Comparison of filtration and equilibrium dialysis methods for [3H]imipramine binding to human platelets

Nelson Lui; Richard R. Almon; William J. Jusko

doi:10.1016/0003-2697(84)90387-7

Comparison of filtration and equilibrium dialysis methods for [³H]imipramine binding to human platelets

SUNY Buffalo

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Receptor binding of imipramine in human platelets was assessed by filtration through glassfiber filters and by equilibrium dialysis. Both methods yield drug-receptor dissociation constants of similar magnitude (10^-9m) to literature values. However, the density of binding sites (B_max) was fivefold lower by filtration (473 ± 92 fmol/mg protein) compared to equilibrium dialysis (2652 ± 765 fmol/mg protein). Dialysis allows direct assessment of free imipramine and avoids drug loss during the separation step of the filtration assay. Additional advantages were found for computer nonlinear regression analysis of untransformed data to eliminate errors owing to linear transformation in the Scatchard analysis and for simultaneous quantitation of nonspecific and total drug binding.

Original language	English
Pages (from-to)	42-57
Number of pages	16
Journal	Analytical Biochemistry
Volume	139
Issue number	1
DOIs	https://doi.org/10.1016/0003-2697(84)90387-7
State	Published - May 15 1984

Keywords

computer analysis
equilibrium dialysis
filtration
imipramine
platelets
receptor binding

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10.1016/0003-2697(84)90387-7

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title = "Comparison of filtration and equilibrium dialysis methods for [3H]imipramine binding to human platelets",

abstract = "Receptor binding of imipramine in human platelets was assessed by filtration through glassfiber filters and by equilibrium dialysis. Both methods yield drug-receptor dissociation constants of similar magnitude (10-9m) to literature values. However, the density of binding sites (Bmax) was fivefold lower by filtration (473 ± 92 fmol/mg protein) compared to equilibrium dialysis (2652 ± 765 fmol/mg protein). Dialysis allows direct assessment of free imipramine and avoids drug loss during the separation step of the filtration assay. Additional advantages were found for computer nonlinear regression analysis of untransformed data to eliminate errors owing to linear transformation in the Scatchard analysis and for simultaneous quantitation of nonspecific and total drug binding.",

keywords = "computer analysis, equilibrium dialysis, filtration, imipramine, platelets, receptor binding",

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T1 - Comparison of filtration and equilibrium dialysis methods for [3H]imipramine binding to human platelets

AU - Lui, Nelson

AU - Almon, Richard R.

AU - Jusko, William J.

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Y1 - 1984/5/15

N2 - Receptor binding of imipramine in human platelets was assessed by filtration through glassfiber filters and by equilibrium dialysis. Both methods yield drug-receptor dissociation constants of similar magnitude (10-9m) to literature values. However, the density of binding sites (Bmax) was fivefold lower by filtration (473 ± 92 fmol/mg protein) compared to equilibrium dialysis (2652 ± 765 fmol/mg protein). Dialysis allows direct assessment of free imipramine and avoids drug loss during the separation step of the filtration assay. Additional advantages were found for computer nonlinear regression analysis of untransformed data to eliminate errors owing to linear transformation in the Scatchard analysis and for simultaneous quantitation of nonspecific and total drug binding.

AB - Receptor binding of imipramine in human platelets was assessed by filtration through glassfiber filters and by equilibrium dialysis. Both methods yield drug-receptor dissociation constants of similar magnitude (10-9m) to literature values. However, the density of binding sites (Bmax) was fivefold lower by filtration (473 ± 92 fmol/mg protein) compared to equilibrium dialysis (2652 ± 765 fmol/mg protein). Dialysis allows direct assessment of free imipramine and avoids drug loss during the separation step of the filtration assay. Additional advantages were found for computer nonlinear regression analysis of untransformed data to eliminate errors owing to linear transformation in the Scatchard analysis and for simultaneous quantitation of nonspecific and total drug binding.

KW - computer analysis

KW - equilibrium dialysis

KW - filtration

KW - imipramine

KW - platelets

KW - receptor binding

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DO - 10.1016/0003-2697(84)90387-7

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C2 - 6331229

AN - SCOPUS:0021250712

SN - 0003-2697

VL - 139

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EP - 57

JO - Analytical Biochemistry

JF - Analytical Biochemistry

IS - 1

ER -

Comparison of filtration and equilibrium dialysis methods for [³H]imipramine binding to human platelets

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Keywords

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