The angiotensin–converting enzyme gene family: genomics and pharmacology
AJ Turner, NM Hooper - Trends in pharmacological sciences, 2002 - cell.com
AJ Turner, NM Hooper
Trends in pharmacological sciences, 2002•cell.comModulation of the renin–angiotensin system (RAS), and particularly inhibition of angiotensin-
converting enzyme (ACE), a zinc metallopeptidase, has long been a prime strategy in the
treatment of hypertension. However, other angiotensin metabolites are gaining in
importance as our understanding of the RAS increases. Recently, genomic approaches
have identified the first human homologue of ACE, termed ACEH (or ACE2). ACEH differs in
specificity and physiological roles from ACE, which opens a potential new area for discovery …
converting enzyme (ACE), a zinc metallopeptidase, has long been a prime strategy in the
treatment of hypertension. However, other angiotensin metabolites are gaining in
importance as our understanding of the RAS increases. Recently, genomic approaches
have identified the first human homologue of ACE, termed ACEH (or ACE2). ACEH differs in
specificity and physiological roles from ACE, which opens a potential new area for discovery …
Abstract
Modulation of the renin–angiotensin system (RAS), and particularly inhibition of angiotensin-converting enzyme (ACE), a zinc metallopeptidase, has long been a prime strategy in the treatment of hypertension. However, other angiotensin metabolites are gaining in importance as our understanding of the RAS increases. Recently, genomic approaches have identified the first human homologue of ACE, termed ACEH (or ACE2). ACEH differs in specificity and physiological roles from ACE, which opens a potential new area for discovery biology. The gene that encodes collectrin, a homologue of ACEH, is upregulated in response to renal injury. Collectrin lacks a catalytic domain, which indicates that there is more to ACE-like function than simple peptide hydrolysis.
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