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

PLoS Genetics (2013) 9(3)
DOI: 10.1371/journal.pgen.1003290
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Abstract

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. © 2013 Hughes et al.

Figures

  • Figure 1. Generation of Sox3-26ala ES cells. Scale representation of the Sox3 locus, targeting vector and recombinant alleles (A). Probing of BglII digested DNA from ES cell clones with the 59 probe yielded an 8.8 kb fragment from the WT locus and a 5.9 kb fragment when the Neo cassette was recombined into the Sox3 locus (Sox3-26ala or Neo). B) Representative Southern blot of 3 clones including a targeted clone (Sox3-26ala-3) is shown. C) PCR using primers spanning the alanine expansion (red arrows in A) was used to distinguish whether targeted clones carried the expansion and gave a 219 bp product instead of 186 bp as seen in WT. doi:10.1371/journal.pgen.1003290.g001
  • Table 1. Failure of Sox3-26ala targeted ES clones to transmit through the germline.
  • Figure 2. Transcription is unaffected but protein is cleared from mutant cells. A) SOX3 protein is present in every WT cell (NEO2) of the 13.5 dpc telencephalic ventricular zone but virtually absent from equivalent tissue derived from Sox3-26ala cells (NEO+). B) Comparison of SOX3 immunostaining on Sox3-null cells (from a 14.5 dpc +/2 embryo) and Sox3-26ala expressing cells (from a Sox3-26ala ,-. WT chimera) confirming that the antibody is SOX3-specific and that the Sox3-26ala expressing cells exhibit a low level of residual nuclear protein. C) WT, Neo, Sox3-26ala and Sox3-null ES cells were differentiated for 5 days in CDM as multi-cellular bodies. Rare SOX3 positive cells were detected in Sox3-26ala CDMs while the majority of cells had low SOX3 protein levels in comparison to neighbouring WT CDM bodies processed on the same slide. D–E) WT, Neo, Sox3-26ala and Sox3-null ES cells were grown in N2B27 for 4 days to form neural progenitors. Western blotting for SOX3 reveals a dramatic reduction of protein in Sox3-26ala cells (D); 3 and 30 minute exposures are shown. E) Transcript levels of Sox3 are not affected in Sox3-26ala cells as determined by qPCR. Three experimental replicates are shown. Data was normalised to Sox3 levels inSox3-Neo control cells and error bars represent SEM. F) ISH confirms that Sox3 transcript is present at comparable levels in ventricular zone cells at 13.5 dpc derived from both WT (Neo2) and Sox3-26ala (Neo+) cells. ISH performed on adjacent 10 mm coronal sections of 13.5 dpc chimeric telencephalon. doi:10.1371/journal.pgen.1003290.g002
  • Figure 3. Sox3-26ala cells cause pituitary defects indistinguishable from Sox3-null cells. WT, Sox3+/2 or Sox3-26ala,-.WT chimeras were cut sagittally at 11.5 dpc (A) or 13.5 dpc (B) and immunostained for SOX3 and NEO expression. Percentage chimerism for each embryo in (A) and (B) was determined by qPCR as outlined in the methods. ISH for Neo on adjacent sections at 11.5 dpc confirmed the identification of mutant cells within the ventral diencephalon (A). Examples at 11.5 dpc show the infundibulum (I) appears unaffected in a 5% chimera, shallow in a 20% chimera and absent in a 75% chimera that also displayed a Rathke’s Pouch (*) that had failed to detach from the oral ectoderm. At 13.5 dpc, heterozygous and high percentage (65%) chimeric embryos displayed a distorted infundibulum (I) with a lobular edge (arrow heads) and a branched Rathke’s Pouch (*). Low percentage chimeras (20%) look similar to WT (0%). C) Phase micrographs of 13.5 dpc coronal sections through the developing pituitary show a broadening at the base of the third ventricle in chimeras (arrows). Chimerism for embryos shown in (C) was determined based on immunoreactivity for NEO in adjacent sections (data not shown). doi:10.1371/journal.pgen.1003290.g003
  • Figure 4. SOX3-26ala from mouse and human retains transactivation activity. A) COS-7 cells were transfected with pcDNA3.1 expression vector containing either mouse Sox3, human SOX3, mouse Sox3-26ala, human SOX3-26ala or an empty vector control. Values represent mean normalised luciferase values plus standard deviation of four independent experiments measured 48 hours after transfection. Student’s T-tests (two tailed, unequal variance) of SOX3-26ala from human or mouse compared to empty vector control show a statistically significant increase in luciferase activity. B) Nuclear protein lysates prepared from duplicate plates 48 hours after transfection show that less SOX3 is detected in the nucleus of cells expressing both mouse and human SOX3-26ala. pcDNA3.1-EGFP transfected cells were used as a control and prepared for both nuclear protein and whole cell extracts (WCE). Blotting for Histone H3, indicates equal loading and blotting for a-Tubulin shows an absence of cytoplasmic contamination in nuclear preparations. Transfection efficiency was determined by co-transfecting EGFP and counting positive cells prior to harvesting and found to be equal for all plasmids. doi:10.1371/journal.pgen.1003290.g004
  • Figure 5. Residual nuclear SOX3-26ala protein rescues a gastrulation defect of Sox3-null ,-. WT chimeric embryos. Sox3-26ala ,-. WT chimeras are normal at 7.5 dpc (gastrulation) unlike Sox3-null ,-. WT chimeras. A total of 15 Sox3-flox,-. WT ES chimeras, 31 Sox3-null,-. WT chimeras and 21 Sox3-26ala,-. WT chimeras were blind scored by two independent operators as morphologically normal or abnormal. The average score for each embryo was used to plot the percentage of abnormal embryos for each condition and chi squared analysis was performed with Sox3-flox,-. WT embryos used to set expected outcomes. Significantly more Sox3-null,-. WT chimeras were abnormal (p = 0.0001) while Sox3-26ala,-. WT chimeras did not deviate from expected (p = 0.95). An example of normal morphology is shown for Sox3-flox,-. WT and Sox3-26ala,-. WT chimeras and an abnormal Sox3-null,-. WT chimera is also shown that exhibits distortion of the ectodermal layer and apparent expansion of cells at the primitive streak and the adjacent extra-embryonic region. doi:10.1371/journal.pgen.1003290.g005

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Hughes, J., Piltz, S., Rogers, N., McAninch, D., Rowley, L., & Thomas, P. (2013). Mechanistic Insight into the Pathology of Polyalanine Expansion Disorders Revealed by a Mouse Model for X Linked Hypopituitarism. PLoS Genetics, 9(3). https://doi.org/10.1371/journal.pgen.1003290

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