molecular formula C8H10FN3O3S B1680427 Emtricitabine CAS No. 143491-54-7

Emtricitabine

Katalognummer: B1680427
CAS-Nummer: 143491-54-7
Molekulargewicht: 247.25 g/mol
InChI-Schlüssel: XQSPYNMVSIKCOC-UHFFFAOYSA-N
Achtung: Nur für Forschungszwecke. Nicht für den menschlichen oder tierärztlichen Gebrauch.
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Wirkmechanismus

Target of Action

Emtricitabine, a nucleoside reverse transcriptase inhibitor (NRTI), primarily targets the HIV-1 reverse transcriptase enzyme . This enzyme plays a crucial role in the life cycle of the HIV virus, as it is responsible for transcribing the viral RNA into DNA .

Mode of Action

This compound works by inhibiting the HIV-1 reverse transcriptase enzyme . It is a cytidine analogue that, once phosphorylated to this compound 5’-triphosphate, competes with the natural substrate deoxycytidine 5’-triphosphate for incorporation into the developing viral DNA strand . As the enzyme incorporates this compound into the forming DNA strands, new nucleotides are unable to be incorporated, leading to the termination of the viral DNA chain .

Biochemical Pathways

This compound interferes with the HIV-1 reverse transcriptase enzyme, which is a key player in the viral replication process . By inhibiting this enzyme, this compound prevents the transcription of HIV RNA to DNA, thereby disrupting the viral replication cycle and reducing the number of viruses in the body .

Pharmacokinetics

This compound exhibits high bioavailability (93%) and is metabolized through hepatic oxidation and glucuronidation . It has a half-life of approximately 10 hours . The compound is eliminated primarily through renal excretion (86%) and to a lesser extent through fecal excretion (14%) . The renal clearance of this compound is greater than the estimated creatinine clearance, suggesting elimination by both glomerular filtration and active tubular secretion .

Result of Action

The primary result of this compound’s action is the reduction of HIV-1 viral load in the body . By inhibiting the reverse transcriptase enzyme and terminating the viral DNA chain, this compound prevents the replication of the HIV-1 virus, thereby reducing the number of viruses in the body .

Action Environment

The efficacy and stability of this compound can be influenced by various environmental factors. For instance, the presence of other antiretroviral agents can enhance the drug’s effectiveness when used in combination therapy . Additionally, patient-specific factors such as renal function can impact the drug’s pharmacokinetics . For example, patients with impaired renal function may have altered drug clearance, potentially requiring dose adjustments .

Biochemische Analyse

Biochemical Properties

Emtricitabine is a cytidine analogue . It interacts with the enzyme HIV reverse transcriptase, preventing the transcription of HIV RNA to DNA . This interaction is crucial in its role in biochemical reactions related to HIV infection.

Cellular Effects

This compound has significant effects on various types of cells, particularly those infected with HIV. It inhibits HIV reverse transcriptase, thereby preventing the transcription of HIV RNA to DNA within the cell . This can influence cell function, including impacts on cell signaling pathways, gene expression, and cellular metabolism .

Molecular Mechanism

This compound exerts its effects at the molecular level primarily through its inhibition of HIV reverse transcriptase . This prevents the transcription of HIV RNA to DNA, thereby inhibiting the replication of the virus within the cell .

Temporal Effects in Laboratory Settings

The effects of this compound over time in laboratory settings are largely related to its continued inhibition of HIV reverse transcriptase

Metabolic Pathways

This compound is metabolized through hepatic oxidation and glucuronidation . The cytochrome P450 system is not involved in its metabolism . A small portion of this compound is eliminated as sulfide and glucuronide metabolites .

Transport and Distribution

This compound is administered orally and has a bioavailability of 93%

Subcellular Localization

The subcellular localization of this compound is not explicitly stated in the available literature. Given its mechanism of action, it can be inferred that it interacts with HIV reverse transcriptase, an enzyme that is typically found in the cytoplasm of the cell .

Vorbereitungsmethoden

Synthetic Routes and Reaction Conditions: Emtricitabine is synthesized through a multi-step process involving the following key steps:

Industrial Production Methods: Industrial production of this compound involves large-scale synthesis using optimized reaction conditions to ensure high yield and purity. The process typically includes:

Analyse Chemischer Reaktionen

Types of Reactions: Emtricitabine undergoes various chemical reactions, including:

Common Reagents and Conditions:

Major Products:

Wissenschaftliche Forschungsanwendungen

Emtricitabine has a wide range of scientific research applications, including:

Vergleich Mit ähnlichen Verbindungen

Emtricitabine’s unique properties, such as its long half-life and high efficacy, make it a valuable component in antiretroviral therapy.

Eigenschaften

IUPAC Name

4-amino-5-fluoro-1-[2-(hydroxymethyl)-1,3-oxathiolan-5-yl]pyrimidin-2-one
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI

InChI=1S/C8H10FN3O3S/c9-4-1-12(8(14)11-7(4)10)5-3-16-6(2-13)15-5/h1,5-6,13H,2-3H2,(H2,10,11,14)
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI Key

XQSPYNMVSIKCOC-UHFFFAOYSA-N
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Canonical SMILES

C1C(OC(S1)CO)N2C=C(C(=NC2=O)N)F
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

Molecular Formula

C8H10FN3O3S
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

DSSTOX Substance ID

DTXSID60861371
Record name 4-Amino-5-fluoro-1-[2-(hydroxymethyl)-1,3-oxathiolan-5-yl]pyrimidin-2(1H)-one
Source EPA DSSTox
URL https://comptox.epa.gov/dashboard/DTXSID60861371
Description DSSTox provides a high quality public chemistry resource for supporting improved predictive toxicology.

Molecular Weight

247.25 g/mol
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

CAS No.

143491-54-7
Record name Racivir
Source DrugBank
URL https://www.drugbank.ca/drugs/DB12753
Description The DrugBank database is a unique bioinformatics and cheminformatics resource that combines detailed drug (i.e. chemical, pharmacological and pharmaceutical) data with comprehensive drug target (i.e. sequence, structure, and pathway) information.
Explanation Creative Common's Attribution-NonCommercial 4.0 International License (http://creativecommons.org/licenses/by-nc/4.0/legalcode)

Retrosynthesis Analysis

AI-Powered Synthesis Planning: Our tool employs the Template_relevance Pistachio, Template_relevance Bkms_metabolic, Template_relevance Pistachio_ringbreaker, Template_relevance Reaxys, Template_relevance Reaxys_biocatalysis model, leveraging a vast database of chemical reactions to predict feasible synthetic routes.

One-Step Synthesis Focus: Specifically designed for one-step synthesis, it provides concise and direct routes for your target compounds, streamlining the synthesis process.

Accurate Predictions: Utilizing the extensive PISTACHIO, BKMS_METABOLIC, PISTACHIO_RINGBREAKER, REAXYS, REAXYS_BIOCATALYSIS database, our tool offers high-accuracy predictions, reflecting the latest in chemical research and data.

Strategy Settings

Precursor scoring Relevance Heuristic
Min. plausibility 0.01
Model Template_relevance
Template Set Pistachio/Bkms_metabolic/Pistachio_ringbreaker/Reaxys/Reaxys_biocatalysis
Top-N result to add to graph 6

Feasible Synthetic Routes

Reactant of Route 1
Emtricitabine
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Q & A

Q1: How does emtricitabine inhibit the replication of Human Immunodeficiency Virus type 1?

A1: this compound, a synthetic nucleoside analog of cytidine, requires intracellular phosphorylation to its active triphosphate form, this compound 5'-triphosphate. This active metabolite acts as a competitive inhibitor of the Human Immunodeficiency Virus type 1 (HIV-1) reverse transcriptase (RT) enzyme. It competes with the natural substrate deoxycytidine 5'-triphosphate for binding to the active site of the enzyme. Additionally, this compound 5'-triphosphate gets incorporated into the nascent viral DNA, causing chain termination and halting further DNA synthesis. []

Q2: What is the significance of the M184V/I mutation in the context of this compound resistance?

A2: The M184V/I mutation in the HIV-1 reverse transcriptase gene is the primary resistance mechanism against this compound and lamivudine. [, ] This mutation confers high-level resistance to these drugs by altering the enzyme's binding site, hindering the incorporation of this compound 5'-triphosphate into the viral DNA. [, ]

Q3: What is the chemical name and molecular formula of this compound?

A3: this compound is chemically known as 5-fluoro-1-[(2R, 5S)-2-(hydroxymethyl)-1, 3-oxathiolan-5yl]cytosine. Its molecular formula is C8H10FN3O3S. []

Q4: Can you provide information regarding the spectroscopic characterization of this compound?

A4: this compound exhibits maximum ultraviolet absorbance (λmax) at 260 nm when dissolved in methanol. [] Specific spectroscopic data, like infrared (IR) or nuclear magnetic resonance (NMR) spectra, are not provided in the reviewed research.

Q5: What is the role of the fluorine atom in the structure of this compound for its activity?

A5: While the reviewed research doesn't directly address the specific role of the fluorine atom in this compound, it's known that the fluorine substitution at the 5-position of the cytosine ring generally enhances the potency and metabolic stability of nucleoside analogs. This modification likely influences the binding affinity to the HIV-1 reverse transcriptase and reduces its susceptibility to degradation by cellular enzymes.

Q6: What are the common formulations of this compound used in pharmaceutical dosage forms?

A7: this compound is commonly formulated as tablets, either as a single agent or in combination with other antiretroviral drugs. It is frequently combined with tenofovir disoproxil fumarate for the treatment of HIV-1 infection. [, , , , , , , ] Single-tablet regimens containing this compound, tenofovir disoproxil fumarate, and a third antiretroviral drug, such as efavirenz, rilpivirine, or elvitegravir/cobicistat, are also widely available. [, , , , ]

Q7: How does this compound's long intracellular half-life contribute to its efficacy?

A8: The intracellular half-life of this compound triphosphate, the active form of the drug, is significantly longer than its plasma half-life. [] This prolonged intracellular persistence allows for effective inhibition of HIV-1 reverse transcriptase within infected cells, even with once-daily dosing. [, ]

Q8: How are this compound concentrations measured in biological samples?

A10: Liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) is a commonly used method to quantify this compound in various biological matrices, including plasma, breast milk, and dried blood spots. [, ]

Q9: What are the in vitro findings regarding the synergistic activity of this compound with tenofovir disoproxil fumarate?

A11: In vitro studies have demonstrated a strong synergistic effect between this compound and tenofovir disoproxil fumarate against HIV-1. [] This synergism is believed to contribute to the enhanced efficacy of the combination therapy compared to either drug alone.

Q10: Is this compound effective against HIV-1 strains resistant to lamivudine?

A12: this compound and lamivudine share a similar resistance profile, particularly related to the M184V/I mutation. HIV-1 strains carrying this mutation are highly resistant to both drugs. [, ] Therefore, this compound is generally not effective against HIV-1 strains already resistant to lamivudine.

Q11: What analytical methods are employed for the simultaneous estimation of this compound and other antiretroviral drugs in pharmaceutical formulations?

A15: Several analytical methods have been developed for the simultaneous estimation of this compound and other antiretroviral drugs in pharmaceutical dosage forms. High-performance liquid chromatography (HPLC) is the most widely used technique, often coupled with ultraviolet (UV) or diode-array detection (DAD). [, , , , , , , , , , ]

Q12: How are spectrophotometric methods used for this compound analysis?

A16: Spectrophotometric methods can be employed for the determination of this compound in bulk and pharmaceutical formulations. These methods typically involve the reaction of this compound with a chromogenic reagent, such as p-Dimethylaminobenzaldehyde (PDAB) or 4-Hydroxy-3-methoxy benzaldehyde (HMBA) in the presence of dilute sulphuric acid, to form colored products measurable at specific wavelengths. []

Q13: What were the key milestones in the development of this compound as an anti-HIV drug?

A17: The development of this compound spanned two decades, beginning with its synthesis and initial anti-HIV activity evaluation in the early 1990s. [] Key milestones include:

  • 1990: Diastereoselective synthesis of racemic this compound and demonstration of potent anti-HIV activity. []
  • 1996: Triangle Pharmaceuticals licenses this compound and initiates clinical trials. []
  • 1998: this compound receives "Fast Track" status from the FDA for its potential for once-daily dosing. []
  • 2003: Gilead Sciences acquires Triangle Pharmaceuticals and completes the development of this compound (this compound), which is approved for once-a-day oral administration. []
  • 2004: Truvada, a fixed-dose combination of this compound and tenofovir disoproxil fumarate, receives FDA approval. []
  • 2006: Atripla, a fixed-dose combination of this compound, tenofovir disoproxil fumarate, and efavirenz, receives FDA approval, marking a significant advance in HIV treatment. []

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