Tome Najdovski

In vitro and in vivo degradation of human gastrin by endopeptidase 24.11

The degradation of human unsulfated heptadecapeptide gastrin (G-17) by human kidney endopeptidase 24.11 has been studied in vitro, and some of the products of degradation have been identified in plasma after in vivo infusion of G-17. The enzyme cleaved G-17 at four peptide bonds: Trp4Leu5, Ala11Tyr12, Gly13Trp14, and Asp16Phe17. The cleavage at Gly-Trp was rapid and 1-13 G-17 was an important intermediate. All the products of cleavage of synthetic 1-13 G-17 were also found after degradation of intact G-17. When normal human volunteers received infusions of G-17, there appeared in their blood peptides with the properties of 1-11, 1-13, 1-16, and 5-17 G-17 on the basis of immunochemical and high-performance liquid chromatographic properties. These observations provide evidence that endopeptidase 24.11 is involved in gastrin metabolism in humans, and may be responsible for the generation of G-17 fragments in the peripheral circulation.

Hydrolysis of the C-terminal octapeptide of cholecystokinin by rat kidney membranes: Characterization of the cleavage by solubilized endopeptidase - 24.11

Rat kidney membranes were solubilized by Triton X-100 and the CCK-8 degrading peptidases were resolved by chromatography on DEAE-cellulose. Four proteases were detected: two phosphoramidon-sensitive endopeptidases (EC 3.4.24.11), a bestatin-sensitive aminopeptidase and an unidentified enzyme. The pattern of cleavage of CCK-8 and shorter C-terminal fragments by endopeptidase 24.11 was investigated and indicated that the Gly29-Trp30, Trp30-Met31 and Asp32-Phe33 were scissile bonds. However, the cleavage pattern differed markedly from one CCK peptide to another: in the penta- and hexapeptide of CCK the bonds hydrolyzed were either Asp-Phe and Trp-Met or, Asp-Phe and Gly-Trp, respectively. The presence of the sulfate group on the tyrosine residue of CCK-8 influence markedly the nature of the major cleavage fragments produced by the endopeptidase. The major bonds cleaved were Asp-Phe, Trp-Met and Gly-Trp for unsulfated CCK-8, whilst for the sulfated octapeptide, the Trp-Met bond became a minor cleavage site.

Degradation of human gastrin and CCK by endopeptidase 24.11: differential behaviour of the sulphated and unsulphated peptides.

The degradation of human sulphated heptadecapeptide gastrin (G17s) by human endopeptidase 24.11 was studied in vitro. The products of degradation were characterized by HPLC, region-specific gastrin radioimmunoassay and amino acid analysis. The enzyme cleaved G17s at four sites, Trp4-Leu5, Ala11-Tyr12, Gly13-Trp14 and Asp16-Phe17. The patterns of fragments produced when sulphated and unsulphated G17s are hydrolysed by endopeptidase 24.11 indicate that the enzyme cleaves both substrates at the same four bonds. However, the sulphated G17 was 3-times less rapidly degraded than the unsulphated G17 (G17ns). In contrast, the rate of cleavage of the octapeptide cholecystokinin (CCK8) was faster when the peptide was sulphated. The kinetic data of endopeptidase 24.11 indicated similar Km values for sulphated or unsulphated gastrin and CCK; sulphated CCK8 exhibited a 2-fold higher kcat/Km value compared to unsulphated CCK8, whereas G17s exhibited a 2-fold lower kcat/Km value compared to G17ns. The results indicate that the presence of a sulphate group causes a marked reduction in the rate of hydrolysis of gastrin by endopeptidase 24.11, whereas sulphation enhances cholecystokinin degradation by the same enzyme. They also suggest that endopeptidase 24.11 may be responsible for the difference in metabolism of sulphated and unsulphated G17, previously observed in human circulation.

ENKEPHALINASE, A METALLOENDOPEPTIDASE INVOLVED IN THE INACTIVATION OF BIOLOGICALLY ACTIVE PEPTIDES

ABSTRACT A physiological role for enkephalinase in the degradation of the cholecystokinin-gastrin family of peptides is suggested, based upon the finding that the major degradation fragments of gastrin produced by enkephalinase in vitro are also found in the circulation after infusion of the hormone in man.