molecular formula C6H7N3O B1672263 Isoniazida CAS No. 54-85-3

Isoniazida

Número de catálogo: B1672263
Número CAS: 54-85-3
Peso molecular: 137.14 g/mol
Clave InChI: QRXWMOHMRWLFEY-UHFFFAOYSA-N
Atención: Solo para uso de investigación. No para uso humano o veterinario.
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Descripción

Isoniazida, también conocida como hidrazida del ácido isonicotínico, es un agente antimicrobiano sintético que se utiliza principalmente en el tratamiento y la prevención de la tuberculosis. Se sintetizó por primera vez en 1912 y se introdujo en la práctica clínica en la década de 1950. La this compound es un medicamento antituberculoso de primera línea debido a su alta eficacia y selectividad contra Mycobacterium tuberculosis, la bacteria responsable de la tuberculosis .

Mecanismo De Acción

La isoniazida es un profármaco que requiere activación por la enzima bacteriana catalasa-peroxidasa (KatG). Una vez activada, inhibe la síntesis de ácidos micólicos, componentes esenciales de la pared celular micobacteriana. Esta inhibición altera la síntesis de la pared celular, lo que lleva a la muerte de las células bacterianas. La this compound también interfiere con la síntesis de ADN, lípidos, carbohidratos y dinucleótido de adenina y nicotinamida (NAD), contribuyendo a sus efectos bactericidas .

Compuestos Similares:

Singularidad de la this compound: La singularidad de la this compound radica en su mecanismo de acción específico, que se dirige a la síntesis de ácidos micólicos, que es crucial para la pared celular micobacteriana. Su capacidad para utilizarse tanto como monoterapia para la tuberculosis latente como en combinación con otros fármacos para la tuberculosis activa la convierte en un medicamento versátil y esencial en el tratamiento de la tuberculosis .

Aplicaciones Científicas De Investigación

La isoniazida tiene una amplia gama de aplicaciones de investigación científica:

Análisis Bioquímico

Biochemical Properties

Isoniazid plays a crucial role in biochemical reactions, particularly in the inhibition of mycolic acid synthesis, which is essential for the bacterial cell wall. Isoniazid is a prodrug that requires activation by the bacterial enzyme catalase-peroxidase (KatG). Upon activation, isoniazid forms an adduct with nicotinamide adenine dinucleotide (NAD), which subsequently inhibits the enzyme InhA, an enoyl-acyl carrier protein reductase involved in mycolic acid synthesis . This inhibition disrupts the synthesis of mycolic acids, leading to the death of the mycobacteria.

Cellular Effects

Isoniazid exerts significant effects on various types of cells and cellular processes. In Mycobacterium tuberculosis, isoniazid inhibits cell wall synthesis, leading to cell lysis and death. In human cells, isoniazid can cause hepatotoxicity, which is believed to be mediated by the formation of reactive metabolites through the cytochrome P450 enzyme system . These metabolites can induce oxidative stress and damage cellular components, including lipids, proteins, and DNA. Additionally, isoniazid has been associated with pyridoxine (vitamin B6) deficiency, as it increases the excretion of pyridoxine, affecting cellular metabolism .

Molecular Mechanism

The molecular mechanism of isoniazid involves its activation by the bacterial enzyme KatG. The activated form of isoniazid interacts with NAD to form an adduct that inhibits the enzyme InhA . This inhibition prevents the synthesis of mycolic acids, which are vital components of the mycobacterial cell wall. The disruption of mycolic acid synthesis leads to the loss of cell wall integrity and ultimately the death of the bacterium. Additionally, isoniazid can induce the expression of genes involved in oxidative stress response, further contributing to its bactericidal effects .

Temporal Effects in Laboratory Settings

In laboratory settings, the effects of isoniazid can change over time. Isoniazid is known to be relatively stable under standard storage conditions, but it can degrade when exposed to light and moisture . Over time, the degradation products of isoniazid can reduce its efficacy. Long-term exposure to isoniazid has been associated with hepatotoxicity in both in vitro and in vivo studies . The hepatotoxic effects are believed to be due to the accumulation of reactive metabolites that induce oxidative stress and liver damage.

Dosage Effects in Animal Models

The effects of isoniazid vary with different dosages in animal models. At therapeutic doses, isoniazid effectively inhibits the growth of Mycobacterium tuberculosis. At higher doses, isoniazid can cause toxic effects, including hepatotoxicity and neurotoxicity . In animal studies, high doses of isoniazid have been shown to induce liver damage, characterized by elevated liver enzymes and histopathological changes . Additionally, chronic administration of high doses of isoniazid can lead to peripheral neuropathy, which is attributed to pyridoxine deficiency .

Metabolic Pathways

Isoniazid undergoes extensive metabolism in the liver. The primary metabolic pathway involves acetylation by N-acetyltransferase 2 (NAT2) to form N-acetylisoniazid . N-acetylisoniazid is further hydrolyzed to isonicotinic acid and monoacetylhydrazine. Monoacetylhydrazine can be oxidized by cytochrome P450 enzymes to form reactive metabolites that contribute to hepatotoxicity . The rate of acetylation varies among individuals, leading to differences in drug clearance and susceptibility to adverse effects .

Transport and Distribution

Isoniazid is well-absorbed from the gastrointestinal tract and is widely distributed throughout the body, including the central nervous system . It has low protein binding and can penetrate tissues and cells effectively. Isoniazid is transported into cells via passive diffusion and is distributed to various tissues, including the liver, lungs, and kidneys . The distribution of isoniazid is influenced by its lipophilicity and the presence of transporters that facilitate its uptake into cells .

Subcellular Localization

Within cells, isoniazid is primarily localized in the cytoplasm, where it undergoes metabolic activation and exerts its effects . The activated form of isoniazid can interact with various cellular components, including enzymes and proteins involved in oxidative stress response . Additionally, isoniazid can induce the expression of genes involved in the detoxification of reactive metabolites, further influencing its subcellular localization and activity .

Métodos De Preparación

Rutas sintéticas y condiciones de reacción: La isoniazida se sintetiza típicamente mediante la reacción del ácido isonicotínico con hidrato de hidrazina. El proceso implica la esterificación del ácido isonicotínico con un alcohol y un agente de acilación para formar éster de ácido isonicotínico. Este éster se hace reaccionar entonces con hidrato de hidrazina para producir this compound .

Métodos de producción industrial: En entornos industriales, la preparación de la this compound implica los siguientes pasos:

Análisis De Reacciones Químicas

Tipos de reacciones: La isoniazida se somete a diversas reacciones químicas, entre ellas:

Reactivos y condiciones comunes:

Productos principales:

Comparación Con Compuestos Similares

Uniqueness of Isoniazid: Isoniazid’s uniqueness lies in its specific mechanism of action, targeting mycolic acid synthesis, which is crucial for the mycobacterial cell wall. Its ability to be used both as a monotherapy for latent tuberculosis and in combination with other drugs for active tuberculosis makes it a versatile and essential medication in tuberculosis treatment .

Propiedades

IUPAC Name

pyridine-4-carbohydrazide
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InChI

InChI=1S/C6H7N3O/c7-9-6(10)5-1-3-8-4-2-5/h1-4H,7H2,(H,9,10)
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InChI Key

QRXWMOHMRWLFEY-UHFFFAOYSA-N
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Canonical SMILES

C1=CN=CC=C1C(=O)NN
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Molecular Formula

C6H7N3O
Record name ISONIAZID
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DSSTOX Substance ID

DTXSID8020755
Record name Isoniazid
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Molecular Weight

137.14 g/mol
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Physical Description

Isoniazid appears as odorless colorless or white crystals or white crystalline powder. Taste is slightly sweet at first and then bitter. pH (1% aqueous solution) 5.5-6.5. pH (5% aqueous solution) 6-8. (NTP, 1992), Solid, WHITE CRYSTALLINE ODOURLESS POWDER.
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Flash Point

374 °F (NTP, 1992), > 250 °C
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Solubility

13.7 [ug/mL] (The mean of the results at pH 7.4), greater than or equal to 100 mg/mL at 77 °F (NTP, 1992), Solubility in alcohol at 25 °C: about 2, in boiling alcohol: about 10%; in chloroform: about 0.1%. Practically insoluble in ether, benzene., Sol in methyl ethyl ketone, acetone, In water, 1.4X10+5 mg/L at 25 °C, 3.49e+01 g/L, Solubility in water, g/100ml at 20 °C: 12.5
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Vapor Pressure

Negligible (NTP, 1992), 4.6X10-5 mm Hg at 25 °C /Estimated/
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Mechanism of Action

Isoniazid is a prodrug and must be activated by bacterial catalase. Specficially, activation is associated with reduction of the mycobacterial ferric KatG catalase-peroxidase by hydrazine and reaction with oxygen to form an oxyferrous enzyme complex. Once activated, isoniazid inhibits the synthesis of mycoloic acids, an essential component of the bacterial cell wall. At therapeutic levels isoniazid is bacteriocidal against actively growing intracellular and extracellular Mycobacterium tuberculosis organisms. Specifically isoniazid inhibits InhA, the enoyl reductase from Mycobacterium tuberculosis, by forming a covalent adduct with the NAD cofactor. It is the INH-NAD adduct that acts as a slow, tight-binding competitive inhibitor of InhA., Although the mechanism of action of isoniazid is unknown, several hypotheses have been proposed. These include effects on lipids, nucleic acid biosynthesis, and glycolysis. ... /It has been suggested that/ a primary action of isoniazid /is/ to inhibit the biosynthesis of mycolic acids, important constituents of the mycobacterial cell wall. Because mycolic acids are unique to mycobacteria, this action would explain the high degree of selectivity of the antimicrobial activity of isoniazid. Exposure to isoniazid leads to a loss of acid fastness and a decrease in the quantity of methanol-extractable lipid of the microorganisms., Isoniazid is bacteriostatic for "resting" bacilli but is bactericidal for rapidly dividing microorganisms. The minimal tuberculostatic concentration is 0.025 to 0.05 ug/ml.
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Color/Form

COLORLESS OR WHITE CRYSTALS, OR A WHITE, CRYSTALLINE POWDER, Crystals from alcohol

CAS No.

54-85-3
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Melting Point

340.5 °F (NTP, 1992), 171.4 °C, 170-173 °C
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Synthesis routes and methods I

Procedure details

Antimicrobial drugs isoniazid, rifampicin, streptomycin, and ethambutol were purchased from Sigma-Aldrich. St. Louis, Mo. Stock solutions of isoniazid, streptomycin, and ethambutol were prepared in distilled and deionized water at 10 mg/mL, sterilized by filtration, and stored frozen at −80° C. Stock solutions of rifampicin, at 1 or 10 mg/mL, were prepared in methanol and stored at −80° C. Pyrazinamide was purchased as the drug reconstituting kit from Becton Dickinson, Cockeysville, Md., and a stock solution was prepared following instructions by the manufacturer. Stock solutions of SQ109 were prepared in methanol at 1 mg/mL and stored at 80° C.
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Synthesis routes and methods II

Procedure details

Pass Pyrazinamide, Ethambutol Hydrochloride, Rifampicin and Lactose through a sieve and granulate with Starch Paste prepared in Purified Water. Pass the wet mass through multimill and dry the granules at 50–60° C. Pass the dried granules through sieve of mesh size 16. Pass Magnesium Stearate, Purified Talc and Sodium Starch Glycollate through sieve of mesh size 60 and mix with dried granules and isoniazid delayed release powder. Compress the blend into tablets.
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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.

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Min. plausibility 0.01
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Template Set Pistachio/Bkms_metabolic/Pistachio_ringbreaker/Reaxys/Reaxys_biocatalysis
Top-N result to add to graph 6

Feasible Synthetic Routes

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Q & A

Q1: How does isoniazid exert its anti-tubercular effect?

A1: Isoniazid acts as a prodrug, requiring activation by a bacterial catalase-peroxidase enzyme called KatG found in Mycobacterium tuberculosis [, ]. This activation leads to the formation of an isonicotinic acyl-NADH complex, which then inhibits InhA, an enoyl-acyl carrier protein reductase essential for mycolic acid biosynthesis [, ]. Mycolic acids are crucial components of the mycobacterial cell wall, and their disruption leads to bacterial death.

Q2: Does the activation process of isoniazid play a role in drug resistance?

A2: Yes, mutations in the katG gene, particularly in codon 315, are frequently observed in isoniazid-resistant M. tuberculosis strains [, ]. These mutations can alter the enzyme's structure, affecting its ability to activate isoniazid and leading to resistance.

Q3: What is the role of the inhA gene in isoniazid resistance?

A3: Mutations in the promoter region of the inhA gene, specifically at position -15, can lead to overexpression of the InhA enzyme, reducing isoniazid's effectiveness []. This overexpression counteracts the drug's inhibitory action on mycolic acid synthesis.

Q4: How does isoniazid treatment impact collagen in the body?

A4: Isoniazid can inhibit lysyl oxidase, an enzyme essential for collagen cross-linking []. This inhibition is linked to pyridoxal phosphate depletion in the liver as pyridoxal phosphate acts as a cofactor for lysyl oxidase. The reduction in lysyl oxidase activity leads to increased collagen solubility, potentially impacting connective tissue integrity.

Q5: What is the impact of acetylator status on isoniazid treatment?

A5: Isoniazid is primarily metabolized in the liver through acetylation [, ]. Individuals are categorized as slow, heterozygous rapid, or homozygous rapid acetylators based on their genetic predisposition []. The acetylator phenotype significantly influences the rate of isoniazid elimination, impacting the drug's half-life and ultimately influencing treatment efficacy, particularly in once-weekly regimens [, ].

Q6: Does food intake affect the pharmacokinetics of isoniazid?

A6: Studies suggest that food intake, particularly a light breakfast, can influence the pharmacokinetic parameters of isoniazid, including its peak plasma concentration (Cmax) and the area under the curve (AUC) [, ]. These findings highlight the importance of considering meal timing when administering isoniazid to optimize drug exposure.

Q7: Can isoniazid be transferred through breast milk?

A7: Yes, isoniazid can transfer from circulation to breast milk in lactating women undergoing tuberculosis treatment []. Studies have determined the milk-to-plasma ratio for isoniazid, providing insights into the potential exposure of the drug to nursing infants.

Q8: How is isoniazid distributed in the body?

A8: Isoniazid exhibits good penetration into various body fluids, including cerebrospinal fluid (CSF) []. Studies have investigated the pharmacokinetic parameters associated with isoniazid transfer into CSF, particularly in patients with tuberculous meningitis. Understanding drug distribution patterns is crucial for optimizing treatment strategies, especially for infections affecting different body compartments.

Q9: What are the common adverse events associated with isoniazid treatment?

A9: The most frequently reported adverse events associated with isoniazid treatment are hepatotoxicity, gastric intolerance, and neuropathy [, , ]. The incidence of these adverse events can vary significantly. Close monitoring of liver function and neurological symptoms is crucial during isoniazid therapy.

Q10: Are there specific patient groups at higher risk of isoniazid-induced hepatotoxicity?

A10: Research suggests that certain factors might increase the risk of isoniazid-induced hepatotoxicity. These include elderly patients, individuals with pre-existing liver disease like hepatitis C infection, and those with low serum albumin levels [, ]. Careful patient selection and monitoring are essential to minimize the risk of hepatotoxicity.

Q11: Is there a treatment for isoniazid overdose?

A11: Yes, high-dose pyridoxine hydrochloride (vitamin B6) is an effective treatment for acute isoniazid overdose []. Pyridoxine, administered intravenously, can counteract the toxic effects of isoniazid and prevent potentially fatal complications.

Q12: How effective is isoniazid prophylaxis in individuals exposed to isoniazid-resistant tuberculosis?

A12: There have been reports of isoniazid chemoprophylaxis failure in preventing active pulmonary tuberculosis and tuberculin conversion in individuals exposed to isoniazid-resistant strains of M. tuberculosis []. These observations highlight the limitations of isoniazid prophylaxis in such situations and emphasize the need to consider alternative prophylactic agents.

Q13: What analytical methods are commonly used to determine isoniazid concentrations?

A13: Several analytical techniques have been employed to quantify isoniazid concentrations in various matrices. These include spectrophotometry, high-performance liquid chromatography (HPLC), and chemiluminescence-based methods [, ]. Each method offers advantages and limitations in terms of sensitivity, selectivity, and practicality.

Q14: Are there specific formulation strategies to enhance isoniazid delivery or stability?

A14: Yes, researchers have explored different formulation approaches to improve isoniazid delivery and stability. These include the development of slow-release preparations to sustain drug release, enhance patient compliance, and potentially reduce the dosing frequency [, ].

Q15: What is the historical significance of isoniazid in tuberculosis treatment?

A15: The discovery and introduction of isoniazid marked a significant milestone in the fight against tuberculosis. This potent drug, particularly when combined with other anti-tuberculosis agents, revolutionized treatment strategies and significantly improved patient outcomes. Isoniazid remains a cornerstone of tuberculosis treatment regimens worldwide, underscoring its enduring importance in global health.

Q16: What are the potential areas for future research on isoniazid?

A16: Future research endeavors could focus on several aspects, including:

  • Developing novel isoniazid derivatives with improved efficacy and safety profiles [].
  • Exploring alternative drug delivery systems to enhance targeted delivery and minimize side effects [].
  • Investigating new strategies to combat emerging drug resistance and ensure the long-term effectiveness of isoniazid-containing regimens [, ].

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