Antibodies introduced into living cells by red cell ghosts are functionally stable in the cytoplasm of the cells.

The function and fate of antibodies introduced into living cells by red cell ghosts were studied using CRM 176 (a mutant diphtheria toxin having lower toxicity than the wild-type) and antibody against fragment A of diphtheria toxin. IgG labeled with iodine and FITC was found in the cytoplasm of the recipient cells. When about 1500 molecules of anti-fragment A antibody (rabbit IgG) were introduced into diphtheria toxin-sensitive Vero cells or FL cells, these cells became resistant to the toxin and formed normal colonies. It was calculated from the survival of cells without anti-fragment A IgG under these conditions that about 300 molecules of fragment A-176 were transferred to the cells. These results showed that the antigen-antibody reaction took place in living cells as effectively as in a cell-free system. The functional stability of antibody IgG in cells was examined by exposing Vero cells containing a subminimal amount of anti-fragment A IgG (about 1000 molecules) to the toxin for 2 hr at various times after the introduction of anti-fragment A IgG. More than 50% of the initial activity of the antibody to neutralize toxin still remained even after incubation of the cells at 37°C for 20 hr. The same degree of stability was also demonstrated using iodine-labeled specific anti-fragment A IgG. The IgG recovered from the recipient cells after various times of incubation at 37°C retained its full ability to bind to fragment A-conjugated Sepharose 4B, although the total amount of IgG associated with the cells decreased about 50% in 24 hr.