IntroductionDonor human leukocyte antigen (HLA)-specific antibodies (DSA) and non-HLA antibodies can cause allograft injury, possibly leading to chronic lung allograft dysfunction (CLAD) after lung transplantation (LTx). It remains unclear whether these antibodies are produced locally in the graft or derived solely from circulating plasma cells. We hypothesized that DSA and non-HLA antibodies are produced in CLAD lungs. MethodsLung tissue was prospectively collected from 15 CLAD patients undergoing re-LTx or autopsy. 0.3g of fresh lung tissue was cultured for 4 days without or with lipopolysaccharide or with CD40L: resulting lung culture supernatant (LCS) was sampled. Protein eluate was obtained from 0.3g of frozen lung tissue. Mean fluorescence intensity (MFI) of DSA and non-HLA antibodies was measured by Luminex and antigen microarray, respectively. ResultsLCS from all 4 patients who had serum DSA at lung isolation were positive for DSA, with higher levels measured after lung tissue stimulation with CD40L (CD40L+LCS). Of these, only 2 had detectable DSA in the lung eluate. MFI of non-HLA antibodies from CD40L+LCS correlated with those from lung eluate, but not with those from sera. Flow cytometry showed higher frequencies of activated lung B cells for patients whose CD40L+LCS was positive for DSA (n=4) or high non-HLA antibodies (n=6) compared to those with low local antibodies (n=5). Immunofluorescence staining showed CLAD lung lymphoid aggregates with local antibodies contained larger numbers of IgG+ plasma cells and greater IL-21 expression. ConclusionsWe show that DSA and non-HLA antibodies can be produced within activated B cell-rich lung allografts.