Purified proteins of the four human IgG subclasses were reduced under neutral conditions to break the interchain S-S bonds, followed by dialysis to allow reformation of S-S bonds (pr/o treatment). The IgG1, IgG2 and IgG4 proteins apparently reformed native molecules by pr/o treatment, while IgG3 formed molecules with significantly smaller size, as measured by HPLC gel filtration, compared to the autologous native proteins. The degree of shrinking of the pr/o IgG3 molecules varied and was most pronounced at low protein concn. In addition, the temp and the concn of reducing agent during the pr/o treatment had some influence on the molecular size. The effect is probably due to a conformational change of the 62 amino acid long hinge of IgG3. The effector activity of pr/o IgG2 and pr/o IgG3 was studied by employing chimeric, mouse V and human C regions, monoclonal antibodies with the same NIP-binding properties. Thus, the interaction between IgG and the complement system was unchanged both for pr/o IgG2 and pr/o IgG3, while the Fc-receptor-mediated antibody-dependent cellular cytotoxicity (ADCC) was depressed to the same degree for both pr/o IgG2 and pr/o IgG3. Conclusively, the alteration of the conformation of the IgG3 molecule by pr/o treatment had no major influence on its effector functions.