CVF administered before immunization can profoundly depress humoral responses in C-sufficient mice. In AKR/J C5- mice given CVF before i.v. immunization with SRBC, only IgG levels were depressed, IgM titers being equivalent to those of untreated controls. The immunosuppressive effect became inapparent when the i.p. route of immunization was adopted. In DBA/2J C5- mice reduction of both IgG and IgM titers was observed irrespective of the route of immunization. The degree of suppression was, however, much more marked when mice were challenged intravenously. Essentially identical results were obtained with C5+ DBA/1J mice. These studies indicate that immunosuppression by CVF is unrelated to activation of the late C components. The significance of these findings is discussed with reference to the possibility that the generation of biologically active C fragments in conjunction with a C3 deficiency may account for immunosuppression by CVF.
Classical and alternative complement pathway activities have been evaluated in sera of women in progressive stages of gestation and in pregnant mice belonging to outbred or inbred matings, as compared to suitable controls. While classical C pathway was found to be unmodified, the alternative one attained in pregnancy significantly higher activity levels. Results are discussed in the light of mother-conceptus relationships.
Mg++, Mn++ and Co++ activate the C system as judged by the reduction in cobra venom factor induced hemolysis, and cleavage of properdin factor B and C3. The maximum effect requires the addition of 5 to 10 mM of these cations to dialyzed sera. Guinea pig, human and rat sera respond in similar fashion indicating that these divalent cations can trigger the alternative pathway without the addition of other activating agents.
The interaction of guinea pig or rat serum with Z at 0°C leads to the formation of a properdin pathway intermediate, ZPI, whose activity is assessed by its capacity to deplete the titer of cobra venom inducible lysis in diluted rat serum. The formation of ZPI does not require C1 or C2 and is not diminished by prior absorption of the serum with Z. In contrast, removal of P suppresses ZPI formation. Both Ca++ and Mg++ are essential cofactors for the formation of this intermediate whose function is abrogated in the presence of anti-C3, anti-P, but not by anti-Factor B. Since C4-deficient guinea pig serum is also effective in ZPI formation, the data suggest that ZPI is an alternative pathway intermediate containing both P and C3.
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