SAT-300 Evading Death: Noxa in Cushing’s Disease Pituitary Adenomas

Abstract

Introduction: Recurrence of Cushing’s disease (CD) caused by benign pituitary microadenomas are challenging clinical problems. Mechanisms underlying adenoma formation and recurrence remain unknown. PMAIP1 gene codes for Noxa, a Bcl-2 homology 3 (BH3) pro-apoptotic protein frequently downregulated in malignant human tumors.1-6 The role of dysregulated apoptosis remains largely unknown in benign tumors and in CD. We hypothesized that altered expression of Noxa protein is a pro-survival adaptation employed by CD adenomas. Methods: Syngeneic human pituitary adenoma and adjacent normal gland pairs (n=2), and an additional CD adenoma were analyzed with RNAseq. 10 CD, 1 growth hormone (GH) and 1 non-functioning adenoma (NFPA) underwent immunohistochemical (IHC) analysis for Noxa expression, which was graded by a neuropathologist as 0=none, 1=light, 2=medium, 3=strong. Staining grade represents relative protein expression. Results: Compared to adjacent normal pituitary tissue, we found that adenomas (n = 3) had a 3.76 fold increase in PMAIP1 mRNA. However, there was attenuated Noxa IHC staining in adenomas compared to normal pituitary in 8 of 10 CD patients (2:3, respectively), but similar staining in 2 of 10 CD patients (2:2 and 2-3:2-3). In GH and NFPA, we found similar patterns of Noxa suppression in the adenomas compared to the normal gland. Conclusion: Despite elevated PMAIP1 (Noxa) gene expression in adenomas compared to adjacent normal gland in CD, protein expression was reduced in adenomas. This downregulation of Noxa protein expression may contribute to reduced apoptosis of tumor cells. These findings suggest that CD adenomas gain pro-survival advantage by downregulating Noxa protein at post-transcriptional or post-translational level.