60136-25-6 , Epervudine,
CAS:60136-25-6
C12H18N2O5 / 270.282
5-Isopropyl-2'-deoxyuridine
5-Isopropyl-2'-deoxyuridine is a nucleoside analog that is used in the treatment of inflammatory bowel disease. It has been shown to be effective in the treatment of Crohn's disease, ulcerative colitis, and indeterminate colitis. 5-Isopropyl-2'-deoxyuridine inhibits bacterial growth by inhibiting RNA synthesis, which leads to cell death. This drug also inhibits the production of inflammatory mediators such as prostaglandins and leukotrienes that are released from cells infected with bacteria. 5-Isopropyl-2'-deoxyuridine is converted into an active form by hydrolysis or oxidation followed by phosphorylation. This drug binds to the 5' end of bacterial DNA and prevents the formation of hydrogen bonds between adjacent bases, causing strand breakage.
Epervudine is a nucleoside analog that belongs to the family of antiviral drugs. It was first synthesized in the 1980s by researchers from Burroughs Wellcome Company (now GlaxoSmithKline) as a potential treatment for HIV/AIDS. However, due to the emergence of other effective antiretroviral drugs, Epervudine was never approved for clinical use.
Synthesis and Characterization
Epervudine can be synthesized using classic nucleoside synthetic methods, which involve the protection and deprotection of functional groups in the molecule. The process starts by protecting the hydroxyl groups in the sugar moiety using protecting groups such as benzyl, acetyl, or tert-butyldimethylsilyl. The pyrimidine ring is then synthesized separately and coupled with the protected sugar using activators such as diphenylphosphorylazide (DPPA) or tetrazole.
The purity and identity of Epervudine can be characterized using spectroscopic techniques such as nuclear magnetic resonance (NMR) and mass spectrometry (MS). The purity can also be determined through high-performance liquid chromatography (HPLC) or thin-layer chromatography (TLC).
Analytical Methods
Epervudine can be quantitatively analyzed using HPLC, which allows for the separation and detection of the compound in a complex mixture. The detection can be achieved through ultraviolet (UV) or fluorescence detection. Other analytical methods used to study Epervudine include capillary electrophoresis (CE) and gas chromatography-mass spectrometry (GC-MS).
Biological Properties
Epervudine has been shown to inhibit the replication of various viruses, including HIV-1, hepatitis B virus (HBV), and herpes simplex virus (HSV). It works by being incorporated into the viral DNA during replication, causing premature termination and inhibition of viral replication.
Toxicity and Safety in Scientific Experiments
In animal models, Epervudine has shown to be well-tolerated with no significant toxicity. However, in vitro studies have shown that high concentrations of Epervudine can cause mitochondrial toxicity and cell death. Therefore, careful monitoring of the dose and concentration is necessary in scientific experiments.
Applications in Scientific Experiments
Epervudine has been used as a research tool in virology and molecular biology to better understand the mechanisms of viral replication and the development of antiviral drugs. It has also been used as a standard reference material for the development and validation of analytical methods.
Current State of Research
Although Epervudine was never approved for clinical use, research on its antiviral activity is still ongoing. It has been found that Epervudine is effective in inhibiting the replication of drug-resistant strains of HIV-1 and HBV.
Potential Implications in Various Fields of Research and Industry
Epervudine has the potential to be developed as a therapeutic agent for viral infections, especially in drug-resistant strains. It can also be used as a research tool to better understand the mechanisms of viral replication and the development of antiviral drugs.
Limitations and Future Directions
The major limitation of Epervudine as an antiviral drug is its limited bioavailability and short half-life. Future research should focus on developing prodrugs or delivery systems that can improve its pharmacokinetic properties.
Future Directions:
1. Development of prodrugs or delivery systems to improve its pharmacokinetic properties.
2. Investigation of Epervudine's efficacy against other viral infections, such as influenza and Zika.
3. Studying the potential of Epervudine as a broad-spectrum antiviral drug.
4. Development of Epervudine derivatives with improved antiviral activity and safety.
5. Investigation of Epervudine's potential use in cancer therapy due to its ability to inhibit DNA replication.
6. Development of analytical methods to detect Epervudine in biological matrices for clinical trials.
7. Investigation of the mechanism of mitochondrial toxicity and cell death caused by high concentrations of Epervudine.
8. Determining the potential for drug-drug interactions and toxicity when combining Epervudine with other antiviral drugs.
9. Investigating the immunomodulatory properties of Epervudine as a potential adjuvant in vaccine development.
10. Development of Epervudine-based diagnostic tests for viral infections.
CAS Number | 60136-25-6 |
Product Name | Epervudine |
IUPAC Name | 1-[(2R,4S,5R)-4-hydroxy-5-(hydroxymethyl)oxolan-2-yl]-5-propan-2-ylpyrimidine-2,4-dione |
Molecular Formula | C12H18N2O5 |
Molecular Weight | 270.282 g/mol |
InChI | InChI=1S/C12H18N2O5/c1-6(2)7-4-14(12(18)13-11(7)17)10-3-8(16)9(5-15)19-10/h4,6,8-10,15-16H,3,5H2,1-2H3,(H,13,17,18)/t8-,9+,10+/m0/s1 |
InChI Key | PHUUXVYXSRZACJ-IVZWLZJFSA-N |
SMILES | CC(C)C1=CN(C(=O)NC1=O)C2CC(C(O2)CO)O |
Synonyms | 2’-Deoxy-5-(1-methylethyl)uridine; 2’-Deoxy-5-isopropyluridine; 5-Isopropyldeoxyuridine; Epervudine; |
Canonical SMILES | CC(C)C1=CN(C(=O)NC1=O)C2CC(C(O2)CO)O |
Isomeric SMILES | CC(C)C1=CN(C(=O)NC1=O)[C@H]2C[C@@H]([C@H](O2)CO)O |
CAS No: 60136-25-6 Synonyms: 2'-Deoxy-5-(1-methylethyl)uridine2'-Deoxy-5-isopropyluridine5-Isopropyldeoxyuridine Chemical Formula: C12H18N2O5 Molecular Weight: 270.282 |
References: 1. Levin, R., et al., Cancer, 72, 2895 (1993)2. Cook, G., et al., Chem. Biol., 6, 451 (1999) |
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