Posttranscriptional Regulation of Embryonic Neurogenesis by the Exon Junction Complex

The six-layered neuron structure in the cerebral cortex is the foundation for human mental abilities. In the developing cerebral cortex, neural stem cells undergo proliferation and differentiate into intermediate progenitors and neurons, a process known as embryonic neurogenesis. Disrupted embryonic neurogenesis is the root cause of a wide range of neurodevelopmental disorders, including microcephaly and intellectual disabilities. Multiple layers of regulatory networks have been identified and extensively studied over the past decades to understand this complex but extremely crucial process of brain development. In recent years, post-transcriptional RNA regulation through RNA binding proteins has emerged as a critical regulatory nexus in embryonic neurogenesis. The exon junction complex (EJC) is a highly conserved RNA binding complex composed of four core proteins, Magoh, Rbm8a, Eif4a3, and Casc3. The EJC plays a major role in regulating RNA splicing, nuclear export, subcellular localization, translation, and nonsense mediated RNA decay. Human genetic studies have associated individual EJC components with various developmental disorders. We showed previously that haploinsufficiency of Magoh causes microcephaly and disrupted neural stem cell differentiation in mouse. However, it is unclear if other EJC core components are also required for embryonic neurogenesis. More importantly, the molecular mechanism through which the EJC regulates embryonic neurogenesis remains largely unknown. Here, we demonstrated with genetically modified mouse models that both Rbm8a and Eif4a3 are required for proper embryonic neurogenesis and the formation of a normal brain. Using transcriptome and proteomic analysis, we showed that the EJC posttranscriptionally regulates genes involved in the p53 pathway, splicing and translation regulation, as well as ribosomal biogenesis. This is the first in vivo evidence suggesting that the etiology of EJC associated neurodevelopmental diseases can be ribosomopathies. We also showed that, different from other EJC core components, depletion of Casc3 only led to mild neurogenesis defects in the mouse model. However, our data suggested that Casc3 is required for embryo viability, development progression, and is potentially a regulator of cardiac development. Together, data presented in this thesis suggests that the EJC is crucial for embryonic neurogenesis and that the EJC and its peripheral factors may regulate development in a tissue-specific manner.

Development of tumour imaging and therapy strategies utilising unengineered bacteria

The ability of systemically administered bacteria to target and replicate to high numbers within solid tumours is well established. Tumour localising bacteria can be exploited as biological vehicles for the delivery of nucleic acid, protein or therapeutic payloads to tumour sites and present researchers with a highly targeted and safe vehicle for tumour imaging and cancer therapy. This work aimed to utilise bacteria to activate imaging probes or prodrugs specifically within target tissue in order to facilitate the development of novel imaging and therapeutic strategies. The vast majority of existing bacterial-mediated cancer therapy strategies rely on the use of bacteria that have been genetically modified (GM) to express genes of interest. While these approaches have been shown to be effective in a preclinical setting, GM presents extra regulatory hurdles in a clinical context. Also, many strains of bacteria are not genetically tractably and hence cannot currently be engineered to express genes of interest. For this reason, the development of imaging and therapeutic systems that utilise unengineered bacteria for the activation of probes or drugs represents a significant improvement on the current gold standard. Endogenously expressed bacterial enzymes that are not found in mammalian cells can be used for the targeted activation of imaging probes or prodrugs whose activation is only achieved in the presence of these enzymes. Exploitation of the intrinsic enzymatic activity of bacteria allows the use of a wider range of bacteria and presents a more clinically relevant system than those that are currently in use. The nitroreductase (NTR) enzymes, found only in bacteria, represent one such option. Chapter 2 introduces the novel concept of utilising native bacterial NTRs for the targeted activation of the fluorophore CytoCy5S. Bacterial-mediated probe activation allowed for non-invasive fluorescence imaging of in vivo bacteria in models of infection and cancer. Chapter 3 extends the concept of using native bacterial enzymes to activate a novel luminescent, NTR activated probe. The use of luminescence based imaging improved the sensitivity of the system and provides researchers with a more accessible modality for preclinical imaging. It also represents an improvement over existing caged luciferin probe systems described to date. Chapter 4 focuses on the employment of endogenous bacterial enzymes for use in a therapeutic setting. Native bacterial enzymatic activity (including NTR enzymes) was shown to be capable of activating multiple prodrugs, in isolation and in combination, and eliciting therapeutic responses in murine models of cancer. Overall, the data presented in this thesis advance the fields of bacterial therapy and imaging and introduce novel strategies for disease diagnosis and treatment. These preclinical studies demonstrate potential for clinical translation in multiple fields of research and medicine.

The expansion of soybean cultivation in Campeche, México: Problematic and perspectives

The soybean is the grain in which greater food dependency has Mexico, reason why as of 2008, the government has promoted his culture, granting excellent subsidies, as much to producers as to buyers of the grain, thus contributing to a recent process of expansion in certain states, as it happens in Campeche. The objetive of this article is the analysis of the characteristics and effects of those supports, as well as of the rest of factors that until today they have taken to the producers of the mentioned state to initiate or to expand the cultivation of the soybean. The findings of the investigation reveal that although the producers have improved their levels of income, the process is vulnerable, as it depends on variables like the governmental supports, the international prices of the soybean and exchange rate. Although the study of the negative effects of genetically modified soybeans (GM) in other areas (environment, biodiversity, deforestation, human and animal health) is not the purpose of this investigation, some information will be provided, as on the conflict between soybean producers and beekeepers in the state of Campeche.

Sampling strategies for characterization of neuropeptides using mass spectrometry and functional implications into cell-cell signaling

In this dissertation, there are developed different analytical strategies to discover and characterize mammalian brain peptides using small amount of tissues. The magnocellular neurons of rat supraoptic nucleus in tissue and cell culture served as the main model to study neuropeptides, in addition to hippocampal neurons and mouse embryonic pituitaries. The neuropeptidomcis studies described here use different extraction methods on tissue or cell culture combined with mass spectrometry (MS) techniques, matrix-assisted laser desorption/ionization (MALDI) and electrospray ionization (ESI). These strategies lead to the identification of multiple peptides from the rat/mouse brain in tissue and cell cultures, including novel compounds One of the goals in this dissertation was to optimize sample preparations on samples isolated from well-defined brain regions for mass spectrometric analysis. Here, the neuropeptidomics study of the SON resulted in the identification of 85 peptides, including 20 unique peptides from known prohormones. This study includes mass spectrometric analysis even from individually isolated magnocellular neuroendocrine cells, where vasopressin and several other peptides are detected. At the same time, it was shown that the same approach could be applied to analyze peptides isolated from a similar hypothalamic region, the suprachiasmatic nucleus (SCN). Although there were some overlaps regarding the detection of the peptides in the two brain nuclei, different peptides were detected specific to each nucleus. Among other peptides, provasopressin fragments were specifically detected in the SON while angiotensin I, somatostatin-14, neurokinin B, galanin, and vasoactive-intestinal peptide (VIP) were detected in the SCN only. Lists of peptides were generated from both brain regions for comparison of the peptidome of SON and SCN nuclei. Moving from analysis of magnocellular neurons in tissue to cell culture, the direct peptidomics of the magnocellular and hippocampal neurons led to the detection of 10 peaks that were assigned to previously characterized peptides and 17 peaks that remain unassigned. Peptides from the vasopressin prohormone and secretogranin-2 are attributed to magnocellular neurons, whereas neurokinin A, peptide J, and neurokinin B are attributed to cultured hippocampal neurons. This approach enabled the elucidation of cell-specific prohormone processing and the discovery of cell-cell signaling peptides. The peptides with roles in the development of the pituitary were analyzed using transgenic mice. Hes1 KO is a genetically modified mouse that lives only e18.5 (embryonic days). Anterior pituitaries of Hes1 null mice exhibit hypoplasia due to increased cell death and reduced proliferation and in the intermediate lobe, the cells differentiate abnormally into somatotropes instead of melanotropes. These previous findings demonstrate that Hes1 has multiple roles in pituitary development, cell differentiation, and cell fate. AVP was detected in all samples. Interestingly, somatostatin [92-100] and provasopressin [151-168] were detected in the mutant but not in the wild type or heterozygous pituitaries while somatostatin-14 was detected only in the heterozygous pituitary. In addition, the putative peptide corresponding to m/z 1330.2 and POMC [205-222] are detected in the mutant and heterozygous pituitaries, but not in the wild type. These results indicate that Hes1 influences the processing of different prohormones having possible roles during development and opens new directions for further developmental studies. This research demonstrates the robust capabilities of MS, which ensures the unbiased direct analysis of peptides extracted from complex biological systems and allows addressing important questions to understand cell-cell signaling in the brain.

A New Mouse Model That Spontaneously Develops Chronic Liver Inflammation and Fibrosis

Here we characterize a new animal model that spontaneously develops chronic inflammation and fibrosis in multiple organs, the non-obese diabetic inflammation and fibrosis (N-IF) mouse. In the liver, the N-IF mouse displays inflammation and fibrosis particularly evident around portal tracts and central veins and accompanied with evidence of abnormal intrahepatic bile ducts. The extensive cellular infiltration consists mainly of macrophages, granulocytes, particularly eosinophils, and mast cells. This inflammatory syndrome is mediated by a transgenic population of natural killer T cells (NKT) induced in an immunodeficient NOD genetic background. The disease is transferrable to immunodeficient recipients, while polyclonal T cells from unaffected syngeneic donors can inhibit the disease phenotype. Because of the fibrotic component, early on-set, spontaneous nature and reproducibility, this novel mouse model provides a unique tool to gain further insight into the underlying mechanisms mediating transformation of chronic inflammation into fibrosis and to evaluate intervention protocols for treating conditions of fibrotic disorders.

Inhibition of glutamine synthetase by phosphinothricin leads to transcriptome reprograming in root nodules of Medicago truncatula

Glutamine synthetase (GS) is a vital enzyme for the assimilation of ammonia into amino acids in higher plants. In legumes, GS plays a crucial role in the assimilation of the ammonium released by nitrogen-fixing bacteria in root nodules, constituting an important metabolic knob controlling the nitrogen (N) assimilatory pathways. To identify new regulators of nodule metabolism, we profiled the transcriptome of Medicago truncatula nodules impaired in N assimilation by specifically inhibiting GS activity using phosphinothricin (PPT). Global transcript expression of nodules collected before and after PPT addition (4, 8, and 24 h) was assessed using Affymetrix M. truncatula GeneChip arrays. Hundreds of genes were regulated at the three time points, illustrating the dramatic alterations in cell metabolism that are imposed on the nodules upon GS inhibition. The data indicate that GS inhibition triggers a fast plant defense response, induces premature nodule senescence, and promotes loss of root nodule identity. Consecutive metabolic changes were identified at the three time points analyzed. The results point to a fast repression of asparagine synthesis and of the glycolytic pathway and to the synthesis of glutamate via reactions alternative to the GS/GOGAT cycle. Several genes potentially involved in the molecular surveillance for internal organic N availability are identified and a number of transporters potentially important for nodule functioning are pinpointed. The data provided by this study contributes to the mapping of regulatory and metabolic networks involved in root nodule functioning and highlight candidate modulators for functional analysis.

Estudo da participação do receptor P2X7 no desempenho cognitivo de roedores: abordagens farmacológicas e genéticas

A memória é um fenômeno decorrente de um conjunto de processos fisiológicos denominado plasticidade. Várias formas de plasticidade são necessárias no processo de formação da memória e também são responsáveis pelo gerenciamento do comportamento. O fenômeno eletrofisiológico chamado potencialização de longa duração (PLD), cuja ocorrência no hipocampo merece destaque, foi proposto como sendo o mecanismo de plasticidade constitutivo das bases da consolidação da memória nesta região encefálica. A importância da plasticidade na região CA1 do hipocampo se manifesta em diversas formas de aprendizado, como espacial e condicionamento clássico. Os eventos bioquímicos que culminam na plasticidade e formação da memória sofrem influência de diversos sistemas de neurotransmissores e evidências indicam também a participação do sistema purinérgico, provavelmente através dos receptores ionotrópicos P2X. Receptores purinérgicos do subtipo P2X7 (P2X7R), largamente distribuídos no sistema nervoso central (SNC), além de possuírem várias características que os distinguem de outros subtipos de receptores P2X, estão envolvidos na regulação da liberação de neurotransmissores cruciais para a promoção da PLD na região hipocampal e formação da memória. Assim, este trabalho objetivou avaliar a participação dos P2X7R em camundongos geneticamente modificados (KO), que não expressam o receptor P2X7, e ratos através da exposição destes a diferentes tarefas comportamentais, bem como avaliar o efeito do enriquecimento ambiental sobre possíveis déficits mnemônicos resultantes da supressão gênica sobre o receptor P2X7. Os resultados sugerem que os P2X7R participam tanto da memória aversiva como da memória espacial: o bloqueio farmacológico com o antagonista específico de P2X7R A-740003 em diferentes janelas temporais causou prejuízos mnemônicos em ratos submetidos à tarefa do medo condicionado contextual (MCC), enquanto a deleção do P2X7R causou déficits mnemônicos a camundongos nas tarefas do labirinto aquático de Morris e no MCC, indicando prejuízos nas memórias espacial e aversiva, respectivamente. Experimentos com enriquecimento ambiental sugerem que esta forma de estimulação contribui na reversão dos déficits mnemônicos causado pela ausência do P2X7R. Por fim, nenhuma alteração na memória de habituação foi observada em animais com deleção gênica para o P2X7R.

Genetic Diversity of Oilseed Rape Fields and Feral Populations in the Context of Coexistence with GM Crops

Despite growing concern about transgenes escaping from fields, few studies have analysed the genetic diversity of crops in an agroecosystem over several years. Accurate information about the dynamics and relationship of the genetic diversity of crops in an agroecosystem is essential for risk assessment and policies concerning the containment of genetically modified crops and their coexistence with crops grown by conventional practices. Here, we analysed the genetic diversity of oilseed rape plants from fields and feral populations over 4 years in an agricultural landscape of 41 km2. We used exact compatibility and maximum likelihood assignment methods to assign these plants to cultivars. Even pure lines and hybrid cultivar seed lots contained several genotypes. The cultivar diversity in fields reflected the conventional view of agroecosystems quite well: that is, there was a succession of cultivars, some grown for longer than others because of their good performance, some used for one year and then abandoned, and others gradually adopted. Three types of field emerged: fields sown with a single cultivar, fields sown with two cultivars, and unassigned fields (too many cultivars or unassigned plants to reliably assign the field). Field plant diversity was higher than expected, indicating the persistence of cultivars that were grown for only one year. The cultivar composition of feral populations was similar to that of field plants, with an increasing number of cultivars each year. By using genetic tools, we found a link between the cultivars of field plants in a particular year and the cultivars of feral population plants in the following year. Feral populations on road verges were more diverse than those on path verges. All of these findings are discussed in terms of their consequences in the context of coexistence with genetically modified crops.

Characterization of the behavioural phenotype of calpain-knockout mice

Dissertação de Mestrado, Ciências Biomédicas, Departamento de Ciências Biomédicas e Medicina, Universidade do Algarve, 2016

Avaliação dos riscos alimentares e ambientais: estudo de caso da soja geneticamente modificada utilizando o método GMP-RAM.

A avaliação da segurança é essencial para a pesquisa e desenvolvimento das plantas geneticamente modificadas (PGMs), incluindo a análise dos riscos potenciais do plantio ou das práticas relacionadas ao seu cultivo para o meio ambiente e seus efeitos para a saúde humana e animal de maneira comparativa com a variedade convencional. O emprego do método GMP ? RAM (Risk Assessment Method for Genetically Modified Plants), a primeira metodologia para avaliação caso a caso dos riscos de PGMs, possibilita a adoção de medidas para evitar ou controlar tal risco. A possibilidade de inserir indicadores específicos para a avaliação da PGM em questão e a necessidade de elaborar a lista de recomendações a partir dos resultados levantados permite uma análise caso a caso do evento. Neste trabalho, foi realizado o estudo de caso da segurança alimentar e ambiental da Soja Roundup Read, que evidenciou a inexistência de risco potencial desde que medidas de manejo e monitoramento sejam seguidas.

Derecho y biotecnología: los nuevos desafíos de la biotecnología en el derecho colombiano desde la perspectiva del acceso a los recursos genéticos

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Risk definition and the struggle for legitimation: a case study of Bt cotton in Andhra Pradesh, India

This article explores the struggle for legitimation associated with the attempt to define the risk of Bt cotton, a genetically modified crop, in Andhra Pradesh, India. Beck asserts that, given the uncertainty associated with risk society, efforts to define risk are creating the need for a new political culture. This article argues that this political culture emerges from attempts to legitimate power within risk definition. This is examined using critical discourse analysis on interview excerpts with key figures in the Bt cotton debate. Legitimation is explored using the categories of legitimation developed by Van Leeuwen. These are (a) authorisation; (b) moral evaluation; (c) rationalisation; and (d) mythopoesis. The analysis highlights that the political culture which emerges in response to risk society is in a state of constant flux and contingent upon the ongoing struggle for legitimation with regard to the definition of risk.

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.

Estudo de caso da avaliação dos riscos alimentares e ambientais da soja geneticamente modificada - método GMP-RAM para avaliação caso a caso dos riscos de plantas geneticamente modificadas.

A avaliação da segurança é essencial para a pesquisa e desenvolvimento das plantas geneticamente modificadas (PGMs), incluindo a análise dos riscos potenciais das plantas ou das práticas relacionadas ao seu cultivo para o meio ambiente e efeitos para a saúde humana e animal de maneira comparativa com a variedade convencional. O método GMP ? RAM (Risk Assessment Method for Genetically Modified Plants), é a primeira metodologia para avaliação caso a caso dos riscos de PGMs, a partir desta análise, possibilita a adoção de medidas para evitar ou controlar tal risco. A possibilidade de inserir indicadores específicos para a avaliação da PGM em questão e a necessidade de elaborar a lista de recomendações a partir dos resultados levantados permite uma análise caso a caso do evento, neste trabalho foi realizado o estudo de caso da segurança alimentar e ambiental da Soja Roundup Read.

Functional relationship of colorectal cancer-associated glycans with malignant phenotype and transcriptome changes

Glycosyltransferases ST6GAL1 and B4GALNT2 (and their cognate antigens Sia6LacNAc and Sda, respectively) are associated with colorectal cancer (CRC) but it is not fully clear their biological and clinical significance. We explored the clinical relevance of both glycosyltransferases by interrogating The Cancer Genome Atlas (TCGA) database while the phenotypic/transcriptomic effects of ST6GAL1/B4GALNT2 overexpression were studied in genetically modified CRC cell lines. Transcriptomic data from CRC patients in TCGA database suggested a moderate impact of ST6GAL1 on CRC progression, although it was not possible to define a clear role for this glycosyltransferase. Transcriptomic analysis of ST6GAL1-transduced cell lines revealed a much deeper effect of ST6GAL1 on gene expression in SW948 than in SW48. The overexpression of ST6GAL1 induced opposite effects on soft agar growth and wound healing in both cell lines. These results indicate that the impact of a cancer-associated glycosyltransferase change on phenotype/transcriptome can be extremely variable, depending on the molecular context of the tumor cell. On the contrary, transcriptomic analysis of B4GALNT2-modified cell lines together with TCGA database survey demonstrated a strong impact of B4GALNT2 on the transcriptional activity of CRC cells, in particular its association with a better prognosis. We suggest an anti-tumoral role of B4GALNT2 in CRC. We also investigated the glycan changes related to ST6GAL1/B4GALNT2 expression in a small cohort of tissues/plasma as well as the N-glycomic profile of CRC, normal and polyp tissues. We found an increase of ST6GAL1 activity in CRC and inflammatory bowel disease plasma samples comparing with plasma from healthy donors. A different Sda protein carrier pattern was observed between healthy donors and CRC plasma samples. β-arrestin 1 is a possible candidate as Sda carrier protein in plasma samples although future validation studies are needed. The alterations found in the N-glycan pattern highlight the importance of N-glycome as a molecular signature in cancer.