Ultraestrutura do aparelho reprodutor feminino e mecanismos de transmissão transovariana de endossimbiontes de Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) / Ultrastructure of the female reproductive system and mechanisms of transovarial transmission of endosymbionts of Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae)

Fábio Cleisto Alda Dossi

30 January 2009

Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) tornou-se um psilídeo de grande importância para a citricultura paulista após a constatação da bactéria Candidatus Liberibacter sp., causadora do Huanglongbing (greening). Sabe-se que esse inseto abriga microrganismos endossimbiontes, os quais desempenham papel fundamental em sua ecologia nutricional, sendo transmitidos verticalmente à progênie. Dessa forma, propomos caracterizar a morfologia do aparelho reprodutor feminino durante o seu desenvolvimento para embasar a identificação do processo de migração dos simbiontes do bacterioma aos tecidos reprodutivos. D. citri possui ovário do tipo telotrófico, com ovaríolos organizados em bouquet e características gerais semelhantes às observadas para outros Sternorrhyncha. Os trofócitos parecem ser desprovidos de delimitação por membrana no ovaríolo desenvolvido. Um único oócito se desenvolve por ciclo no vitelário, o qual mantém-se em contato com a câmara trófica por um prolongamento citoplasmático, denominado cordão trófico. As informações morfo-estruturais do aparelho reprodutor de D. citri obtidas indicam similaridades importantes a de outros membros de Sternorryncha. Nesse contexto, a migração de simbiontes do bacterioma para os oócitos em maturação de D. citri, ocorre de modo semelhante ao descrito para aleirodídeos, caracterizandose pela migração de bacteriócito intacto. Este último, atravessa o epitélio de revestimento do oócito, formado por células foliculares, e invade o oócito, liberando as bactérias nele contidas. Entretanto, os simbiontes associados ao sincício do bacterioma, são liberados na hemocele através de uma pequena abertura formada no epitélio de revestimento dessa estrutura, invadindo o oócito por um mecanismo distinto. Os simbiontes contidos no oócito, formam um agrupamento de aspecto arredondado (= symbiont ball) na região posterior do oócito, próximo ao pedicelo. / Diaphorina citri Kuwayama, 1908 (Hemiptera: Psyllidae) became a serious problem to the citrus industry in São Paulo State once the Huanglongbing disease (greening), which is caused by the bacteria Candidatus Liberibacter sp., was detected. Psyllids are known to harbor endosymbiont microorganisms, which are vertically transmitted to the progeny and play a key role in the nutritional ecology of their hosts. Therefore, we aimed to characterize the morphology of the reproductive system during D. citri development as a tool for further investigation on the symbiont migration from the bacteriome to the reproductive tissues. D. citri has telotrophic ovaries with ovarioles organized in a bouquet, sharing all other characteristics with the remaining Sternorrhyncha. In developed ovarioles, trophocytes seems to lack any membrane delimitation. Only one oocyte develops at a time in the vitellarium, remaining in communication with the trophic chamber by a citoplasmatic brigde, named trophic cord. The morphostructural information reported in here on the D. citri reproductive system shows important similarities with other Sternorryncha. Symbionts associated to the bacteriome of D. citrus migrate to the ovaries and invade the oocytes during ovary maturation, as previously reported for aleyrodids. In this case, symbionts will move within the bacteriocyte as it detaches from the bacteriome and moves through the oocyte follicular epithelium, releasing the contained bacteria into the oocyte. However, symbionts associated to the bacteriome syncitium are relased into the hemocoel through small openings on the bacteriome epithelium, invading the oocyte by a different mechanism. All symbionts that invaded or were discharged into the oocyte aggregate into a balllike symbiont structure at the posterior pole close to the egg pedicel.

Bactérias

Greening (Doença de planta)

Insetos sugadores

Insetos vetores

Morfologia animal

Ovários - Ultra-estrutura.

Simbiose

Citrus psyllid

Endosymbionts

Morphology

Oogenesis

Ovary

Ultrastructure.

Contrôle de AP-1 sur le trafic de E-Cadhérine chez Drosophila melanogaster / AP-1 dependent E-Cadherin trafficking in Drosophila melanogaster

Loyer, Nicolas

16 October 2014

L'intérieur des cellules eucaryotes est compartimenté en organites qui échangent des lipides et protéines entre eux et avec la membrane plasmique via le trafic vésiculaire. Dans les cellules polarisées comme les cellules épithéliales, dont la membrane plasmique est divisée en un pôle apical et un pôle basolatéral séparés par une ceinture de jonctions, le trafic vésiculaire est contrôlé par des systèmes de tri polarisé, permettant d'adresser les protéines appropriées au domaine membranaire approprié. Dans ces cellules épithéliales, le complexe adaptateur AP-1 contrôle l'adressage au pôle basolatéral et le trafic de la molécule d'adhésion E-Cadhérine, une protéine transmembranaire des jonctions d'adhérence. Il a de plus été démontré dans les cellules intestinales du nématode C. elegans et des mammifères qu'AP-1 est nécessaire au maintien de la polarité épithélial. J'ai étudié ces fonctions d'AP-1 chez l'organisme modèle Drosophila melanogaster. J'ai montré qu'AP-1 contrôle aussi le trafic de E-Cadhérine chez la Drosophile mais n'est pas requis pour la maintenance de la polarité de l'épithélium folliculaire, un épithélium entourant le cyste germinal femelle de 16 cellules au cours de l'ovogénèse chez la Drosophile. Ces expériences dans ce tissu m'ont amené à découvrir une nouvelle fonction de E-Cadhérine dans le cyste germinal. Les cellules de ce cyste sont connectées entre elles par des ponts cytoplasmiques stabilisés à l'issue de cytocinèses incomplètes. J'ai montré que les cellules du cyste mutantes pour AP-1 présentent un phénotype de multinucléation dû au décrochage des ponts cytoplasmiques. Ce phénotype corrèle avec un défaut d'adressage de E-Cadhérine dépendant d'AP-1 à la membrane plasmique entourant ces ponts, via les endosomes de recyclage. E-Cadhérine y est nécessaire pour leur ancrage à la membrane plasmique, un rôle qui avait été jusque-Là masqué par l'expression ectopique compensatoire de N-Cadhérine dans les mutants E-Cadhérine. Ce rôle d'E-Cadhérine passe par l'organisation de protrusions membranaires présentant l'aspect et contenant certains marqueurs protéiques des microvillosités observées au pôle apical des cellules épithéliales. / Eukaryotic cells are compartmentalized in organelles. Lipidic and proteic exchanges between organelles and the plasma membrane are controlled by vesicular trafficking. In polarised cells such as epithelial cells, whose plasma membrane is divided into an apical and a basolateral pole separated by a junctional belt, appropriate targeting of proteins to appropriate poles relies on polarised sorting mechanisms controlling vesicular trafficking. In these cells, the clathrin adaptor complex AP-1 controls basolateral targeting and trafficking of the adhesion molecule E-Cadherin, a transmembrane adherens junctions protein. AP-1 is furthermore necessary for epithelial polarity maintenance in intestinal epithelial cells in the nematode C. elegans and mammals. I studied AP-1 functions in the model organism Drosophila melanogaster. I showed AP-1 also controls E-Cadherin trafficking in Drosophila but is not required for polarity maintenance in follicular cells, an epithelium surrounding the female germline cyst during oogenesis. Experiments in this tissue led me to discover a new E-Cadherin function in the germline cyst. Germline cyst cells are interconnected by cytoplasmic bridges stabilised after incomplete cytokinesis. I showed AP-1 mutant cyst cells were multinucleated due to a detachment of cytoplasmic bridges from the plasma membrane. This phenotype correlated with an E-Cadherin AP-1-Dependent targeting defect from recycling endosomes to the plasma membrane surrounding these bridges. E-Cadherin is necessary for their anchoring to the plasma membrane, a role that was hidden by ectopic compensatory expression of N-Cadherin in E-Cadherin mutants. This new role is mediated by E-Cadherin-Dependent organisation of membrane protrusions similar in aspect with and containing proteins of microvillosities present at the apical pole of epithelial cells.

Biologie cellulaire

Trafic membranaire

Adhésion cellulaire

E-Cadhérine

Epithelium

Ovogénèse

Drosophila melanogaster

Cell biology

Membrane trafficking

Cell adhesion

E-Cadherin

Epithelium

Oogenesis

Drosophila melanogaster

GLS-1, a novel P granule component, modulates a network of conserved RNA regulators to influence germ cell fate decisions

Eckmann, Christian R., Schmid, Mark, Kupinski, Adam P., Jedamzik, Britta, Harterink, Martin, Rybarska, Agata

26 November 2015

Post-transcriptional regulatory mechanisms are widely used to influence cell fate decisions in germ cells, early embryos, and neurons. Many conserved cytoplasmic RNA regulatory proteins associate with each other and assemble on target mRNAs, forming ribonucleoprotein (RNP) complexes, to control the mRNAs translational output. How these RNA regulatory networks are orchestrated during development to regulate cell fate decisions remains elusive. We addressed this problem by focusing on Caenorhabditis elegans germline development, an exemplar of post-transcriptional control mechanisms. Here, we report the discovery of GLS-1, a new factor required for many aspects of germline development, including the oocyte cell fate in hermaphrodites and germline survival. We find that GLS-1 is a cytoplasmic protein that localizes in germ cells dynamically to germplasm (P) granules. Furthermore, its functions depend on its ability to form a protein complex with the RNA-binding Bicaudal-C ortholog GLD-3, a translational activator and P granule component important for similar germ cell fate decisions. Based on genetic epistasis experiments and in vitro competition experiments, we suggest that GLS-1 releases FBF/Pumilio from GLD-3 repression. This facilitates the sperm-to-oocyte switch, as liberated FBF represses the translation of mRNAs encoding spermatogenesis-promoting factors. Our proposed molecular mechanism is based on the GLS-1 protein acting as a molecular mimic of FBF/Pumilio. Furthermore, we suggest that a maternal GLS-1/GLD-3 complex in early embryos promotes the expression of mRNAs encoding germline survival factors. Our work identifies GLS-1 as a fundamental regulator of germline development. GLS-1 directs germ cell fate decisions by modulating the availability and activity of a single translational network component, GLD-3. Hence, the elucidation of the mechanisms underlying GLS-1 functions provides a new example of how conserved machinery can be developmentally manipulated to influence cell fate decisions and tissue development.

info:eu-repo/classification/ddc/610

ddc:610

Understanding the Sequence-Specificity and RNA Target Recognition Properties of the Oocyte Maturation Factor, OMA-1, in Caenorhabditis elegans: A Dissertation

Kaymak, Ebru

28 April 2016

Maternally supplied mRNAs encode for necessary developmental regulators that pattern early embryos in many species until zygotic transcription is activated. In Caenorhabditis elegans, post-transcriptional regulatory mechanisms guide early development during embryogenesis. Maternal transcripts remain in a translationally silenced state until fertilization. A suite of RNA-binding proteins (RBP’s) regulate these maternally supplied mRNAs during oogenesis, the oocyte-to-embryo transition, and early embryogenesis. Identifying the target specificity of these RNA-binding proteins will reveal their contribution to patterning of the embryo. We are studying post-transcriptional regulation of maternal mRNAs during oocyte maturation, which is an essential part of meiosis that prepares oocytes for fertilization. Although the physiological events taking place during oocyte maturation have been well studied, the molecular mechanisms that regulate oocyte maturation are not well understood. OMA-1 and OMA-2 are essential CCCH-type tandem zinc finger (TZF) RBP’s that function redundantly during oocyte maturation. This dissertation shows that I defined the RNA-binding specificity of OMA-1, and demonstrated that OMA-1/2 are required to repress the expression of 3ʹUTR reporters in developing oocytes. The recovered sequences from in vitro selection demonstrated that OMA-1 binds UAA and UAU repeats in a cooperative fashion. Interestingly, OMA-1 binds with high affinity to a conserved region of the glp-1 3ʹUTR that is rich in UAA and UAU repeats. Multiple RNA-binding proteins regulate translation of GLP-1 protein, a homolog of Notch receptor. In addition to previously identified RBP’s, we showed that OMA-1 and OMA-2 repress glp-1 reporter expression in C. elegans oocytes. Mapping the OMA-1 dependent regulatory sites in the glp-1 mRNA and characterizing the interplay between OMA-1 and other factors will help reveal how multiple regulatory signals coordinate the transition from oocyte to embryo but the abundance of OMA-1 binding motifs within the glp-1 3ʹUTR makes it infeasible to identify sites with a functional consequence. I therefore first developed a strategy that allowed us to generate transgenic strains efficiently using a library adaptation of MosSCI transgenesis in combination with rapid RNAi screening to identify RBP-mRNA interactions with a functional consequence. This allowed me to identify five novel mRNA targets of OMA-1 with an in vivo regulatory connection. In conclusion, the findings in this dissertation provide new insights into OMA-1 mediated mRNA regulation and provide new tools for C. elegans transgenesis. Development of library MosSCI will advance functional mapping of OMA-1 dependent regulatory sites in the target mRNAs. Extending this strategy to map functional interactions between mRNA targets and RNAbinding proteins in will help reveal how multiple regulatory binding events coordinate complex cellular events such as oocyte to embryo transition and cell-fate specification.

Caenorhabditis elegans Proteins

Carrier Proteins

Oocytes

Oogenesis

Messenger RNA

RNA-Binding Proteins

Oocyte Maturation Factors

OMA-1

Dissertations, UMMS

RNA, Messenger

Cell Biology

Developmental Biology

Functional study of miRNA-mRNA interactions in malaria mosquito An. gambiae

Fu, Xiaonan

02 July 2018

Female adults of many mosquito species possess distinct physiological features adapting to blood feeding for successful reproduction. The disease pathogens that are transmitted by mosquitoes have evolved to take advantages of the indispensable blood feedings to complete their transmission cycles and to survive attacks from the mosquito's innate immune system. Normal egg development and mosquito immunity are tightly controlled by tissue- and stage-specific gene expression and coordinated by many signal molecules in the mosquito. Understanding gene regulation affecting mosquito reproduction and malaria parasites infection is of paramount importance for developing novel malaria control strategies. A growing body of evidence indicates that microRNAs (miRNAs) are involved in egg maturation and immune reactions against invading pathogens in mosquitoes. However, the molecular mechanisms by which specific miRNAs selectively modulate reproduction and the survival of pathogens are largely unknown. The miRNA-induced gene-silencing pathway in mosquitoes was mostly extrapolated from the studies of flies. To explore the dynamics of miRNAs in reproduction, I used small RNAs sequencing to monitor miRNAs expression and their association with Argonaute 1 (Ago1) and Argonaute 2 (Ago2) in the malaria mosquito Anopheles gambiae (An. gambiae) during the 72-h period immediately after blood feeding. I found the abundance and Ago loading of most of the mature miRNAs were relatively stable after blood ingestion. However, miRNAs of the miR-309/286/2944 cluster were considerably upregulated after blood feeding. I confirmed that miR-309 is essential for normal egg development by depletion of endogenous miR-309 with a specific antagomir. In addition, my results showed that the Ago association of some miRNAs was not proportional to their cellular abundance implying additional regulation at miRNA integration. To investigate the functional roles of miRNAs and define context-dependent miRNA-mRNA interactions during the reproductive process, I have applied an innovative experimental approach to study miRNA-mRNA interactome. CLEAR (covalent ligation of endogenous Argonaute-bound RNAs)-CLIP can generate miRNA-mRNA chimeras from UV-irradiation stabilized Ago-miRNA-mRNA complex. My results have defined tens of thousands of miRNA-mRNA interactions in mosquitoes, including novel targets for mosquito-specific miRNAs. Verification of the predicted interactions using mRNA-seq, ribosome-profiling, and luciferase reporter assay revealed a reliable miRNA-mRNA interaction network. Based on the detected interactions, I refined the paring rules for mosquito miRNAs and illustrated the dynamic pairing between different regions of miRNAs with their targets in vivo. The miRNA-mRNA interactions were compared using this approach at multiple time points before and after blood feeding. Importantly, this study showed that the interactions were dynamic and enriched in genes that are involved in metabolisms, supporting the proposed functions of miRNAs in coordinating the gene regulation in mosquito reproduction. Plasmodium falciparum (P. falciparum) is a major human malaria parasite. To understand the functions of miRNAs in the mosquito resistance to Plasmodium infection, we analyzed the miRNA-mRNA interactions after female mosquitoes taking a P. falciparum-infected blood meal or an uninfected blood meal. Comparison of the interactions revealed enhanced miRNA-mRNA interactions after P. falciparum infection involving a group of immunity-related genes. In summary, this study has provided a systematic view and significantly advanced our understanding of the miRNA functions in mosquito reproduction and P. falciparum infection. / PHD

microRNA

Argonaute

CLEAR-CLIP

CLIP-seq

mRNA-seq

Ribo-seq

RISC

miR-309

let-7

kr-h1

SIX4

oogenesis

metabolism dynamics

Plasmodium falciparum

malaria

Anopheles gambiae

Identifizierung und funktionelle Charakterisierung neuer RNA-Transportfaktoren in der Xenopus laevis Oozyte / Identification and functional characterization of novel RNA transport factors in Xenopus laevis oocytes

Löber, Jana

29 April 2008

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Vg1RBP

RNA-Lokalisation

Oogenese

Transgenese

Xenopus laevis

Vg1RBP

RNA localization

oogenesis

transgenesis

Xenopus laevis

42.13

42.15

42.23

Implication de l'endosome de recyclage dans la migration cellulaire in vivo

Assaker, Gloria

08 1900

Au cours de l’ovogenèse chez la mouche du vinaigre: Drosophila melanogaster, un groupe de cellules folliculaires appelées cellules de bord, migrent à travers les cellules nourricières pour atteindre l’ovocyte. Cet événement, nécessitant la transition épithélio- mésenchymateuse (TEM), la réorientation, puis l’arrêt, ressemble à la formation de métastases. L’endocytose est un régulateur clé de plusieurs événements polarisés, y compris la migration cellulaire. En effet, différentes protéines impliquées dans la migration, comme les intégrines et les E-cadhérines (cadhérines épithéliales), sont régulées par transport à travers les endosomes. De même, l’endocytose restreint au front de migration l’activité des récepteurs tyrosine kinases (RTKs) qui guident les cellules de bord dans leur mouvement. Cependant les mécanismes moléculaires de cette restriction spatiale de l’activité des RTKs demeurent largement inconnus. Nous avons testé l’implication du trafic vésiculaire à travers la machinerie d’endocytose, dans la migration dirigée des cellules de bord, car ce système est facilement accessible pour l’expression de protéines et l’analyse de mutants. Nous avons commencé par confirmer une observation précédente du rôle de l’endosome précoce dans la migration des cellules de bord. Ensuite, nous avons identifié l’endosome de recyclage (ER) comme un régulateur clé de cette migration. En effet, nous avons démontré que l’expression dans les cellules de bord d’une forme dominante négative de Rab11, la petite GTPase régulant le transport vésiculaire à travers l’ER, bloque la migration ou entraîne de sévères défauts de migration dans environ 80% des chambres d’œufs examinées. De plus, nous observons par immunofluorescence une relocalisation de l’activité des RTKs alors que d’autres protéines de migration ne sont pas affectées par Rab11 dominant négatif. Ce résultat a été par la suite confirmé par une interaction génétique entre Rab11 et les RTKs. D’autre part, nous avons montré que le complexe exocyste, un effecteur de Rab11, est impliqué dans la migration des cellules de bord. Nous avons trouvé par microscopie confocale en tissu fixé et par microscopie en temps réel que Sec15, un composant de ce complexe, est polarisé, de façon Rab11- dépendante, dans des vésicules qui s’accumulent au front de migration tout au long du mouvement des cellules de bord. De plus, la perte de l’activité de Sec15 perturbe à son tour la migration. Ainsi, toutes ces données démontrent le rôle fondamental d’un cycle d’endo- exocytose dans le maintien des RTKs actifs au niveau du front de migration des cellules de bord le long de leur mouvement. / During Drosophila melanogaster’s oogenesis, a cluster of folllicle cells, called border cells, perform an invasive migration through the surrounding nurse cells to reach the oocyte. This event resembles metastasis formation since it requires epithelial- mesenchymal transition, reorientation and arrest. Endocytosis plays a fundamental role in many polarized processes, including cell migration, since different migration proteins, like integrins and E-cadherins traffic through the endocytic pathway. Furthermore, receptor tyrosine kinases (RTKs) that guide border cells during their migration are regulated by endocytosis, although the mechanisms involved are largely unknown. We tested the implication of vesicular trafficking through the endocytic machinery, in border cells’ directed migration, because this system is easily accessible for protein expression and mutant analysis. We first confirmed previous observation that trafficking through the early endosome is necessary for border cells migration, and then we identified the recycling endosome as a key compartment for this migration. Indeed, we showed that overexpression in border cells of a dominant negative form of Rab11, the small GTPase regulating vesicular trafficking through the recycling endosome, blocks migration or leads to severe migration defects in about 80% of examined egg chambers. Furthermore, using immunofluorescence, we observed a relocalization of RTKs activity, whereas other migration proteins were not redistributed upon dominant negative Rab11 expression. This result was further confirmed by a genetic interaction between Rab11 and RTKs. Moreover, we showed that the exocyst complex, an effector of Rab11, is also involved in border cells migration. We found by using confocal microscopy of fixed tissues and time-lapse microscopy of living egg chambers, that Sec15, a member of this complex, is distributed in vesicles which are polarized, in a Rab11- dependent manner, throughout border cells migration. In addition, loss of Sec15 also impairs migration. Together these data demonstrate a fundamental role for an endo- exocytic cycle in the maintenance of active RTKs at the leading edge of border cells during their migration.

Ovogenèse

Oogenesis

Migration dirigée

Directed migration

Cellules de bord

Border cells

Endosome de recyclage

Recycling endosome

Rab11

Rab11

Sec15

Sec15

Activité polarisée

Polarized activity

Récepteurs tyrosine kinase

Receptor tyrosine kinases

Métastase

Metastasis

Souffle/Spastizin regulates secretory granule maturation by sorting lysosomal cargo from immature secretory granule during zebrafish oogenesis

Palsamy, Kanagaraj

18 November 2014

No description available.

570

Kanagaraj

Zebrafish

Souffle/spastizin/spg15/fyve-cent

HSP-hereditary spastic paraplegia

Oogenesis

Yolk endocytosis and degradation

Vesicle fission and fusion

Lysosome and autophagy

Maternal protein

Vesicle trafficking and transport

Motor neuron degeneration

Germplasm/balbiani body

Biologie (PPN619462639)

Implication de l'endosome de recyclage dans la migration cellulaire in vivo

Assaker, Gloria

08 1900

Au cours de l’ovogenèse chez la mouche du vinaigre: Drosophila melanogaster, un groupe de cellules folliculaires appelées cellules de bord, migrent à travers les cellules nourricières pour atteindre l’ovocyte. Cet événement, nécessitant la transition épithélio- mésenchymateuse (TEM), la réorientation, puis l’arrêt, ressemble à la formation de métastases. L’endocytose est un régulateur clé de plusieurs événements polarisés, y compris la migration cellulaire. En effet, différentes protéines impliquées dans la migration, comme les intégrines et les E-cadhérines (cadhérines épithéliales), sont régulées par transport à travers les endosomes. De même, l’endocytose restreint au front de migration l’activité des récepteurs tyrosine kinases (RTKs) qui guident les cellules de bord dans leur mouvement. Cependant les mécanismes moléculaires de cette restriction spatiale de l’activité des RTKs demeurent largement inconnus. Nous avons testé l’implication du trafic vésiculaire à travers la machinerie d’endocytose, dans la migration dirigée des cellules de bord, car ce système est facilement accessible pour l’expression de protéines et l’analyse de mutants. Nous avons commencé par confirmer une observation précédente du rôle de l’endosome précoce dans la migration des cellules de bord. Ensuite, nous avons identifié l’endosome de recyclage (ER) comme un régulateur clé de cette migration. En effet, nous avons démontré que l’expression dans les cellules de bord d’une forme dominante négative de Rab11, la petite GTPase régulant le transport vésiculaire à travers l’ER, bloque la migration ou entraîne de sévères défauts de migration dans environ 80% des chambres d’œufs examinées. De plus, nous observons par immunofluorescence une relocalisation de l’activité des RTKs alors que d’autres protéines de migration ne sont pas affectées par Rab11 dominant négatif. Ce résultat a été par la suite confirmé par une interaction génétique entre Rab11 et les RTKs. D’autre part, nous avons montré que le complexe exocyste, un effecteur de Rab11, est impliqué dans la migration des cellules de bord. Nous avons trouvé par microscopie confocale en tissu fixé et par microscopie en temps réel que Sec15, un composant de ce complexe, est polarisé, de façon Rab11- dépendante, dans des vésicules qui s’accumulent au front de migration tout au long du mouvement des cellules de bord. De plus, la perte de l’activité de Sec15 perturbe à son tour la migration. Ainsi, toutes ces données démontrent le rôle fondamental d’un cycle d’endo- exocytose dans le maintien des RTKs actifs au niveau du front de migration des cellules de bord le long de leur mouvement. / During Drosophila melanogaster’s oogenesis, a cluster of folllicle cells, called border cells, perform an invasive migration through the surrounding nurse cells to reach the oocyte. This event resembles metastasis formation since it requires epithelial- mesenchymal transition, reorientation and arrest. Endocytosis plays a fundamental role in many polarized processes, including cell migration, since different migration proteins, like integrins and E-cadherins traffic through the endocytic pathway. Furthermore, receptor tyrosine kinases (RTKs) that guide border cells during their migration are regulated by endocytosis, although the mechanisms involved are largely unknown. We tested the implication of vesicular trafficking through the endocytic machinery, in border cells’ directed migration, because this system is easily accessible for protein expression and mutant analysis. We first confirmed previous observation that trafficking through the early endosome is necessary for border cells migration, and then we identified the recycling endosome as a key compartment for this migration. Indeed, we showed that overexpression in border cells of a dominant negative form of Rab11, the small GTPase regulating vesicular trafficking through the recycling endosome, blocks migration or leads to severe migration defects in about 80% of examined egg chambers. Furthermore, using immunofluorescence, we observed a relocalization of RTKs activity, whereas other migration proteins were not redistributed upon dominant negative Rab11 expression. This result was further confirmed by a genetic interaction between Rab11 and RTKs. Moreover, we showed that the exocyst complex, an effector of Rab11, is also involved in border cells migration. We found by using confocal microscopy of fixed tissues and time-lapse microscopy of living egg chambers, that Sec15, a member of this complex, is distributed in vesicles which are polarized, in a Rab11- dependent manner, throughout border cells migration. In addition, loss of Sec15 also impairs migration. Together these data demonstrate a fundamental role for an endo- exocytic cycle in the maintenance of active RTKs at the leading edge of border cells during their migration.

Ovogenèse

Oogenesis

Migration dirigée

Directed migration

Cellules de bord

Border cells

Endosome de recyclage

Recycling endosome

Rab11

Rab11

Sec15

Sec15

Activité polarisée

Polarized activity

Récepteurs tyrosine kinase

Receptor tyrosine kinases

Métastase

Metastasis

Gametogenesis, gonadal recrudescence, restraint and spawning patterns in Nile perch, Lates niloticus (Linnaeus, 1758)

Kahwa, David

January 2013

The Nile perch, Lates niloticus (Linnaeus, 1758), is a predacious freshwater fish widely distributed throughout the Afro-tropic eco-zone. The species was introduced to Lake Victoria in the early 1950s and by 1980 it had dominated the fisheries of Lake Victoria. This was followed by a dramatic decrease in the Nile perch fisheries production due to uncontrolled exploitation. The purpose of this thesis is to provide fundamental knowledge that can be applied in aquaculture and fisheries management through the study of the reproductive biology of L. niloticus. The research was aimed at the studying of the diverse aspects of the reproductive biology of L. niloticus in the Lake Victoria, Ugandan populations. This included reproductive patterns in relation to proximate environmental conditions, size at sexual maturity, gonad and gamete structure, gametogenesis and induced ovulation. The size at 50% sexual maturity for female Nile perch was 59.4 cm, which is lower than the earlier reported size of greater than 90 cm total length. Male L. niloticus matured at 57.8 cm total length in Lake Victoria. Microscopy revealed that L. niloticus from Lake Victoria had one spawning period that started in November and ended in March. Type I atresia occurred at high frequency from March to June, and type III atresia was present from July to September and between November and December. Spermatogenesis in L. niloticus is cystic and sperm development is the result of asynchronous activation of the germ cells. Type II spermatozoa are simple, uni-flagellate aquasperm with no acrosome. Oogenesis in L. niloticus differed from that of other fishes in that no cortical alveoli were present in any stage of oogenesis. Numerous oil globules were present in the primary yolk vesicle stage. This formed one centrally positioned, large oil globule in the tertiary yolk vesicle oocytes during final oocyte maturation. Clove oil was an effective sedative and an anaesthetic for the handling of L. niloticus. Induction time was more rapid at clove oil concentrations of 50 - 100 μl L⁻¹ than in fish exposed to clove oil concentrations less than 50 μl L⁻¹. Fish exposed to high concentrations exhibited significantly short induction times of less than 240 seconds. On average, fish recovered within 673 ± 58 seconds for all the concentrations used. Prolonged exposure of L. niloticus to low clove oil concentrations of 2.5 - 10 μl L⁻¹ did not change the blood plasma cortisol, glucose, and the lactate and chloride ion concentration, relative to the control treatment. Captive breeding was attempted by conducting induced spawning experiments. Only final oocyte maturation was achieved using a decapeptide Gonadotropin Releasing Hormone (Dargin, sGnRH-MET), combined with a water-soluble dopamine receptor antagonist metoclopramide. This thesis suggests a research approach that provides a basis for aquaculture of the new species by first studying reproductive biology patterns and then linking the information to gonad and gamete structure so that spawning times can be estimated. It further provides insights into aspects of the reproductive biology of the species and the effects of hormonal intervention on oocytes by showing at which stage of oocyte development hormones should be applied in L. niloticus. Clove oil can be used to sedate and anaesthetise L. niloticus broodfish to reduce the stress related to the handling of large specimens.

Nile perch -- Victoria, Lake

Gametogenesis

Oogenesis

Spermatogenesis

Nile perch -- Spawning -- Victoria, Lake

Fish culture -- Victoria, Lake