Startseite Lebenswissenschaften Hydrophilic residues surrounding the S1 and S2 pockets contribute to dimerisation and catalysis in human dipeptidyl peptidase 8 (DP8)
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Hydrophilic residues surrounding the S1 and S2 pockets contribute to dimerisation and catalysis in human dipeptidyl peptidase 8 (DP8)

  • Melissa R. Pitman , R. Ian Menz und Catherine A. Abbott
Veröffentlicht/Copyright: 11. Juni 2010
Biological Chemistry
Aus der Zeitschrift Band 391 Heft 8

Abstract

Dipeptidyl peptidase (DP) 8 belongs to the dipeptidyl peptidase IV gene family. DP8 has been implicated in immune function and asthma, although its biological function is yet unknown. Structures of the homologs, fibroblast activation protein (FAP) and DPIV, are known but the DP8 structure is yet to be resolved. To help characterise the DP8 substrate pocket, mutants of residues lining the pocket were produced at DP8D772, DP8Y315, DP8H434 and DP8D435 and assessed by substrate kinetics and size-exclusion chromatography. Mutations of DP8D772A/E/S/V affected catalysis but did not confer endopeptidase activity. Mutations of DP8H434F, DP8D435F and DP8Y315F reduced catalytic activity. Furthermore, mutations to DP8D772A/E/S/V, DP8H434F, DP8D435F and DP8Y315F affected dimer stabilisation. Homology modelling of DP8 using DPIV and FAP crystal structures suggested that DP8D772, DP8H434 and DP8D435 were located at the edge of the S2 catalytic pocket, contributing to the junction between the alpha-beta hydrolase and beta-propeller domains. This study provides insights into how the DP8 substrate pocket and dimer interface differ from DPIV and FAP which could be utilised for designing more selective DP8 inhibitors.

Keywords: active site; dipeptidyl peptidase; fibroblast activation protein; homology modelling; substrate specificity
Corresponding author
Received: 2010-1-27
Accepted: 2010-5-25
Published Online: 2010-06-11
Published in Print: 2010-08-01

©2010 by Walter de Gruyter Berlin New York

Artikel in diesem Heft

  1. Guest Editorial
  2. Highlight: The Biology of Proteolytic Systems
  3. Highlight: 6th General Meeting of the International Proteolysis Society
  4. Structure, mechanism and inhibition of γ-secretase and presenilin-like proteases
  5. Is BACE1 a suitable therapeutic target for the treatment of Alzheimer's disease? Current strategies and future directions
  6. Pharmacogenetic features of cathepsin B inhibitors that improve memory deficit and reduce β-amyloid related to Alzheimer's disease
  7. Proteases in lymphocyte killer function: redundancy, polymorphism and questions remaining
  8. Pseudo-active sites of protease domains: HGF/Met and Sonic hedgehog signaling in cancer
  9. Proteolysis of platelet receptors in humans and other species
  10. Blunting the knife: development of vaccines targeting digestive proteases of blood-feeding helminth parasites
  11. Impaired turnover of autophagolysosomes in cathepsin L deficiency
  12. Nuclear cysteine cathepsin variants in thyroid carcinoma cells
  13. Deletion of cathepsin H perturbs angiogenic switching, vascularization and growth of tumors in a mouse model of pancreatic islet cell cancer
  14. Cathepsin E enhances anticancer activity of doxorubicin on human prostate cancer cells showing resistance to TRAIL-mediated apoptosis
  15. Hydrophilic residues surrounding the S1 and S2 pockets contribute to dimerisation and catalysis in human dipeptidyl peptidase 8 (DP8)
  16. Molecular contortionism – on the physical limits of serpin ‘loop-sheet’ polymers
  17. The substrate specificity profile of human granzyme A
  18. Use of granzyme B-based fluorescent protein reporters to monitor granzyme distribution and granule integrity in live cells
https://doi.org/10.1515/bc.2010.111
Schlagwörter für diesen Artikel
active site; dipeptidyl peptidase; fibroblast activation protein; homology modelling; substrate specificity

Artikel in diesem Heft

  1. Guest Editorial
  2. Highlight: The Biology of Proteolytic Systems
  3. Highlight: 6th General Meeting of the International Proteolysis Society
  4. Structure, mechanism and inhibition of γ-secretase and presenilin-like proteases
  5. Is BACE1 a suitable therapeutic target for the treatment of Alzheimer's disease? Current strategies and future directions
  6. Pharmacogenetic features of cathepsin B inhibitors that improve memory deficit and reduce β-amyloid related to Alzheimer's disease
  7. Proteases in lymphocyte killer function: redundancy, polymorphism and questions remaining
  8. Pseudo-active sites of protease domains: HGF/Met and Sonic hedgehog signaling in cancer
  9. Proteolysis of platelet receptors in humans and other species
  10. Blunting the knife: development of vaccines targeting digestive proteases of blood-feeding helminth parasites
  11. Impaired turnover of autophagolysosomes in cathepsin L deficiency
  12. Nuclear cysteine cathepsin variants in thyroid carcinoma cells
  13. Deletion of cathepsin H perturbs angiogenic switching, vascularization and growth of tumors in a mouse model of pancreatic islet cell cancer
  14. Cathepsin E enhances anticancer activity of doxorubicin on human prostate cancer cells showing resistance to TRAIL-mediated apoptosis
  15. Hydrophilic residues surrounding the S1 and S2 pockets contribute to dimerisation and catalysis in human dipeptidyl peptidase 8 (DP8)
  16. Molecular contortionism – on the physical limits of serpin ‘loop-sheet’ polymers
  17. The substrate specificity profile of human granzyme A
  18. Use of granzyme B-based fluorescent protein reporters to monitor granzyme distribution and granule integrity in live cells
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