Acetylation of human serum albumin by p-nitrophenyl acetate

Means, Gary E.; Bender, Myron L.

doi:10.1021/bi00693a031

Cited by 165 publications

(122 citation statements)

References 13 publications

(15 reference statements)

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“…It is concluded that the rate of formation of the acylated albumin adduct is fast (k 2 ), and that the slow step in hydrolysis of the p-NPA ester is deacylation (k 3 ). This provides direct evidence that deacylation is the rate-limiting step (k 3 , k 2 ) in albumin-catalyzed hydrolysis of p-NPA, confirming results obtained from burst kinetics [2]. The reaction of o-NTFNAC with albumin rapidly produced a yellow color (o-nitroaniline), demonstrating that the acetanilide substrate was being hydrolyzed.…”

Section: Maldi-tofsupporting

confidence: 83%

See 1 more Smart Citation

Aryl acylamidase activity of human serum albumin witho-nitrotrifluoroacetanilide as the substrate

Masson

Froment

Darvesh

et al. 2007

Journal of Enzyme Inhibition and Medicinal Chemistry

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Albumin is generally regarded as an inert protein with no enzyme activity. However, albumin has esterase activity as well as aryl acylamidase activity. A new acetanilide substrate, o-nitrotrifluoroacetanilide (o-NTFNAC), which is more reactive than the classical o-nitroacetanilide, made it possible to determine the catalytic parameters for hydrolysis by fatty-acid free human serum albumin. Owing to the low enzymatic activity of albumin, kinetic studies were performed at high albumin concentration (0.075 mM). The albumin behavior with this substrate was Michaelis-Menten like. Kinetic analysis was performed according to the formalism used for catalysis at high enzyme concentration. This approach provided values for the turnover and dissociation constant of the albumin-substrate complex: k cat ¼ 0.13^0.02 min2 1 and K s ¼ 0.67^0.04 mM. MALDI-TOF experiments showed that unlike the ester substrate p-nitrophenyl acetate, o-NTFNAC does not form a stable adduct (acetylated enzyme). Kinetic analysis and MALDI-TOF experiments demonstrated that hydrolysis of o-NTFNAC by albumin is fully rate-limited by the acylation step (k cat ¼ k 2 ). Though the aryl acylamidase activity of albumin is low (k cat /K s ¼ 195 M 21 min 21 ), because of its high concentration in human plasma (0.6 -1 mM), albumin may participate in hydrolysis of aryl acylamides through second-order kinetics. This suggests that albumin may have a role in the metabolism of endogenous and exogenous aromatic amides, including drugs and xenobiotics.

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Section: Maldi-tofsupporting

confidence: 83%

“…Albumin is capable of binding numerous compounds and displays several enzymatic activities [1], including esterase activity with p-nitrophenyl acetate and other aryl-esters, including drugs and prodrugs [2][3][4]. The esteratic site of human albumin was found to be the binding site for several drugs, organophosphates and fatty acids.…”

Section: Introductionmentioning

confidence: 99%

Aryl acylamidase activity of human serum albumin witho-nitrotrifluoroacetanilide as the substrate

Masson

Froment

Darvesh

et al. 2007

Journal of Enzyme Inhibition and Medicinal Chemistry

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“…Moreover, data here reported indicate that the deacylation process is rate limiting in the HSA-catalyzed hydrolysis of NphOAc (i.e., k +3 << k +2 ). Lastly, values of K s and k +2 here obtained are in agreement with those previously reported [12,13].…”

supporting

confidence: 92%

“…HSA (from Sigma-Aldrich, St. Louis, MO, USA) was essentially fatty acid free, according to the charcoal delipidation protocol [9][10][11] .0°C, were analyzed in the framework of the minimum three step-mechanism reported in Scheme 1 [8,[12][13][14][15], where HSA is the substrate-free protein, NphOAc is the substrate, HSA:NphOAc is the reversible protein-substrate complex, HSA-OAc is considered to be an ester formed between the acyl moiety of the substrate and the O atom of the Tyr411 phenoxyl group [8], AcOH is acetic acid, k +l is the second-order rate constant for the formation of the HSA:NphOAc complex starting from HSA and NphOAc, k À1 is the first-order rate constant for the dissociation of the HSA:NphOAc complex to HSA and NphOAc, K s (=k À1 /k +1 ) is the pre-equilibrium constant, k +2 is the first-order acylation rate constant, k À2 is the first-order rate constant for the conversion of HSA-OAc to HSA:NphOAc, k +3 is the first-order deacylation rate constant, and k À3 is the second-order rate constant for the formation of the HSA-OAc adduct starting from HSA and AcOH.…”

Section: Hsamentioning

confidence: 99%

Pseudo-enzymatic hydrolysis of 4-nitrophenyl acetate by human serum albumin: pH-dependence of rates of individual steps

Ascenzi

Gioia

Fanali

et al. 2012

Biochemical and Biophysical Research Communications

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“…Thermocoagulation removes contaminating proteins such as nucleases and proteases; however, prolonged exposure to heat can cause BSA molecules to form hydrophobic aggregates which may not revert to monomers upon cooling [16][17][18][19][20]. In some preparations, nucleases are inactivated by acetylation using chemical agents such as p-nitrophenyl acetate [21,22]. Acetylation of tyrosine residues in BSA limits its laboratory use by interfering with color development in assays such as the Lowry's.…”

Section: Introductionmentioning

confidence: 99%

Ammonium sulfate precipitation combined with liquid chromatography is sufficient for purification of bovine serum albumin that is suitable for most routine laboratory applications

Odunuga

Shazhko²

2013

Bio Chem Comp

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The use of bovine serum albumin (BSA) in routine biochemical assays such as restriction enzyme digestion and immunodetection is plagued largely by two common contaminants, DNase and immunoglobulins G (IgGs). Acetylation of BSA to inactivate DNase limits its use as a protein standard due to interference with color development in assays such as Lowry's. In spite of the availability of inexpensive BSA, its purification involves several cumbersome and time-consuming steps. In this work, we employed a modified strategy of ammonium sulfate precipitation coupled with liquid chromatography to purify BSA that is free of DNase and IgGs. Purified BSA tested negative for the presence of DNase and IgGs using DNase and immunodetection assays respectively. We conclude that carefully controlled ammonium sulfate precipitation and liquid chromatography techniques are sufficient to purify BSA suitable for most routine laboratory applications. This purification strategy can yield more than 40 g BSA per liter of serum.

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Acetylation of human serum albumin by p-nitrophenyl acetate

Cited by 165 publications

References 13 publications

Aryl acylamidase activity of human serum albumin witho-nitrotrifluoroacetanilide as the substrate

Aryl acylamidase activity of human serum albumin witho-nitrotrifluoroacetanilide as the substrate

Pseudo-enzymatic hydrolysis of 4-nitrophenyl acetate by human serum albumin: pH-dependence of rates of individual steps

Ammonium sulfate precipitation combined with liquid chromatography is sufficient for purification of bovine serum albumin that is suitable for most routine laboratory applications

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