Sporadic Pituitary Adenomas Research Articles

GENO-09LANDSCAPE OF GENOMIC ALTERATIONS IN PITUITARY ADENOMAS

BACKGROUND: The genetic underpinnings of sporadic pituitary adenomas remain incompletely understood, despite their prevalence in adults. We describe a comprehensive genetic characterization of the largest mixed cohort of pituitary macroadenomas, including hormonally active and atypical adenomas. METHODS: 42 pituitary adenomas were selected to represent a spectrum of histopathologic subtypes, de novo and recurrent tumors, and MIB-1 proliferative indices to interrogate the heterogeneity intrinsic to pituitary tumors. Whole-exome sequencing was performed on tumor and paired blood to identify somatic copy-number alterations, mutations, insertions and deletions. RESULTS: We appreciated two classes of pituitary tumors based upon the fraction of the genome disrupted. The first class (71% of tumors) had somatic copy-number alterations involving less than 6% of the genome; the other class (29%) had significantly greater levels of genomic disruption, up to 99% of the genome involved. The widespread genomic disruption observed in the second class was largely accounted for by arm-level events, with minimal involvement of focal events, which is rare among tumor types. Levels of genomic disruption were associated with phenotype. Among the less disrupted group, 87% (26/30) were clinically non-functional adenomas, whereas the majority of the disrupted group were functional or atypical null-cell adenomas. The high and low genomic disruption classes did not differ in mean MIB-1 proliferative index. Frequent loss of chromosomes 11 and 1p were observed, as well as significant recurrent amplifications of chromosome 5, 7, 9, 12, and 14q. On the whole, the tumors harbored a low rate of mutations, similar to other benign brain tumors. CONCLUSIONS: Genomic characterization of a large series of sporadic pituitary adenomas reveals two distinct classes of tumor, based on genomic disruption from broad copy-number alterations, and associates with tumor subtype.

GWAS reveals mutations underlying sporadic pituitary adenoma

GWAS reveals mutations underlying sporadic pituitary adenoma

Common variants at 10p12.31, 10q21.1 and 13q12.13 are associated with sporadic pituitary adenoma.

Pituitary adenoma is one of the most common intracranial neoplasms, and its genetic basis remains largely unknown. To identify genetic susceptibility loci for sporadic pituitary adenoma, we performed a three-stage genome-wide association study (GWAS) in the Han Chinese population. We first analyzed genome-wide SNP data in 771 pituitary adenoma cases and 2,788 controls and then carried forward the promising variants for replication in another 2 independent sets (2,542 cases and 3,620 controls in total). We identified three new susceptibility loci below the genome-wide significance threshold (P < 5 × 10(-8)) in the combined analyses: 10p12.31 (rs2359536, P(meta) = 2.25 × 10(-10) and rs10828088, P(meta) = 6.27 × 10(-10)), 10q21.1 (rs10763170, P(meta) = 6.88 × 10(-10)) and 13q12.13 (rs17083838, P(meta) = 1.89 × 10(-8)). This study is the first GWAS to our knowledge on sporadic pituitary adenoma, and our results provide insight into the genetic basis of this disease.

Do the aryl hydrocarbon receptor interacting protein variants (Q228K and Q307R) play a role in patients with familial and sporadic hormone-secreting pituitary adenomas?

The aim of this study was to examine mutations in the aryl hydrocarbon receptor-interacting protein (AIP) gene by sequence analysis of exons 1-6 using leukocyte genomic DNA obtained from a cohort of familial isolated pituitary adenoma (FIPA) and apparent sporadic functional pituitary adenoma Turkish patients. Fourteen FIPA and 90 sporadic pituitary adenoma (somatotrophinoma, prolactinoma, and corticotrophinoma) patients, 1 sporadic gigantism case, and 70 healthy controls were included in the study. We did not detect AIP mutations in patients with FIPAs or sporadic pituitary adenomas, including the gigantism case. Only two exonic homozygous missense single-nucleotide polymorphisms (rs641081 [Q228K] and rs4930195 [Q307R]) were identified in the AIP locus. Minor allele frequencies of the Q307R and Q228K variants were significantly higher in FIPA patients compared to controls. In addition, the minor allele frequency of the Q228K variant was significantly increased in patients with sporadic somatotrophinomas compared to controls, whereas the minor allele frequency of the Q307R variant was significantly increased in corticotrophinoma patients compared to controls. Conversely, the minor allele frequencies of Q228R and Q307R variants were similar between patients with prolactinomas and controls. No AIP gene mutation or variant was observed in the sporadic gigantism patient. These results suggest that Q228K and Q307R variants in the AIP gene might be involved in the genetic susceptibility to familial and sporadic pituitary adenomas (somatotrophinoma and corticotrophinoma) in the Turkish population.

Pituitary adenoma with paraganglioma/pheochromocytoma (3PAs) and succinate dehydrogenase defects in humans and mice.

Germline mutations in genes coding succinate dehydrogenase (SDH) subunits A, B, C, and D have been identified in familial paragangliomas (PGLs)/pheochromocytomas (PHEOs) and other tumors. We described a GH-secreting pituitary adenoma (PA) caused by SDHD mutation in a patient with familial PGLs. Additional patients with PAs and SDHx defects have since been reported. We studied 168 patients with unselected sporadic PA and with the association of PAs, PGLs, and/or pheochromocytomas, a condition we named the 3P association (3PAs) for SDHx germline mutations. We also studied the pituitary gland and hormonal profile of Sdhb(+/-) mice and their wild-type littermates at different ages. No SDHx mutations were detected among sporadic PA, whereas three of four familial cases were positive for a mutation (75%). Most of the SDHx-deficient PAs were either prolactinomas or somatotropinomas. Pituitaries of Sdhb(+/-) mice older than 12 months had an increased number mainly of prolactin-secreting cells and several ultrastructural abnormalities such as intranuclear inclusions, altered chromatin nuclear pattern, and abnormal mitochondria. Igf-1 levels of mutant mice tended to be higher across age groups, whereas Prl and Gh levels varied according to age and sex. The present study confirms the existence of a new association that we termed 3PAs. It is due mostly to germline SDHx defects, although sporadic cases of 3PAs without SDHx defects also exist. Using Sdhb(+/-) mice, we provide evidence that pituitary hyperplasia in SDHx-deficient cells may be the initial abnormality in the cascade of events leading to PA formation.

Genetic mutations in sporadic pituitary adenomas--what to screen for?

Pituitary adenomas are benign intracranial neoplasms that can result in morbidity owing to local invasion and/or excessive or deficient hormone production. The prevalence of symptomatic pituitary adenomas is approximately 1:1,000 in the general population. The vast majority of these tumours occur sporadically and are not part of syndromic disorders. However, germline mutations in genes known to predispose individuals to familial pituitary adenomas are found in a few patients with sporadic pituitary adenomas. Mutations in AIP (encoding aryl-hydrocarbon receptor-interacting protein) are the most frequently observed germline mutations. The prevalence of these mutations in patients with sporadic pituitary adenomas is ∼4%, but can increase to 8-20% in young adults with macroadenomas or gigantism, and also in children. Germline mutations in MEN1 (encoding menin) result in multiple endocrine neoplasia type 1 and are found in very young patients with isolated sporadic pituitary adenomas, which highlights the importance of the chromosome 11q13 locus in pituitary tumorigenesis. In this Review, we describe the clinical features of patients with sporadic pituitary adenomas that are associated with AIP or MEN1 mutations, and discuss the molecular mechanisms that might be involved in pituitary adenoma tumorigenesis. We also discuss genetic screening of patients with sporadic pituitary adenomas and investigations of relatives of these patients who also have the same genetic mutations.

Low rate of germline AIP mutations in patients with apparently sporadic pituitary adenomas before the age of 40: a single-centre adult cohort.

To study the prevalence of germline mutations of the aryl-hydrocarbon receptor interacting protein (AIP) gene in a large cohort of patients seen in the Oxford Centre for Diabetes Endocrinology and Metabolism (OCDEM), UK, with apparently sporadic pituitary adenomas, who were either diagnosed or had relevant clinical manifestations by the age of 40 years. We prospectively investigated all patients who were seen at Oxford University Hospital, OCDEM, and a tertiary referral centre, between 2012 and 2013, and presented with pituitary tumours under the age of 40 years and with no family history: a total of 127 patients were enrolled in the study. Leukocyte-origin genomic DNA underwent sequence analysis of exons 1-6 and the flanking intronic regions of the AIP gene (NM_003977.2), with dosage analysis by multiplex ligation-dependent probe amplification. AIP variants were detected in 3% of the 127 patients, comprising four of 48 patients with acromegaly (8%), 0 of 43 with prolactinomas, 0 of the 20 patients with non-functioning adenomas, 0 of 15 with corticotroph adenomas and 0 of one with a thyrotroph adenomas. Definite pathogenetic mutations were seen in 2/4 variants, comprising 4.2% of patients with acromegaly. This prospective cohort study suggests a relatively low prevalence of AIP gene mutations in young patients with apparently sporadic pituitary adenomas presenting to a tertiary pituitary UK centre. Those with somatotroph macroadenomas have a higher rate of AIP mutation. These findings should inform discussion of genetic testing guidelines.

Epigenetics of pituitary tumours: an update.

To review recent advances in our knowledge and understanding of aberrations that target the epigenome in sporadic pituitary adenomas. A more complete understanding of the pituitary epigenome has been facilitated by advances in technologies for exploring the tumour-associated epigenomic landscape, and has revealed aberration to the principle targets of these changes, namely, methylation of CpG dinucleotides, modification of histone tails and the expression of target-specific miRNA. Genome-wide investigations, of sporadic pituitary adenoma, have identified novel methylated genes that in some cases are subtype-specific. Recent studies have also shown that silenced genes may be reactivated through epidrug challenges. Moreover, in experimental settings, wherein enforced expression of specific miRNA has been employed, these have been shown to inhibit pituitary cell proliferation in vitro and in vivo. Candidate gene and genome-wide studies reveal frequent epigenetic changes in pituitary adenomas. Aberrations, concurrent with their impact on functional end-points, may display subtype specificity, whereas others appear to be independent of adenoma subtype. Changes to the epigenomic landscape, and apparent as CpG island methylation and/or as histone tail modifications, show sensitivity to epidrug-induced re-expression that concomitantly impacts on cell proliferation. Similarly, enforced expression of silenced miRNA in model systems is also associated with similar end-points. Collectively, emerging data show that these types of manipulation, alone or in combination with a more conventional therapeutic option, offer new avenues for the medical management of these tumours.

A pilot genome-scale profiling of DNA methylation in sporadic pituitary macroadenomas: association with tumor invasion and histopathological subtype.

Pituitary adenomas (PAs) are neoplasms that may cause a variety of neurological and endocrine effects. Although known causal contributors include heredity, hormonal influence and somatic mutations, the pathophysiologic mechanisms driving tumorigenesis and invasion of sporadic PAs remain unknown. We hypothesized that alterations in DNA methylation are associated with PA invasion and histopathology subtype, and that genome-scale methylation analysis may complement current classification methods for sporadic PAs. Twenty-four surgically-resected sporadic PAs with varying histopathological subtypes were assigned dichotomized Knosp invasion scores and examined using genome-wide DNA methylation profiling and RNA sequencing. PA samples clustered into subgroups according to functional status. Compared with hormonally-active PAs, nonfunctional PAs exhibited global DNA hypermethylation (mean beta-value 0.47 versus 0.42, P = 0.005); the most significant site of differential DNA methylation was within the promoter region of the potassium voltage-gated channel KCNAB2 (FDR = 5.11×10−10). Pathway analysis of promoter-associated CpGs showed that nonfunctional PAs are potentially associated with the ion-channel activity signal pathway. DNA hypermethylation tended to be negatively correlated with gene expression. DNA methylation analysis may be used to identify candidate genes involved in PA function and may potentially complement current standard immunostaining classification in sporadic PAs. DNA hypermethylation of KCNAB2 and downstream ion-channel activity signal pathways may contribute to the endocrine-inactive status of nonfunctional PAs.

Genome-Scale Profiling of DNA Methylation in Sporadic Pituitary Macroadenomas: Association with Tumor Invasion and Histopathological Subtype

Pituitary adenomas (PAs) are commonly-occurring neoplasms that cause a variety of neurological and endocrine effects. Although known causal contributors include heredity, hormonal influence and somatic mutations, the pathophysiologic mechanisms driving tumorigenesis and invasion of sporadic PAs remain unknown. We aimed to investigate whether variation in DNA methylation is associated with PA invasion and functional phenotype. Genome-wide DNA methylation profiles were assessed in 24 sporadic pituitary macroadenomas, according to histopathological subtype and Knosp invasion scores. Methylation data were analyzed using two tailed t-test and one-way ANOVA statistics. Two-way hierarchical clustering analysis was performed using Pearson's correlation and average linkage for the gene/sample tree. Although no significant differences in global methylation levels were observed between invasive and noninvasive PAs, two CpGs annotated as enhancers in invasion-associated genes (FLT1 and SLIT3) were significantly hypomethylated in invasive PAs. Compared with hormonally-active somatotroph adenomas, nonfunctional PAs displayed global hypermethylation across CpG sites (β-value 0.47 versus 0.42, p = 0.005). The most significant site of differential methylation was within the promoter region of the potassium voltage-gated channel, shaker-related subfamily, β member 2 (KCNAB2) (FDR = 5.11 × 10^-10). Pathway analysis in global promoter-associated CpGs showed that non-functional PAs are most closely associated with the ion channel activity signal pathway (FDR < 0.25). DNA methylation analysis may provide a clinically useful molecular correlate to standard PA immunostaining classification. Differential methylation of cell motility related genes (FLT1 and SLIT3) may be associated with PA invasion. Hypermethylation of KCNAB2 and downstream ion channel activity signal pathways may contribute to the endocrine-inactive status of non-functional PAs.

The Role of Epigenetic Modification in Tumorigenesis and Progression of Pituitary Adenomas: A Systematic Review of the Literature

BackgroundPituitary adenomas (PAs) are commonly occurring neoplasms with diverse endocrine and neurological effects. Although somatic gene mutations are uncommon in sporadic PAs, recent studies lend support to epigenetic modification as a potential cause of tumorigenesis and tumor progression.MethodsA systematic literature review of the PubMed and Google Scholar databases was conducted to identify abstracts (n=1,082) pertaining to key targets and mechanisms implicated in epigenetic dysregulation of PAs published between 1993-2013. Data regarding histopathological subtype, target genes, mode of epigenetic modification, and clinical correlation were recorded and analyzed.ResultsOf the 47 that studies met inclusion criteria and focused on epigenomic assessment of PAs, only 2 were genome-scale analyses. Current evidence supports epigenetic alteration in at least 24 PA genes, which were categorized into four groups based on function and epigenetic alteration: 1) Sixteen tumor suppressor genes silenced via DNA methylation; 2) Two oncogenes overexpressed via histone acetylation and hypomethylation; 3) Three imprinted genes with selective allelic silencing; and 4) One epigenome writer inducing abnormal genome-scale activity and 5) Two transcription regulators indirectly modifying the genome. Of these, 5 genes (CDKN2A, GADD45y, FGFR2, caspase-8, and PTAG) showed particular susceptibility to epigenetic modification, with abnormal DNA methylation in >50% of PA samples. Several genes displayed correlations between epigenetic modification and clinically relevant parameters, including invasiveness (CDKN2A; DAPK; Rb1), sex (MAGE-A3), tumor size (GNAS1), and histopathological subtype (CDKN2A; MEG3; p27; RASSF1A; Rb1).ConclusionsEpigenetic modification of selected PA genes may play a key role in tumorigenesis and progression, which may translate into important diagnostic and therapeutic applications.

Screening for AIP gene mutations in a Han Chinese pituitary adenoma cohort followed by LOH analysis

The aryl hydrocarbon receptor interacting protein gene (AIP) is associated with pituitary adenoma (PA). AIP has not been sequenced in East Asian PA populations, so we performed this study in a Han Chinese cohort. Our study included six familial PA pedigrees comprising 16 patients and 27 unaffected relatives, as well as 216 sporadic PA (SPA) patients and 100 unrelated healthy controls. AIP sequencing was carried out on genomic DNA isolated from blood samples. Multiplex ligation-dependent probe amplification and microsatellite marker analyses on DNA from the paired tumor tissues were performed for loss of heterozygosity analysis. We identified three common and four rare single nucleotide polymorphisms (SNPs), one intron insertion, one novel synonymous variant, four novel missense variants, and a reported nonsense mutation in three familial isolated PA (FIPA) cases from the same family. Large genetic deletions were not observed in the germline but were seen in the sporadic tumor DNA from three missense variant carriers. The prevalence of AIP pathogenic variants in PA patients here was low (3.88%), but was higher in somatotropinoma patients (9.30%), especially in young adults (≤30 years) and pediatric (≥18 years) paients (17.24% and 25.00% respectively). All AIP variant patients suffered from macroadenomas. However, the AIP mutation rate in FIPA families was low in this cohort (16.67%, 1/6 families). AIP gene mutation may not be frequent in FIPA or SPA from the Han Chinese population. AIP sequencing and long-term follow-up investigations should be performed for young patients with large PAs and their families with PA predisposition.

Gene expression profiling of familial and sporadic pituitary adenomas

Gene expression profiling of familial and sporadic pituitary adenomas

The p.R16H AIP sequence variant is relatively frequent in Romanian sporadic pituitary adenoma patients

The p.R16H AIP sequence variant is relatively frequent in Romanian sporadic pituitary adenoma patients

Whole-exome sequencing studies of nonfunctioning pituitary adenomas.

The tumorigenic role of genetic abnormalities in sporadic pituitary nonfunctioning adenomas (NFAs), which usually originate from gonadotroph cells, is unknown. The objective of the study was to identify somatic genetic abnormalities in sporadic pituitary NFAs. Whole-exome sequencing was performed using DNA from 7 pituitary NFAs and leukocyte samples obtained from the same patients. Somatic variants were confirmed by dideoxynucleotide sequencing, and candidate driver genes were assessed in an additional 24 pituitary NFAs. Whole-exome sequencing achieved a high degree of coverage such that approximately 97% of targeted bases were represented by more than 10 base reads; 24 somatic variants were identified and confirmed in the discovery set of 7 pituitary NFAs (mean 3.5 variants/tumor; range 1-7). Approximately 80% of variants occurred as missense single nucleotide variants and the remainder were synonymous changes or small frameshift deletions. Each of the 24 mutations occurred in independent genes with no recurrent mutations. Mutations were not observed in genes previously associated with pituitary tumorigenesis, although somatic variants in putative driver genes including platelet-derived growth factor D (PDGFD), N-myc down-regulated gene family member 4 (NDRG4), and Zipper sterile-α-motif kinase (ZAK) were identified; however, DNA sequence analysis of these in the validation set of 24 pituitary NFAs did not reveal any mutations indicating that these genes are unlikely to contribute significantly in the etiology of sporadic pituitary NFAs. Pituitary NFAs harbor few somatic mutations consistent with their low proliferation rates and benign nature, but mechanisms other than somatic mutation are likely involved in the etiology of sporadic pituitary NFAs.

Quantitative, genome-wide analysis of the DNA methylome in sporadic pituitary adenomas

DNA methylation is one of the several epigenetic modifications that together with genetic aberrations are hallmarks of tumorigenesis including those emanating from the pituitary gland. In this study, we examined DNA methylation across 27 578 CpG sites spanning more than 14 000 genes in the major pituitary adenoma subtypes. Genome-wide changes were first determined in a discovery cohort comprising non-functioning (NF), growth hormone (GH), prolactin (PRL)-secreting and corticotroph (CT) adenoma relative to post-mortem pituitaries. Using stringent cut-off criteria, we validated increased methylation by pyrosequencing in 12 of 16 (75%) genes. Overall, these criteria identified 40 genes in NF, 21 in GH, six in PRL and two in CT that were differentially methylated relative to controls. In a larger independent cohort of adenomas, for genes in which hypermethylation had been validated, different frequencies of hypermethylation were apparent, where the KIAA1822 (HHIPL1) and TFAP2E genes were hypermethylated in 12 of 13 NF adenomas whereas the COL1A2 gene showed an increase in two of 13 adenomas. For genes showing differential methylation across and between adenoma subtypes, pyrosequencing confirmed these findings. In three of 12 genes investigated, an inverse relationship between methylation and transcript expression was observed where increased methylation of EML2, RHOD and HOXB1 is associated with significantly reduced transcript expression. This study provides the first genome-wide survey of adenoma, subtype-specific epigenomic changes and will prove useful for identification of biomarkers that perhaps predict or characterise growth patterns. The functional characterisation of identified genes will also provide insight of tumour aetiology and identification of new therapeutic targets.

Should aip gene screening be recommended in family members of FIPA patients with R16H variant?

Germline mutations of aryl-hydrocarbon-receptor interacting protein (AIP) are associated with pituitary adenoma predisposition. They occur in 20% of familial isolated pituitary adenoma (FIPA) and in about 3-5% of sporadic pituitary adenomas, especially in early onset somatotropinomas and prolactinomas. Our aim was to evaluate the clinical and genetic features of a large Italian FIPA family, where an AIP variant was identified. AIP direct sequencing from genomic DNA was carried out in 16 available family members. AIP R16H carriers also underwent magnetic resonance imaging and hormonal assessments. AIP mutations were also searched in 16 patients with sporadic growth hormone-secreting pituitary adenoma and in 6 unrelated patients in whom pituitary adenoma was excluded. We found an AIP R16H variation in two family members harbouring a pituitary adenoma and in 6 unaffected family members. No AIP mutation was found neither in growth hormone-secreting pituitary adenoma patients, nor in the unrelated patients without pituitary adenoma. We report a FIPA family harbouring an AIP R16H change, supporting the hypothesis that the latter represents a variant of unknown significance.

MicroRNA miR-107 is overexpressed in pituitary adenomas and inhibits the expression of aryl hydrocarbon receptor-interacting protein in vitro

Abnormal microRNA (miRNA) expression profiles have recently been associated with sporadic pituitary adenomas, suggesting that miRNAs can contribute to tumor formation; miRNAs are small noncoding RNAs that inhibit posttranscriptional expression of target mRNAs by binding to target sequences usually located in the 3'-UTR. In this study, we investigated the role played by miR-107, a miRNA associated with different human cancers, in sporadic pituitary adenomas and its interaction with the pituitary tumor suppressor gene aryl hydrocarbon receptor-interacting protein (AIP). miR-107 expression was evaluated in pituitary adenoma and normal pituitary samples using microRNA screen TLDA (TaqMan Low-Density Array) and RT-qPCR assays. We show that miR-107 expression was significantly upregulated in GH-secreting and nonfunctioning pituitary adenomas. We found that human AIP-3'-UTR is a target of miR-107 since miR-107 inhibited in vitro AIP expression to 53.9 ± 2% of the miRNA control in a luciferase assay and reduced endogenous AIP mRNA expression to 53 ± 22% of the miRNA control in human cells. However, we did not observe a negative correlation between AIP and miR-107 expression in the human tumor samples. Furthermore, we show that miR-107 overexpression inhibited cell proliferation in human neuroblastoma and rat pituitary adenoma cells. In conclusion, miR-107 is overexpressed in pituitary adenomas and may act as a tumor suppressor. We have identified and confirmed AIP as a miR-107 target gene. Expression data in human samples suggest that the expression of AIP and miR-107 could be influenced by a combination of tumorigenic factors as well as compensatory mechanisms stimulated by the tumorigenic process.

Germline AIP Mutations in Apparently Sporadic Pituitary Adenomas: Prevalence in a Prospective Single-Center Cohort of 443 Patients

Germline mutations of the AIP (aryl-hydrocarbon receptor interacting protein) gene are associated with a predisposition to pituitary adenomas. Such mutations are found in about half of patients with familial acromegaly, but penetrance is incomplete. We studied the prevalence of germline AIP mutations in a large cohort of patients with apparently sporadic pituitary adenomas. A total of 443 patients with pituitary adenomas of all histotypes, who had no familial history of pituitary adenomas or multiple endocrine neoplasia and who were examined at Bicêtre University Hospital, a tertiary referral center, between 2007 and 2010, were enrolled in this prospective study. The entire coding sequence of the AIP gene was screened for germline mutations. A subgroup of patients were screened for large deletions or duplications of the AIP and MEN1 genes by multiplex ligation-dependent probe amplification. AIP mutations were detected in 16 (3.6%) of the 443 patients, comprising six of 148 patients with acromegaly (4.1%), six of 132 patients with prolactinomas (4.5%), one of 113 patients with nonfunctioning adenomas (0.9%), three of 44 patients with corticotropic adenomas (6.8%), and none of the six patients with thyrotropic adenomas. This is the first report of an AIP mutation leading to a truncated protein in a patient with Cushing's disease. Patients with AIP mutation were younger at diagnosis (24.1 vs. 42.8 yr) and had predominantly macroadenoma (12 of 16). No mutations were found in patients diagnosed after age 40 yr, whereas the prevalence before this age was 7.2% (16 of 222). Studies of seven of the AIP-mutated patients' families showed that one asymptomatic parent carried the same mutation in each case. This large prospective cohort study confirms the very low prevalence of germline AIP mutations in patients with apparently sporadic pituitary adenomas. We propose to limit AIP testing to patients diagnosed before age 40 yr with apparently sporadic large pituitary adenomas, especially GH- or PRL-secreting adenomas.

High prevalence of AIP gene mutations following focused screening in young patients with sporadic pituitary macroadenomas

Aryl hydrocarbon receptor interacting protein (AIP) mutations (AIPmut) cause aggressive pituitary adenomas in young patients, usually in the setting of familial isolated pituitary adenomas. The prevalence of AIPmut among sporadic pituitary adenoma patients appears to be low; studies have not addressed prevalence in the most clinically relevant population. Hence, we undertook an international, multicenter, prospective genetic, and clinical analysis at 21 tertiary referral endocrine departments. We included 163 sporadic pituitary macroadenoma patients irrespective of clinical phenotype diagnosed at <30 years of age. Overall, 19/163 (11.7%) patients had germline AIPmut; a further nine patients had sequence changes of uncertain significance or polymorphisms. AIPmut were identified in 8/39 (20.5%) pediatric patients. Ten AIPmut were identified in 11/83 (13.3%) sporadic somatotropinoma patients, in 7/61 (11.5%) prolactinoma patients, and in 1/16 non-functioning pituitary adenoma patients. Large genetic deletions were not seen using multiplex ligation-dependent probe amplification. Familial screening was possible in the relatives of seven patients with AIPmut and carriers were found in six of the seven families. In total, pituitary adenomas were diagnosed in 2/21 AIPmut-screened carriers; both had asymptomatic microadenomas. Germline AIPmut occur in 11.7% of patients <30 years with sporadic pituitary macroadenomas and in 20.5% of pediatric patients. AIPmut mutation testing in this population should be considered in order to optimize clinical genetic investigation and management.