Author: Elased, Khalid M.; Cunha, Tatiana Sousa; Marcondes, Fernanda Klein; Morris, Mariana
Title: Brain angiotensinâ€converting enzymes: role of angiotensinâ€converting enzyme 2 in processing angiotensin II in mice Cord-id: 7tg62meg Document date: 2008_3_27
ID: 7tg62meg
Snippet: Angiotensin (Ang)â€converting enzyme 2 (ACE2) metabolizes Ang II to the vasodilatory peptide Ang(1–7), while neprilysin (NEP) generates Ang(1–7) from Ang I. Experiments used novel Surface Enhanced Laser Desorption Ionizationâ€Time of Flight (SELDIâ€TOF) mass spectroscopic (MS) assays to study Ang processing. Mass spectroscopy was used to measure proteolytic conversion of Ang peptide substrates to their specific peptide products. We compared ACE/ACE2 activity in plasma, brain and kidney fr
Document: Angiotensin (Ang)â€converting enzyme 2 (ACE2) metabolizes Ang II to the vasodilatory peptide Ang(1–7), while neprilysin (NEP) generates Ang(1–7) from Ang I. Experiments used novel Surface Enhanced Laser Desorption Ionizationâ€Time of Flight (SELDIâ€TOF) mass spectroscopic (MS) assays to study Ang processing. Mass spectroscopy was used to measure proteolytic conversion of Ang peptide substrates to their specific peptide products. We compared ACE/ACE2 activity in plasma, brain and kidney from C57BL/6 and NEP (−/−) mice. Plasma or tissue extracts were incubated with Ang I or Ang II (1296 or 1045, m/z, respectively), and generated peptides were monitored with MS. Angiotensinâ€converting enzyme 2 activity was detected in kidney and brain, but not in plasma. Brain ACE2 activity was highest in hypothalamus. Angiotensinâ€converting enzyme 2 activity was inhibited by the specific ACE2 inhibitor, DX600 (10 μm, 99% inhibition), but not by the ACE inhibitor, captopril (10 μm). Both MS and colorimetric assays showed high ACE activity in plasma and kidney with low levels in brain. To extend these findings, ACE measurements were made in ACE overexpressing mice. Angiotensinâ€converting enzyme fourâ€copy mice showed higher ACE activity in kidney and plasma with low levels in hypothalamus. In hypothalamus from NEP (−/−) mice, generation of Ang(1–7) from Ang I was decreased, suggesting a role for NEP in Ang metabolism. With Ang II as substrate, there was no difference between NEP (−/−) and wildâ€type control mice, indicating that other enzymes may contribute to generation of Ang(1–7). The data suggest a predominant role of hypothalamic ACE2 in the processing of Ang II, in contrast to ACE, which is most active in plasma.
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