Abstract
Molecular cloning of human endothelial angiotensin I-converting enzyme (kininase II; EC 3.4.15.1) (ACE) has recently shown that the enzyme contains two large homologous domains (called here the N and C domains), each bearing a putative active site, identified by sequence comparisons with the active sites of other zinc metallopeptidases. However, the previous experiments with zinc or competitive ACE inhibitors suggested a single active site in ACE. To establish whether both domains of ACE are enzymatically active, a series of ACE mutants, each containing only one intact domain, were constructed by deletion or point mutations of putative critical residues of the other domain, and expressed in heterologous Chinese hamster ovary cells. Both domains are enzymatically active and cleave the C-terminal dipeptide of hippuryl-His-Leu or angiotensin I. Moreover, both domains have an absolute zinc requirement for activity, are activated by chloride and are sensitive to competitive ACE inhibitors, and appear to function independently. However, the two domains display different catalytic constants and different patterns of chloride activation. At high chloride concentrations, the C domain hydrolyzes the two substrates tested faster than does the N domain. His-361,365 and His-959,963 are established as essential residues in the N and C domains, respectively, most likely involved in zinc binding, and Glu-362 in the N domain and Glu-960 in the C domain are essential catalytic residues. These observations provide strong evidence that ACE possesses two independent catalytic domains and suggest that they may have different functions.
Highlights
I-converting enzyme (ACE) thelial cells, neuroepithelial cells, and male germinal cells (3, has recently shownthat theenzyme contains two large[4])
Expression and Characterization of ACE Mutants in Chinese hamsterovary (CHO) Cells mains of human ACE ( N domain, C domain) (7)with the amino acid sequence located around the 2 zinc-binding histidines and the catalytic glutamic acid of thermolysin (THERM) (33) and rabbit neutral endopeptidase (34)
ACE, designated the N fragment, containing the signal peptide, the residues 1-737of ACE followed by 10 heterologous amino acids provided by the polylinker sequence of pECE (SalI to XbaI) and a stop codon TAA
Summary
(8).Six mutants containing mutations on either N or C domain or onbothdomains were thusconstructed(Fig. 2). All expression plasmids were characterized by restriction mapping and sequencing of the mutated regions. Expression and Characterization of ACE Mutants in CHO Cells mains of human ACE ( N domain, C domain) (7)with the amino acid sequence located around the 2 zinc-binding histidines and the catalytic glutamic acid of thermolysin (THERM) (33) and rabbit neutral endopeptidase (rNEP) (34). Numbers refer to the last amino acid position in each protein sequence. The deleted or mutated ACE cDNAs are under the transcriptional control of the SV40 early promoter in the expression plasmids. RNA dot blots were used to screen pure cell lines expressing each mutant. MATERIALS ANDMETHODS expressed in the transfected CHO cells (8). Enzymatic studies were performed using hippuryl-His-Leu (Hip-His-Leu)(Biochem, Switzer-
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