SomaticGNASMutation Causes Widespread and Diffuse Pituitary Disease in Acromegalic Patients with McCune-Albright Syndrome

GNAS复合轨迹 肢端肥大症 医学 生长细胞 麦库恩-奥尔布赖特综合征 垂体 内科学 腺瘤 垂体腺瘤 病理 增生 垂体瘤 内分泌学 激素 生物 生长激素 性早熟 生物化学 基因
作者
Alexander O. Vortmeyer,Sven Gläsker,Gautam U. Mehta,Mones Abu‐Asab,Jonathan H. Smith,Zhengping Zhuang,Michael T. Collins,Edward H. Oldfield
出处
期刊:The Journal of Clinical Endocrinology and Metabolism [Oxford University Press]
卷期号:97 (7): 2404-2413 被引量:77
标识
DOI:10.1210/jc.2012-1274
摘要

McCune-Albright syndrome (MAS) is caused by sporadic mutations of the GNAS. Patients exhibit features of acromegaly. In most patients, GH-secreting pituitary adenomas have been held responsible for this presentation. However, surgical adenomectomy rarely eliminates excess GH production.The aim of this study was to elucidate pituitary pathology in patients with MAS and to explain the basis of failure of adenomectomy to eliminate GH hypersecretion.We conducted a case series at the National Institutes of Health.Interventions included medical therapy and transsphenoidal surgery.We studied clinical and imaging features and the histology and molecular features of the pituitary of four acromegalic MAS patients.We identified widespread and diffuse pituitary gland disease. The primary pathological changes were characterized by hyperplastic and neoplastic change, associated with overrepresentation of somatotroph cells in structurally intact tissue areas. Genetic analysis of multiple microdissected samples of any type of histological area consistently revealed identical GNAS mutations in individual patients. The only patient with remission after surgery received complete hypophysectomy in addition to removal of multiple GH-secreting tumors.These findings indicate developmental effects of GNAS mutation on the entire anterior pituitary gland. The pituitary of individual cases contains a spectrum of changes with regions of normal appearing gland, hyperplasia, and areas of fully developed adenoma formation, as well as transitional stages between these entities. The primary change underlying acromegaly in MAS patients is somatotroph hyperplasia involving the entire pituitary gland, with or without development of somatotroph adenoma. Thus, successful clinical management, whether it is medical, surgical, or via irradiation, must target the entire pituitary, not just the adenomas evident on imaging.

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