Elimination of Endogenous Toxin, Creatinine from Blood Plasma Depends on Albumin Conformation: Site Specific Uremic Toxicity &amp; Impaired Drug Binding

Varshney, A. K.; Rehan, Mohd; Subbarao, Naidu; Rabbani, Gulam; Khan, Rizwan Hasan

doi:10.1371/journal.pone.0017230

Cited by 115 publications

(52 citation statements)

References 38 publications

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“…Furthermore, our study is the first to confirm the influence of elevated serum urea concentrations on the protein binding of phenytoin in children. Although the biochemical parameters serum urea and serum creatinine are correlated and both influenced protein binding of phenytoin in the univariate analysis, serum urea concentrations can be a better marker for accumulation of uremic toxins than serum creatinine based on the facts that uremic toxins are able to bind to albumin and displace protein-bound drugs 30,31 and that the relationship of serum creatinine with renal function in very young children is different from that in young adults. 32 Even though our study suggests that changes in serum urea concentrations significantly influence the unbound fraction, this effect is rather small and perhaps not clinically relevant in children with a modestly increased serum urea concentration.…”

Section: Discussionmentioning

confidence: 99%

The Quantitative Effect of Serum Albumin, Serum Urea, and Valproic Acid on Unbound Phenytoin Concentrations in Children

et al. 2013

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Dosing of phenytoin is difficult in children because of its variable pharmacokinetics and protein binding. Possible covariates for this protein binding have mostly been univariately investigated in small, and often adult, adult populations. We conducted a study to identify and quantify these covariates in children. We extracted data on serum phenytoin concentrations, albumin, triglycerides, urea, total bilirubin and creatinine concentrations and data on coadministration of valproic acid or carbamazepine in 186 children. Using nonlinear mixed effects modeling the effects of covariates on the unbound phenytoin fraction were investigated. Serum albumin, serum urea concentrations, and concomitant valproic acid use significantly influenced the unbound phenytoin fraction. For clinical practice, we recommend that unbound phenytoin concentrations are measured routinely. However, if this is impossible, we suggest to use our model to calculate the unbound concentration. In selected children, close treatment monitoring and dose reductions should be considered to prevent toxicity.

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Section: Discussionmentioning

confidence: 99%

The Quantitative Effect of Serum Albumin, Serum Urea, and Valproic Acid on Unbound Phenytoin Concentrations in Children

et al. 2013

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“…FTIR spectra of proteins exhibit a number of amide bands, which represent different vibrations of the peptide moiety. Among all the amide bands, the amide I band appears at 1700-1600 cm -1 due to C=O stretch, and amide II band appears at 1600-1500 cm -1 and is associated with C-N stretch and N-H bending mode having relationship with the conformation of proteins [39]. In the two bands, amide I is more sensitive to the changes in protein secondary structure than amide II.…”

Section: Fourier Transform Infrared (Ftir) Spectroscopymentioning

confidence: 97%

Calorimetric and spectroscopic binding studies of amoxicillin with human serum albumin

Yasmeen

Riyazuddeen

Rabbani

2016

J Therm Anal Calorim

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Amoxicillin is a common antibiotic drug used for preventing bacterial colonization of urinary and skin infections. The binding of amoxicillin (AX) to human serum albumin (HSA) in sodium phosphate buffer solution at pH 7.4 has been investigated by UV-visible spectroscopy, fluorescence spectroscopy, Förster resonance energy transfer, isothermal titration calorimetry (ITC), circular dichroism (CD) and FTIR spectroscopy. The binding studies using ITC revealed that the interaction is entropy driven rather than enthalpy as the change in enthalpy (DH°) and change in entropy (TDS°) both are positive, indicating the endothermic reaction with low affinity and hydrophobic interaction. UV-visible absorption spectra of HSA are increased upon addition of AX which shows complex formation of HSA-AX. The fluorescence spectra reveal that the AX has an ability to quench the intrinsic fluorescence of HSA tryptophan through a static quenching procedure. The molecular distance r between donor (HSA) and acceptor (AX) was estimated according to Förster theory of nonradiative energy transfer. The CD spectra showed that the a-helix of HSA increases with increasing the amount of AX. The thermal denaturation has been studied by far-UV CD, and it is found that HSA stability is decreased by the complex formation of HSA and AX. The remarkable change in amide I peak position in infrared spectrum after interaction with AX indicated that secondary structure of HSA has been changed.

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“…It contains many kinds of coordinating groups, which can combine with many endogenous and exogenous compounds [15][16][17]. Although the toxicity studies of BPF have been reported, the particular interaction mechanism, the mode of BPF with serum albumin and its effect on protein conformation are still unknown.…”

Section: H I G H L I G H T Smentioning

confidence: 99%

Probing the binding of an endocrine disrupting compound-Bisphenol F to human serum albumin: Insights into the interactions of harmful chemicals with functional biomacromolecules

Pan

Xu²,

Yang

et al. 2014

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Elimination of Endogenous Toxin, Creatinine from Blood Plasma Depends on Albumin Conformation: Site Specific Uremic Toxicity & Impaired Drug Binding

Cited by 115 publications

References 38 publications

The Quantitative Effect of Serum Albumin, Serum Urea, and Valproic Acid on Unbound Phenytoin Concentrations in Children

The Quantitative Effect of Serum Albumin, Serum Urea, and Valproic Acid on Unbound Phenytoin Concentrations in Children

Calorimetric and spectroscopic binding studies of amoxicillin with human serum albumin

Probing the binding of an endocrine disrupting compound-Bisphenol F to human serum albumin: Insights into the interactions of harmful chemicals with functional biomacromolecules

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