Author: Papadopoulos, Theofilos; Heuer, Heike; Bauer, Karl
Title: Analysis of the thyrotropinâ€releasing hormoneâ€degrading ectoenzyme by siteâ€directed mutagenesis of cysteine residues: Cys68 is involved in disulfideâ€linked dimerization Cord-id: thjecxg7 Document date: 2001_12_25
ID: thjecxg7
Snippet: Thyrotropinâ€releasing hormoneâ€degrading ectoenzyme is a member of the M1 family of Znâ€dependent aminopeptidases and catalyzes the degradation of thyrotropinâ€releasing hormone (TRH; Glpâ€Hisâ€Proâ€NH(2)). Cloning of the cDNA of this enzyme and biochemical studies revealed that the large extracellular domain of the enzyme with the catalytically active site contains nine cysteine residues that are highly conserved among species. To investigate the functional role of these cysteines in TR
Document: Thyrotropinâ€releasing hormoneâ€degrading ectoenzyme is a member of the M1 family of Znâ€dependent aminopeptidases and catalyzes the degradation of thyrotropinâ€releasing hormone (TRH; Glpâ€Hisâ€Proâ€NH(2)). Cloning of the cDNA of this enzyme and biochemical studies revealed that the large extracellular domain of the enzyme with the catalytically active site contains nine cysteine residues that are highly conserved among species. To investigate the functional role of these cysteines in TRHâ€DE we used a siteâ€directed mutagenesis approach and replaced individually each cysteine by a serine residue. The results revealed that the proteolytically truncated and enzymatically fully active enzyme consists of two identical subunits that are associated noncovalently by protein–protein interactions but not via interchain Sâ€S bridges. The eight cysteines contained within this region are all important for the structure of the individual subunit and the enzymatic activity, which is dramatically reduced in all mutant enzymes. This is even true for the four cysteines that are clustered within the Câ€terminal domain remote from the Znâ€binding consensus sequence HEICH. In contrast, Cys68, which resides within the stalk region seven residues from the end of the hydrophobic membraneâ€spanning domain, can be replaced by serine without a significant change in the enzymatic activity. Interestingly, this residue is involved in the formation of an interchain disulfide bridge. Covalent dimerization of the subunits, however, does not seem to be essential for efficient biosynthesis, enzymatic activity and trafficking to the cell surface.
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