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  • Title: Complement-dependent antibody-mediated cytotoxicity in the spontaneously diabetic BB/OK rat: association with beta cell volume density.
    Author: Hehmke B, Lucke S, Schröder D, Klöting I, Kohnert KD.
    Journal: Eur J Immunol; 1990 May; 20(5):1091-6. PubMed ID: 2192902.
    Abstract:
    The present study examined in the spontaneously diabetic BB/OK rat whether a relationship exists between the appearance of complement-dependent antibody-mediated cytotoxicity (C'AMC) in serum and the relative beta cell volume density determined in pancreatic biopsies. C'AMC was estimated by 51Cr release from prelabeled major histocompatibility complex-compatible neonatal rat islet cells after exposure to rat serum and rabbit complement. Fifty-one percent (72/141) of sera from BB/OK rats with newly diagnosed diabetes were positive for C'AMC. At onset of hyperglycemia, insulin-immunoreactive beta cells were only detectable in pancreas biopsies of 25% (10/40) of the BB/OK rats who displayed mild hyperglycemia (plasma glucose 8.3-13.0 mmol/l) and low serum C'AMC. A twofold increase (p less than 0.01) of C'AMC and loss of the remaining beta cells was evident in untreated animals upon their reexamination within 1 week after diagnosis of hyperglycemia. Initiation of insulin therapy prevented neither the increase in C'AMC activity nor the decrease in the beta cell volume density. In contrast, three out of four mildly hyperglycemic BB/OK rats treated with cyclosporin A maintained both their initial C'AMC levels and relative beta cell volume density not only throughout the treatment period (4 weeks) but also for at least 4 weeks thereafter. In one additional animal receiving cyclosporin A no protection of the remaining beta cells could be achieved and C'AMC levels were markedly increased. It is concluded that the appearance of increased C'AMC in serum may reflect autoimmune reactions against the islet beta cells of spontaneously diabetic BB/OK rats. The increase of C'AMC seen in untreated as well as insulin-treated BB/OK rats, which were even devoid of beta cells, suggests that C'AMC activity appears secondary to the loss of beta cells. These results do not support the hypothesis of a direct beta cell destruction via intrainsular complement activation.
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