p73: A Multifunctional Protein in Neurobiology

p73, a transcription factor of the p53 family, plays a key role in many biological processes including neuronal development. Indeed, mice deficient for both TAp73 and ΔNp73 isoforms display neuronal pathologies, including hydrocephalus and hippocampal dysgenesis, with defects in the CA1-CA3 pyramidal cell layers and the dentate gyrus. TAp73 expression increases in parallel with neuronal differentiation and its ectopic expression induces neurite outgrowth and expression of neuronal markers in neuroblastoma cell lines and neural stem cells, suggesting that it has a pro-differentiation role. In contrast, ΔNp73 shows a survival function in mature cortical neurons as selective ΔNp73 null mice have reduced cortical thickness. Recent evidence has also suggested that p73 isoforms are deregulated in neurodegenerative pathologies such as Alzheimer’s disease, with abnormal tau phosphorylation. Thus, in addition to its increasingly accepted contribution to tumorigenesis, the p73 subfamily also plays a role in neuronal development and neurodegeneration

Motif co-regulation and co-operativity are common mechanisms in transcriptional, post-transcriptional and post-translational regulation

A substantial portion of the regulatory interactions in the higher eukaryotic cell are mediated by simple sequence motifs in the regulatory segments of genes and (pre-)mRNAs, and in the intrinsically disordered regions of proteins. Although these regulatory modules are physicochemically distinct, they share an evolutionary plasticity that has facilitated a rapid growth of their use and resulted in their ubiquity in complex organisms. The ease of motif acquisition simplifies access to basal housekeeping functions, facilitates the co-regulation of multiple biomolecules allowing them to respond in a coordinated manner to changes in the cell state, and supports the integration of multiple signals for combinatorial decision-making. Consequently, motifs are indispensable for temporal, spatial, conditional and basal regulation at the transcriptional, post-transcriptional and post-translational level. In this review, we highlight that many of the key regulatory pathways of the cell are recruited by motifs and that the ease of motif acquisition has resulted in large networks of co-regulated biomolecules. We discuss how co-operativity allows simple static motifs to perform the conditional regulation that underlies decision-making in higher eukaryotic biological systems. We observe that each gene and its products have a unique set of DNA, RNA or protein motifs that encode a regulatory program to define the logical circuitry that guides the life cycle of these biomolecules, from transcription to degradation. Finally, we contrast the regulatory properties of protein motifs and the regulatory elements of DNA and (pre-)mRNAs, advocating that co-regulation, co-operativity, and motif-driven regulatory programs are common mechanisms that emerge from the use of simple, evolutionarily plastic regulatory modules

The European Union and natural resources that fund armed conflicts: explaining the EU’s policy choice for supply chain due-diligence requirements

Natural resources can be an important source of funding for warring parties in armed conflicts. Curbing the trade in these so-called conflict resources is, therefore, part of the European Union’s (EU) conflict management policies. The article explores the EU’s policies in this field and asks, specifically, why the EU is using supply chain due diligence measures to achieve this goal. The author argues they are the response to enforcement problems of most existing multilateral and unilateral sanction regimes because of state weakness in the targeted regions. This approach results from a broader idea from the EU that transparency can improve resource governance and, therefore, safeguard both its political and economic interests in conflict zones, such as the eastern Democratic Republic of the Congo. However, when the issue became specific—as in the EU Conflict Minerals Regulation—translating this idea into concrete policies became more contentious as the different actors set different priorities for the final policy design.This work was supported by the EU’s Horizon 2020 research and innovation program [grant number 660245]; and the Spanish Ministry of Economy and Competiveness [grant number CSO2016-79205-P]

Gamma-glutamyltranspeptidase induction by cortisol in liver parenchyma of unweaned rats.

In contrast to many differentiated hepatic functions developing after birth, very little is known about in vivo glucocorticoid influences on postnatal expression of fetal liver enzymes, such as GGT. This study showed that cortisol markedly induces liver GGT activity in unweaned rats, but has no effect after weaning. Enzyme induction was dose- and time-dependent and occurred in parenchymal cells, progressing with time from zone 1 to zone 2 of the liver acinus. Zone-3 hepatocytes were unresponsive even after a 5-day treatment. Lag-times for GGT induction in zones 1 and 2 of the liver acinus were 1 to 2 days and 2 to 3 days, respectively. From this, a permissive cell change, determined by the hormone administration itself, seems required for the hepatocyte GGT induction by cortisol in pre-weaning rats

High Diversity in Cretaceous Ichthyosaurs from Europe Prior to Their Extinction

Background: Ichthyosaurs are reptiles that inhabited the marine realm during most of the Mesozoic. Their Cretaceous representatives have traditionally been considered as the last survivors of a group declining since the Jurassic. Recently, however, an unexpected diversity has been described in Upper Jurassic–Lower Cretaceous deposits, but is widely spread across time and space, giving small clues on the adaptive potential and ecosystem control of the last ichthyosaurs. The famous but little studied English Gault Formation and ‘greensands’ deposits (the Upper Greensand Formation and the Cambridge Greensand Member of the Lower Chalk Formation) offer an unprecedented opportunity to investigate this topic, containing thousands of ichthyosaur remains spanning the Early–Late Cretaceous boundary. Methodology/Principal findings: To assess the diversity of the ichthyosaur assemblage from these sedimentary bodies, we recognized morphotypes within each type of bones. We grouped these morphotypes together, when possible, by using articulated specimens from the same formations and from new localities in the Vocontian Basin (France); a revised taxonomic scheme is proposed. We recognize the following taxa in the ‘greensands’: the platypterygiines ‘Platypterygius’ sp. and Sisteronia seeleyi gen. et sp. nov., indeterminate ophthalmosaurines and the rare incertae sedis Cetarthrosaurus walkeri. The taxonomic diversity of late Albian ichthyosaurs now matches that of older, well-known intervals such as the Toarcian or the Tithonian. Contrasting tooth shapes and wear patterns suggest that these ichthyosaurs colonized three distinct feeding guilds, despite the presence of numerous plesiosaur taxa. Conclusion/Significance: Western Europe was a diversity hot-spot for ichthyosaurs a few million years prior to their final extinction. By contrast, the low diversity in Australia and U.S.A. suggests strong geographical disparities in the diversity pattern of Albian–early Cenomanian ichthyosaurs. This provides a whole new context to investigate the extinction of these successful marine reptiles, at the end of the Cenomanian