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Molecular Pharmacology, Vol 12, 612-619, Copyright © 1976 by the American Society for Pharmacology and Experimental Therapeutics
1 Division of Experimental Therapeutics, Hoffmann-La Roche, Inc., Nutley, New Jersey 07110
The effect on the extent of plasma protein binding by varying the substituents on the
basic benzodiazepine molecule has been studied. Hansch lipophilic substituent constants
were calculated for each substituent on the molecule. A correlation was found between
the degree of protein binding and changes in the lipophilic nature of the molecule as
measured by the summation of its lipophilic substituent constants. Protein binding
increased with the increasing lipophilic character of substituents in positions 1,2,3,4,7,
and 4'. The electronic character of substituents in position 1, 3, or 7, as expressed by
their Hammett constant (
), was also found to correlate with the observed protein
binding. Changes in protein binding with respect to various 2'-substituents were not
related to the lipophilic nature of the 2'-substituents but may be the result of changes in
the spatial orientations of the benzodiazepine molecule in relation to its albumin
binding loci. It was concluded that the major factor in determining the extent of 1,4-benzodiazepine binding to human plasma proteins is the degree of lipophilicity of the
molecule. Substituents which affect the conformation of the molecule, such as those in
position 2', also affect the extent of binding.
Note:
ACKNOWLEDGMENTS
The authors thank Dr. George C. S. Yu of the
Department of Research Statistics for his valuable
contributions to the statistical analysis of the data
presented.
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