Digestive EnzymesanimalAnimal model1976

Kinetics of action of pepsin on fluorescent peptide substrates.

Proceedings of the National Academy of Sciences of the United States of America

confidence

Key findings

Stopped-flow kinetics of pepsin cleavage of fluorescent oligopeptide substrates; rate-limiting step is Phe-Phe bond scission. Analytical study, no clinical endpoints.

View source on PubMed (PMID 1103147) ↗

Sample size
N/A
Population
In vitro enzyme kinetics study (porcine pepsin)
Dosing
N/A
Duration
N/A
Route
N/A
Blinding
not_reported
Controls
none
Drug class
digestive enzyme blend
Full abstract

Oligopeptide substrates of porcine pepsin (E) of the type A-Phe-Phe-B (S) that are cleaved solely at the Phe-Phe bond under the conditions of these studies, and bearing an amino-terminal fluorescent probe group (mansyl or dansyl), have been used for stopped-flow measurements of the rate of formation of the A-Phe product. These experiments were conducted under conditions of [E] greater than [S], and the kinetic data were compared with those obtained under conditions of [S] greater than [E] for the formation of the Phe-B product (the same in all cases). The results for substrates with A = mansyl-Gly, mansyl-Gly-Gly, and dansyl-Gly-Gly support the conclusion that the rate-limiting step in the over-all catalytic process is associated with the scission of the Phe-Phe bond in the first detectables ES complex. Although the rate of this step varies widely with the nature of the A portion of A-Phe-Phe-B, the magnitude of the dissociation constant of ES is relatively invariant. This supports the view that, in the cleavage of oligopeptide substrates by pepsin, secondary enzyme--substrate interactions may cause conformational changes at the catalytic site, and that a portion of the total binding energy may be used for the attainment of the transition state in the bond-breaking step. With substrates that are hydrolyzed extremely rapidly (A = dansyl-Gly-Ala, dansyl-Ala-Ala), the rate of formation of the A-Phe product appears to be faster than the steady-state rate, suggesting that an additional step has become kinetically significant in the over-all process. This step may be associated with the return of the conformation of the active site to its original state.

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