warfarin and 4-nitrophenyl-acetate

Human serum albumin (HSA) has two major ligand-binding sites, sites I and II, and hydrolyzes compounds at both sites. Although the hydrolytic interaction of ester-type drugs with other drugs by HSA has been reported, there are only a few studies concerning the effect of pharmaceutical excipients on the hydrolysis of ester-type drugs by HSA. In the present study, we investigated the effect of ethanol (2 vol%; 345 mM) on the hydrolysis of aspirin, p-nitrophenyl acetate, and olmesartan medoxomil, which are ester-type drugs, with 4 different lots of HSA preparations. The hydrolysis activities of HSA toward aspirin, p-nitrophenyl acetate, and olmesartan medoxomil were measured from the pseudo-first-order degradation rate constant (k

Topics: Anti-Inflammatory Agents, Non-Steroidal; Anticoagulants; Antihypertensive Agents; Aspirin; Binding Sites; Drug Stability; Ethanol; Excipients; Fatty Acids, Nonesterified; Humans; Hydrolysis; Indomethacin; Kinetics; Ligands; Naproxen; Nitrophenols; Olmesartan Medoxomil; Preservatives, Pharmaceutical; Serum Albumin, Human; Warfarin

Human serum albumin (HSA) has two major ligand-binding sites, sites I and II, and also hydrolyzes some compounds at both sites. In the present study, we investigated differences in esterase activity among HSA preparations, and also the effects of warfarin, indomethacin, and naproxen on the hydrolytic activities of HSA to aspirin and p-nitrophenyl acetate. The esterase activities of HSA to aspirin or p-nitrophenyl acetate were measured from the pseudo-first-order formation rate constant (kobs) of salicylic acid or p-nitrophenol by HSA. Inter-lot variations were observed in the esterase activities of HSA to aspirin and p-nitrophenyl acetate; however, the esterase activity of HSA to aspirin did not correlate with that to p-nitrophenyl acetate. The inhibitory effects of warfarin and indomethacin on the esterase activity of HSA to aspirin were stronger than that of naproxen. In contrast, the inhibitory effect of naproxen on the esterase activity of HSA to p-nitrophenyl acetate was stronger than those of warfarin and indomethacin. These results suggest that the administration of different commercial HSA preparations and the co-administration with site I or II high-affinity binding drugs may change the pharmacokinetic profiles of drugs that are hydrolyzed by HSA.

Topics: Aspirin; Esterases; Humans; Hydrolysis; Indomethacin; Naproxen; Nitrophenols; Serum Albumin; Sulfhydryl Compounds; Warfarin

Mammalian albumins have two main structurally selective ligand binding sites. Site I binds drugs such as azapropazone, phenylbutazone and warfarin; whereas benzodiazepines, some dansyl amino acids, such as dansylsarcosine, and short chain fatty acids like octanoic acid interact with site II. However, it is not known if non-mammalian albumins have similar binding loci. In this study, drug binding sites on chicken albumin were investigated using site selective fluorescent probes (warfarin and dansylsarcosine) and p-nitrophenyl acetate (NPA); the hydrolysis of which is selectively inhibited by site II ligands. Azapropazone and phenylbutazone decreased the binding of warfarin and dansylsarcosine to a similar extent. Diazepam and octanoic acid also inhibited binding of the two fluorescent probes in a non-selective manner. However, the fluorescence intensity of the warfarin-chicken albumin complex decreased when the pH was increased from 6.0-9.0; but by contrast, the fluorescence of bound dansylsarcosine remained unchanged. Furthermore, the hydrolysis of NPA was selectively inhibited by dansylsarcosine, diazepam and octanoic acid (ligands selective for site II on mammalian albumins), but not by site I selective ligands such as azapropazone and warfarin. Overall, the results suggest that chicken albumin, like mammalian albumins, has discrete binding sites for warfarin and dansylsarcosine.

Topics: Albumins; Animals; Anti-Inflammatory Agents, Non-Steroidal; Anticoagulants; Apazone; Binding Sites; Chickens; Dansyl Compounds; Humans; Hydrogen-Ion Concentration; Hydrolysis; Ligands; Nitrophenols; Sarcosine; Species Specificity; Warfarin

The fluorescent probes warfarin and dansylsarcosine are known to selectively interact with binding sites I and II, respectively, on human albumin. This paper investigates whether similar binding sites exist on bovine, dog, horse, sheep and rat albumins. Binding sites on albumins were studied by: (1) displacement of warfarin and dansylsarcosine by site I (phenylbutazone) and site II (diazepam) selective ligands; (2) the effects of non-esterified fatty acids (carbon chain lengths: C5-C20) and changes in pH (6-9) on the fluorescence of warfarin and dansylsarcosine; and (3) the ability of site selective ligands to inhibit hydrolysis of 4-nitrophenyl acetate. For bovine, dog, horse, human and sheep albumins the fluorescence of bound warfarin and dansylsarcosine was selectively decreased by phenylbutazone and diazepam, respectively. For these albumins medium chain fatty acids (C1-C12) reduced the fluorescence of dansylsarcosine (maximum inhibition with C9) whereas long chain acids (C12-C20) enhanced the fluorescence of warfarin (maximum increases with C12). In addition, changes in pH from 6 to 9 increased the fluorescence of warfarin and although site I ligands (warfarin/phenylbutazone) had no pronounced effects on 4-nitrophenyl acetate hydrolysis, site II ligands (dansylsarcosine/diazepam) significantly inhibited this reaction. Rat albumin behaved differently from the other albumins studied in that the C12-C20 fatty acids and changes in pH did not enhance the fluorescence of warfarin. Moreover, the differential effects of site I and site II ligands on the fluorescence of warfarin/dansylsarcosine and hydrolysis of 4-nitrophenyl acetate were less apparent with rat albumin. The results suggest bovine, dog, horse and sheep albumins have binding sites for warfarin and dansylsarcosine with similar properties to sites I and II on human albumin. By contrast, the warfarin binding site and to a lesser degree the dansylsarcosine site, of rat albumin have different characteristics from these sites on the other albumins studied.

Topics: Albumins; Animals; Binding Sites; Binding, Competitive; Cattle; Dansyl Compounds; Diazepam; Dogs; Fatty Acids, Nonesterified; Fluorescence; Horses; Humans; Hydrogen-Ion Concentration; Kinetics; Nitrophenols; Phenylbutazone; Rats; Sarcosine; Sheep; Warfarin