Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: EC:3.4.21.69 (
APC
)
16,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To investigate the mechanism by which treatment of normal human erythrocytes with the sulfhydryl reagent 2-aminoethylisothiouronium bromide (AET) induces susceptibility to complement mediated lysis, the effects of AET on the structural and functional integrity of decay accelerating factor (DAF), membrane inhibitor of reactive lysis (MIRL), and complement receptor type 1 (CR1) were examined. Following treatment with AET, erythrocyte MIRL and CR1 were no longer recognized in situ by antibodies, and antibody binding to DAF was diminished by approximately 50%. These studies indicated that the structural integrity of the three complement regulatory proteins was either partially (DAF) or completely (MIRL and CR1) disrupted by AET. Subsequent experiments showed that functional inactivation paralleled the structural disruption. Treatment of normal erythrocytes with AET induced susceptibility to cobra venom factor-initiated hemolysis, indicating that the functional activity of MIRL had been destroyed. The capacity of erythrocyte CR1 to serve as a cofactor for factor I-mediated cleavage of iC3b to C3c and C3dg was lost following treatment with AET.
C3 convertase
activity increase markedly following treatment of erythrocytes with AET, but convertase activity on AET cells was approximately 50% less than that observed when DAF function on normal cells was completely inhibited by antibody. Susceptibility of AET cells to acidified serum lysis was shown to be due primarily to inactivation of MIRL. Unexpectedly, in acidified serum the activity of the amplification
C3 convertase
of the
APC
was found to be controlled by MIRL as well as by DAF. These studies show that AET induces susceptibility to complement-mediated lysis by disrupting the structural and functional integrity of membrane constituents that regulate the activity of both the C3 convertases and the membrane attack complex of complement.
...
PMID:Induction of the paroxysmal nocturnal hemoglobinuria phenotype in normal human erythrocytes: effects of 2-aminoethylisothiouronium bromide on membrane proteins that regulate complement. 171 May 19
The fourth EGF-like domain of thrombomodulin (TM4), residues E346-F389 in the TM sequence, has been synthesized. Refolding of the synthetic product under redox conditions gave a single major product. The disulfide bonding pattern of the folded, oxidized domain was (1-3, 2-4, 5-6), which is the same as that found in EGF protein. TM4 was tested for TM anticoagulant activity because deletion and substitution mutagenesis experiments have shown that the fourth EGF-like domain of TM is essential for TM cofactor activity. TM4 showed no TM-like activity in two assay systems, both for inhibition of fibrin clot formation, and for cofactor activity in thrombin activation of
protein C
. A preliminary structure of TM4 was determined by 2D 1H NMR from 519 NOE-derived distance constraints. Distance geometry calculations yielded a single convergent structure. The structure resembles the structure of EGF and other known EGF-like domains but has some key differences. The central two-stranded beta-sheet is conserved despite the differences in the number of amino acids in the loops. The C-terminal loop formed by the disulfide bond between C372 and C386 in TM4 is five amino acids longer than the analogous loop between C33 and
C42
of EGF protein. This loop appears to have a different fold in TM4 than in EGF protein. The loop forms the two outside strands of a broken, irregular tri-stranded beta-sheet, and amino acids H384-F389 lie between the two strands forming the middle strand of the sheet. Thus, although the C-terminus of EGF protein forms one of the outside strands of a tri-stranded antiparallel sheet, the C-terminus of TM4 forms the inside strand of an irregular tri-stranded parallel-anti-parallel sheet. The residues D349, E357, and E374, which were shown to be critical for cofactor activity by alanine scanning mutagenesis, all lie in a patch near the C-terminal loop, and are solvent accessible. The other critical residues, Y358 and F376, are largely buried and appear to play essential structural rather than functional roles.
...
PMID:Synthesis, activity, and preliminary structure of the fourth EGF-like domain of thrombomodulin. 852 67
