Function of subunits within the eighth component of human complement: selective removal of the gamma chain reveals it has no direct role in cytolysis.

Abstract

The eighth component of human complement (C8) consists of a disulfide-linked alpha-gamma dimer that is noncovalently associated with beta. Previous results from this laboratory established that two of these subunits have distinct roles in the cytolytic function of C8. Binding of C8 to the precursive C5b-7 complex is mediated strictly through beta while interaction between C8 and the lipid bilayer of target membranes occurs primarily through alpha. In the present study, we examined the importance of the gamma subunit in cytolysis by characterizing functional properties of C8', a derivative of C8 that lacks gamma. Preparation of this derivative was accomplished by limited cleavage of disulfide bonds in purified alpha-gamma and separation of alpha from gamma. When mixed, purified alpha and beta combined to form C8'. When tested for functional similarity to normal C8, the following results were obtained. (1) Specific and saturable binding of C8' to the C8 binding site on C5b-7 could be achieved. Significantly, the resulting C5b-8' supported subsequent C9 binding and cell lysis, which was equivalent to that observed with C5b-8. (2) Complement activation of (C8 + C9)-depleted serum containing C8' resulted in formation of SC5b-8'. Inclusion of C9 in the serum resulted in further conversion to SC5b-(8')9. These observations indicate that C8' is functionally similar to C8. Furthermore, they indicate that unlike alpha and beta, the gamma subunit has no direct role in facilitating C8 interaction with the nascent cytolytic complex or in mediating C9 binding and membrane lysis.(ABSTRACT TRUNCATED AT 250 WORDS)