Neuromedin B receptor as a potential therapeutic target for corticotroph adenomas

Author:

Sekizaki Tomonori1,Kameda Hiraku1,Nakamura Akinobu1,Kuwabara Saki1,Nomoto Hiroshi1,Cho Kyu Yong1,Ishi Yukitomo1,Motegi Hiroaki1,Miyoshi Hideaki1,Atsumi Tatsuya1

Affiliation:

1. Hokkaido University Graduate School of Medicine

Abstract

Abstract Purpose Cushing’s disease (CD) results from autonomous adrenocorticotropic hormone (ACTH) secretion by pituitary corticotroph adenomas, leading to excessive cortisol production, ultimately affecting morbidity and mortality. Pasireotide is the only FDA approved tumor directed treatment for CD, but it is effective in only about 25% of patients, and is associated with a high rate of hyperglycemia. Neuromedin B (NMB), a member of the bombesin-like peptide family, regulates endocrine secretion and cell proliferation. Here, we assessed NMB and NMB receptor (NMBR) expression in human corticotroph adenomas and the effects of NMBR antagonist PD168368 on murine and human corticotroph tumors.Methods To investigate NMB and NMBR expression, real-time qPCR and immunostaining on human pathological specimens of corticotroph, non-functional and somatotroph pituitary adenomas were performed. The effects of PD168368 on hormone secretion and cell proliferation were studied in vitro, in vivo and in seven patient-derived corticotroph adenoma cells. NMB and NMBR were expressed in higher extent in human corticotroph adenomas compared with non-functional or somatotroph adenomas.Results In murine AtT-20 cells, PD168368 reduced proopiomelanocortin (Pomc) mRNA/protein expression and ACTH secretion as well as cell proliferation. In mice with tumor xenografts, tumor growth, ACTH and corticosterone were downregulated by PD168368. In patient-derived adenoma cells, PD168368 reduced POMC mRNA expression in four out of seven cases and ACTH secretion in two out of five cases. A PD168368-mediated cyclin E suppression was also identified in AtT-20 and patient-derived cells.Conclusion NMBR antagonist represents a potential treatment for CD and its effect may be mediated by cyclin E suppression.

Publisher

Research Square Platform LLC

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