Tumors produce glucocorticoids by metabolite recycling, not synthesis, and activate Tregs to promote growth
Matthew D. Taves, … , Margaret C. Cam, Jonathan D. Ashwell
Matthew D. Taves, … , Margaret C. Cam, Jonathan D. Ashwell
Published July 20, 2023
Citation Information: J Clin Invest. 2023;133(18):e164599. https://doi.org/10.1172/JCI164599.
View: Text | PDF
Research Article Immunology Oncology

Tumors produce glucocorticoids by metabolite recycling, not synthesis, and activate Tregs to promote growth

Abstract

Glucocorticoids are steroid hormones with potent immunosuppressive properties. Their primary source is the adrenals, where they are generated via de novo synthesis from cholesterol. In addition, many tissues have a recycling pathway in which glucocorticoids are regenerated from inactive metabolites by the enzyme 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1, encoded by Hsd11b1). Here, we find that multiple tumor types express Hsd11b1 and produce active glucocorticoids. Genetic ablation of Hsd11b1 in such cells had no effect on in vitro growth, but reduced in vivo tumor progression, which corresponded with increased frequencies of CD8+ tumor-infiltrating lymphocytes (TILs) expressing activation markers and producing effector cytokines. Tumor-derived glucocorticoids were found to promote signatures of Treg activation and suppress signatures of conventional T cell activation in tumor-infiltrating Tregs. Indeed, CD8+ T cell activation was restored and tumor growth reduced in mice with Treg-specific glucocorticoid receptor deficiency. Importantly, pharmacologic inhibition of 11β-HSD1 reduced tumor growth to the same degree as gene knockout and rendered immunotherapy-resistant tumors susceptible to PD-1 blockade. Given that HSD11B1 expression is upregulated in many human tumors and that inhibition of 11β-HSD1 is well tolerated in clinical studies, these data suggest that targeting 11β-HSD1 may be a beneficial adjunct in cancer therapy.

Authors

Matthew D. Taves, Shizuka Otsuka, Michaela A. Taylor, Kaitlynn M. Donahue, Thomas J. Meyer, Margaret C. Cam, Jonathan D. Ashwell

×

Figure 1

Widespread glucocorticoid generation via 11β-HSD1 activity in healthy tissues and tumor cells.

Options: View larger image (or click on image) Download as PowerPoint
Widespread glucocorticoid generation via 11β-HSD1 activity in healthy ti...
(A) Simplified glucocorticoid synthetic pathway. Green arrows indicate enzyme-mediated steroid conversions required for de novo corticosterone biosynthesis from cholesterol, including corticosterone generation from its immediate precursor DOC by CYP11B1 (or P450c11β, encoded by Cyp11b1), orange indicates corticosterone generation from inactive metabolite DHC by 11β-HSD1 (Hsd11b1), and black indicates corticosterone inactivation to DHC by 11β-HSD2 (Hsd11b2). Pharmacological inhibitors are listed in order of decreasing specificity (PF-915275 [PF915]; carbenoxolone [CBX]; metyrapone [MET]) and are indicated along with their target enzymes. (B and C) Relative gene expression of Cyp11b1 and Hsd11b1 in adult mouse tissues. Data were acquired from BioGPS, and bars show the means of 2 or more samples per tissue. (D) Corticosterone production by mouse tumor cell lines. 5 × 104 B16 melanoma, EL4 lymphoma, Panc02 pancreatic adenocarcinoma, MC38 colon carcinoma, and Lewis lung carcinoma cells were cultured for 45 minutes with 100 μM metyrapone or carbenoxolone and then cultured overnight with 100 nM DOC or DHC to test CYP11B1 or 11β-HSD1 activity, respectively. Supernatants were diluted in assay buffer and quantified via ELISA. (E) Hsd11b1 gene expression by mouse tumor cell lines. Total RNA was extracted from tumor cell lines and relative Hsd11b1 gene expression quantified via RT-qPCR, normalized to 18S RNA expression. D and E show the means of duplicate wells from 1 of 2 independent experiments. Supporting data are available in Supplemental Figure 1.