AI Article Synopsis

  • Pediatric endogenous Cushing syndrome (eCs) is caused by pituitary tumors that produce corticotropin, leading to symptoms similar to long-term glucocorticoid therapy, which allows researchers to study its effects on immunity.
  • The study involved immunologic analyses of healthy pediatric eCs patients before and after tumor removal, using various advanced techniques to investigate T-cell function and responses.
  • Findings revealed that eCs patients had decreased thymic output and T-cell levels, alongside increased apoptosis, but these issues normalized post-surgery; additionally, the introduction of IL-21 showed potential in mitigating the adverse effects of glucocorticoids on T-cells.

Article Abstract

Background: Pediatric endogenous Cushing syndrome (eCs) is mainly caused by pituitary corticotropin-producing adenomas, and most glucocorticoid-dependent effects progressively regress upon tumor removal. eCs reproduces long-term, high-dose glucocorticoid therapy, representing a clean, natural, and unbiased model in which to study glucocorticoid bona fide effects on immunity.

Objective: We performed extensive immunologic studies in otherwise healthy pediatric patients with eCs before and 6 to 13 months after tumor resection, as well as in in vitro glucocorticoid-treated control cells.

Methods: Flow cytometry, immunoblotting, enzyme-linked immunosorbent assay, real-time quantitative PCR, and RNA-Seq techniques were used to characterize patients' and in vitro glucocorticoid treated cells.

Results: Reduced thymic output, decreased naive T cells, diminished proliferation, and increased T-cell apoptosis were detected before surgery; all these defects eventually normalized after tumor removal in patients. In vitro studies also showed increased T-cell apoptosis, with correspondingly diminished NF-κB signaling and IL-21 levels. In this setting, IL-21 addition upregulated antiapoptotic BCL2 expression and rescued T-cell apoptosis in a PI3K pathway-dependent manner. Similar and reproducible findings were confirmed in eCs patient cells as well.

Conclusions: We identified decreased thymic output and lymphocyte proliferation, together with increased apoptosis, as the underlying causes to T-cell lymphopenia in eCs patients. IL-21 was decreased in both natural and in vitro long-term, high-dose glucocorticoid environments, and in vitro addition of IL-21 counteracted the proapoptotic effects of glucocorticoid therapy. Thus, our results suggest that administration of IL-21 in patients receiving long-term, high-dose glucocorticoid therapy may contribute to ameliorate lymphopenia and the complications associated to it.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8636539PMC
http://dx.doi.org/10.1016/j.jaci.2021.05.031DOI Listing

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