Kinetics and mechanism of hydrolysis of benzimidazolylcarbamates

Norberto, Fátima; Santos, S. P. Amor Dos; Iley, Jim; Silva, D. B.; Real, M. Corte

doi:10.1590/s0103-50532007000100019

Cited by 7 publications

(9 citation statements)

References 8 publications

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“…The 5′- O -carbamate compounds 4 – 6 showed degradation reactions at an alkaline pH of 13.2, with k obs values of 1.04 × 10 −3 , 3.23 × 10 −3 and 1.96 × 10 −3 min −1 , respectively due to a base catalysis with a decreasing stability of 4 > 6 > 5 . Similar results were observed by Norberto et al for related compounds at different pH values [ 23 ].…”

Section: Resultssupporting

confidence: 91%

Preformulation Studies of Zidovudine Derivatives: Acid Dissociation Constants, Differential Scanning Calorimetry, Thermogravimetry, X-Ray Powder Diffractometry and Aqueous Stability Studies

Raviolo

Briñón²

2011

Sci. Pharm.

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As part as of the preformulation studies of new 5′-OH derivatives of zidovudine, compounds 2–6, their acid dissociation constants, Differential Scanning Calorimetry (DSC) and Thermogravimetry (TG) curves, X-Ray Powder diffractograms and aqueous stability are reported. A sensitive technique such as differential scanning potentiometry was used to determine the pKa constants of the above mentioned compounds. In addition, pKa values were calculated from theoretical methods, and no significant differences with those of experimental ones were observed. X-Ray Powder Diffractometry data demonstrated that compounds 2–4 were crystalline while 5 and 6 were amorphous. DSC analysis indicated that all of them presented an exothermic decomposition peak above 150 °C which is accompanied by a weight loss in the respective TG curves. The stability of these compounds in aqueous medium at different pH values was investigated, using a validated High Performance Liquid Chromatography (HPLC) method, which demonstrated to be rapid, selective, sensitive, accurate and stability-indicating. Good recovery, linearity and precision were also achieved. For all compounds the aqueous hydrolysis followed a pseudo-first-order kinetics, depending on pH and the union existing between AZT and the associate moiety. The hydrolysis was catalyzed by hydroxide ion in the 7.4–13.2 pH range, while all compounds exhibited pH-independent stability from acidic to neutral media (pHs 1.0–7.4).

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Section: Resultssupporting

confidence: 91%

Preformulation Studies of Zidovudine Derivatives: Acid Dissociation Constants, Differential Scanning Calorimetry, Thermogravimetry, X-Ray Powder Diffractometry and Aqueous Stability Studies

Raviolo

Briñón²

2011

Sci. Pharm.

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“…Literature confirms that the propargylamine moiety is responsible for the MAO inhibitory properties of compounds containing this functional group. 29 The results obtained agree with this, as can be seen by the more potent IC 50 values upon inclusion of this moiety. The presence of a urea moiety (compounds 5 and 6) resulted in compounds that have comparably better inhibitory abilities than the carbamate compounds 7 and 8.…”

Section: Monoamine Oxidase Inhibition Studiessupporting

confidence: 79%

“…The carbamate on ladostigil is also open to acid hydrolysis and enzymatic metabolism, and once this metabolism takes place, it leaves a non-enzyme inhibiting neuroprotective molecule TV3279. 28,29 This loss of enzymatic ability may account for one of the reasons why ladostigil failed in Phase 2b AD clinical trials. In order to overcome these unfavourable properties of ladostigil a series of compounds structurally similar to ladostigil, but based on an indole structure was designed (1-8, Fig.…”

Section: Introductionmentioning

confidence: 99%

Design, synthesis and evaluation of indole derivatives as multifunctional agents against Alzheimer's disease

et al. 2018

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A series of indole derivatives was designed and synthesised to improve on activity and circumvent pharmacokinetic limitations experienced with the structurally related compound, ladostigil. The compounds consisted of a propargylamine moiety (a known MAO inhibitor and neuroprotector) at the 1 position and a ChE inhibiting diethyl-carbamate/urea moiety at the 5 or 6 position of the indole ring. In order to prevent or slow down the hydrolysis and deactivation associated with the carbamate function of ladostigil, a urea moeity was incorporated into selected compounds to obtain more metabolically stable structures. The majority of the synthesised compounds showed improved MAO-A inhibitory activity compared to ladostigil. The compounds possessing the propargylamine moiety showed good MAO-B inhibitory activity with and portraying IC values between 14-20 fold better than ladostigil. The ChE assay results indicated that the compounds have non-selective inhibitory activities on eeAChE and eqBuChE regardless of the type or position of substitution (IC: 2-5 μM). MAO-A and MAO-B docking results showed that the propargylamine moiety was positioned in close proximity to the FAD cofactor suggesting that the good inhibitory activity may be attributed to the propargylamine moiety and irreversible inhibition as confirmed in the reversibility studies. Docking results also indicated that the compounds have interactions with important amino acids in the AChE and BuChE catalytic sites. Compound was the most potent multifunctional agent showing better inhibitory activity than ladostigil on all enzymes tested (hMAO-A IC = 4.31 μM, hMAO-B IC = 2.62 μM, eeAChE IC = 3.70 μM, eqBuChE IC = 2.82 μM). Chemical stability tests confirmed the diethyl-urea containing compound to be more stable than its diethyl-carbamate containing counterpart compound. Compound also exerted significant neuroprotection (52.62% at 1 μM) against MPP insult to SH-SY5Y neural cells and has good predicted ADMET properties. The favourable neuronal enzyme inhibitory activity, likely improved pharmacokinetic properties and the potent neuroprotective ability of compound make it a promising compound for further development.

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“…Tertiary carbamates were also studied and previous results corroborated that predominant mechanism for basic hydrolysis is a B AC 2 addition–elimination mechanism with general base10 or nucleophilic catalysis 11. The first one is characterized by the direct attack on the carbonyl by the base originating an intermediate which is rapidly hydrolysed, and in the second one, there is a base‐assisted attack by a water molecule involving partial bond formation, on the carbonyl group.…”

Section: Introductionmentioning

confidence: 80%

Basic hydrolysis of quinolinyl N,N‐dimethylcarbamates: a two‐step mechanism

Silva

Norberto

Santos

et al. 2011

J of Physical Organic Chem

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The reactivity of 6-quinolinyl and 8-quinolinyl N,N-dimethylcarbamates was examined in several aqueous basic media. A quadratic dependence was observed for the constant rates upon hydroxide concentration for both compounds, which is a typical behaviour of a mechanism involving a base-catalysed deprotonation of the tetrahedral intermediate with the formation of a dianion at high concentrations of hydroxide ion, while at lower concentrations a specific-base catalysed addition-elimination mechanism seems to be predominant. The reactivity of 8-quinolinyl N,N-dimethylcarbamate was also studied in several amine buffers, showing specific base catalysis. The reactivity of 6-quinolinyl N,N-dimethylcarbamate was studied in H 2 O and in D 2 O and the solvent isotope effect supports the proposal of a mechanism involving a specific-base hydrolysis. All results confirm the existence of a mechanism with a rate determining step involving the substrate anion and a second mole of hydroxide ion. This mechanism was so far unknown for carbamate reactivity, being only known to occur with amides. In the present study, the hydrolysis 8-quinolinyl and 6-quinolinyl N,N-dimethylcarbamates (compounds 1 and 2, respectively) were studied in several basic media, and a similar behaviour to the one showed by activated anilides was observed, in which kinetic constants show a quadratic dependence on hydroxide concentration.(wileyonlinelibrary.com)

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Kinetics and mechanism of hydrolysis of benzimidazolylcarbamates

Cited by 7 publications

References 8 publications

Preformulation Studies of Zidovudine Derivatives: Acid Dissociation Constants, Differential Scanning Calorimetry, Thermogravimetry, X-Ray Powder Diffractometry and Aqueous Stability Studies

Preformulation Studies of Zidovudine Derivatives: Acid Dissociation Constants, Differential Scanning Calorimetry, Thermogravimetry, X-Ray Powder Diffractometry and Aqueous Stability Studies

Design, synthesis and evaluation of indole derivatives as multifunctional agents against Alzheimer's disease

Basic hydrolysis of quinolinyl N,N‐dimethylcarbamates: a two‐step mechanism

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