Twenty lung transplant recipients with clinical and physiological evidence of BOS were invited to participate in the study and fully informed consent was obtained. Ethics approval for the study was obtained from the Royal Adelaide Hospital Ethics Committee (protocol 010711) in compliance with the Helsinki Declaration. Rejection status was also categorized histologically on transbronchial biopsies according to standard criteria [11]. Demographic details of these patients are shown in Table 1. Predisposing pathology and other patient demographics are shown in Table 2. As restrictive allograft syndrome is a novel form of chronic allograft dysfunction exhibiting Small molecule library concentration characteristics of peripheral
lung fibrosis [12], patients with a Ras phenotype were excluded from the study. Hence, all patients with forced expiratory volume in 1 s (FEV1) < 80% baseline and total lung capacity < 90% baseline were Y-27632 cost excluded with or without peripheral pulmonary fibrosis, as well as all patients with peripheral lung fibrosis. Thirty-eight lung transplant recipients with stable lung function (FEV1) and no clinical evidence of current acute or chronic rejection or infection were invited to participate in the study. All patients were submitted to the same protocol and analysis performed retrospectively. All transplant patients were at least 8 months post-transplant (median 49
months, range 8–87 months). All patients with clinically significant infections were omitted from the study. Immunosuppression therapy comprised combinations of either cyclosporin A (CsA) or tacrolimus (Tac) with prednisolone, and azathioprine or mycophenolate mofetil. Trough plasma drug levels of either CsA or Tac were within or above the recommended therapeutic ranges [range for CsA (80–250 μg/l) and Tac (5–15 μg/l)]. Ten healthy age-matched volunteers with no evidence of lung disease were recruited as controls. Venous blood was collected into 10 U/ml of preservative-free sodium heparin (DBL, Sydney, Australia) and blood samples were maintained at 4°C until processing. Full blood counts, including white cell differential counts, were determined on blood specimens
using a CELL-DYN 4000 (Abbot Diagnostics, Sydney, Australia). One hundred and fifty microlitres of peripheral blood were stained with monoclonal antibodies oxyclozanide as reported previously to CD8 fluorescein isothiocyanate (FITC) (BD Biosciences (BD), Sydney, Australia), CD4 phycoerythrin (PE) (BD), CD3 peridinin chlorophyll-cyanine 5·5 (PerCP-Cy5·5) (BD), CD28 PE-Cy7 (BD) and CD45V450 (BD) and analysed as reported previously [8, 10, 13]. To enumerate CD4 and CD8 T cell granzyme B and perforin, 150 ul of peripheral blood was added to fluorescence activated cell sorter (FACS) tubes. To lyse red blood cells, 2 ml of FACSlyse solution (BD) was added and tubes incubated for 10 min at room temperature in the dark. Tubes were decanted after centrifugation at 500 g for 5 min.
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