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Mechanistic Insight into the Pathology of Polyalanine Expansion Disorders Revealed by a Mouse Model for X Linked Hypopituitarism


Polyalanine expansions in transcription factors have been associated with eight distinct congenital human diseases. It is thought that in each case the polyalanine expansion causes misfolding of the protein that abrogates protein function. Misfolded proteins form aggregates when expressed in vitro; however, it is less clear whether aggregation is of relevance to these diseases in vivo. To investigate this issue, we used targeted mutagenesis of embryonic stem (ES) cells to generate mice with a polyalanine expansion mutation in Sox3 (Sox3-26ala) that is associated with X-linked Hypopituitarism (XH) in humans. By investigating both ES cells and chimeric mice, we show that endogenous polyalanine expanded SOX3 does not form protein aggregates in vivo but rather is present at dramatically reduced levels within the nucleus of mutant cells. Importantly, the residual mutant protein of chimeric embryos is able to rescue a block in gastrulation but is not sufficient for normal development of the hypothalamus, a region that is functionally compromised in Sox3 null embryos and individuals with XH. Together, these data provide the first definitive example of a disease-relevant PA mutant protein that is both nuclear and functional, thereby manifesting as a partial loss-of-function allele.


Vyšlo v časopise: Mechanistic Insight into the Pathology of Polyalanine Expansion Disorders Revealed by a Mouse Model for X Linked Hypopituitarism. PLoS Genet 9(3): e32767. doi:10.1371/journal.pgen.1003290
Kategorie: Research Article
prolekare.web.journal.doi_sk: https://doi.org/10.1371/journal.pgen.1003290

Souhrn

Polyalanine expansions in transcription factors have been associated with eight distinct congenital human diseases. It is thought that in each case the polyalanine expansion causes misfolding of the protein that abrogates protein function. Misfolded proteins form aggregates when expressed in vitro; however, it is less clear whether aggregation is of relevance to these diseases in vivo. To investigate this issue, we used targeted mutagenesis of embryonic stem (ES) cells to generate mice with a polyalanine expansion mutation in Sox3 (Sox3-26ala) that is associated with X-linked Hypopituitarism (XH) in humans. By investigating both ES cells and chimeric mice, we show that endogenous polyalanine expanded SOX3 does not form protein aggregates in vivo but rather is present at dramatically reduced levels within the nucleus of mutant cells. Importantly, the residual mutant protein of chimeric embryos is able to rescue a block in gastrulation but is not sufficient for normal development of the hypothalamus, a region that is functionally compromised in Sox3 null embryos and individuals with XH. Together, these data provide the first definitive example of a disease-relevant PA mutant protein that is both nuclear and functional, thereby manifesting as a partial loss-of-function allele.


Zdroje

1. InnisJW, MortlockD, ChenZ, LudwigM, WilliamsME, et al. (2004) Polyalanine expansion in HOXA13: three new affected families and the molecular consequences in a mouse model. Hum Mol Genet 13: 2841–2851.

2. De BaereE, BeysenD, OleyC, LorenzB, CocquetJ, et al. (2003) FOXL2 and BPES: mutational hotspots, phenotypic variability, and revision of the genotype-phenotype correlation. Am J Hum Genet 72: 478–487.

3. RoesslerE, LacbawanF, DubourgC, PaulussenA, HerbergsJ, et al. (2009) The full spectrum of holoprosencephaly-associated mutations within the ZIC2 gene in humans predicts loss-of-function as the predominant disease mechanism. Hum Mutat 30: E541–554.

4. ShoubridgeC, FullstonT, GeczJ (2010) ARX spectrum disorders: making inroads into the molecular pathology. Hum Mutat 31: 889–900.

5. BrisonN, TylzanowskiP, DebeerP (2011) Limb skeletal malformations - what the HOX is going on? Eur J Med Genet 55: 1–7.

6. DubreuilV, RamanantsoaN, TrochetD, VaubourgV, AmielJ, et al. (2008) A human mutation in Phox2b causes lack of CO2 chemosensitivity, fatal central apnea, and specific loss of parafacial neurons. Proc Natl Acad Sci U S A 105: 1067–1072.

7. WongJ, FarlieP, HolbertS, LockhartP, ThomasPQ (2007) Polyalanine expansion mutations in the X-linked hypopituitarism gene SOX3 result in aggresome formation and impaired transactivation. Front Biosci 12: 2085–2095.

8. AlbrechtAN, KornakU, BoddrichA, SuringK, RobinsonPN, et al. (2004) A molecular pathogenesis for transcription factor associated poly-alanine tract expansions. Hum Mol Genet 13: 2351–2359.

9. NasrallahIM, MinarcikJC, GoldenJA (2004) A polyalanine tract expansion in Arx forms intranuclear inclusions and results in increased cell death. J Cell Biol 167: 411–416.

10. CaladoA, TomeFM, BraisB, RouleauGA, KuhnU, et al. (2000) Nuclear inclusions in oculopharyngeal muscular dystrophy consist of poly(A) binding protein 2 aggregates which sequester poly(A) RNA. Hum Mol Genet 9: 2321–2328.

11. DaviesSW, TurmaineM, CozensBA, DiFigliaM, SharpAH, et al. (1997) Formation of neuronal intranuclear inclusions underlies the neurological dysfunction in mice transgenic for the HD mutation. Cell 90: 537–548.

12. La SpadaAR, TaylorJP (2010) Repeat expansion disease: progress and puzzles in disease pathogenesis. Nat Rev Genet 11: 247–258.

13. LaumonnierF, RonceN, HamelBC, ThomasP, LespinasseJ, et al. (2002) Transcription factor SOX3 is involved in X-linked mental retardation with growth hormone deficiency. Am J Hum Genet 71: 1450–1455.

14. LarondaMM, JamesonJL (2011) Sox3 functions in a cell-autonomous manner to regulate spermatogonial differentiation in mice. Endocrinology 152: 1606–1615.

15. RizzotiK, BrunelliS, CarmignacD, ThomasPQ, RobinsonIC, et al. (2004) SOX3 is required during the formation of the hypothalamo-pituitary axis. Nat Genet 36: 247–255.

16. WoodsKS, CundallM, TurtonJ, RizottiK, MehtaA, et al. (2005) Over- and underdosage of SOX3 is associated with infundibular hypoplasia and hypopituitarism. Am J Hum Genet 76: 833–849.

17. KitamuraK, ItouY, YanazawaM, OhsawaM, Suzuki-MigishimaR, et al. (2009) Three human ARX mutations cause the lissencephaly-like and mental retardation with epilepsy-like pleiotropic phenotypes in mice. Hum Mol Genet 18: 3708–3724.

18. PriceMG, YooJW, BurgessDL, DengF, HrachovyRA, et al. (2009) A triplet repeat expansion genetic mouse model of infantile spasms syndrome, Arx(GCG)10+7, with interneuronopathy, spasms in infancy, persistent seizures, and adult cognitive and behavioral impairment. J Neurosci 29: 8752–8763.

19. Burkitt WrightEM, PerveenR, ClaytonPE, HallCM, CostaT, et al. (2009) X-linked isolated growth hormone deficiency: expanding the phenotypic spectrum of SOX3 polyalanine tract expansions. Clin Dysmorphol 18: 218–221.

20. AlatzoglouKS, KelbermanD, CowellCT, PalmerR, ArnholdIJ, et al. (2011) Increased transactivation associated with SOX3 polyalanine tract deletion in a patient with hypopituitarism. J Clin Endocrinol Metab 96: E685–690.

21. AlbrechtA, MundlosS (2005) The other trinucleotide repeat: polyalanine expansion disorders. Curr Opin Genet Dev 15: 285–293.

22. WatayaT, AndoS, MugurumaK, IkedaH, WatanabeK, et al. (2008) Minimization of exogenous signals in ES cell culture induces rostral hypothalamic differentiation. Proc Natl Acad Sci U S A 105: 11796–11801.

23. YingQL, StavridisM, GriffithsD, LiM, SmithA (2003) Conversion of embryonic stem cells into neuroectodermal precursors in adherent monoculture. Nat Biotechnol 21: 183–186.

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Genetika Reprodukčná medicína

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PLOS Genetics


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