Novel somatic variants involved in biochemical activity of pure growth hormone-secreting pituitary adenoma without GNAS variant.

We aimed to identify somatic genetic alterations in pure growth hormone (GH)-secreting pituitary adenomas without GNAS variants. Patients with GH-secreting pituitary adenoma who underwent transsphenoidal adenomectomy at Severance Hospital, Yonsei University College of Medicine were recruited. Somatic genetic alterations were profiled by whole-exome sequencing (WES) and targeted resequencing. WES was performed using DNA from nine GH-secreting pituitary tumors and corresponding blood samples. Absence of GNAS variant was confirmed by Sanger sequencing. For targeted resequencing of 140 fixed tissues, 48 WES-derived candidate genes and 7 GH-secreting pituitary adenoma-associated genes were included. Forty-eight genes with 59 somatic variants were identified by WES. In targeted resequencing, variants in 26 recurrent genes, including MAST4, PRIM2, TNN, STARD9, DNAH11, DOCK4, GPR98, BCHE, DARS, CUBN, NGDN, PLXND1, UNC5B, and COL22A1, were identified, but variants in previously reported genes were not detected. BCHE, DARS, NGDN, and UNC5B variants were associated with increased GH-secreting pituitary tumor biochemical activity, which was confirmed in vitro. Although recurrent point variants were rare, several somatic variants were identified in sporadic pure GH-secreting pituitary adenomas. Several somatic variants may affect pathways involved in the tumorigenesis and biochemical activities of GH-secreting pituitary adenomas.

Ku CR ，Lim H ，Lee YJ ，Kim SH ，Kim D ，Kim SH ，Lee MK ，Bang D ，Lee EJ ... -  《Scientific Reports》

METTL3-mediated RNA m6A Hypermethylation Promotes Tumorigenesis and GH Secretion of Pituitary Somatotroph Adenomas.

Pituitary growth hormone-secreting (GH) pituitary adenomas (PAs) cause mass effects and dysregulated hypersecretion of GH. However, somatic mutation burden is low in PAs. While progress has been made in identifying the epigenetic changes involved in GH-PA initiation, the precise details of its tumorigenesis in GH-PA patients remains to be elucidated. As N6-methyladenosine (m6A) has been shown to often play a critical role in various tumors, it represents a possible initiation point for the tumorigenesis of pituitary adenomas. However, the role of RNA methylation in GH adenomas remains unclear. Protein expression of m6A regulators was measured by immunohistochemistry. Global levels and distribution of m6A methylation were separately analyzed by m6A enzyme-linked immunosorbent assay and m6A sequencing (m6A-seq). RNA interference and lentivirus knockdown system were used to investigate the role of methyltransferase-like 3 (METTL3) and its m6A- dependent regulatory mechanism in tumor progression and GH secretion. We show that both METTL3 messenger RNA and protein expression are elevated in GH-PA samples when compared with both normal pituitary tissue specimens and nonsecreting pituitary adenomas. Levels of m6A modification increased in GH-PAs, and hypermethylated RNAs are involved in hormone secretion and cell development. Knockdown of METTL3 in GH3 cell line resulted in decreased cell growth and GH secretion. Importantly, we found that GNAS and GADD45γ act as the downstream targets in this process. Our findings strongly suggest that m6A methyltransferase METTL3 promotes tumor growth and hormone secretion by increasing expression of GNAS and GADD45γ in a m6A-dependent manner. Thus, METTL3 and the methylated RNAs constitute suitable targets for clinical treatment of GH-PAs.

Chang M ，Wang Z ，Gao J ，Yang C ，Feng M ，Niu Y ，Tong WM ，Bao X ，Wang R ... -  《-》

Landscape of somatic mutations in sporadic GH-secreting pituitary adenomas.

Alterations in the cAMP signaling pathway are common in hormonally active endocrine tumors. Somatic mutations at GNAS are causative in 30-40% of GH-secreting adenomas. Recently, mutations affecting the USP8 and PRKACA gene have been reported in ACTH-secreting pituitary adenomas and cortisol-secreting adrenocortical adenomas respectively. However, the pathogenesis of many GH-secreting adenomas remains unclear. Comprehensive genetic characterization of sporadic GH-secreting adenomas and identification of new driver mutations. Screening for somatic mutations was performed in 67 GH-secreting adenomas by targeted sequencing for GNAS, PRKACA, and USP8 mutations (n=31) and next-generation exome sequencing (n=36). By targeted sequencing, known activating mutations in GNAS were detected in five cases (16.1%), while no somatic mutations were observed in both PRKACA and USP8. Whole-exome sequencing identified 132 protein-altering somatic mutations in 31/36 tumors with a median of three mutations per sample (range: 1-13). The only recurrent mutations have been observed in GNAS (31.4% of cases). However, seven genes involved in cAMP signaling pathway were affected in 14 of 36 samples and eight samples harbored variants in genes involved in the calcium signaling or metabolism. At the enrichment analysis, several altered genes resulted to be associated with developmental processes. No significant correlation between genetic alterations and the clinical data was observed. This study provides a comprehensive analysis of somatic mutations in a large series of GH-secreting adenomas. No novel recurrent genetic alterations have been observed, but the data suggest that beside cAMP pathway, calcium signaling might be involved in the pathogenesis of these tumors.

Ronchi CL ，Peverelli E ，Herterich S ，Weigand I ，Mantovani G ，Schwarzmayr T ，Sbiera S ，Allolio B ，Honegger J ，Appenzeller S ，Lania AG ，Reincke M ，Calebiro D ，Spada A ，Buchfelder M ，Flitsch J ，Strom TM ，Fassnacht M ... -  《-》

Whole-Genome Sequencing of Growth Hormone (GH)-Secreting Pituitary Adenomas.

Välimäki N ，Demir H ，Pitkänen E ，Kaasinen E ，Karppinen A ，Kivipelto L ，Schalin-Jäntti C ，Aaltonen LA ，Karhu A ... -  《-》

Analysis of GNAS mutations in 60 growth hormone secreting pituitary tumors: correlation with clinical and pathological characteristics and surgical outcome based on highly sensitive GH and IGF-I criteria for remission.

Freda PU ，Chung WK ，Matsuoka N ，Walsh JE ，Kanibir MN ，Kleinman G ，Wang Y ，Bruce JN ，Post KD ... -  《Pituitary》