Nicolas Jullien

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.

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.

Research Resource: A Genome-Wide Study Identifies Potential New Target Genes for POU1F1

The pituitary transcription factor POU1F1 is required for the differentiation of lactotrope, thyrotrope, and somatotrope cells. Its expression is maintained in the adult and is crucial for the expression of prolactin, GH, and TSHβ-subunit. Different studies indicated that POU1F1 could also have other functions in these cells. The identification of new targets of this factor could be useful to obtain a better understanding of these functions. To address this question we combined data obtained from expression microarrays and from chromatin immunoprecipitation (ChIP)-chips. Gene expression microarray assays were used to detect genes that have their expression modified in somatolactotrope GH4C1 cells by the expression of a dominant-negative form of POU1F1, POU1F1(R271W), and led to the identification of 1346 such genes. ChIP-chip experiments were performed from mouse pituitaries and identified 1671 POU1F1-binding sites in gene-promoter regions. Intersecting the gene expression and the ChIP-chip data yielded 121 potential new direct targets. The initial set of 1346 genes identified using the microarrays, as well as the 121 potential new direct targets, were analyzed with DAVID bioinformatics resource for gene ontology term enrichment and cluster. This analysis revealed enrichment in different terms related to protein synthesis and transport, to apoptosis, and to cell division. The present study represents an integrative genome-wide approach to identify new target genes of POU1F1 and downstream networks controlled by this factor.

Identifying the Deleterious Effect of Rare LHX4 Allelic Variants, a Challenging Issue

LHX4 is a LIM homeodomain transcription factor involved in the early steps of pituitary ontogenesis. To date, 8 heterozygous LHX4 mutations have been reported as responsible of combined pituitary hormone deficiency (CPHD) in Humans. We identified 4 new LHX4 heterozygous allelic variants in patients with congenital hypopituitarism: W204X, delK242, N271S and Q346R. Our objective was to determine the role of LHX4 variants in patients’ phenotypes. Heterologous HEK293T cells were transfected with plasmids encoding for wild-type or mutant LHX4. Protein expression was analysed by Western Blot, and DNA binding by electro-mobility shift assay experiments. Target promoters of LHX4 were cotransfected with wild type or mutant LHX4 to test the transactivating abilities of each variant. Our results show that the W204X mutation was associated with early GH and TSH deficiencies and later onset ACTH deficiency. It led to a truncated protein unable to bind to alpha-Gsu promoter binding consensus sequence. W204X was not able to activate target promoters in vitro. Cotransfection experiments did not favour a dominant negative effect. In contrast, all other mutants were able to bind the promoters and led to an activation similar as that observed with wild type LHX4, suggesting that they were likely polymorphisms. To conclude, our study underlines the need for functional in vitro studies to ascertain the role of rare allelic variants of LHX4 in disease phenotypes. It supports the causative role of the W204X mutation in CPHD and adds up childhood onset ACTH deficiency to the clinical spectrum of the various phenotypes related to LHX4 mutations.

Dose-Dependent Dual Role of PIT-1 (POU1F1) in Somatolactotroph Cell Proliferation and Apoptosis

To test the role of wtPIT-1 (PITWT) or PIT-1 (R271W) (PIT271) in somatolactotroph cells, we established, using inducible lentiviral vectors, sublines of GH4C1 somatotroph cells that allow the blockade of the expression of endogenous PIT-1 and/or the expression of PITWT or PIT271, a dominant negative mutant of PIT-1 responsible for Combined Pituitary Hormone Deficiency in patients. Blocking expression of endogenous PIT-1 induced a marked decrease of cell proliferation. Overexpressing PITWT twofold led also to a dose-dependent decrease of cell proliferation that was accompanied by cell death. Expression of PIT271 induced a strong dose-dependent decrease of cell proliferation accompanied by a very pronounced cell death. These actions of PIT271 are independent of its interaction/competition with endogenous PIT-1, as they were unchanged when expression of endogenous PIT-1 was blocked. All these actions are specific for somatolactotroph cells, and could not be observed in heterologous cells. Cell death induced by PITWT or by PIT271 was accompanied by DNA fragmentation, but was not inhibited by inhibitors of caspases, autophagy or necrosis, suggesting that this cell death is a caspase-independent apoptosis. Altogether, our results indicate that under normal conditions PIT-1 is important for the maintenance of cell proliferation, while when expressed at supra-normal levels it induces cell death. Through this dual action, PIT-1 may play a role in the expansion/regression cycles of pituitary lactotroph population during and after lactation. Our results also demonstrate that the so-called “dominant-negative” action of PIT271 is independent of its competition with PIT-1 or a blockade of the actions of the latter, and are actions specific to this mutant variant of PIT-1.