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      NKX2-1 New Mutation Associated With Myoclonus, Dystonia, and Pituitary Involvement

      case-report

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          Abstract

          Background: NKX2-1 related disorders (also known as brain-lung-thyroid syndrome or benign hereditary chorea 1) are associated with a wide spectrum of symptoms. The core features are various movement disorders, characteristically chorea, less frequently myoclonus, dystonia, ataxia; thyroid disease; and lung involvement. The full triad is present in 50% of affected individuals. Numerous additional symptoms may be associated, although many of these were reported only in single cases. Pituitary dysfunction was ambiguously linked to NKX2-1 haploinsufficiency previously.

          Case Presentation: We examined two members of a family with motor developmental delay, mixed movement disorder (myoclonus, dystonia and chorea) and endocrinological abnormalities (peripheric thyroid disease, and pituitary hormone deficiencies). Dystonia predominated at the father, and myoclonus at the daughter. The father had hypogonadotropic hypogonadism, while the daughter was treated with growth hormone deficiency. Both patients had empty sella on MRI. Candidate gene analyses were negative. Exome sequencing detected a pathogenic stop variation (NM_003317:c.338G>A, p.Trp113 *) in the NKX2-1 gene.

          Conclusions: This case study has two highlights. (1) It draws attention to possible pituitary dysfunction in brain-lung-thyroid syndrome, and provide further evidences that this might be linked to loss of function of the NKX2-1 gene. (2) It underscores the importance of considering NKX2-1 related disorders in the differential diagnosis of myoclonus dystonia.

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          The requirement of Nkx2-1 in the temporal specification of cortical interneuron subtypes.

          Shioko Kimura, Jens Hjerling-Leffler, Goichi Miyoshi (2008)
          Previous work has demonstrated that the character of mouse cortical interneuron subtypes can be directly related to their embryonic temporal and spatial origins. The relationship between embryonic origin and the character of mature interneurons is likely reflected by the developmental expression of genes that direct cell fate. However, a thorough understanding of the early genetic events that specify subtype identity has been hampered by the perinatal lethality resulting from the loss of genes implicated in the determination of cortical interneurons. Here, we employ a conditional loss-of-function approach to demonstrate that the transcription factor Nkx2-1 is required for the proper specification of specific interneuron subtypes. Removal of this gene at distinct neurogenic time points results in a switch in the subtypes of neurons observed at more mature ages. Our strategy reveals a causal link between the embryonic genetic specification by Nkx2-1 in progenitors and the functional attributes of their neuronal progeny in the mature nervous system.
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            Postmitotic Nkx2-1 controls the migration of telencephalic interneurons by direct repression of guidance receptors.

            S Nóbrega, Nicoletta Kessaris, Oscar Marin (2008)
            The homeodomain transcription factor Nkx2-1 plays key roles in the developing telencephalon, where it regulates the identity of progenitor cells in the medial ganglionic eminence (MGE) and mediates the specification of several classes of GABAergic and cholinergic neurons. Here, we have investigated the postmitotic function of Nkx2-1 in the migration of interneurons originating in the MGE. Experimental manipulations and mouse genetics show that downregulation of Nkx2-1 expression in postmitotic cells is necessary for the migration of interneurons to the cortex, whereas maintenance of Nkx2-1 expression is required for interneuron migration to the striatum. Nkx2-1 exerts this role in the migration of MGE-derived interneurons by directly regulating the expression of a guidance receptor, Neuropilin-2, which enables interneurons to invade the developing striatum. Our results demonstrate a role for the cell-fate determinant Nkx2-1 in regulating neuronal migration by direct transcriptional regulation of guidance receptors in postmitotic cells.
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              Formation of Rathke's pouch requires dual induction from the diencephalon.

              N. Ward, W-H Sheng, Alexandra B. Hogan (1998)
              Targeted disruption of the homeobox gene T/ebp (Nkx2.1, Ttf1, Titf1) in mice results in ablation of the pituitary. Paradoxically, while T/ebp is expressed in the ventral diencephalon during forebrain formation, it is not expressed in Rathke's pouch or in the pituitary gland at any time of embryogenesis. Examination of pituitary development in the T/ebp homozygous null mutant embryos revealed that a pouch rudiment is initially formed but is eliminated by programmed cell death before formation of a definitive pouch. In the diencephalon of the mutant, Bmp4 expression is maintained, whereas Fgf8 expression is not detectable. These data and additional genetic and molecular observations suggest that Rathke's pouch develops in a two-step process that requires at least two sequential inductive signals from the diencephalon. First, BMP4 is required for induction and formation of the pouch rudiment, a role confirmed by analysis of Bmp4 homozygous null mutant embryos. Second, FGF8 is necessary for activation of the key regulatory gene Lhx3 and subsequent development of the pouch rudiment into a definitive pouch. This study provides firm molecular genetic evidence that morphogenesis of the pituitary primordium is induced in vivo by signals from the adjacent diencephalon.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Genet
                Journal ID (iso-abbrev): Front Genet
                Journal ID (publisher-id): Front. Genet.
                Title: Frontiers in Genetics
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-8021
                Publication date (Electronic): 22 August 2018
                Publication date Collection: 2018
                Volume: 9
                Electronic Location Identifier: 335
                Affiliations
                [1] 1Institute of Genomic Medicine and Rare Disorders, Semmelweis University , Budapest, Hungary
                [2] 2Department of Neurology, Faculty of General Medicine, Albert Szent-Györgyi Clinical Centre, Univesity of Szeged , Szeged, Hungary
                [3] 3MTA-SZTE Neuroscience Research Group , Szeged, Hungary
                Author notes

                Edited by: Enrico Baruffini, Università degli Studi di Parma, Italy

                Reviewed by: Ralph Epaud, Centre Hospitalier Intercommunal de Créteil, France; Donato Civitareale, Istituto di Biologia Cellulare e Neurobiologia (IBCN), Italy

                *Correspondence: Péter Balicza balicza.peter@ 123456med.semmelweis-univ.hu

                This article was submitted to Genetic Disorders, a section of the journal Frontiers in Genetics

                Article
                DOI: 10.3389/fgene.2018.00335
                PMC ID: 6113386
                PubMed ID: 30186310
                SO-VID: 1edf186c-7ac0-4156-af43-6fa25f935107
                Copyright © Copyright © 2018 Balicza, Grosz, Molnár, Illés, Csabán, Gézsi, Dézsi, Zádori, Vécsei and Molnár.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 11 June 2018
                Date accepted : 03 August 2018
                Page count
                Figures: 2, Tables: 0, Equations: 0, References: 14, Pages: 5, Words: 3272
                Funding
                Funded by: Országos Tudományos Kutatási Alapprogramok 10.13039/501100003549
                Award ID: K-112915
                Funded by: Magyar Tudományos Akadémia 10.13039/501100003825
                Categories
                Subject: Genetics
                Subject: Case Report

                ScienceOpen disciplines: Genetics
                Keywords: nkx2-1 gene,nkx2-1 related disorders,benign hereditary chorea,brain-lung-thyroid syndrome,chorea,myoclonus dystonia,pituitary,empty sella
                Data availability:
                ScienceOpen disciplines: Genetics
                Keywords: nkx2-1 gene, nkx2-1 related disorders, benign hereditary chorea, brain-lung-thyroid syndrome, chorea, myoclonus dystonia, pituitary, empty sella

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