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      Congenital Hypopituitarism due to POU1F1 Gene Mutation

      , , , , ,
      Journal of the Formosan Medical Association
      Elsevier BV

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          Novel mutations within the POU1F1 gene associated with variable combined pituitary hormone deficiency.

          Mutations within the gene encoding the pituitary-specific transcription factor POU1F1 are associated with combined pituitary hormone deficiency (CPHD). Most of the affected individuals manifest GH, prolactin, and TSH deficiency. We have now screened 129 individuals with CPHD and isolated GH deficiency for mutations within POU1F1. Causative mutations were identified in 10 of 129 individuals (7.8%). Of these, five patients harbored the dominant negative R271W mutation, which is a well-recognized mutational hot spot. We have also identified a second frequently occurring mutation, E230K, which appears to be common in Maltese patients. Additionally, we describe two novel mutations within POU1F1, an insertion of a single base pair (ins778A) and a missense mutation (R172Q). Functional studies have revealed that POU1F1 (E230K) is associated with a reduction in transactivation, although DNA-binding affinity is similar to the wild-type protein. On the other hand, POU1F1 (R172Q) is associated with a reduction in DNA binding and transactivation, whereas POU1F1 (ins778A) is associated with loss of DNA binding and a reduction in transactivation. Our data suggest that the phenotype associated with POU1F1 mutations may be more variable, with the occasional preservation of TSH secretion. Additionally, our data revealed POU1F1 mutations in three patients who were diagnosed as having ACTH deficiency but who, on further evaluation, were found to have normal cortisol secretion. Hence, elucidation of the genotype led to further evaluation of the phenotype, with the cessation of cortisol replacement that had been commenced unnecessarily. These data reflect the importance of mutational analysis in patients with CPHD.
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            Hypothalamic and pituitary development: novel insights into the aetiology.

            The anterior pituitary gland is a central regulator of growth, reproduction and homeostasis, and is the end-product of a carefully orchestrated pattern of expression of signalling molecules and transcription factors leading to the development of this complex organ secreting six hormones from five different cell types. Naturally occurring and transgenic murine models have demonstrated a role for many of these molecules in the aetiology of combined pituitary hormone deficiency (CPHD). These include the transcription factors HESX1, PROP1, POU1F1, LHX3, LHX4, TBX19, SOX2 and SOX3. The expression pattern of these transcription factors dictates the phenotype that results when the gene encoding the relevant transcription factor is mutated. The highly variable phenotype may consist of isolated hypopituitarism, or more complex disorders such as septo-optic dysplasia and holoprosencephaly. Since mutations in any one transcription factor are uncommon, and since the overall incidence of mutations in known transcription factors is low in patients with CPHD, it is clear that many genes remain to be identified, and the characterization of these will further elucidate the pathogenesis of these complex conditions and also shed light on normal pituitary development.
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              Mutation analysis of POUF-1, PROP-1 and HESX-1 show low frequency of mutations in children with sporadic forms of combined pituitary hormone deficiency and septo-optic dysplasia.

              Mutations in the genes encoding the transcription factors PROP1 and POUF-1 (Pit-1) have been reported as common causes of combined pituitary hormone deficiency (CPHD), and HESX1 mutations have been identified in children with septo-optic dysplasia (SOD). There are few data on UK children. We have performed mutation analysis in a large cohort of affected children within the West Midlands region to assess the feasibility of a screening strategy for molecular diagnosis in CPHD and SOD. The three coding exons of PROP1, and six exons of POUF-1 in 27 children from 26 families with CPHD, and three exons of HESX1 in 23 children from 22 families with SOD were directly sequenced from a well-characterized regional cohort. We identified a C to T transition in exon 6 of POUF-1, resulting in a known missense mutation (R271W) in a mother and daughter from one family with CPHD. We also found a novel homozygous T to C transition in exon 6 of POUF-1, resulting in a missense mutation (F233L) in a twin with CPHD. This mutation was excluded in 100 ethnically matched control alleles. We did not identify any mutations in the PROP1 gene or HESX1. The median maternal age at delivery for the CPHD children was 27 years, compared to 21 years for the mothers of SOD children (P = 0.04). Mutations in POUF-1, PROP1 and HESX1 are rare causes of CPHD and SOD, respectively, in children from the West Midlands. In particular, we did not confirm the reported 'hotspot' in PROP1. A screening strategy that targets familial cases is highly likely to increase the mutation yield. The young maternal age at conception of children with SOD and potential teratogen exposure indicate the predominance of environmental factors in this condition compared with CPHD.
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                Author and article information

                Journal
                Journal of the Formosan Medical Association
                Journal of the Formosan Medical Association
                Elsevier BV
                09296646
                January 2011
                January 2011
                : 110
                : 1
                : 58-61
                Article
                10.1016/S0929-6646(11)60009-0
                21316014
                9366a829-ba46-4c84-be95-3c41d64f374b
                © 2011

                http://www.elsevier.com/tdm/userlicense/1.0/

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