Follicle cell actin dynamics and calcium bursts during nurse cell death in Drosophila melanogaster

Candelas, Pelagia Graciela

09 August 2019

Cell death is a key component in development and for the continued renewal of tissues. Phagoptosis is a process in which phagocytes directly lead to the death of other cells. This process of cell death is significantly less characterized when compared to other mechanisms of cell death, such as apoptosis. In the Drosophila ovary, phagoptosis appears to play a key role in the developmental process of oogenesis. Recent studies have shown that genes associated with phagocytosis are required for the programmed death of nurse cells in the Drosophila ovary. Ovaries are made up of 15 nurse cells, a single oocyte, and a layer of follicle cells bordering them. During the process of egg chamber development, all of the nurse cells undergo programmed cell death. During late oogenesis, each nurse cell is surrounded by a group of follicle cells referred to as stretch follicle cells. These stretch follicle cells have recently been implicated as a main promoter of nurse cell phagoptosis. However, an exact mechanism to explain how these stretch follicle cells induce nurse cell death is not fully characterized. To achieve a more detailed understanding of this mechanism, we are examining the function of the cytoskeleton in this process via live imaging. We hypothesize that the follicle cell cytoskeleton plays a significant role in nurse death due to the importance of actin during phagocytosis. Further, we intend to use these live imaging studies to investigate the role of calcium before, during, and after clearance of the nurse cells. Previous studies have shown that calcium bursts within the cell are associated with the initiation of phagocytosis in macrophages, as well as other phagocytic cell types. Studies in this thesis were done by utilizing live imaging and have shown dynamic changes in follicle cell actin before and during the death of nurse cells. These confocal microscopy real time videos have revealed that follicle cell actin polymerizes towards the nurse cell immediately before acidification. Following acidification of the nurse cells, the follicle cell actin changes direction, moving towards the phagocytic follicle cell. Additionally, through live imaging we have observed calcium bursts in the follicle cells immediately before nurse cell death. Overall, this work has provided a more detailed understanding of nurse cell death.

Biology

Actin

Calcium

Cell death

Drosophila melanogaster

Follicle cell

Oogenesis

Modulation des axonalen Wachstums primärer Motoneurone durch cAMP in einem Mausmodell für die Spinale Muskelatrophie / Modulation of axonal growth of primary spinal motor neurons by cAMP in a mouse model for Spinal Muscular Atrophy

Lechner, Barbara Dorothea

January 2009

Die Spinale Muskelatrophie (SMA) ist eine häufige autosomal-rezessiv vererbte Erkrankung des motorischen Nervensystems bei Kindern. Ursache der Degeneration von spinalen Motoneuronen ist der homozygote Verlust des SMN- (survival of motoneuron) Gens und ein dadurch bedingter Mangel an SMN-Protein. Untersuchungen an Motoneuronen von Smn-defizienten Mäusen ergaben Störungen des axonalen Längenwachstums aufgrund einer Fehlverteilung des Zytoskelettproteins beta-Aktin und seiner mRNA in den Axonterminalen. Das Axonwachstum wird durch Aktin-Polymerisierung im Wachstumskegel gesteuert. beta-Aktin-mRNA findet sich auch in Axonen, und die lokale Proteinsynthese kann durch neuronale Aktivierung gesteigert werden. Das SMN-Protein ist am axonalen Transport von beta-Aktin beteiligt. In der vorliegenden Arbeit ergaben Western Blot-Analysen in neuralen Stammzellen (NSC) sowie spinalen Motoneuronen in vitro eine Steigerung der SMN-Proteinexpression durch 8-CPT-cAMP. Zur Untersuchung der Auswirkungen der erhöhten SMN-Proteinmenge auf die Pathologie der Motoneurone wurde ein in-vitro-Assay entwickelt, mit dessen Hilfe gezeigt werden konnte, dass eine Behandlung mit 100 µM 8-CPT-cAMP die axonalen Veränderungen isolierter embryonaler Smn-defizienter Motoneurone kompensieren kann. Motoneurone von 14 Tage alten Smn-defizienten und Kontroll-Mausembryonen wurden über sieben Tage hinweg auf einer Matrix aus Poly-Ornithin und Laminin-111 bzw. Laminin-121/221 kultiviert und mit 100µM cAMP und neurotrophen Faktoren behandelt. Nach Fixierung wurden die Zellen mit Antikörpern gegen Islet-1/2, tau und beta-Aktin gefärbt, mit Hilfe eines konfokalen Mikroskops fotografiert und digital vermessen. 8-CPT-cAMP erhöht den beta-Aktin-Gehalt in den axonalen Wachstumskegeln von Smn-defizienten Motoneuronen. Die Größe der Wachstumskegel nimmt durch die Behandlung um das 2-3fache zu und erreicht normale Werte. Auf Laminin-111 bleibt das Längenwachstum der Axone durch 100µM 8-CPT-cAMP unbeeinflusst, auf Laminin-121/221 wird das Längenwachstum normalisiert. Die beta-Aktin-Verteilung innerhalb der Axone und Wachstumskegel von Smn-defizienten Motoneuronen erscheint durch die cAMP-Behandlung nahezu normalisiert. Die Wiederherstellung der beta-Aktin-Verteilung in Wachstumskegeln durch cAMP kann große Auswirkungen auf die Funktionalität der Motoneurone haben. Die Ergebnisse sind möglicherweise ein erster Schritt auf dem Weg zu einer Therapie für die Spinale Muskelatrophie. / Spinal muscular atrophy (SMA) is an autosomal recessive disorder characterized by loss of alpha-motoneurons in the spinal chord due to low levels of the survival motor neuron (SMN) protein. The genetic cause is the homozygous loss or mutation of the telomeric SMN1 gene and retention of the centromeric SMN2 gene, whose transcripts consist of about 90% truncated and unstable and only 10% functional protein. Motoneurons of Smn-deficient SMN2 transgenic mouse embryos cultured on laminin-1 show abnormalities compared to wildtype controls such as shorter axons, smaller growth cones and a ß-actin protein and mRNA deficit in the distal part of the axon. ß-actin plays a major role in growth cone motility and transmitter release at the presynapse. In addition, SMN works in a complex to transport ß-actin mRNA, which is known to be localized and locally translated in axons and growth cones, along the axon. Local ß-actin protein synthesis can be stimulated by increased neuronal activation. We determined the effects of cAMP on ß-actin localisation in axons as well as on axonal growth parameters in Smn-deficient primary motoneurons. Motoneurons of 14 days old Smn-/-, SMN2 transgenic and wildtype mouse embryos were cultured on laminin for 7 days with 100µM 8-CPT-cAMP and neurotrophic factors BDNF and CNTF. Fluorescence staining and digital measurements revealed a major effect of cAMP treatment on ß-actin distribution and growth cone size, which were restored to normal. Neurite lengths on laminin-111 remained unaffected but were normalized on substrate containing a synapse-specific ß2-laminin isoform. Western blots with neural stem cells (NSC) and heterozygous Smn+/-; SMN2 transgenic motoneurons treated with 100µM cAMP showed a marked upregulation of Smn protein expression. These data point to an important role for cAMP as a possible target of SMA drug therapy.

Spinale Muskelatrophie

Motoneuron

Neurobiologie

Laminin

Actin

ddc:610

Auswirkungen einer aktivierenden PIK3CA-Mutation auf die Signaltransduktion von FasL und TRAIL in kolorektalen Karzinomzellen / Effects of an activating mutation in the PIK3CA gene on FasL and TRAIL induced signal transduction in colorectal cancer cells

Ehrenschwender, Martin

January 2009

Die Todesrezeptoren Fas, TRAILR1 und TRAILR2 werden seit einigen Jahren aufgrund ihrer Fähigkeit, Apoptose zu induzieren, als therapeutisch interessantes Ziel bei der Therapie maligner Tumoren angesehen. Gleichzeitig werden immer mehr Entitäten von Tumoren beschrieben, die eine Resistenz gegen die Todesrezeptor-induzierte Apoptose aufweisen. In dieser Konstellation können neben den blockierten proapoptotischen Signalen insbesondere auch Todesrezeptor-assoziierte, protumoral wirksame Signalwege sichtbar werden, die unter anderen Umständen durch die Apoptose maskiert werden. In dieser Arbeit wurde die von FasL- und TRAIL-induzierte Signaltransduktion in einer apoptoseresistenten Variante der kolorektalen Karzinomzelllinie HCT116 untersucht. Eine aktivierende Mutation des PIK3CA-Gens protektiert diese Zellen aufgrund der konstitutiven Aktivierung des onkogenen PI3K/Akt-Signalweges gegenüber Todesrezeptor-vermittelter Apoptose. Durch Vergleich isogener Zelllinien, welche für den PIK3CA-Locus funktionell haploid waren und entweder ein Wildtyp oder ein mutiertes Allel trugen, konnte die Signaltransduktion von Fas und der TRAIL-Todesrezeptoren in apoptoseresistenten Tumorzellen, sowie deren Zusammenspiel mit dem PI3K/Akt-Signalweg im Detail untersucht werden. So wurde in dieser Arbeit gezeigt, dass nach Stimulation der HCT116 PIK3CA-mut protektierten Zellen mit FasL oder TRAIL die initialen Schritte der Apoptoseinduktion durch Todesrezeptoren bis hin zur Bildung des DISC und der Aktivierung von Caspase-8 ungestört vonstatten gehen. Der durch die PIK3CA-Mutation induzierte Schutzmechanismus muss deshalb unterhalb dieser frühen apoptoseinduzierenden Ereignisse wirksam werden. Darüber hinaus zeigte sich, dass Todesliganden in HCT116 PIK3CA-mut Zellen den proinflammatorischen NFκB-Signalweg aktivieren, wohingegen dieser Signalweg in HCT116 PIK3CA-wt Zellen durch die ablaufende Apoptose inhibiert wurde. Während HCT116 PIK3CA-wt Zellen nach Stimulation von Fas oder den TRAIL-Todesrezeptoren morphologisch die klassischen Anzeichen des apoptotischen Zelltods zeigten, veränderten die HCT116 PIK3CA-mut protektierten Zellen ihre Morphologie von einer mesenchymal-länglichen hin zu einer amöboid-abgerundeten Form, die Zellen blieben jedoch vital. Die Änderung der Zellmorphologie konnte mit dem Vorhandensein enzymatisch aktiver Casapse-8 verknüpft werden, generiert durch den Todesrezeptor-assoziierten DISC. Caspase-8 vermittelte die Reorganisation des Aktinzytoskeletts durch Spaltung und der damit einhergehenden Aktivierung von ROCK-1. Blockade der Caspase-8 Aktivierung in HCT116 PIK3CA-mut Zellen durch pharmakologische Inhibitoren oder ektope Überexpression von cFLIPS verhinderte entsprechend den FasL- oder TRAIL-induzierten Übergang zur amöboid-abgerundeten Zellform. Funktionell zeigten die amöboid-abgerundeten HCT116 PIK3CA-mut Zellen im Vergleich zu unstimulierten HCT116 PIK3CA-mut Zellen eine erhöhte Invasivität, was anhand erhöhter Spiegel an Urokinase im Überstand nachgewiesen werden konnte. Diese Arbeit beschreibt mit der Induktion einer amöboid-abgerundeten Zellmorphologie erstmals eine nicht-apoptotische Funktion von Caspase-8 im Kontext der Todesrezeptor-Signaltransduktion, die von der enzymatischen Aktivität abhängig ist. Weiterhin konnte ROCK-1 als Caspase-8 Substrat identifiziert werden. Ob durch die Aktivierung von ROCK-1 und die Reorganisation des Aktinzytoskeletts neben der Ausbildung einer amöboiden Zellmorphologie auch der amöboide Typ der Zellmigration in Gang gesetzt wird, müssen zukünftige Studien zeigen. / During the last years, the death receptors Fas, TRAILR1 and TRAILR2 emerged as promising therapeutic targets in cancer therapy. On the contrary, the number of tumor entities showing resistance against death receptor-induced apoptosis is still rising, thereby limiting the effectiveness of a therapeutic approach. Furthermore, under conditions where death receptor-induced apoptosis is blocked, cell death induction is not the only signal emanating from Fas and TRAIL death receptors. Non-apoptotic and even tumor-promoting signaling pathways may become apparent which are otherwise masked by ongoing apoptosis. This study provides insight in FasL- and TRAIL-induced signaling in an apoptosis resistant variant of HCT116 colorectal cancer cells. An activating mutation in the PIK3CA gene protected these cells against death receptor-induced apoptosis by constitutive activation of the oncogenic PI3K/Akt pathway. Comparing isogenic cell lines either harboring a PIK3CA wild-type allele or an activating mutated allele allowed investigation of signal transduction events associated with Fas and TRAIL death receptors in apoptosis resistant cells as well as their interplay with the PI3K/Akt signaling pathway. Upon stimulation with FasL or TRAIL, PIK3CA-mut protected HCT116 cells were still capable of initiating the first steps of apoptosis induction as was evident from DISC-formation and activating caspase-8. This indicated that the PIK3CA-mut-granted blocking of the apoptotic program must act downstream of these early events. Furthermore, the proinflammatory NFκB pathway was turned on, as demonstrated by the phosphorylation of crucial signaling components and the enhanced expression of NFκB controlled target genes. Activation of the NFκB pathway, however, was masked in HCT116 PIK3CA-wt cells by ongoing apoptosis. After stimulation of Fas or TRAIL death receptors, HCT116 PIK3CA-wt cells exhibited classical morphological apoptotic features. Interestingly, stimulation of HCT116 PIK3CA-mut cells induced transition to an amoeboid-like morphology without affecting the viability. The changes in cellular morphology were crucially dependent on enzymatically active caspase-8 generated at the DISC. Caspase-8 cleaved and thereby activated ROCK-1, a key player in reorganisation of the actin cytoskeleton. Interfering with caspase-8 activation by ectopic expression of cFLIPS or pharmacological inhibitors abrogated the changes in cellular morphology. Additionally, HCT116 PIK3CA-mut cells showed upon FasL- or TRAIL-treatment increased invasiveness, demonstrated by elevated levels of urokinase in the supernatant of the cells. To date, the FasL- or TRAIL-induced transition of HCT116 PIK3CA-mut cells to an amoeboid-like cellular morphology is the first clearly demonstrated non-apoptotic function of caspase-8 in context of death receptor signaling, that is dependent on the enzymatic activity of the molecule. Furthermore, this study identifies ROCK-1 as a novel substrate of caspase-8. Further investigations will have to clarify the role of caspase-8 mediated activation of ROCK-1 and accompanied reorganization of the actin cytoskeleton with respect to the induction of the amoeboid-type of cell migration.

Apoptosis

Colonkrebs

Fas-Ligand

Actin

Tumor-Nekrose-Faktor

ddc:570

Cellular functions of VASP phosphorylations / Die zellulären Funktionen der VASP-Phosphorylierungen

Blume, Constanze

January 2009

Members of the enabled/vasodilator-stimulated phosphoprotein (Ena/VASP) family are important regulators of the actin cytoskeleton dynamics. VASP functions as well as its interactions with other proteins are regulated by phosphorylation at three sites - serine157 (S157), serine239 (S239), and threonine278 (T278) in humans. cAMP- and cGMP- dependent protein kinases phosphorylate S157 and S239, respectively. In contrast, the kinase responsible for T278 was as yet unknown and identified in the first part of this thesis. In a screen for T278 phosphorylating kinases using a phospho-specific antibody against phosphorylated T278 AMP-activated protein kinase (AMPK) was identified in endothelial cells. Mutants of AMPK with altered kinase-activity modulate T278-phosphorylation levels in cells. AMPK-driven T278-phosphorylation impaired stress fiber formation and changed cell morphology in living cells. AMPK is a fundamental sensor of cellular and whole body energy homeostasis. Zucker Diabetic Fatty (ZDF) rats, which are an animal model for type II diabetes mellitus, were used to analyze the impact of phosphorylated T278 in vivo. AMPK-activity and T278-phosphorylation were substantially reduced in arterial vessel walls of ZDF rats in comparison to control animals. These findings demonstrate that VASP is a new AMPK substrate, that VASP phosphorylation mediates the effects of metabolic regulation on actin cytoskeleton rearrangements, and that this signaling system becomes down-regulated in diabetic vessel disorders in rats. In the second part of this thesis, a functional analysis of differential VASP phosphorylations was performed. To systematically address VASP phosphorylation patterns, a set of VASP phosphomimetic mutants was cloned. These mutants enable the mimicking of defined phosphorylation patterns and the specific analysis of single kinase-mediated phosphorylations. VASP localization to the cell periphery was increased by S157- phosphorylation and modulated by phosphorylation at S239 and T278. Latter phosphorylations synergistically reduced actin polymerization. In contrast, S157- phosphorylation had no effect on actin-dynamics. Taken together, the results of the second part show that phosphorylation of VASP serves as a fine regulator of localization and actin polymerization activity. In summary, this study revealed the functions of VASP phosphorylations and established novel links between signaling pathways and actin cytoskeleton rearrangement. / Die Mitglieder der Enabled/Vasodilator-stimulated phosphoprotein (Ena/VASP) Familie sind bedeutende Regulatoren der Aktinzytoskelettdynamik. Die Funktionen und die Protein-Protein-Wechselwirkungen von VASP werden durch Phosphorylierungen an drei Aminosäureresten reguliert. Im Fall von humanem VASP sind dies Serin157 (S157), Serin239 (S239) und Threonin278 (T278). S157 und S239 sind Substrate der cAMP- und cGMP-abhängigen Proteinkinasen. Die Kinase, die T278-Phosphorylierung vermittelt, ist nicht bekannt. Der erste Teil der Arbeit beschäftigt sich mit der Identifizierung der T278-phosphorylierenden Kinase. Mit Hilfe eines phospho-spezifischen Antikörpers gegen das phosphorylierte T278 (pT278) wurde in Endothelzellen eine systematischen Suche nach T278-phosphorylierenden Kinasen durchgeführt. Dabei wurde die AMP-aktivierte Proteinkinase (AMPK) entdeckt. Mutanten der AMPK, welche eine veränderte Kinaseaktivität besitzen, erhöhten bzw. reduzierenten das Niveau der pT278. Die T278-Phosphorylierung durch die AMPK reduzierte die Stressfaserbildung und führt zu einer veränderten Zellmorphologie. Die AMPK ist ein fundamentaler Sensor des zellulären und Organismus-umfassenden Energiehaushalts. Zur Analyse der Funktion der pT278 in vivo wurden Zucker Diabetic Fatty (ZDF) Ratten, ein Tiermodell für den Diabetes mellitus Typ II, verwendet. Die AMPK-Aktivität und die pT278 waren in arteriellen Gefäßwänden von ZDF-Ratten im Vergleich zu Kontrolltieren deutlich reduziert. Diese Ergebnisse zeigen, dass VASP ein neues Substrat der AMPK ist, dass die T278-Phosphorylierung metabolische Signale an das Aktin-Zytoskelett koppelt und, dass bei diabetischen Ratten dieser Signaltransduktionsweg supprimiert ist. Im zweiten Teil wurde die Bedeutung der VASP-Phosphorylierungsmuster für die Aktin- bildung und die VASP-Lokalisation untersucht. Hierzu wurden systematisch VASP- Phoshorylierungsmutanten generiert. Diese Mutanten imitieren fixierte Phosphorylierungen oder erlauben einzelne Phosphorylierungen durch die jeweilige Kinase. Die Untersuchungen zeigten, dass S157-phosphoryliertes VASP (pS157) sich an der Zellperipherie anreichert, wobei die S239- und T278-Phosphorylierungen diesen Lokalisationseffekt modulieren. Phosphoryliertes S239 und T278 reduzierten synergistisch die Aktinpolymerisation. Im Gegensatz hierzu beeinflusste pS157 die Aktindynamik nicht. Dies zeigt, dass die VASP- Phosphorylierungen als Feinregulator für die Lokalisation und die Aktinpolymerisationsak- tivität fungierten. Zusammenfassend identifiziert diese Studie die Funktionen der einzelnen VASP- Phosphorylierungen und deckt neue Verbindungen von Signalwegen zur Aktinzytoskelett- Reorganisation auf.

Phosphorylierung

Actin-bindende Proteine

ddc:570

Interaktion des Proteins ActA von Listeria monocytogenes mit dem Wirtszellprotein LaXp180 / Interaction of Listeria monocytogenes ActA with the host cell protein LaXp180

Pfeuffer, Thilo

January 2000

Listeria monocytogenes, ein fakultativ intrazellulärer Krankheitserreger, besitzt die Fähigkeit, Wirtszellen zu penetrieren, sich in ihnen zu vermehren, sich intrazellulär zu bewegen und auch benachbarte Zellen direkt zu infizieren. Die intrazelluläre Fortbewegung erfolgt durch Polymerisation von zellulärem Aktin, wodurch charakteristische Aktinschweife an einem Pol der Bakterien entstehen. Der einzige bakterielle Faktor, der für die Aktinpolymerisation notwendig ist, ist das Oberflächenprotein ActA. ActA allein ist aber nicht in der Lage, Aktin zu polymerisieren, sondern kann dies nur in Assoziation mit Proteinen der Wirtszelle. Die einzigen bisher bekannten Wirtszellproteine, die direkt mit ActA interagieren, sind das Phosphoprotein VASP und der Arp2/3-Komplex. VASP bindet an den zentralen prolinreichen Bereich von ActA und beschleunigt durch die Rekrutierung von Profilin den Prozeß der Aktinpolymerisation. Der Arp2/3-Komplex interagiert mit dem N-terminalen Bereich von ActA und initiiert die eigentliche Aktin-Polymerisation. Um weitere eukaryotische, mit ActA interagierende Proteine (AIPs) zu isolieren, wurde über einen "Yeast Two-Hybrid"-Test mit ActA als Köder eine embryonale Maus-cDNA-Genbank getestet. Dabei wurden drei verschiedene AIPs identifiziert, von denen eines identisch mit dem humanen Protein LaXp180 (auch "CC1" genannt) ist. LaXp180 ist ein 180 kDa Protein mit über 50 theoretischen Phosphorylierungsstellen in der N-terminalen Hälfte, während die C-terminale Hälfte "coiled-coil"-Strukturen ausbilden kann. Darüberhinaus enthält LaXp180 eine Kern-Lokalisations-Sequenz und ein Leucin-Zipper-Motiv. Die Bindung von LaXp180 an ActA wurde in vitro unter Verwendung von rekombinantem His6-Tag-LaXp180 und rekombinantem ActA bestätigt, da rekombinantes ActA nur an einer Ni-Agarose-Säule gebunden wurde, wenn diese vorher mit His6-Tag-LaXp180 beladen war. Über RT-PCR konnte zum ersten Mal die Expression LaXp180-spezifischer mRNA in verschiedenen Säugerzellen nachgewiesen und mit einem polyklonalen anti-LaXp180-Serum durch Immunopräzipitation erstmals ein 194 kDa großes Protein in Säugerzellextrakten detektiert werden. Die intrazelluläre Lokalisation von LaXp180 wurde über Immunfluoreszenzmikroskopie untersucht. Immunfluoreszenzfärbungen von Fibroblasten mit dem anti-LaXp180-Serum zeigten eine starke Färbung der Zellkerne und definierter Bereiche direkt neben den Kernen, während das restliche Zytoplasma schwach gefärbt war. Über Immunfluoreszenzmikroskopie mit dem anti-LaXp180-Serum an mit L. monocytogenes infizierten Zellen konnte gezeigt werden, daß LaXp180 mit der Oberfläche vieler, aber nicht aller intrazellulärer, ActA-exprimierender Listerien kolokalisiert. Dagegen wurde nie eine Kolokalisation mit intrazellulären, aber ActA-defizienten Mutanten beobachtet. Darüberhinaus ist LaXp180 asymmetrisch auf der Bakterienoberfläche verteilt und schließt sich gegenseitig mit der F-Aktin-Polymerisation aus. LaXp180 ist ein putativer Bindungspartner von Stathmin, einem 19 kDa Phosphoprotein, das die Mikrotubuli-Dynamik reguliert. Über Immunfluoreszenz konnte gezeigt werden, daß auch Stathmin mit intrazellulären, ActA-exprimierenden L. monocytogenes kolokalisiert. / Listeria monocytogenes, a facultative intracellular pathogen, is able to penetrate and to multiply in host cells, to move intracellularly and to infect neighbouring cells directly. Intracellular movement is caused by the polymerisation of host cell actin leading to the generation of characteristic actin tails at one pole of the bacterium. The only bacterial factor necessary for actin polymerisation is the surface protein ActA. However, ActA itself is unable to polymerize actin, and can only do so in association with host cell proteins. So far the only known host cell proteins directly interacting with ActA are the phosphoprotein VASP and the Arp2/3 complex. VASP binds to the central proline-rich repeat region of ActA and accelerates actin polymerisation by the recruitment of profilin. The Arp2/3 complex interacts with the N-terminal domain of ActA and initiates the actin polymerisation process. To identify additional eukaryotic ActA-interacting proteins (AIPs), an embryonic mouse cDNA library was screened in a yeast two-hybrid approach using ActA as bait. Three different AIPs were isolated, one of which was identical to the human protein LaXp180 (also called "CC1"). LaXp180 is a 180 kDa protein with more than 50 theoretical phosphorylation sites in the N-terminal part. The C-terminal part is able to form coiled-coil structures. Furthermore, LaXp180 contains a nuclear localisation sequence and a leucine-zipper motif. Binding of LaXp180 to ActA was demonstrated in vitro using recombinant histidine-tagged LaXp180 and recombinant ActA. Recombinant ActA was retained on a Ni-agarose column after prior loading of the column with histidine-tagged LaXp180. Using RT-PCR, the expression of LaXp180 specific mRNA in different mammalian cells was demonstrated for the first time. A protein with a molecular weight of 194 kDa was detected in cell extracts by immunoprecipitation with a polyclonal anti-LaXp180 antiserum. The intracellular localisation of LaXp180 was analysed by immunofluorescence microscopy. Immunofluorescence staining of fibroblasts with the anti-LaXp180 serum showed a strong staining of the nuclei and of defined regions next to the nuclei as well as a weak staining of the rest of the cytoplasm. Fluorescence microscopy with the anti-LaXp180 antiserum of cells infected with L. monocytogenes revealed colocalisation of LaXp180 with the bacterial surface of a subset of intracellular, ActA-expressing listeriae. In contrast, colocalisation with intracellularly growing but ActA-deficient mutants was never observed. Furthermore, LaXp180 binding to intracellular L. monocytogenes was asymmetrical and mutually exclusive with F-actin polymerisation on the bacterial surface. LaXp180 is a putative binding partner of stathmin, a 19 kDa phosphoprotein regulating microtubule dynamics. Using immunofluorescence, colocalisation of stathmin with intracellular, ActA-expressing L. monocytogenes was also demonstrated.

Listeria monocytogenes

Virulenz

Actin

Wirtszelle

Molekularbiologie

ddc:570

Caracterização molecular da actina do Apicomplexa Neospora caninum / Molecular characterization of the actin from the Apicomplexan Neospora caninum

Baroni, Luciana

22 October 2012

Neospora caninum é um protozoário pertencente ao filo Apicomplexa que atinge, dentre diversos hospedeiros intermediários, principalmente bovinos e tem emergido como um importante causador de problemas reprodutivos e abortos em rebanhos de corte e leiteiro. Organismos do filo Apicomplexa são parasitas intracelulares obrigatórios que, para locomoverem-se e realizarem a invasão das células hospedeiras, utilizam um mecanismo próprio de locomoção ativa impulsionada pelo motor actina/miosina denominado motilidade por deslizamento (gliding motility), cujo complexo motor localiza-se entre a membrana plasmática e o complexo de membrana interno do parasita. A investigação a respeito do funcionamento desse mecanismo de locomoção e invasão vem sendo realizada principalmente em Toxoplasma gondii e Plasmodium spp., entretanto não há nenhuma publicação envolvendo actina em N. caninum. Esse trabalho envolveu a clonagem e expressão da sequência NcAct201-310 e deu início a caracterização da actina de N. caninum (NcAct). A sequência NcAct foi obtida em banco de dados ToxoDB, e uma comparação por alinhamento entre as actinas de Apicomplexas relacionados revelou que NcAct é idêntica à TgACT1 (100% identidade). Com outras espécies, a NcAct tem maior identidade/similaridade com a actina de Eimeria tenella (97%/99%), seguida da actina de Plasmodium falciparum PfACT1 (93%/97%), da actina de Babesia bovis (86%/94%) e PfACT2 (80%/92%). Quando localizada com anticorpo anti-?-actina C4, NcAct apresenta-se em duas bandas de 43 e 45 kDa em gel de acrilamida 1D e em nove isoformas em gel de acrilamida 2D. Todas as identidades das bandas e spots foram confirmados por espectrometria de massas (MS/MS). Além disso, NcAct localiza-se, em sua maioria, na região periférica do taquizoíta de N. caninum e sua distribuição é alterada após incubação dos taquizoítas com 5 ?M de jasplakinolida (JAS) ou 2 ?M de citocalasina D (CytD). Por fim, por meio de ensaio de fracionamento de actina monomérica (actina-G) e filamentosa (actina-F), demonstramos que a JAS é capaz de aumentar a quantidade de actina-F em taquizoítas de N. caninum. / Neospora caninum is an Apicomplexan protozoan that infects, among a whole range of intermediate hosts, bovine where it is emerging as a relevant cause of reproductive problems and abortion in dairy and beef cattle. As obligatory intracellular organisms, parasites from Apicomplexa Phylum use their own active locomotion system to move and invade host cells. This mechanism is driven by the actin/myosin motor known as gliding motility, localized between the plasma and the inner membrane complex. Studies involving this locomotion and invasion system have been conducted mainly in Toxoplasma gondii and Plasmodium spp. To our knowledge there is no publication involving actin in N. caninum, so this work was outlined and involved the cloning and expression of the sequence NcAct201-310, initiating the characterization of actin of N. caninum (NcAct). The sequence NcAct was obtained from the Database ToxoDB, and a comparison of actins from Apicomplexa-related revealed total identity of NcAct with TgACT1 (100% identity). With other species, NcAct has higher identity/similarity with Eimeria tenella actin (97%/99%), followed by Plasmodium falciparum actin PfACT1 (93%/97%), Babesia bovis actin (86%/94%) and PfACT2 (80%/92%). When localized with the antibody anti-?-actin C4, NcAct is presented as two bands of 43 and 45 kDa in 1D acrylamide gel and as nine isoforms in 2D acrylamide gel. All these findings were confirmed by mass spectrometry (MS/MS). Moreover, NcAct localizes predominantly in the peripheric region of N. caninum tachyzoites. This distribution is altered after incubation of the tachyzoites with 5 ?M of jasplakinolide (JAS) or 2 ?M of cytochalasin D (CytD). Finally through fractionating assay of monomeric (actin-G) and filamentous (actin-F), we demonstrated that JAS is capable of increasing the quantity of actin-F in N. caninum tachyzoites.

actin

actina

Apicomplexa

Apicomplexa

Neospora caninum

Neospora caninum

Investigation into the molecular mechanisms governing Drosophila embryonic hemocyte migration in vivo

Comber, Kate

January 2014

Accumulating evidence highlights the importance of studying the migration of cells within the context of their natural environment as manipulating the substrate on which a cell is migrating can have a dramatic impact on the mode/mechanisms employed by cells during migration. Central to this phenomenon is the requirement of adhesion to the ECM in order to gain traction during migration. Integrins constitute the main family of cell receptors involved in mediating cell-ECM interactions during motility. Whilst traditionally two-dimensional cell culture studies have placed emphasis on the importance of these receptors for spreading and migration, it has become evident that within more confined environments these receptors, at least for some cell types, are less crucial. In this research we utilise Drosophila embryonic hemocytes as an in vivo model for cell migration. We show that whilst hemocytes migrate within confined environments in vivo, these cells depend on integrins for powering both developmental and inflammatory migrations. Given the close association between these receptors and the actin cytoskeleton we were surprised to discover that removal of the main β integrin subunit, Myospheroid, did not affect cell spreading in vivo and had only a small impact on lamellipodial structure and dynamics. Furthermore we discovered that, in contrast to other cell types previously analysed, removal of this integrin subunit in hemocytes was not accompanied by an increase in the rate of actin retrograde flow within the protrusions, which we believe could reflect abrogation of a positive feedback between Rho, ROCK and Myosin II contraction. Instead, we discover a key role for integrins in regulating the microtubule cytoskeleton, in the maintenance of a polarised microtubule bundle, termed a ‘microtubule-arm’. Although the molecular mechanisms by which this stabilisation is coordinated have yet to be identified, this provides important insight into the co-regulation of adhesion and microtubule cytoskeleton important for the migratory behaviour of these cells. Cell migration reflects the complex and integrated regulation of the actin cytoskeleton by diverse families of actin regulatory proteins. Using hemocytes as a model system, we also explore the regulatory interactions between two main actin regulatory proteins, Diaphanous and Enabled, in vivo. Whilst the function of these proteins in the formation of filopodial protrusions is overlapping, recent research has highlighted the ability of these proteins to regulate the activity of one another. We find that co-expression of Enabled in hemocytes is able to rescue the morphological and migratory defects resulting from overexpression of active Diaphanous. Thus, data here presents Enabled as a negative regulator of Diaphanous, which may play an important role in the migration of hemocytes in vivo.

571.6

Expressão de citoceratinas de padrão basal (CK5/6), luminal (CK8/18) e actina de músculo liso (1A4) em carcinoma de mama /

Delgallo, William Davila.

January 2007

Orientador: José Ricardo Paciência Rodrigues / Banca: Afonso Mazario / Banca: Henrique Benedito Brenelli / Banca: Cleverson Teixeira / Banca: Gilberto Uemura / Resumo: Estudos de expressão gênica têm identificado vários grupos moleculares de carcinoma de mama, com diferentes comportamentos clínico e biológico. A correlação entre "cDNA microarray" e imunoistoquímica(IQ) com marcadores para citoceratinas, Her2/neu, receptor de estrógeno(RE) e de células basais mioepiteliais (1A4, S-100 e p63), identificaram cinco grupos: (1) luminal A (RE+; Her2/neu-), (2) luminal B (RE+; Her2/neu+), (3) superexpressão de Her2/neu (RE-; Her2/neu+), (4) tipo basal (RE-; Her2/neu-; Ck 5/6 +) e (5) nenhum destes ("null"). Os de tipo luminal expressam citoceratinas de padrão luminal (Ck8/18) e os de tipo basal expressam citoceratinas 5/6 e 14 ou marcadores de células basais mioepiteliais. Avaliamos a expressão de Ck5/6, Ck8/18 e 1A4 em material de citoinclusão, comparando-a ao espécime cirúrgico. Material e Métodos: Foram selecionados 62 casos, seqüenciais, de carcinoma de mama diagnosticados por PAAF, com citoinclusão e espécime cirúrgico. Cortes de citoinclusão e do espécime cirúrgico foram imunocorados para Ck 5/6, Ck 8/18 e 1A4. Resultados e Conclusão: Os valores, em porcentagem, de sensibilidade, especificidade, valor preditivo positivo(VPP), valor preditivo negativo(VPN) e acurácia foram, respectivamente: Ck5/6 (77, 100, 100, 92 e 94); Ck8/18 ( 98, 66, 96, 80 e 95) e 1A4 ( 92, 96, 85, 98 e 95). Portanto, a identificação de Ck5/6, Ck8/18 e 1A4 por IQ em material de citoinclusão é método confiável, com resultados muito próximos aos obtidos no espécime cirúrgico e pode contribuir para a classificação dos carcinomas mamários de expressão luminal e basal, fornecendo informações importantes que possam orientar na escolha do tratamento, bem como na avaliação de fatores prognósticos e preditivos. A importância da obtenção de dados morfológicos e imunoistoquímicos sobre os carcinomas mamários através do material... (Rewsumo completo, clicar acesso eletrônico abaixo) / Abstract: Genetic expression studies have identified many molecular groups of breast carcinoma, with different clinical and biological behavior. The correlation between cDNA microarray and immunohistochemistry (IHC) with markers for cytokeratin, Her2/neu, estrogen receptor (ER) and of basal myoepithelial cells (1A4, S-100 e p63), identified five groups: (1) luminal A (ER+; Her2/neu-), (2) luminal B (ER+; Her2/neu+), (3) overexpression of Her2/neu (ER- ; Her2/neu+), (4) basal-like (ER- ; Her2/neu-; Ck 5/6 +) and (5) none of them (null). The luminal-like express cytokeratines of luminal pattern (Ck8/18) and the basal-like express cytokeratines 5/6 and 14 or markers of myoepithelial basal cells. We have evaluated the expression of Ck5/6, Ck8/18 and 1A4 in cell block comparing it to the surgical specimen. Material and Methods: 43 62 cases have been selected, sequencial, of breast carcinoma diagnosed through fine needle aspiration (FNA), with cell block and surgical specimen. Cuts of cell block and from the surgical specimen were immunostained for Ck 5/6, Ck 8/18 and 1A4. The value, in percentage, of sensibility, specificity, positive predictive value, negative predictive value, and accuracy were respectively: Ck5/6 (77, 100, 100, 92 e 94); Ck8/18 (98, 66, 96, 80 e 95) e 1A4 ( 92, 96, 85, 98 e 95). Therefore, the identification of CK5/6, 8/18 and 1A4 for IHC in cell block is a reliable method, with results very close to the ones obtained in the surgical specimen, and it can contribute to the sub classification of the breast carcinomas of luminal and basal expression, providing important information, which can orientate the treatment... (Complete abstract click electronic access below) / Doutor

Mamas - Câncer - Cirurgia.

Breast carcinoma. eng

Smooth muscle actin. eng

Novel roles of ADF/cofilins in maintenance of homeostasis in normal and malignant epithelial cells

Kanellos, Georgios

January 2017

Actin cytoskeletal regulation is of critical importance for a number of diverse cellular functions, including cell motility, endocytosis, cell division and transcription. Tight regulation of actin is critical for many aspects of cancer biology and in particular invasion and metastasis. ADF/cofilins are among the most important actin regulatory proteins. Mammals have three highly conserved members, ADF, CFL1 and CFL2, which regulate actin dynamics by severing and depolymerizing actin filaments. Despite a huge literature on the roles of ADF/cofilins in actin treadmilling and cell migration in vitro and in cancer cell behavior during invasion, very little is known about their collective roles in tissue homeostasis. By employing genetic knock-outs of ADF, in conjunction with conditional depletion of CFL1 using a Cre-LoxP system under the control of the keratin 14 promoter, we were able to study the effects of ADF/CFL1 loss in vivo in the mouse epidermis. Furthermore, by generating ADF-null squamous cell carcinoma (SCC) cell lines and by transiently downregulating CFL1 with RNAi, we were able to investigate further the cellular responses after ADF/CFL1 depletion in vitro. Co-depletion of ADF and CFL1 from the mouse epidermis triggered loss of tissue homeostasis characterized by abnormal thickening of the tissue, actin filament accumulation and nuclear deformation. Loss of ADF/CFL1 in cultured malignant keratinocytes also led to aberrant cell morphology accompanied by unrestrained accumulation of actin stress fibers tethered to enlarged focal adhesions. Enhanced SRF/MAL-mediated transcription fuels this uncontrolled actin polymerization which is also mediated by Arp3. Furthermore, these actin filaments are decorated with phospho-myosin light chain, which indicates their contractile nature. As a consequence, the increased intracellular acto-myosin tension results in nuclear deformation, which is promoted by the deregulated actin filaments tethered to the nuclear envelope via the linker of nucleoskeleton and cytoskeleton (LINC) complex. Overall, we describe new conceptual insight into the cellular functions of ADF/cofilins. We show that their activities are essential for the dynamic regulation of contractile actin filaments that, if left unchecked, lead to loss of cellular homeostasis and cell death promoted by loss of nuclear integrity. Additionally, the critical roles of nuclear actin and actin-associated proteins have recently started being appreciated. Thus, for the first time we set out to investigate new functions of cofilins in the nucleus using proteomics, and identify new cofilin binding partners that implicate them in novel cellular pathways, expanding our knowledge on these small actin-binding proteins.

572

Análise da expressão e distribuição de E-caderina, Vinculina e cinase de adesão focal em biópsias de carcinoma espinocelular oral

Silveira, Bernardo Salim

January 2013

O carcinoma espinocelular é uma neoplasia maligna que representa aproximadamente 94% de todas as ocorrências presentes em boca e uma das suas principais características celulares é a migração de suas células para formar metástases. A adesão celular é considerada um dos eventos determinantes da migração celular. Para as células formarem uma estrutura tecidual tridimensional as adesões entre células e entre células e matriz extracelular são de grande importância. As junções de adesão celulares surgem, caracteristicamente, pela interação entre receptores adesivos, vias de sinalização e elementos do citoesqueleto. A proteína E-caderina está presente em adesões entre células no tecido epitelial. A proteína FAK está envolvida na maioria dos eventos relacionados à adesão celular estimulada por integrinas. A Vinculina é uma proteína de adesão que se liga ao citoesqueleto de actinomiosina como uma proteína de adesão focal através das integrinas. Estudos recentes sugerem que há alteração na expressão e atividade de proteínas de adesão em tumores malignos. O objetivo deste trabalho foi descrever o padrão de expressão e de regulação da atividade de proteínas de adesão em amostras de tumores de carcinoma espinocelular. Foram realizadas reações de imunoistoquímica para verificar o padrão de distribuição das proteínas E-caderina, Vimentina e FAK-y397 em amostras de tumores de carcinoma espinocelular oral. Verificou-se a diminuição da expressão de E-caderina e de Vinculina em regiões de adesão célula-célula e em contrapartida constatou-se aumento na marcação citoplasmática de Vinculina bem como na marcação de FAK-y397 em todas as amostras de tumores. Apesar dos avanços, ainda são necessários mais estudos observacionais que averiguem não apenas o grau de expressão dessas proteínas de adesão, mas também o seu nível de regulação. A partir dos resultados deste estudo, pode-se sugerir que o controle do nível de expressão e de atividade da adesão celular podem ser considerados como potenciais alvos para a aplicação de terapias coadjuvantes que visam a diminuir ou impedir a progressão tumoral, bem como o desenvolvimento de metástases. / Squamous cell carcinoma is a malignant neoplasm that accounts for approximately 94% of all occurrences present in mouth and one of its main characteristics is the cellular migration of its cells to form metastases. Cell adhesion is considered one of the defining events of cell migration. For a three-dimensional tissue structure, adhesions between cells and between cells and the extracellular matrix is of great importance. Cell adhesion junctions arise characteristically by interaction between adhesive receptors, signaling pathways and cytoskeletal elements. The protein E-cadherin is present in cells in the adhesion between epithelial tissue. The Focal Adhesion Kinase (FAK) protein is involved in most events related to cell adhesion stimulated by integrins. The vinculin is an adhesion protein that binds cytoskeletal protein through integrins activaion. Recent studies suggest that there are alterations in the expression and activity of adhesion proteins in malignant tumors. The aim of this study was to describe the pattern of expression and regulation of the activity of adhesion proteins in tumor samples of squamous cell carcinoma. Immunohistochemical reactions were performed to check the distribution pattern of the protein E-cadherin, vimentin and FAK-y397 in tumor samples of oral squamous cell carcinoma. There was a decrease in the expression of E-cadherin and vinculin in regions of cell-cell adhesion but, on the other hand, it was found to increase in cytoplasmic as well as unscheduled vinculin FAK-y397 in all tumor samples. Despite progress, it is necessary more observational studies that examine not only the degree of expression of these adhesion proteins, but also its level of regulation. From the results of this study it is suggested that the control of the expression level and activity of cell adhesion may be considered as potential targets for application adjuvant therapies that aim to reduce or prevent tumor progression and the development metastases.

Neoplasias bucais

Carcinoma de células escamosas

Cell adhesion

Cell migration

Actin