Mechanism of interaction of hypoglycemic agents glimepiride and glipizide with human serum albumin

Seedher, Neelam; Kanojia, Mamta

doi:10.2478/s11532-008-0080-x

Cited by 23 publications

(29 citation statements)

References 29 publications

(38 reference statements)

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“…These data suggest that the steroid nucleus it is important for the hypoglycemic effects of the glibenclamide-pregnenolone derivative and possibly this is conditioned by degree of lipophilicity induced by steroid nucleus. This premise is supported by other studies 24 which indicate that changes in the structural chemical of glibenclamide to form some glibenclamide derivatives such as glimepiride and glipizide show variations in degree of lipophilicity and changes in glucose concentration.…”

Section: Glucose Concentrationsupporting

confidence: 76%

Glibenclamide-pregnenolone derivative has greater hypoglycemic effects and biodistribution than glibenclamide-OH in alloxan-rats

Figueroa‐Valverde¹,

Díaz-Cedillo²,

Lopez-Ramos³

et al. 2012

BIOMED PAP

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Aim. The present study was designed to investigate the activity of two glibenclamide derivatives on glucose concentration. An additional aim was to identify the biodistribution of glibenclamide derivatives in different organs in a diabetic animal model. Methods. The effects of two glibenclamide derivatives on glucose concentration were evaluated in a diabetic animal model. In addition, glibenclamide derivatives were bound to Tc-99m using radioimmunoassay methods. To evaluate the pharmacokinetics of the glibenclamide derivatives over time (15, 30, 45 and 60 min) the Tc-99m-glibenclamide conjugates were used. Results. The results showed that glibenclamide-pregnenolone had greater hypoglycemic activity than glibenclamide or glibenclamide-OH. The data also showed that the biodistribution of Tc-99m-glibenclamide-OH in all organs was less than that of the Tc-99m-glibenclamide-pregnenolone derivative. Conclusions. The glibenclamide-pregnenolone derivative had greater hypoglycemic effects and its biodistribution was wider than glibenclamide-OH. The data suggest that the steroid nucleus may be important to the hypoglycemic activity of the glibenclamide-pregnenolone derivative and this could be related to the degree of lipophilicity induced by the steroid nucleus in the chemical structure of glibenclamide-pregnenolone.

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Section: Glucose Concentrationsupporting

confidence: 76%

Glibenclamide-pregnenolone derivative has greater hypoglycemic effects and biodistribution than glibenclamide-OH in alloxan-rats

Figueroa‐Valverde¹,

Díaz-Cedillo²,

Lopez-Ramos³

et al. 2012

BIOMED PAP

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“…This method allowed for the preparation of a stable 50 μM glimepiride solution, which could then be used in further dilution steps to prepare working solutions for the chromatographic studies. Although glimepiride is a weak acid (p K a , 6.3), the pH of the final buffered solutions was not affected by the presence of this drug at the concentrations of this agent that were employed in this study [49]. …”

Section: Methodsmentioning

confidence: 99%

“…Previous work based on fluorescence spectroscopy has used relatively non-polar solvents (e.g., 2.5–10% dimethyl sulfoxide) to make it possible to investigate the interactions of this drug with normal HSA [49–51]. This current report will use HPAC to examine these interactions directly in aqueous solutions and at a physiological pH, while also expanding such studies to see how glycation affects these binding processes.…”

Section: Introductionmentioning

confidence: 99%

Analysis of multi-site drug–protein interactions by high-performance affinity chromatography: Binding by glimepiride to normal or glycated human serum albumin

Matsuda

Zhao

Zheng

et al. 2015

Journal of Chromatography A

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High-performance affinity chromatography (HPAC) was used in a variety of formats to examine multi-site interactions between glimepiride, a third-generation sulfonylurea drug, and normal or in vitro glycated forms of the transport protein human serum albumin (HSA). Frontal analysis revealed that glimepiride interacts with normal HSA and glycated HSA at a group of high affinity sites (association equilibrium constant, or K a , 9.2-11.8 × 10 5 M −1 at pH 7.4 and 37°C) and a group of lower affinity regions (K a , 5.9-16.2 × 10 3 M −1 ). Zonal elution competition studies were designed and carried out in both normal-and reversed-role formats to investigate the binding by this drug at specific sites. These experiments indicated that glimepiride was interacting at both Sudlow sites I and II. Allosteric effects were also noted with R-warfarin at Sudlow site I and with tamoxifen at the tamoxifen site on HSA. The binding at Sudlow site I had a 2.1-to 2.3-fold increase in affinity in going from normal HSA to the glycated samples of HSA. There was no significant change in the affinity for glimepiride at Sudlow site II in going from normal HSA to a moderately glycated sample of HSA, but a slight decrease in affinity was seen in going to a more highly glycated HSA sample. These results demonstrated how various HPAC-based methods can be used to profile and characterize multi-site binding by a drug such as glimepiride to a protein and its modified forms. The information obtained from this study should be useful in providing a better understanding of how drug-protein binding may be affected by glycation and of how separation and analysis methods based on HPAC can be employed to study systems with complex interactions or that involve modified proteins.

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“…As collisional quenching involves diffusion through the medium and diffusion coefficients increase with increase in temperature; increase in K q values with increase in temperature shows that collisional quenching mechanism is predominantly involved [10]. On the other hand, decrease in quenching constants with increase in temperature shows the involvement of static quenching mechanism [36]. Based on the temperature-dependence of quenching constants data in Table 6 show that collisional quenching mechanism are predominantly involved in the case of ciprofloxacin hydrochloride and enrofloxacin.…”

Section: Quenching Mechanismmentioning

confidence: 85%

Complexation of fluoroquinolone antibiotics with human serum albumin: A fluorescence quenching study

Seedher¹,

Agarwal²

2010

Journal of Luminescence

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Mechanism of interaction of hypoglycemic agents glimepiride and glipizide with human serum albumin

Cited by 23 publications

References 29 publications

Glibenclamide-pregnenolone derivative has greater hypoglycemic effects and biodistribution than glibenclamide-OH in alloxan-rats

Glibenclamide-pregnenolone derivative has greater hypoglycemic effects and biodistribution than glibenclamide-OH in alloxan-rats

Analysis of multi-site drug–protein interactions by high-performance affinity chromatography: Binding by glimepiride to normal or glycated human serum albumin

Complexation of fluoroquinolone antibiotics with human serum albumin: A fluorescence quenching study

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