Specific B cell tolerance is induced by cyclosporin A plus donor-specific blood transfusion pretreatment: prolonged survival of MHC class I disparate cardiac allografts.

Donor-specific blood transfusion (DST), designed to prolong allograft survival, sensitized recipients of the high-responder PVG-RT1u strain, resulting in accelerated rejection of MHC-class I mismatched (PVG-R8) allografts. Rejection was found to be mediated by anti-MHC class I (Aa) alloantibody. By pretreating recipients 4 wk before grafting with cyclosporin A (CsA) daily (x7), combined with once weekly (x4) DST, rejection was prevented. The investigation explores the mechanism for this induced unresponsiveness. CD4 T cells purified from the thoracic duct of CsA/DST-pretreated RT1u rats induced rejection when transferred to R8 heart-grafted RT1u athymic nude recipients, indicating that CD4 T cells were not tolerized by the pretreatment. To determine whether B cells were affected, nude recipients were pretreated, in the absence of T cells, with CsA/DST (or CsA/third party blood) 4 wk before grafting. The subsequent transfer of normal CD4 T cells induced acute rejection of R8 cardiac allografts in third party- but not DST-pretreated recipients; prolonged allograft survival was reversed by the cotransfer of B cells with the CD4 T cells. Graft survival correlated with reduced production of anti-MHC class I (Aa) cytotoxic alloantibody. The results indicated that the combined pretransplant treatment of CsA and DST induced tolerance in allospecific B cells independently of T cells. The resulting suppression of allospecific cytotoxic Ab correlated with the survival of MHC class I mismatched allografts. The induction of B cell tolerance by CsA has important implications for clinical transplantation.

Inhibition of serum and transforming growth factor beta (TGF-beta1)-induced DNA synthesis in confluent airway smooth muscle by heparin.

1. Airway remodelling occurs in asthma and involves an increase in airway smooth muscle mass through cell proliferation and hypertrophy. Increased eosinophil density in the airways is a feature of asthma. Eosinophils exhibiting activation in the airways of asthmatics also exhibit increased expression of transforming growth factor beta (TGF-beta1). We have examined the capacity of TGF-beta1 and epidermal growth factor (EGF) to influence airway smooth muscle division and the effect of heparin on TGF-beta1. EGF and serum-induced smooth muscle DNA synthesis in confluent airway smooth muscle cells (ASMC) as an indication of entry into S phase preceding mitogenesis. 2. ASMC were obtained from cell populations growing out from explanted bovine trachealis muscle sections. Cell division was monitored in sparse plated cells by direct cell counting following nuclear staining. Cell DNA synthesis in confluent cells was monitored by uptake of [3H]-thymidine. 3. TGF-beta1 (100 microM) inhibited FBS (10%)-induced smooth muscle division in sparsely plated cells (40%). TGF-beta1 (100 pM) increased cell DNA synthesis (200%) in confluent cells in the presence of bovine serum albumin (BSA, 0.25%). EGF (0.7 nM) also increased airway smooth muscle DNA synthesis (69%) in the presence of BSA (0.25%). The facilitatory effect of TGF-beta1 was observed between 1-100 pM, while that of EGF was observed between 20 200 pM. 4. Heparin inhibited serum and TGF-beta1-induced DNA synthesis in confluent ASMC (55%), consistent with our previous observation of inhibition of division in sparsely populated ASMC (Kilfeather et al., 1995a). This action of heparin was observed between concentrations of 1-100 microg ml(-1). Heparin did not inhibit DNA synthesis in response to EGF. An anti-mitogenic effect of heparin was also observed against responses to combined exposure to TGF-beta1 and EGF. 5. There was a clear inhibitory effect of heparin in absolute terms against serum-induced division in cells plated at 10, 20 and 45 x 10(3) cells cm(-2). The inhibitory effect of heparin was also observed at a plating density of 45,000 cells cm(-2) when responses to serum were expressed as fold-stimulation of basal DNA synthesis. 6. These findings demonstrate a potential role of TGF-beta1, EGF and heparin-related molecules in regulation of airway smooth muscle division.

Contrasting outcomes of donor-specific blood transfusion: effectiveness against cell-mediated but not antibody-mediated rejection.

BACKGROUND: Giving recipients a prior donor-specific blood transfusion (DST) is effective in prolonging organ allograft survival in some inbred strains but not in others. The present investigation analyzed two such contrasting strains of rats in an attempt to define the basis for this variation. METHODS AND RESULTS: The survival of fully mismatched Dark Agouti (RT1a) cardiac allografts was significantly prolonged (from 7 to 44 days, median survival times) in PVG (RT1c) rats given a prior (-14 day) DST, whereas it shortened survival in the high-responder PVG-RT1u strain. Injecting PVG recipients with blood from strains bearing defined differences indicated that each disparity contributed to the increased survival time in an incremental way: blood and heart matched at the MHC class I (A) and/or class II (B/D) loci had a major influence on survival; class I-like (C) and non-MHC antigens made only minor contributions. MHC disparities had contrasting effects in RT1u rats. Blood transfusions from Dark Agouti or PVG-R8 (AaB/DuCu) rats induced accelerated rejection and anti-Aa alloantibody formation; transfusing PVG-R23 (AuB/DaCa) blood, a class II and class I-like difference, induced indefinite R23 heart allograft survival. Although produced in high titer, anti-class II antibody was not able to induce rejection in RT1u rats. Specific anti-Aa alloantibody was able, after passive transfer, to destroy class I-disparate allografts in both RT1u nude and PVG nude recipients. However, under normal circumstances, acute rejection in the PVG strain occurred in the absence of anti-Aa antibodies, presumably by a cell-mediated mechanism. CONCLUSION: Anti-class I alloantibody, when produced, seemed to override the unresponsiveness induced by DST. The results indicated that DST was effective only when rejection was induced by a cell-mediated response. The two contrasting response patterns in animals may reflect the experience of transplant patients who either benefit from DST or become sensitized instead.