the drug to the basal epidermis after topical administration is about 30–50% of that obtained by oral dosing. Aciclovir ointment penetrates the corneal epithelium. CSF concentrations are about 50% of simultaneous plasma concentrations. Vesicular fluid concentrations approximate those in plasma. The drug is actively secreted into breast milk at a concentration several times that of plasma. Placental cord blood contains levels of 69–99% of maternal plasma and the drug is 3–6 times more concentrated in amniotic fluid.
    Metabolism
    About 15% of an intravenous dose is metabolized in persons with normal renal function. The only significant urinary metabolite is 9-carboxymethoxymethylguanine, which has no antiviral activity. Less than 0.2% of the dose is recovered as the 8-hydroxylation product.
    Excretion
    Around 45–79% of a dose is recovered unchanged in urine, the percentage declining with decreasing creatinine clearance. In patients with renal failure, mean peak plasma concentrations nearly doubled and the elimination half-life increased to 19.5 h. Dosage reductions are advised for various stages of renal impairment. During hemodialysis the half-life is 5.7 h and after dialysis the plasma concentration is about 60% less than the predialysis concentration. Half-lives of 12–17 h have been reported for patients undergoing continuous peritoneal dialysis, with only 13% or less of administered drug being recovered in the 24-h dialysate. The half-life in patients undergoing arteriovenous hemofiltration/dialysis is about 20 h. Less than 1% of a dose of valaciclovir is recovered as unchanged drug in the urine. In multidose studies the amount of aciclovir recovered across dose levels ranged from about 40% to 50%. Between 7% and 12% of the dose is found as the 9-carboxymethoxymethylguanine metabolite. Overall, aciclovir accounts for 80–85% of total urinary recovery.
  • Clinical UseAciclovir
    Herpes simplex keratitis
    Chickenpox and herpes zoster
    Herpes simplex encephalitis and neonatal herpes
    Prophylaxis of HSV infections in the severely immunocompromised
    Valaciclovir
    Herpes zoster and genital HSV infections
  • Side effectsFew adverse reactions to topical, ocular, oral or intravenous formulations have been reported. Allergic contact dermatitis occasionally occurs with aciclovir cream. Superficial punctate keratopathy occurs in 10% of patients receiving the ophthalmic preparation; stinging or burning on application occurs in 4%. Less common complications include conjunctivitis, blepharitis and pain.
    Transient increases in blood urea nitrogen and creatinine occur in 10% of patients given bolus injections. It can be largely avoided by reducing the rate of infusion, adequate hydration and dosage adjustment in renal failure. Nausea, vomiting, diarrhea and abdominal pain occasionally occur, particularly in association with a raised creatinine concentration. Acute reversible renal failure has been reported. Reconstituted aciclovir has a pH of about 11; severe inflammation and ulceration have been reported after extravasation at the infusion site. Encephalopathy, tremors, confusion, hallucinations, convulsions, psychiatric disorders, bone marrow depression and abnormal liver function have occasionally arisen. Skin rashes have been reported in a few patients but resolve on discontinuation of the drug.
    Headache and nausea have been reported as side effects of valaciclovir, but occurred with similar frequency in subjects taking placebo.
    Results of mutagenicity tests in vitro and in vivo indicate that aciclovir is unlikely to pose a genetic risk to humans, and the drug was not found to be carcinogenic in long-term studies in mice and rats. No detectable drug-related effects have been detected in pregnancy.
  • Veterinary Drugs and TreatmentsAcyclovir may be useful in treating herpes infections in a variety of avian species and in cats with corneal or conjunctival herpes infections. Its use in veterinary medicine is not well established, however, and it should be used with caution. Acyclovir has relatively mild activity against Feline Herpesvirus-1 when compared to some of the newer antiviral agents (e.g., ganciclovir, cidofovir, or penciclovir).
    Acyclovir is being investigated as a treatment for equine herpes virus type-1 myeloencephalopathy in horses, but clinical efficacy has not yet been proven and the drug’s poor oral bioavailability is problematic. There continues to be interest in finding a dosing regimen that can achieve therapeutic levels and be economically viable, particularly since the drug’s use during a recent outbreak appeared to have some efficacy in reducing morbidity and mortality (not statistically proven). Also, intravenous acyclovir may be economically feasible to treat some neonatal foals.
Acyclovir Preparation Products And Raw materials
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