Clinical lessons learned in constitutional hypopituitarism from two decades of experience in a large international cohort.

CONTEXT: The international GENHYPOPIT network collects phenotypical data and screens genetic causes of non-acquired hypopituitarism. AIMS: To describe main phenotype patterns and their evolution through life. DESIGN: Patients were screened according to their phenotype for coding sequence variations in 8 genes: HESX1, LHX3, LHX4, PROP1, POU1F1, TBX19, OTX2 and PROKR2. RESULTS: Among 1213 patients (1143 index cases), the age of diagnosis of hypopituitarism was congenital (24%), in childhood (28%), at puberty (32%), in adulthood (7.2%) or not available (8.8%). Noteworthy, pituitary hormonal deficiencies kept on evolving during adulthood in 49 of patients. Growth Hormone deficiency (GHD) affected 85.8% of patients and was often the first diagnosed deficiency. AdrenoCorticoTropic Hormone deficiency rarely preceded GHD, but usually followed it by over 10 years. Pituitary Magnetic Resonance Imaging (MRI) abnormalities were common (79.7%), with 39.4% pituitary stalk interruption syndrome (PSIS). The most frequently associated extrapituitary malformations were ophthalmological abnormalities (16.1%). Prevalence of identified mutations was 7.3% of index cases (84/1143) and 29.5% in familial cases (n = 146). Genetic analysis in 449 patients without extrapituitary phenotype revealed 36 PROP1, 2 POU1F1 and 17 TBX19 mutations. CONCLUSION: This large international cohort highlights atypical phenotypic presentation of constitutional hypopituitarism, such as post pubertal presentation or adult progression of hormonal deficiencies. These results justify long-term follow-up, and the need for systematic evaluation of associated abnormalities. Genetic defects were rarely identified, mainly PROP1 mutations in pure endocrine phenotypes.

Heterozygous LHX3 mutations may lead to a mild phenotype of combined pituitary hormone deficiency.

LHX3 is an LIM domain transcription factor involved in the early steps of pituitary ontogenesis. We report here functional studies of three allelic variants, including the first heterozygous variant of LHX3 NM_178138.5(LHX3):c.587T>C (p.(Leu196Pro)) that may be responsible for a milder phenotype of hypopituitarism. Our functional studies showed that NM_178138.5(LHX3):c.587T>C (p.(Leu196Pro)) was not able to activate target promoters in vitro, as it did not bind DNA, and likely affected LHX3 function via a mechanism of haplo-insufficiency. Our study demonstrates the possibility that patients with a heterozygous variant of LHX3 may have pituitary deficiencies, with a milder phenotype than patients with homozygous variants. It is thus of vital to propose an optimal follow-up of such patients, who, until now, were considered as not being at risk of presenting pituitary deficiency. The second variant NM_178138.5(LHX3):c.622C>G (p.(Arg208Gly)), present in a homozygous state, displayed decreased transactivating ability without loss of binding capacity in vitro, concordant with in silico analysis; it should thus be considered to affect LHX3 function. In contrast, the NM_178138.5(LHX3):c.929G>C (p.(Arg310Pro)) variant, in a heterozygous state, also predicted as deleterious in silico, proved functionally active in vitro, and should thus still be classified as a variant of unknown significance. Our study emphasizes the need for functional studies due to the limits of software-based predictions of new variants, and the possible association of a pituitary phenotype to heterozygous LHX3 variants.

MECHANISMS IN ENDOCRINOLOGY: An update in the genetic aetiologies of combined pituitary hormone deficiency.

Over the last 5 years, new actors involved in the pathogenesis of combined pituitary hormone deficiency in humans have been reported: they included a member of the immunoglobulin superfamily glycoprotein and ciliary G protein-coupled receptors, as well as new transcription factors and signalling molecules. New modes of inheritance for alterations of genes encoding transcription factors have also been described. Finally, actors known to be involved in a very specific phenotype (hypogonadotroph hypogonadism for instance) have been identified in a wider range of phenotypes. These data thus suggest that new mechanisms could explain the low rate of aetiological identification in this heterogeneous group of diseases. Taking into account the fact that several reviews have been published in recent years on classical aetiologies of CPHD such as mutations of POU1F1 or PROP1, we focused the present overview on the data published in the last 5 years, to provide the reader with an updated review on this rapidly evolving field of knowledge.

Mutations in NFKB2 and potential genetic heterogeneity in patients with DAVID syndrome, having variable endocrine and immune deficiencies.

BACKGROUND: DAVID syndrome is a rare condition combining anterior pituitary hormone deficiency with common variable immunodeficiency. NFKB2 mutations have recently been identified in patients with ACTH and variable immunodeficiency. A similar mutation was previously found in Nfkb2 in the immunodeficient Lym1 mouse strain, but the effect of the mutation on endocrine function was not evaluated. METHODS: We ascertained six unrelated DAVID syndrome families. We performed whole exome and traditional Sanger sequencing to search for causal genes. Lym1 mice were examined for endocrine developmental anomalies. RESULTS: Mutations in the NFKB2 gene were identified in three of our families through whole exome sequencing, and in a fourth by direct Sanger sequencing. De novo origin of the mutations could be demonstrated in three of the families. All mutations lie near the C-terminus of the protein-coding region, near signals required for processing of NFΚB2 protein by the alternative pathway. Two of the probands had anatomical pituitary anomalies, and one had growth and thyroid hormone as well as ACTH deficiency; these findings have not been previously reported. Two children of one of the probands carried the mutation and have to date exhibited only an immune phenotype. No mutations were found near the C-terminus of NFKB2 in the remaining two probands; whole exome sequencing has been performed for one of these. Lym1 mice, carrying a similar Nfkb2 C-terminal mutation, showed normal pituitary anatomy and expression of proopiomelanocortin (POMC). CONCLUSIONS: We confirm previous findings that mutations near the C-terminus of NFKB2 cause combined endocrine and immunodeficiencies. De novo status of the mutations was confirmed in all cases for which both parents were available. The mutations are consistent with a dominant gain-of-function effect, generating an unprocessed NFKB2 super-repressor protein. We expand the potential phenotype of such NFKB2 mutations to include additional pituitary hormone deficiencies as well as anatomical pituitary anomalies. The lack of an observable endocrine phenotype in Lym1 mice suggests that the endocrine component of DAVID syndrome is either not due to a direct role of NFKB pathways on pituitary development, or else that human and mouse pituitary development differ in its requirements for NFKB pathway function.

Deficit in anterior pituitary function and variable immune deficiency (DAVID) in children presenting with adrenocorticotropin deficiency and severe infections.

CONTEXT: Among 22 independent patients from the GENHYPOPIT network who had ACTH deficiency and no identified mutation of TPIT, three of them (13.6%) displayed common variable immunodeficiency (CVID), characterized by defective Ig production. OBJECTIVE: Our objective was to describe an as yet unrecognized disease association. DESIGN: We considered the hypothesis of ACTH deficiency being associated with antipituitary autoimmunity or lymphocytic hypophysitis. In the context of a functional network between the immune and endocrine systems, we also tested the hypothesis of a common genetic cause using a candidate gene approach. SETTING: This was a multicentric study in three academic hospitals. PATIENTS: We report four patients from three unrelated families presenting with ACTH deficiency and CVID. MAIN OUTCOME MEASURES: Detection of antipituitary autoantibodies, and sequencing of candidate genes (LIF, IKAROS, EOS) were the main outcome measures. RESULTS: All patients including a pedigree with two affected siblings had ACTH deficit diagnosed from 5-15 yr, with symptomatic hypoglycemia, and CVID diagnosed from 2-8 yr revealed by recurrent infections. Three of the four patients had a hypoplastic pituitary. One patient had low IGF-I and subnormal GH response to stimulation, suggesting that secretion of other pituitary hormones may also be affected. All patients proved negative for pituitary autoantibodies and had no alteration in any of the genes tested. CONCLUSIONS: The remarkable association of two rare disorders affecting two functionally related systems in four patients from three independent pedigrees including a familial case provides strong evidence of the existence of a disease association: deficit in anterior pituitary function and variable immune deficiency, or DAVID.

Inactivation of PITX2 transcription factor induced apoptosis of gonadotroph tumoral cells.

Nonfunctioning pituitary adenomas (NFPA; gonadotroph derived), even not inducing hormonal hypersecretion, cause significant morbidity by compression neighboring structures. No effective and specific medical methods are available so far for treating these tumors. The pituitary homeobox 2 (PITX2) gene is a member of the bicoid-like homeobox transcription factor family, which is involved in the Wnt/Dvl/ß-catenin pathway. PITX2 is overexpressed in NFPA. PITX2 mutations are known to be responsible for Axenfield Rieger syndrome, a genetic disorder in which pituitary abnormalities have been detected. The R91P mutant identified in Axenfeld Rieger syndrome is a dominant-negative factor, which is able to block the expression of several pituitary genes activated by PITX2. To better understand the role of Pitx2 on gonadotroph tumorigenesis and to explore new approach for inhibiting tumoral growth, the R91P mutant was transferred via a lentiviral vector in tumoral gonadotroph cells of two kinds: the αT3-1 cell line and human adenoma cells. R91P mutant and small interfering RNA directed against Pitx2 both decreased the viability of αT3-1 cells via an apoptotic mechanism involving the activation of executioner caspase. Similar effects of the R91P mutant were observed on human gonadotroph cells in primary culture. Therefore, Pitx2 overexpression may play an antiapoptotic role during NFPA tumorigenesis.

Regulation of prolactin, GH, and Pit-1 gene expression in anterior pituitary by Pitx2: An approach using Pitx2 mutants.

The transcription factor Pitx2 is required for the morphogenesis of anterior structures such as the eye, teeth, and anterior pituitary. We investigated the functional properties of Pitx2 missense mutants previously reported in Axenfeld-Rieger syndrome, using reporter genes under the control of pituitary target gene [human (h)PRL, hGH, hPit-1] promoters transfected in nonpituitary and pituitary cell lines. The five mutants appeared to be transcriptionally defective despite conserved DNA-binding in CV1 cells. In addition, one mutation, R91P, almost completely blocked the wt-Pitx2-induced activation of the target promoters, prevented the Pitx2/Pit-1 synergistic activation of the hPRL promoter, and was able to counteract the Pitx1-driven transactivation effects. The dominant negative properties of this mutant were further established in cells endogenously expressing Pitx2 because transfection of R91P in GH4C1 somatolactotroph cells resulted in a dose-dependent inhibition of basal activities of the pituitary promoters. These results, which show that Pitx2 mutants are defective in activating pituitary target genes, confirm the critical role of this homeodomain factor in the differentiated functions of the pituitary somatolactotroph cells. Furthermore, these results might form the basis for future experiments because dominant negative forms of Pitx2 such as R91P might provide instructive tools to further delineate the detailed mechanisms mediating Pitx2 functions in cell proliferation and differentiation.