Avaliação ecotoxicológica de fármacos psicotrópicos e suas possíveis interações com nanomateriais usando embriões de peixe-zebra

Dissertação (mestrado)—Universidade de Brasília, Instituto de Ciências Biológicas, Programa de Pós-Graduação em Biologia Animal, 2016.

A non-classical LysR-type transcriptional regulator PA2206 is required for an effective oxidative stress response in Pseudomonas aeruginosa

LysR-type transcriptional regulators (LTTRs) are emerging as key circuit components in regulating microbial stress responses and are implicated in modulating oxidative stress in the human opportunistic pathogen Pseudomonas aeruginosa. The oxidative stress response encapsulates several strategies to overcome the deleterious effects of reactive oxygen species. However, many of the regulatory components and associated molecular mechanisms underpinning this key adaptive response remain to be characterised. Comparative analysis of publically available transcriptomic datasets led to the identification of a novel LTTR, PA2206, whose expression was altered in response to a range of host signals in addition to oxidative stress. PA2206 was found to be required for tolerance to H2O2 in vitro and lethality in vivo in the Zebrafish embryo model of infection. Transcriptomic analysis in the presence of H2O2 showed that PA2206 altered the expression of 58 genes, including a large repertoire of oxidative stress and iron responsive genes, independent of the master regulator of oxidative stress, OxyR. Contrary to the classic mechanism of LysR regulation, PA2206 did not autoregulate its own expression and did not influence expression of adjacent or divergently transcribed genes. The PA2214-15 operon was identified as a direct target of PA2206 with truncated promoter fragments revealing binding to the 5'-ATTGCCTGGGGTTAT-3' LysR box adjacent to the predicted -35 region. PA2206 also interacted with the pvdS promoter suggesting a global dimension to the PA2206 regulon, and suggests PA2206 is an important regulatory component of P. aeruginosa adaptation during oxidative stress.

Three dimensional mechanical modelling and analysis of embryos microinjection.

This research has developed a novel 3D particle based cell model that is able to accurately estimate the membrane deformation and indentation force in bio-micromanipulation of an individual cell, especially embryos microinjection practice.

Analysis of opo cis-regulatory landscape uncovers Vsx2 requirement in early eye morphogenesis

The self-organized morphogenesis of the vertebrate optic cup entails coupling the activation of the retinal gene regulatory network to the constriction-driven infolding of the retinal epithelium. Yet the genetic mechanisms underlying this coordination remain largely unexplored. Through phylogenetic footprinting and transgenesis in zebrafish, here we examine the cis-regulatory landscape of opo, an endocytosis regulator essential for eye morphogenesis. Among the different conserved enhancers identified, we isolate a single retina-specific element (H6_10137) and show that its activity depends on binding sites for the retinal determinant Vsx2. Gain- and loss-of-function experiments and ChIP analyses reveal that Vsx2 regulates opo expression through direct binding to this retinal enhancer. Furthermore, we show that vsx2 knockdown impairs the primary optic cup folding. These data support a model by which vsx2, operating through the effector gene opo, acts as a central transcriptional node that coordinates neural retina patterning and optic cup invagination in zebrafish.

Characterization of the cis‐regulatory regions governing ojoplano locus

Ojoplano (opo) is a vertebrate-specific gene that was first identified in medaka fish as a recessive mutant, showing both neural crest defects and a failure of optic cup folding. In humans, this gene is associated with genetic diseases including hereditary craniofacial malformations and schizophrenia. It is localized in a 2Mb gene desert flanked by insulator sequences, between the genes SLC35B and TFAp2a. This region, syntenic between all vertebrates, represents only 2% of chromosome 6. However, it includes 23% of the all conserved cis-regulatory elements in this chromosome. Using transgenesis assays in zebrafish, we screened the enhancer activity of this locus and obtain a collection of nine enhancers. These regulatory elements were all conserved from human to teleosts and showed epigenetic marks for enhancer activity. We could associate multiple enhancers with ororfacial celfting disease and in order to explore the functionality of the enhancers, we performed a bioinformatics analysis to search for transcription factor bindings in the enhancer sequences. In terms of gene regulation we observe that H6:10137 opo enhancer has two Vsx2 binding sites and that this transcription factor regulates the expression of opo during eye development. Our findings suggest that the regulation of Vsx2 over opo is essential for optic cup folding. So far, there is no clear connection between optic cup patterning and morphogenesis. Vsx2 provides this link by controlling the expression of opo.

MEF2C: expression, regulation and interaction with target genes in health and diseases

Tese de doutoramento, Ciências Biomédicas, Departamento de Ciências Biomédicas e Medicina, Universidade do Algarve, 2015