Antibodies introduced into living cells by red cell ghosts are functionally stable in the cytoplasm of the cells. |
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Authors: | M Yamaizumi T Uchida E Mekada Y Okada |
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Affiliation: | Research Institute for Microbial Diseases Osaka University Yamada-kami, Suita Osaka, Japan |
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Abstract: | 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. |
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