Abstract

A unique thioester bond, formed between the side chains of neighboring C and Q residues, is present in complement components C3 and C4 and the protease inhibitor alpha 2-macroglobulin. This structure is essential for mediating covalent attachment to target acceptors and also for maintaining these proteins in their native conformation. An examination of the residues in the immediate vicinity of the C and Q reveals a very high degree of sequence similarity among the three proteins which crosses species barriers. The following is the sequence flanking the thioester residues in C3, the highly conserved amino acids being underlined and the the thioester-forming residues being indicated by italics: 1005V-T-P-S-G-C-G-E-Q-N-M-I-G-M-T-P-T1021. Through a site-directed mutagenesis and cDNA expression approach, we have examined the importance of the conserved amino acids in the formation, stability, and function of the thioester bond in C3. The behavior of the mutants fell into three categories. The potential loss in peptide backbone flexibility by the replacement of G1009 by A or S was permissive to thioester formation and function as was replacement of M1015 by the still fairly bulky residue F. In contrast, replacement of M1015 by A resulted in an alpha-chain which was highly unstable toward proteolytic degradation. The third category, which included mutant molecules P1007G, P1020G, E1012Q, and Q1013N, displayed an unusual phenotype in which both the autolytic fragmentation and the hemolytic activity characteristics of thioester-intact molecules were absent. However, like their wildtype counterpart, these molecules retained the ability to be cleaved by C3 convertase (C4b2a), a conformation-dependent property that is normally lost in the conversion of native C3 to thioester-hydrolyzed C3(H2O). Since an identical functional profile was obtained when the thioester was deliberately prevented from forming in the mutant C1010A, we conclude that if a stable thioester fails to form during biosynthesis, at least parts of the mature protein can adopt a more native-like conformation than is the case when the thioester is first formed and then hydrolyzed in the mature protein. In view of these new findings, the interpretation of the previously observed correlation between the loss of thioester integrity and the adoption of a C3b-like conformation must be reassessed.

Highlights

  • 0.9 0.9 0.7 afwtehrich reducing agent was added; d, pretreatment of the supernatants with C4b2a fol!owed by immunoprecipitation with anti-C3 under autolytic conditionse;, pretreatment of thesupernatant with 2 M KBr followed by direct immunoprecipitation with anti-C3; j, pretreatment of the supernatant with 2 M KBr followed by autolytic conditions immunoprecipitation

  • There is a considerable body of evidence indicating that the thioester bond present inC3, C4,and az-macroglobulinfulfills the dual functions of mediating covalent transacylation and maintaining the native precursor conformational state of these molecules (Isenman, 1983; Gonias and Pizzo, 1983; Straight and McKee, 1983; Bjork and Fish, 1982; SottrupJensen, 1989; Stoops et al, 1991)

  • A search of the Swiss protein data bank for the sequences CGEQ or CAEQ, the tetrapeptide sequences involved in forming the thiolactone ring in C3, C4, and az-macroglobulin of various species, revealed that these two sequences occurred in quite a number of other proteins which were not known to display the characteristics of the thioester-containing proteins

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Summary

Methods

Buffers-The following diethyl barbiturate (verona1)-NaCIbuffers were used (Rapp andBorsos, 1963):VBS, 4 mM veronal, pH 7.2,0.15 M NaCI, 0.15 mM CaC12, 0.5 mMMgC12 (I( = 0.15);GVB,VBS containing 0.1% gelatin; GVBE, GVB made 10 mM in EDTA SGVB, low ionic strength GVB made isotonic with sucrose (F = 0.06). Cell Culture Media-Tissue culture products were from GIBCO. The high glucose formulation of Dulbecco's modifiedEagle's medium (DMEM) supplemented with 2 mM L-glutamine, 50 units/ml penicillin, and 50 pg/ml streptomycin was the basal tissue culture medium used in this study. The pH of the medium was maintained by 5%C02 in a humidified incubator. COS-1 cells were maintained in DMEM supplemented with 10% heat-inactivated fetal calf serum (DMEM10% FCS). DMEM-DEAE-Dextran transfection medium consisted of serum-free DMEM containing 50 mM Tris, pH 8.0, and 0.5 mg/ml DEAE-Dextran (Sigma). The chloroquine concentration in DMEM10% FCS-chloroquine was 100 p ~

Results
Discussion
Conclusion

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