A potential role of altered SIgA-targeting of gut microbiota in long-term dysbiosis in pediatric solid organ transplant recipients
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Background
Composition of gut microbiota (GM) is altered in solid organ transplantation (SOT) patients, where the degree of dysbiosis is associated with long-term survival. Factors governing dysbiosis are poorly understood with immunosuppression therapy believed to be involved in altering GM composition in those patients, either directly or via the immune system. At the interface stands secretory (S)IgA, however, little is known on its role governing dysbiosis in the context of SOT. In this study, we performed quantitative metagenomic analyses of GM accompanied by SIgA sequencing in 48 pediatric SOT recipients (age = 10.6 ± 4.7 years) receiving either a heart (HTR, n=10), a kidney (KTR, n=11) or a liver (LTR, n=27) and compared results to healthy controls (HC, n=16).
Results
We confirmed compositional and functional dysbiosis in SOT patients that broadly clustered into two groups, where cluster 1 (n=23) comprised most LTR patients and was closer to HC compared with cluster 2 (n=24) that exhibited stronger dysbiosis and included most HTR and KTR patients. The degree of dysbiosis was associated with Tacrolimus (TAC) levels. Overall, patients exhibited higher SIgA levels than HC, along with an increased percentage of bacteria targeted and altered target spectra. Furthermore, altered SIgA responses were associated with the degree of dysbiosis and were especially increased in cluster 2, in particular in HTR patients. A mechanistic model connecting immunosuppression, GM composition and SIgA targeting is proposed.
Conclusion
Our study suggests that altered SIgA responses play an important role for GM alterations observed in SOT patients. It opens new therapeutic angles to combat GM dysbiosis and associated long-erm complications.
