Linking specification to differentiation:From proneural genes to the regulation of ciliogenesis

Much of developmental biology is concerned with the processes by which cells become committed to particular fates in a regulated fashion, whereas cell biology addresses, among other things, the variety of differentiated forms and functions that cells can acquire. One open question is how the regulators of the former process lead to attainment of the latter. “High-level” regulators of cell fate specification include the proneural factors, which drive cells to commit as precursors in the sensory nervous system. Recent research has concentrated on the gene expression events downstream of proneural factor function. Here we summarize this research and describe our own research that has provided clear links between a proneural factor, atonal and the cell biological program of ciliogenesis, which is a central aspect of sensory neuron differentiation

An investigation into the role of methylation in mammalian X-chromosome inactivation

X-chromosome inactivation achieves dosage compensation of X-linked genes between male (XY) and female (XX) mammals. This process involves the down-regulation of most, but not all genes on one of the two X-chromosomes in the nucleus of each female somatic cell. The mechanism of X-inactivation has yet to be elucidated in full, but is known to involve the noncoding transcript of theXist gene, DNA methylation, histone hypo-acetylation and the condensation of higher order chromatin. Recent studies have established mechanisms linking methylation to repressive chromatin structures through methyl-binding proteins and histone deacetylase complexes.In order to better understand the role of methylation in X-inactivation, the promoters of the human Pyruvate dehydrogenase El a (PDHA1) and the human and murine Norrie disease protein (NDP/Ndp) genes were subjected to direct methylation sequencing, allowing the definition of methylation profiles at nucleotide resolution. The promoter of the PDHA1 gene was found to be hyper-methylated on the inactive X-chromosome and hypo-methylated on the active X-chromosome in agreement with studies at the promoters of other X-linked housekeeping genes. Methylation at the promoters of the NDP/Ndp genes was extensively investigated in a range of primary tissues and cell lines. The Ndp promoter was found to be methylated on both active and inactive X-chromosomes, but hypo-methylated in the proximal promoter exclusively in tissues that expressed the Ndp gene. The NDP promoter was found to be unmethylated on the active X-chromosome and hyper-methylated across the proximal promoter on the inactive X-chromosome in expressing cell lines and human retinal tissues. The novel promoter sequences of the human and murine SMCX/Smcx genes were isolated for comparative analysis and to provide a future resource for studying methylation at the promoters of genes which escape the X-inactivation process.Promoter sequences of the PDHA1, NDPI Ndp and SMCX/Smcx genes were screened for putative transcription factor binding sites and for conserved CpG-dinucleotide content. Promoter-reporter gene constructs for these genes were transfected into mammalian cells establishing that the sequences studied were functional promoters. Artificial methylation of these constructs was shown to repress their promoter activities

Positive autoregulation of the transcription factor Pax6 in response to increased levels of either of its major isoforms, Pax6 or Pax6(5a), in cultured cells

<p>Abstract</p> <p>Background</p> <p>Pax6 is a transcription factor essential for normal development of the eyes and nervous system. It has two major isoforms, Pax6 and Pax6(5a), and the ratios between their expression levels vary within narrow limits. We tested the effects of overexpressing either one or other isoform on endogenous Pax6 expression levels in Neuro2A and NIH3T3 cells.</p> <p>Results</p> <p>We found that both isoforms caused an up-regulation of endogenous Pax6 expression in cells with (Neuro2A) or without (NIH3T3) constitutive Pax6 expression. Western blots showed that cells stably transfected with constructs expressing either Pax6 or Pax6(5a) contained raised levels of both Pax6 and Pax6(5a). Quantitative RT-PCR confirmed an increase in levels of <it>Pax6(5a) </it>mRNA in cells containing Pax6-expressing constructs and an increase in levels of <it>Pax6 </it>mRNA in cells containing Pax6(5a)-expressing constructs. The fact that the introduction of constructs expressing only one isoform increased the cellular levels of not only that isoform but also the other indicates that activation of the endogenous <it>Pax6 </it>locus occurred. The ratio between the levels of the two isoforms was maintained close to physiological values. The overexpression of either isoform in neuroblastoma (Neuro2A) cell lines also promoted morphological change and an increase in β-III-tubulin expression, indicating an increase in neurogenesis.</p> <p>Conclusion</p> <p>Our results demonstrate that Pax6 can up-regulate production of Pax6 protein from an entire intact endogenous <it>Pax6 </it>locus in its genomic environment. This adds to previous studies showing that Pax6 can up-regulate reporter expression driven by isolated <it>Pax6 </it>regulatory elements. Furthermore, our results suggest that an important function of positive feedback might be to stabilise the relative levels of Pax6 and Pax6(5a).</p

Discussion of "Geodesic Monte Carlo on Embedded Manifolds"

Contributed discussion and rejoinder to "Geodesic Monte Carlo on Embedded Manifolds" (arXiv:1301.6064)Comment: Discussion of arXiv:1301.6064. To appear in the Scandinavian Journal of Statistics. 18 page

Analysis of proteins in computational models of synaptic plasticity

The desire to explain how synaptic plasticity arises from interactions between ions, proteins and other signalling molecules has propelled the development of biophysical models of molecular pathways in hippocampal, striatal and cerebellar synapses. The experimental data underpinning such models is typically obtained from low-throughput, hypothesis-driven experiments. We used high-throughput proteomic data and bioinformatics datasets to assess the coverage of biophysical models. To determine which molecules have been modelled, we surveyed biophysical models of synaptic plasticity, identifying which proteins are involved in each model. We were able to map 4.2% of previously reported synaptic proteins to entities in biophysical models. Linking the modelled protein list to Gene Ontology terms shows that modelled proteins are focused on functions such as calmodulin binding, cellular responses to glucagon stimulus, G-alpha signalling and DARPP-32 events. We cross-linked the set of modelled proteins with sets of genes associated with common neurological diseases. We find some examples of disease-associated molecules that are well represented in models, such as voltage-dependent calcium channel family CACNA1C, dopamine D1 receptor, and glutamate ionotropic NMDA type 2A and 2B receptors. Many other disease-associated genes have not been included in models of synaptic plasticity, for example catechol-O-methyltransferase COMT and MAOA. By incorporating pathway enrichment results, we identify LAMTOR, a gene uniquely associated with Schizophrenia, which is closely linked to the MAPK pathway found in some models. Our analysis provides a map of how molecular pathways underpinning neurological diseases relate to synaptic biophysical models that can in turn be used to explore how these molecular events might bridge scales into cellular processes and beyond. The map illustrates disease areas where biophysical models have good coverage as well as domain gaps that require significant further research

Functional conservation of Pax6 regulatory elements in humans and mice demonstrated with a novel transgenic reporter mouse

<p>Abstract</p> <p>Background</p> <p>The Pax6 transcription factor is expressed during development in the eyes and in specific CNS regions, where it is essential for normal cell proliferation and differentiation. Mice lacking one or both copies of the <it>Pax6 </it>gene model closely humans with loss-of-function mutations in the <it>PAX6 </it>locus. The sequence of the Pax6/PAX6 protein is identical in mice and humans and previous studies have shown <it>structural </it>conservation of the gene's regulatory regions.</p> <p>Results</p> <p>We generated a transgenic mouse expressing green fluorescent protein (GFP) and neomycin resistance under the control of the entire complement of human <it>PAX6 </it>regulatory elements using a modified yeast artificial chromosome (YAC). Expression of GFP was studied in embryos from 9.5 days on and was confined to cells known to express Pax6. GFP expression was sufficiently strong that expressing cells could be distinguished from non-expressing cells using flow cytometry.</p> <p>Conclusion</p> <p>This work demonstrates the <it>functional </it>conservation of the regulatory elements controlling <it>Pax6/PAX6 </it>expression in mice and humans. The transgene provides an excellent tool for studying the functions of different <it>Pax6/PAX6 </it>regulatory elements in controlling Pax6 expression in animals that are otherwise normal. It will allow the analysis and isolation of cells in which <it>Pax6 </it>is activated, irrespective of the status of the endogenous locus.</p

Sea-level constraints on the amplitude and source distribution of Meltwater Pulse 1A.

During the last deglaciation, sea levels rose as ice sheets retreated. This climate transition was punctuated by periods of more intense melting; the largest and most rapid of these—Meltwater Pulse 1A—occurred about 14,500 years ago, with rates of sea-level rise reaching approximately 4 m per century1, 2, 3. Such rates of rise suggest ice-sheet instability, but the meltwater sources are poorly constrained, thus limiting our understanding of the causes and impacts of the event4, 5, 6, 7. In particular, geophysical modelling studies constrained by tropical sea-level records1, 8, 9 suggest an Antarctic contribution of more than seven metres, whereas most reconstructions10 from Antarctica indicate no substantial change in ice-sheet volume around the time of Meltwater Pulse 1A. Here we use a glacial isostatic adjustment model to reinterpret tropical sea-level reconstructions from Barbados2, the Sunda Shelf3 and Tahiti1. According to our results, global mean sea-level rise during Meltwater Pulse 1A was between 8.6 and 14.6 m (95% probability). As for the melt partitioning, we find an allowable contribution from Antarctica of either 4.1 to 10.0 m or 0 to 6.9 m (95% probability), using two recent estimates11, 12 of the contribution from the North American ice sheets. We conclude that with current geologic constraints, the method applied here is unable to support or refute the possibility of a significant Antarctic contribution to Meltwater Pulse 1A

Squirrelpox virus: assessing prevalence, transmission and environmental degradation

Red squirrels (Sciurus vulgaris) declined in Great Britain and Ireland during the last century, due to habitat loss and the introduction of grey squirrels (Sciurus carolinensis), which competitively exclude the red squirrel and act as a reservoir for squirrelpox virus (SQPV). The disease is generally fatal to red squirrels and their ecological replacement by grey squirrels is up to 25 times faster where the virus is present. We aimed to determine: (1) the seropositivity and prevalence of SQPV DNA in the invasive and native species at a regional scale; (2) possible SQPV transmission routes; and, (3) virus degradation rates under differing environmental conditions. Grey (n = 208) and red (n = 40) squirrel blood and tissues were sampled. Enzyme-linked immunosorbent assay (ELISA) and quantitative real-time polymerase chain reaction (qPCR) techniques established seropositivity and viral DNA presence, respectively. Overall 8% of squirrels sampled (both species combined) had evidence of SQPV DNA in their tissues and 22% were in possession of antibodies. SQPV prevalence in sampled red squirrels was 2.5%. Viral loads were typically low in grey squirrels by comparison to red squirrels. There was a trend for a greater number of positive samples in spring and summer than in winter. Possible transmission routes were identified through the presence of viral DNA in faeces (red squirrels only), urine and ectoparasites (both species). Virus degradation analyses suggested that, after 30 days of exposure to six combinations of environments, there were more intact virus particles in scabs kept in warm (25°C) and dry conditions than in cooler (5 and 15°C) or wet conditions. We conclude that SQPV is present at low prevalence in invasive grey squirrel populations with a lower prevalence in native red squirrels. Virus transmission could occur through urine especially during warm dry summer conditions but, more notably, via ectoparasites, which are shared by both species