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China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4
China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4
China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4
China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4
China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4

China Largest Manufacturer factory sales Vidarabine CAS 5536-17-4

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Vidarabine Vidarabine 5536-17-4

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  • Appearance:white powder
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                                PRODUCT DETAILS       

Vidarabine Basic information
Product Name: Vidarabine
Synonyms: ARABINOSYL-ADENINE;6-AMINO-9-BETA-D-ARABINOFURANOSYLPURINE;ADENINE-BETA-D-ARABINOFURANOSIDE;ADENINE-9-BETA-D-ARABINOFURANOSIDE;9-BETA-D-ARABINOSYLADENINE;9-BETA-D-ARABINOFURANOSYLADENINE;2'-ARAADENOSINE;ADENINE-9-BETA-D-ARABINOFURANOSIDE (VIDARABINE)
CAS: 5536-17-4
MF: C10H13N5O4
MW: 267.25
EINECS: 226-893-9
Product Categories: TERAZOL;Vira-A;Active Pharmaceutical Ingredients
Mol File: 5536-17-4.mol
Vidarabine Structure
 
Vidarabine Chemical Properties
Melting point  260-265 °C (dec.)
alpha  D27 -5° (c = 0.25)
Boiling point  410.43°C (rough estimate)
density  1.3382 (rough estimate)
refractive index  1.7610 (estimate)
storage temp.  -20°C
solubility  DMSO (Slightly, Heated)
form  Powder
pka pKa 3.55(H2O t=20 I=0.1 (KCl)) (Uncertain);11.4 (Uncertain)
color  White to Off-white
Water Solubility  Soluble in DMF (10 mg/ml), 0.5 M HCl (50 mg/ml), DMSO (53 mg/ml at 25°C), ethanol (<1 mg/ml at 25°C), and water (3 mg/ml at 25°C).
Merck  13,10039
BRN  624881
InChIKey OIRDTQYFTABQOQ-UHTZMRCNSA-N
CAS DataBase Reference 5536-17-4(CAS DataBase Reference)
EPA Substance Registry System Vidarabine (5536-17-4)
 
Safety Information
Hazard Codes  Xn,Xi
Risk Statements  63-36/37/38
Safety Statements  36/37-36-26
RIDADR  2811
WGK Germany  3
RTECS  AU6200000
10-23
TSCA  Yes
HazardClass  6.1(a)
PackingGroup  II
HS Code  29349990
Hazardous Substances Data 5536-17-4(Hazardous Substances Data)
Toxicity LD50 in mice (mg/kg): 4677 i.p.; >7950 orally (Kurtz)
MSDS Information
Provider Language
9-beta-D-Arabinosyladenine English
SigmaAldrich English
 
Vidarabine Usage And Synthesis
Description Vidarabine (adenine arabinoside) is the stereoisomer of adenosine. This analog of a purine nucleoside exhibits selective activity against the herpes virus. The ribose residue is replaced with an arabinose residue. Like acyclovir, it turns into mono-, di-, and triphosphate in cells infected by a virus, thus inhibiting DNA polymerase, and correspondingly preventing DNA synthesis of the virus approximately 20–40 times more than in “host” cells. It is easily metabolized to a less active, yet nonetheless antiviral compound—arabinosylhypoxanthine. It has been successfully used for herpetic encephalitis, and for complicated shingles. It is used in the form of eye drops for herpetic keratoconjuctivitis. A synonym of this drug is Vira-A.
Description Vidarabine is an analog of the nucleoside adenosine that has antiviral properties. It acts as a prodrug that, once phosphorylated by cellular enzymes, acts as both substrate and inhibitor of DNA polymerase. Vidarabine is particularly effective against H. simplex and V. zoster viruses.
Chemical Properties Crystalline
Originator Vidarabin ,Thilo,W. Germany ,1975
Uses antifungal;Antiviral;Adenosine antimetabolite.
Uses active component of chili peppers, analgesic and therapeutic agent for arthritis, potential prophylactic for type 1 diabetes
Uses Vidarabine, is an antiviral drug which is active against herpes simplex and varicella zoster viruses.
Indications Vidarabine (adenine arabinoside, Vira-A) is an adenine nucleoside analogue containing arabinose in place of ribose. It is obtained from cultures of Streptomyces antibioticus and has activity against HSV-1, HSV-2, VZV, CMV, HBV, poxviruses, hepadnaviruses, rhabdoviruses, and certain RNA tumor viruses.
Manufacturing Process Sterile agar slants are prepared using the Streptomyces sporulation medium of Hickey and Tresner, J. Bact., vol. 64, pages 891-892 (1952). Four of these slants are inoculated with lyophilized spores of Streptomyces antibioticus NRRL 3238, incubated at 28°C for 7 days or until aerial spore growth is well- advanced, and then stored at 5°C. The spores from the four slants are suspended in 40 ml of 0.1% sterile sodium heptadecyl sulfate solution. A nutrient medium having the following composition is then prepared: 2.0% glucose monohydrate; 1.0% soybean meal, solvent extracted, 44% protein; 0.5% animal peptone (Wilson's protopeptone 159); 0.2% ammonium chloride; 0.5% sodium chloride; 0.25% calcium carbonate; and water to make 100%.
The pH of the medium is adjusted with 10-normal sodium hydroxide solution to pH 7.5. 12 liters of this medium is placed in a 30-liter stainless steel fermenter. The medium is sterilized by heating it at 121°C for 90 minutes, allowed to cool, inoculated with the 40 ml spore suspension described above, and incubated at 25° to 27°C for 32 hours while being agitated at 200 rpm with air being supplied at the rate of 12 liters per minute. About 38 grams of a mixture of lard and mineral oils containing mono-and diglycerides is added in portions during this time to prevent excessive foaming.
16 liters of a nutrient medium having the composition described above is placed in each of four 30-liter stainless steel fermenters. The pH of the medium in each fermenter is adjusted with 10-normal sodium hydroxide solution to pH 7.5, and each is sterilized by heating at 121°C for 90 minutes. Upon cooling, the medium in each fermenter is inoculated with 800 ml of the fermentation mixture described above, and each is incubated at 25° to 27°C for 96 hours while being agitated at 200 rpm with air being supplied at the rate of 16 liters per minute. About 170 grams of the antifoam mixture described above is added in portions during this time to the medium in each fermenter.
The fermentation mixtures from the four fermenters are combined and filtered with the aid of diatomaceous earth, A material such as Celite 545 can be used. The filtrate is concentrated under reduced pressure to a volume of 10 liters, and the concentrate is treated with 200 grams of activated charcoal (for example, Darco G-60), stirred at room temperature for one hour, and filtered. The charcoal cake is washed with 7.5 liters of water, and then extracted with three 10-liter portions of 50% aqueous acetone. The three aqueous acetone extracts are combined, concentrated under reduced pressure to approximately one liter, and chilled at 5°C for 48 hours. The solid 9-(β-D- arabinofuranosyl)adenine that precipitates is isolated and purified by successive crystallizations from boiling methanol and from boiling water; MP 262° to 263°C.
In the foregoing procedure, when the temperature of incubation in the two fermentation stages is raised from 25° to 27°C to 36° to 38°C, the same 9- (β-D-arabinofuranosyl)adenine product is obtained in higher yields.
Brand name Vira-A (Parkdale).
Therapeutic Function Antiviral
General Description Chemically, vidarabine (Vira-A), is 9--D-arabinofuranosyladenine.The drug is the 2'epimer of natural adenosine.Introduced in 1960 as a candidate anticancer agent, vidarabinewas found to have broad-spectrum activity against DNAviruses.The drug is active against herpesviruses,poxviruses, rhabdoviruses, hepadnavirus, and some RNAtumor viruses. Vidarabine was marketed in the United Statesin 1977 as an alternative to idoxuridine for the treatment ofHSV keratitis and HSV encephalitis. Although the agent wasinitially prepared chemically, it is now obtained by fermentationwith strains of Streptomyces antibioticus.
The antiviral action of vidarabine is completely confinedto DNA viruses. Vidarabine inhibits viral DNA synthesis.Enzymes within the cell phosphorylate vidarabine to thetriphosphate, which competes with deoxyadenosine triphosphatefor viral DNA polymerase. Vidarabine triphosphate isalso incorporated into cellular and viral DNA, where it actsas a chain terminator. The triphosphate form of vidarabinealso inhibits a set of enzymes that are involved in methylationof uridine to thymidine: ribonucleoside reductase, RNApolyadenylase, and S-adenosylhomocysteine hydrolase.
At one time in the United States, intravenous vidarabinewas approved for use against HSV encephalitis, neonatalherpes, and herpes or varicella zoster in immunocompromisedpatients. Acyclovir has supplanted vidarabine as thedrug of choice in these cases.
General Description White to off-white crystalline powder.
Air & Water Reactions Insoluble in water.
Reactivity Profile Vidarabine is an aminoalcohol. Amines are chemical bases. They neutralize acids to form salts plus water. These acid-base reactions are exothermic. The amount of heat that is evolved per mole of amine in a neutralization is largely independent of the strength of the amine as a base. Amines may be incompatible with isocyanates, halogenated organics, peroxides, phenols (acidic), epoxides, anhydrides, and acid halides. Flammable gaseous hydrogen is generated by amines in combination with strong reducing agents, such as hydrides.
Fire Hazard Flash point data for Vidarabine are not available; however Vidarabine is probably combustible.
Biochem/physiol Actions Cell-permeable adenylate cyclase inhibitor; in detergent-dispersed rat brain preparation, IC50 = 30 μM. Clinically significant antiviral agent, especially against herpes simplex (HSV), by inhibition of DNA polymerase.
Mechanism of action Vidarabine’s specific mechanism of action is not fully understood. Cellular enzymes convert this drug to a triphosphate that inhibits DNA polymerase activity. Vidarabine triphosphate competes with deoxyadenosine triphosphate (dATP) for access to DNA polymerase and also acts as a chain terminator. Although vidarabine is incorporated into host DNA to some extent, viral DNA polymerase is much more susceptible to inhibition by vidarabine. Vidarabine also inhibits ribonucleoside reductase and other enzymes. Resistance occurs as a result of DNA polymerase mutation.
Pharmacokinetics Vidarabine is deaminated rapidly by adenosine deaminase, which is present in serum and red blood cells. The enzyme converts vidarabine to its principal metabolite, arabinosyl hypoxanthine (ara-HX), which has weak antiviral activity. The half-life of vidarabine is approximately 1 hour, whereas ara-HX has a half-life of 3.5 hours. The drug is detected mostly in the kidney, liver, and spleen, because 50% of it is recovered in the urine as ara-HX. Levels of vidarabine in CSF fluid are 50% of those in the plasma.
Clinical Use The principal use of vidarabine is in the treatment of HSV keratoconjunctivitis. It is also used to treat superficial keratitis in patients unresponsive or hypersensitive to topical idoxuridine.
Side effects The most commonly observed side effects associated with vidarabine are lacrimation, burning, irritation, pain, and photophobia. Vidarabine has oncogenic and mutagenic potential; however, the risk of systemic effects is low because of its limited absorption. It should not be used in conjunction with ophthalmic corticosteroids, since these drugs increase the spread of HSV infection and may produce side effects such as increased intraocular pressure, glaucoma, and cataracts.
Safety Profile Poison by ingestion and intravenous routes. Moderately toxic by intraperitoneal route. An experimental teratogen. Other experimental reproductive effects. Human systemic effects by intravenous route: central nervous system, blood, and other effects. A skin and eye irritant. Human mutation data reported. When heated to decomposition it emits toxic fumes of NOx.
Chemical Synthesis Vidarabine, 9-B-arabinofuranosyl-6-amino-9-H-pyrine (36.1.10), is synthesized both microbiologically from the culture fluid of the actinomycete Streptomyces antibioticus NRRL 3238, as well as synthetically. It is synthesized from the acetonide-β-D–xylofuranoside of adenine—9-(3,5-O-isopropyliden-β-D–xylofuranoside)adenine, which is reacted with methanesulfonyl chloride to make the mesylate 9-(3,5-O-isopropyliden-2-O-methansulfonyl-β-D-xydlofuranoside)adenine (36.1.7). Prolonged heating in 90% acetic acid removes the acetonyl protective group from the resulting compound, giving the product (36.1.8).
Reacting this with sodium methoxide leads to the formation of an epoxide— 9-(2,3-anhydro-β-luxofuranosyl)adenine (36.1.9). Finally, heating this epoxide with sodium acetate or benzoate opens the epoxide ring in the dimethylformamide–water system to make the corresponding dihydroxy derivative, vidarabine.

Another way of synthesis of vidarabine that was developed later consists of alkylating of 6-benzamidopurine with 2,3,5-tri-O-benzyl-D-arabinofuranosyl chloride using sodium in liquid ammonia. This simultaneously N-debenzylates the sixth position of the purine system and fulfil O-debenzylation of hydroxyl groups of the furanosyl fragment of the molucule, giving vidarabine.
 
Vidarabine Preparation Products And Raw materials
Raw materials N,N-Dimethylformamide-->Phosphorus oxychloride-->Tosyl chloride-->Hydrogen Sulfide-->SULPHOSUCCINIC ACID ESTER-->Adenosine 5'-monophosphate-->Uracil-->PHOSPHORYLASE B FROM RABBIT MUSCLE-->Adenosine-->NUCLEOSIDE PHOSPHORYLASE BACTERIAL-->Uridine-->1-beta-D-Arabinofuranosyluracil
 


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Leader Biochemical Group is a large leader incorporated industry manufacturers and suppliers of advanced refined raw materials From the year of 1996 when our factory was put into production to year of 2020, our group has successively invested in more than 52 factories with shares and subordinates.We focus on manufacture Pharm & chemicals, functional active ingredients, nutritional Ingredients, health care products, cosmetics, pharmaceutical and refined feed, oil, natural plant ingredients industries to provide top quality of GMP standards products.All the invested factories' product lines cover API and intermediates, vitamins, amino acids, plant extracts, daily chemical products, cosmetics raw materials, nutrition and health care products, food additives, feed additives, essential oil products, fine chemical products and agricultural chemical raw materials And flavors and fragrances. Especially in the field of vitamins, amino acids, pharmaceutical raw materials and cosmetic raw materials, we have more than 20 years of production and sales experience. All products meet the requirements of high international export standards and have been recognized by customers all over the world. Our manufacture basement & R&D center located in National Aerospace Economic & Technical Development Zone Xi`an Shaanxi China. Now not only relying on self-cultivation and development as well as maintains good cooperative relations with many famous research institutes and universities in China. Now, we have closely cooperation with Shanghai Institute of Organic Chemistry of Chinese Academy of Science, Beijing Institute of Material Medical of Chinese Academy of Medical Science, China Pharmaceutical University, Zhejiang University. Closely cooperation with them not only integrating Science and technology resources, but also increasing the R&D speed and improving our R&D power. Offering Powerful Tech supporting Platform for group development. Keep serve the manufacture and the market as the R&D central task, focus on the technical research.  Now there are 3 technology R & D platforms including biological extract, microorganism fermentation and chemical synthesis, and can independently research and develop kinds of difficult APIs and pharmaceutical intermediates. With the strong support of China State Institute of Pharmaceutical Industry (hereinafter short for CSIPI), earlier known as Shanghai Institute of Pharmaceutical Industry (SIPI), we have unique advantages in the R & D and industrialization of high-grade, precision and advanced products.  Now our Group technical force is abundant, existing staff more that 1000 people, senior professional and technical staff accounted for more than 50% of the total number of employees, including 15 PhD research and development personnel, 5 master′ S degree in technical and management personnel 9 people. We have advanced equipment like fermentation equipment and technology also extraction, isolation, purification, synthesis with rich production experience and strict quality control system, According to the GMP required, quickly transforming the R&D results to industrial production in time, it is our advantages and our products are exported to North and South America, Europe, Middle East, Africa, and other five continents and scale the forefront in the nation, won good international reputation.  We believe only good quality can bring good cooperation, quality is our key spirit during our production, we are warmly welcome clients and partner from all over the world contact us for everlasting cooperation, Leader will be your strong, sincere and reliable partner in China.

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                                                       Product information

Vidarabine Basic information
Product Name: Vidarabine
Synonyms: ARABINOSYL-ADENINE;6-AMINO-9-BETA-D-ARABINOFURANOSYLPURINE;ADENINE-BETA-D-ARABINOFURANOSIDE;ADENINE-9-BETA-D-ARABINOFURANOSIDE;9-BETA-D-ARABINOSYLADENINE;9-BETA-D-ARABINOFURANOSYLADENINE;2'-ARAADENOSINE;ADENINE-9-BETA-D-ARABINOFURANOSIDE (VIDARABINE)
CAS: 5536-17-4
MF: C10H13N5O4
MW: 267.25
EINECS: 226-893-9
Product Categories: TERAZOL;Vira-A;Active Pharmaceutical Ingredients
Mol File: 5536-17-4.mol
Vidarabine Structure
 
Vidarabine Chemical Properties
Melting point  260-265 °C (dec.)
alpha  D27 -5° (c = 0.25)
Boiling point  410.43°C (rough estimate)
density  1.3382 (rough estimate)
refractive index  1.7610 (estimate)
storage temp.  -20°C
solubility  DMSO (Slightly, Heated)
form  Powder
pka pKa 3.55(H2O t=20 I=0.1 (KCl)) (Uncertain);11.4 (Uncertain)
color  White to Off-white
Water Solubility  Soluble in DMF (10 mg/ml), 0.5 M HCl (50 mg/ml), DMSO (53 mg/ml at 25°C), ethanol (<1 mg/ml at 25°C), and water (3 mg/ml at 25°C).
Merck  13,10039
BRN  624881
InChIKey OIRDTQYFTABQOQ-UHTZMRCNSA-N
CAS DataBase Reference 5536-17-4(CAS DataBase Reference)
EPA Substance Registry System Vidarabine (5536-17-4)
 
Safety Information
Hazard Codes  Xn,Xi
Risk Statements  63-36/37/38
Safety Statements  36/37-36-26
RIDADR  2811
WGK Germany  3
RTECS  AU6200000
10-23
TSCA  Yes
HazardClass  6.1(a)
PackingGroup  II
HS Code  29349990
Hazardous Substances Data 5536-17-4(Hazardous Substances Data)
Toxicity LD50 in mice (mg/kg): 4677 i.p.; >7950 orally (Kurtz)
MSDS Information
Provider Language
9-beta-D-Arabinosyladenine English
SigmaAldrich English
 
Vidarabine Usage And Synthesis
Description Vidarabine (adenine arabinoside) is the stereoisomer of adenosine. This analog of a purine nucleoside exhibits selective activity against the herpes virus. The ribose residue is replaced with an arabinose residue. Like acyclovir, it turns into mono-, di-, and triphosphate in cells infected by a virus, thus inhibiting DNA polymerase, and correspondingly preventing DNA synthesis of the virus approximately 20–40 times more than in “host” cells. It is easily metabolized to a less active, yet nonetheless antiviral compound—arabinosylhypoxanthine. It has been successfully used for herpetic encephalitis, and for complicated shingles. It is used in the form of eye drops for herpetic keratoconjuctivitis. A synonym of this drug is Vira-A.
Description Vidarabine is an analog of the nucleoside adenosine that has antiviral properties. It acts as a prodrug that, once phosphorylated by cellular enzymes, acts as both substrate and inhibitor of DNA polymerase. Vidarabine is particularly effective against H. simplex and V. zoster viruses.
Chemical Properties Crystalline
Originator Vidarabin ,Thilo,W. Germany ,1975
Uses antifungal;Antiviral;Adenosine antimetabolite.
Uses active component of chili peppers, analgesic and therapeutic agent for arthritis, potential prophylactic for type 1 diabetes
Uses Vidarabine, is an antiviral drug which is active against herpes simplex and varicella zoster viruses.
Indications Vidarabine (adenine arabinoside, Vira-A) is an adenine nucleoside analogue containing arabinose in place of ribose. It is obtained from cultures of Streptomyces antibioticus and has activity against HSV-1, HSV-2, VZV, CMV, HBV, poxviruses, hepadnaviruses, rhabdoviruses, and certain RNA tumor viruses.
Manufacturing Process Sterile agar slants are prepared using the Streptomyces sporulation medium of Hickey and Tresner, J. Bact., vol. 64, pages 891-892 (1952). Four of these slants are inoculated with lyophilized spores of Streptomyces antibioticus NRRL 3238, incubated at 28°C for 7 days or until aerial spore growth is well- advanced, and then stored at 5°C. The spores from the four slants are suspended in 40 ml of 0.1% sterile sodium heptadecyl sulfate solution. A nutrient medium having the following composition is then prepared: 2.0% glucose monohydrate; 1.0% soybean meal, solvent extracted, 44% protein; 0.5% animal peptone (Wilson's protopeptone 159); 0.2% ammonium chloride; 0.5% sodium chloride; 0.25% calcium carbonate; and water to make 100%.
The pH of the medium is adjusted with 10-normal sodium hydroxide solution to pH 7.5. 12 liters of this medium is placed in a 30-liter stainless steel fermenter. The medium is sterilized by heating it at 121°C for 90 minutes, allowed to cool, inoculated with the 40 ml spore suspension described above, and incubated at 25° to 27°C for 32 hours while being agitated at 200 rpm with air being supplied at the rate of 12 liters per minute. About 38 grams of a mixture of lard and mineral oils containing mono-and diglycerides is added in portions during this time to prevent excessive foaming.
16 liters of a nutrient medium having the composition described above is placed in each of four 30-liter stainless steel fermenters. The pH of the medium in each fermenter is adjusted with 10-normal sodium hydroxide solution to pH 7.5, and each is sterilized by heating at 121°C for 90 minutes. Upon cooling, the medium in each fermenter is inoculated with 800 ml of the fermentation mixture described above, and each is incubated at 25° to 27°C for 96 hours while being agitated at 200 rpm with air being supplied at the rate of 16 liters per minute. About 170 grams of the antifoam mixture described above is added in portions during this time to the medium in each fermenter.
The fermentation mixtures from the four fermenters are combined and filtered with the aid of diatomaceous earth, A material such as Celite 545 can be used. The filtrate is concentrated under reduced pressure to a volume of 10 liters, and the concentrate is treated with 200 grams of activated charcoal (for example, Darco G-60), stirred at room temperature for one hour, and filtered. The charcoal cake is washed with 7.5 liters of water, and then extracted with three 10-liter portions of 50% aqueous acetone. The three aqueous acetone extracts are combined, concentrated under reduced pressure to approximately one liter, and chilled at 5°C for 48 hours. The solid 9-(β-D- arabinofuranosyl)adenine that precipitates is isolated and purified by successive crystallizations from boiling methanol and from boiling water; MP 262° to 263°C.
In the foregoing procedure, when the temperature of incubation in the two fermentation stages is raised from 25° to 27°C to 36° to 38°C, the same 9- (β-D-arabinofuranosyl)adenine product is obtained in higher yields.
Brand name Vira-A (Parkdale).
Therapeutic Function Antiviral
General Description Chemically, vidarabine (Vira-A), is 9--D-arabinofuranosyladenine.The drug is the 2'epimer of natural adenosine.Introduced in 1960 as a candidate anticancer agent, vidarabinewas found to have broad-spectrum activity against DNAviruses.The drug is active against herpesviruses,poxviruses, rhabdoviruses, hepadnavirus, and some RNAtumor viruses. Vidarabine was marketed in the United Statesin 1977 as an alternative to idoxuridine for the treatment ofHSV keratitis and HSV encephalitis. Although the agent wasinitially prepared chemically, it is now obtained by fermentationwith strains of Streptomyces antibioticus.
The antiviral action of vidarabine is completely confinedto DNA viruses. Vidarabine inhibits viral DNA synthesis.Enzymes within the cell phosphorylate vidarabine to thetriphosphate, which competes with deoxyadenosine triphosphatefor viral DNA polymerase. Vidarabine triphosphate isalso incorporated into cellular and viral DNA, where it actsas a chain terminator. The triphosphate form of vidarabinealso inhibits a set of enzymes that are involved in methylationof uridine to thymidine: ribonucleoside reductase, RNApolyadenylase, and S-adenosylhomocysteine hydrolase.
At one time in the United States, intravenous vidarabinewas approved for use against HSV encephalitis, neonatalherpes, and herpes or varicella zoster in immunocompromisedpatients. Acyclovir has supplanted vidarabine as thedrug of choice in these cases.
General Description White to off-white crystalline powder.
Air & Water Reactions Insoluble in water.
Reactivity Profile Vidarabine is an aminoalcohol. Amines are chemical bases. They neutralize acids to form salts plus water. These acid-base reactions are exothermic. The amount of heat that is evolved per mole of amine in a neutralization is largely independent of the strength of the amine as a base. Amines may be incompatible with isocyanates, halogenated organics, peroxides, phenols (acidic), epoxides, anhydrides, and acid halides. Flammable gaseous hydrogen is generated by amines in combination with strong reducing agents, such as hydrides.
Fire Hazard Flash point data for Vidarabine are not available; however Vidarabine is probably combustible.
Biochem/physiol Actions Cell-permeable adenylate cyclase inhibitor; in detergent-dispersed rat brain preparation, IC50 = 30 μM. Clinically significant antiviral agent, especially against herpes simplex (HSV), by inhibition of DNA polymerase.
Mechanism of action Vidarabine’s specific mechanism of action is not fully understood. Cellular enzymes convert this drug to a triphosphate that inhibits DNA polymerase activity. Vidarabine triphosphate competes with deoxyadenosine triphosphate (dATP) for access to DNA polymerase and also acts as a chain terminator. Although vidarabine is incorporated into host DNA to some extent, viral DNA polymerase is much more susceptible to inhibition by vidarabine. Vidarabine also inhibits ribonucleoside reductase and other enzymes. Resistance occurs as a result of DNA polymerase mutation.
Pharmacokinetics Vidarabine is deaminated rapidly by adenosine deaminase, which is present in serum and red blood cells. The enzyme converts vidarabine to its principal metabolite, arabinosyl hypoxanthine (ara-HX), which has weak antiviral activity. The half-life of vidarabine is approximately 1 hour, whereas ara-HX has a half-life of 3.5 hours. The drug is detected mostly in the kidney, liver, and spleen, because 50% of it is recovered in the urine as ara-HX. Levels of vidarabine in CSF fluid are 50% of those in the plasma.
Clinical Use The principal use of vidarabine is in the treatment of HSV keratoconjunctivitis. It is also used to treat superficial keratitis in patients unresponsive or hypersensitive to topical idoxuridine.
Side effects The most commonly observed side effects associated with vidarabine are lacrimation, burning, irritation, pain, and photophobia. Vidarabine has oncogenic and mutagenic potential; however, the risk of systemic effects is low because of its limited absorption. It should not be used in conjunction with ophthalmic corticosteroids, since these drugs increase the spread of HSV infection and may produce side effects such as increased intraocular pressure, glaucoma, and cataracts.
Safety Profile Poison by ingestion and intravenous routes. Moderately toxic by intraperitoneal route. An experimental teratogen. Other experimental reproductive effects. Human systemic effects by intravenous route: central nervous system, blood, and other effects. A skin and eye irritant. Human mutation data reported. When heated to decomposition it emits toxic fumes of NOx.
Chemical Synthesis Vidarabine, 9-B-arabinofuranosyl-6-amino-9-H-pyrine (36.1.10), is synthesized both microbiologically from the culture fluid of the actinomycete Streptomyces antibioticus NRRL 3238, as well as synthetically. It is synthesized from the acetonide-β-D–xylofuranoside of adenine—9-(3,5-O-isopropyliden-β-D–xylofuranoside)adenine, which is reacted with methanesulfonyl chloride to make the mesylate 9-(3,5-O-isopropyliden-2-O-methansulfonyl-β-D-xydlofuranoside)adenine (36.1.7). Prolonged heating in 90% acetic acid removes the acetonyl protective group from the resulting compound, giving the product (36.1.8).
Reacting this with sodium methoxide leads to the formation of an epoxide— 9-(2,3-anhydro-β-luxofuranosyl)adenine (36.1.9). Finally, heating this epoxide with sodium acetate or benzoate opens the epoxide ring in the dimethylformamide–water system to make the corresponding dihydroxy derivative, vidarabine.

Another way of synthesis of vidarabine that was developed later consists of alkylating of 6-benzamidopurine with 2,3,5-tri-O-benzyl-D-arabinofuranosyl chloride using sodium in liquid ammonia. This simultaneously N-debenzylates the sixth position of the purine system and fulfil O-debenzylation of hydroxyl groups of the furanosyl fragment of the molucule, giving vidarabine.
 
Vidarabine Preparation Products And Raw materials
Raw materials N,N-Dimethylformamide-->Phosphorus oxychloride-->Tosyl chloride-->Hydrogen Sulfide-->SULPHOSUCCINIC ACID ESTER-->Adenosine 5'-monophosphate-->Uracil-->PHOSPHORYLASE B FROM RABBIT MUSCLE-->Adenosine-->NUCLEOSIDE PHOSPHORYLASE BACTERIAL-->Uridine-->1-beta-D-Arabinofuranosyluracil

 

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