New isoniazid derivatives with improved pharmaco-toxicological profile: Obtaining, characterization and biological evaluation

Dragostin, Ionuţ; Dragostin, Oana Maria; Samal, Sangram Keshari; Dash, Saumya; Tatia, Rodica; Confederat, Luminiţa; Ghiciuc, Cristina Mihaela; Diculencu, Daniela; Lupușoru, Cătălina Elena; Zamfir, C

doi:10.1016/j.ejps.2019.104974

Cited by 19 publications

(21 citation statements)

References 30 publications

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“…Regarding the antimicrobial action, chemical modifications made to the functional amino group of isoniazid, changed the biological profile of the obtained HIN derivatives. The obtained results show, for isoniazid and its derivatives an extended antimicrobial spectrum, unlimited for the M. tuberculosis strains (as shown in previous papers[5,6]), including Gram positive and fungal species. Isoniazid and its synthesized derivatives exhibited no action against the Gram negative bacteria tested.…”

supporting

confidence: 83%

“…On the other hand, improving the pharmacotoxicological profile of isoniazid by introducing chemical modifications into its main structure in order to increase the biological response to Mycobacterium tuberculosis, to reduce liver toxicity or to avoid the resistance phenomena, continues to be an increasingly intriguing scientific challenge [4,8]. In addition, the present work is outlined as a continuation of previous research [5], where the new derivatives obtained by synthesis (HIN-a, HIN-b and HIN-c) (Figure 1) demonstrated remarkable antimicrobial activity against M. tuberculosis strains and significantly reduced toxicity.…”

Section: Introductionmentioning

confidence: 91%

“…The animals were divided into 6 groups (7 animals per group) -groups 1 to 4 received suspensions of HIN and its derivatives (HIN-a, HIN-b and HIN-c); group 5 received the vehicle sodium carboxy-methylcellulose (1% CMC-Na solution) and group 6 has been preserved as an untreated control. On the basis of the results obtained in the acute toxicity test [5], the evaluation of biochemical parameters was monitored after administering the new compounds at doses of 1/10 from LD50, by oral gavage. Thus, the substances were dispersed in 1% CMC-Na solution and administered in a single dose, for 30 days.…”

Section: Evaluation Of Biochemical Parametersmentioning

confidence: 99%

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New Isoniazid Derivatives for Antimicrobial Spectrum Extension and Hepatotoxicity Reduction of Parent Compound: In Vitro and in Vivo Assays

Dragostin¹

2020

FARMACIA

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One of the most common adverse effects, in the case of medicines used voluntarily or not, of over dosage, or even of drugs administered in therapeutic doses, is hepatic injury, which is why, in the pharmaceutical research, the experimental compounds are assessed before and during clinical trials, so that only compounds that prove to be safe for commercial use will be approved. In our case, compounds obtained prior to this study were evaluated from a biological point of view, following in vitro tests, establishing the antimicrobial potential, on bacterial strains and fungal strains. In addition, in vivo tests were performed on mice, for completing the pharmacotoxicological profile: evaluation of the hepatic markers (GPT, GOT, alkaline phosphatase, total serum cholesterol and serum albumin). The results demonstrate that different structural modulations of isoniazid can favourably influence the antimicrobial activity and may lead to an improvement of liver markers, after oral administration. RezumatUnul dintre cele mai frecvente efecte adverse, în cazul medicamentelor utilizate în mod voluntar sau nu, a unei doze excesive, sau chiar a medicamentelor administrate în doze terapeutice, este lezarea hepatică, motiv pentru care, în cercetarea farmaceutică, compușii experimentali sunt evaluați înainte și în timpul studiilor clinice, astfel încât doar cei care se dovedesc a fi siguri pentru utilizare, vor fi aprobați. În cazul nostru, compușii obținuți anterior acestui studiu, au fost evaluați din punct de vedere biologic, prin teste in vitro, stabilind potențialul antimicrobian, pe tulpini bacteriene și tulpini fungice. În plus, testele in vivo efectuate pe șoareci de laborator, au fost realizate pentru completarea profilului farmacotoxicologic: evaluarea markerilor hepatici (TGP, TGO, fosfatază alcalină, colesterol seric total și albumină serică). Rezultatele obținute demonstrează că diferitele modificări structurale ale izoniazidei pot influența în mod favorabil activitatea antimicrobiană ș i pot duce la o îmbunătățire a markerilor hepatici, după administrarea pe cale orală.

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supporting

confidence: 83%

Section: Introductionmentioning

confidence: 91%

Section: Evaluation Of Biochemical Parametersmentioning

confidence: 99%

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New Isoniazid Derivatives for Antimicrobial Spectrum Extension and Hepatotoxicity Reduction of Parent Compound: In Vitro and in Vivo Assays

Dragostin¹

2020

FARMACIA

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“…In one of our previous research works [1], isoniazid was subjected to a structural modulation process that aimed to synthesize new isonicotinoyl hydrazones, which proved to have an improved pharmacotoxicological profile. As part of an ongoing research process, the present paper focused on the effects of the encapsulation of isoniazid derivatives in polymer matrices (chitosan microparticles).…”

Section: Introductionmentioning

confidence: 99%

Chitosan Microparticles Loaded with New Non-Cytotoxic Isoniazid Derivatives for the Treatment of Tuberculosis: In Vitro and In Vivo Studies

Dragostin

Iacob

et al. 2022

Polymers

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Lately, in the world of medicine, the use of polymers for the development of innovative therapies seems to be a major concern among researchers. In our case, as a continuation of the research that has been developed so far regarding obtaining new isoniazid (INH) derivatives for tuberculosis treatment, this work aimed to test the ability of the encapsulation method to reduce the toxicity of the drug, isoniazid and its new derivatives. To achieve this goal, the following methods were applied: a structural confirmation of isoniazid derivatives using LC-HRMS/MS; the obtaining of microparticles based on polymeric support; the determination of their loading and biodegradation capacities; in vitro biocompatibility using MTT cell viability assays; and, last but not least, in vivo toxicological screening for the determination of chronic toxicity in laboratory mice, including the performance of a histopathological study and testing for liver enzymes. The results showed a significant reduction in tissue alterations, the disappearance of cell necrosis and microvesicular steatosis areas and lower values of the liver enzymes TGO, TGP and alkaline phosphatase when using encapsulated forms of drugs. In conclusion, the encapsulation of INH and INH derivatives with chitosan had beneficial effects, suggesting a reduction in hepatotoxicity and, therefore, the achievement of the aim of this paper.

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“…It would likewise be useful to assess whether the compounds differ from INH in terms of activity in models of slow-or non-replicating persistence induced by low oxygen, mild hypoxia (Cho et al, 2015;Zheng et al, 2017), carbon starvation (Grant et al, 2013), or a combination of multiple stresses (Deb et al, 2009;Gold et al, 2015). Extensive effort has been made to improve the antitubercular potency while lowering the cytotoxicity of INH, albeit with limited success (Martins et al, 2014;Oliveira et al, 2017;Dragostin et al, 2019). Consistent with this, the pyridine carboxamides investigated here are significantly less potent against Mtb and have lower SI values than INH (SI>2941 based on Vero cell line toxicity) (Phillips et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Biological Profiling Enables Rapid Mechanistic Classification of Phenotypic Screening Hits and Identification of KatG Activation-Dependent Pyridine Carboxamide Prodrugs With Activity Against Mycobacterium tuberculosis

Chengalroyen

Jordaan

Seldon

et al. 2020

Front. Cell. Infect. Microbiol.

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New isoniazid derivatives with improved pharmaco-toxicological profile: Obtaining, characterization and biological evaluation

Cited by 19 publications

References 30 publications

New Isoniazid Derivatives for Antimicrobial Spectrum Extension and Hepatotoxicity Reduction of Parent Compound: In Vitro and in Vivo Assays

New Isoniazid Derivatives for Antimicrobial Spectrum Extension and Hepatotoxicity Reduction of Parent Compound: In Vitro and in Vivo Assays

Chitosan Microparticles Loaded with New Non-Cytotoxic Isoniazid Derivatives for the Treatment of Tuberculosis: In Vitro and In Vivo Studies

Biological Profiling Enables Rapid Mechanistic Classification of Phenotypic Screening Hits and Identification of KatG Activation-Dependent Pyridine Carboxamide Prodrugs With Activity Against Mycobacterium tuberculosis

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