N-terminal isoforms of the p53 tumour suppressor protein : effects on p53 transcriptional activity and expression in cutaneous melanoma / Isoformes du domaine N-terminal du suppresseur de tumeur p53 : sur l’activité transcriptionnelle de p53 et expression dans les mélanomes cutanés

Hafsi, Hind

20 December 2012

La protéine suppresseur de tumeur p53 est soumise à de complexes régulations transcriptionnelles et posttraductionnelles. La découverte d’isoformes de p53 a introduit un degré de complexité supplémentaire auxmécanismes de régulation des fonctions de p53. On dénombre à ce jour douze isoformes qui diffèrent de p53dans leurs domaines N- et C-terminal. Cependant, les modes d’expression et de fonction de ces isoformes restentà être clarifiés.Dans cette thèse, nous nous sommes intéressés aux deux isoformes Δ40p53 et Δ133p53, en analysant leurinteraction avec p53 et en mesurant leur expression dans les mélanomes, un type de cancer où p53 est trèsrarement mutée. Nous montrons que Δ40p53 peut moduler l’activité de p53 avec un effet bi-phasique, tantôtactivateur ou répresseur du niveau d’expression et des fonctions de p53. Δ133p53 est produite par un promoteurP2 localisé dans le gène TP53. Nous avons montré qu’en réponse à un stress génotoxique, l’expression de Δ133p53 est régulée par p53, qui se lie au promoteur P2. Ceci suggère une boucle d’auto-régulation par p53, quiest capable de contrôler l’expression d’une isoforme inhibant ses propres fonctions. Enfin, les isoformes Δ40p53 et Δ133p53 sont surexprimées dans les tumeurs métastatiques de mélanomes comparées aux tumeurs noninvasives,suggérant à ces isoformes un rôle dans l’inactivation de p53 dans les cancers.Ainsi, Δ40p53 et Δ133p53 interagissent avec p53 de façon complexe, avec des effets plus contrastés que lasimple inhibition de l’activité suppressive de p53. Les isoformes de p53 jouent ainsi un rôle majeur dans lesactivités basales de p53, ainsi que dans l’inactivation fonctionnelle de p53 dans les cancers. / The p53 tumour suppressor protein has a highly complex pattern of regulation at transcriptional and posttranslationallevels. The discovery of p53 isoforms has added another layer of complexity to the mechanisms thatregulate p53 functions. Indeed, p53 is expressed as 12 isoforms that differ in their N- and C-terminus due toalternative splicing, promoter or codon initiation usage. So far, there is limited understanding of the patterns ofexpression and of the functions of each of these isoforms.In this Thesis, we have focused on the two major p53 N-terminal isoforms, Δ40p53 and Δ133p53. We haveanalysed their patterns of interactions with the full-length p53 and we have investigated whether their expressioncould be deregulated in melanoma, a cancer type in which TP53 mutations are rare. Our results show that Δ40p53 can modulate p53 function with a bi-phasic effect, acting as a repressor or activator of p53 to control itslevels and activity. Moreover, we demonstrate that the internal P2 promoter produces Δ133p53 and is regulatedby p53 in response to genotoxic stress, identifying a novel auto-regulatory loop by which p53 may control theexpression of an isoform acting as an inhibitor of p53 activities. Finally, we show that mRNAs encoding Nterminalisoforms are often over-expressed in highly metastatic melanoma when compared to non-invasiveforms, suggesting that N-terminal isoforms contribute to functionally inactivate p53. Thus, we propose that Δ40p53 and Δ133p53 modulate p53 functions within dynamic fluctuations of aprotein network. Hence, p53 isoforms may have a major role in basal p53 activities as well as in the functionalinactivation of p53 in cancer cells.

Protéine suppresseur de tumeur p53

Isoformes

Régulation transcriptionnelle

Mélanomes

Inactivation de p53

P53 tumour suppressor protein

Isoforms

Transcriptional regulation

Melanoma

Inactivation of p53

616.99

Pesquisa de isoformas da fibronectina em culturas de longa duração de estroma medular de camundongos submetidos à desnutrição proteica / Search fibronectin isoforms in cultures of long-term bone marrow stroma of mice submitted to protein malnutrition

Silva, Graziela Batista da

26 September 2011

A desnutrição acomete 925 milhões de pessoas em todo o mundo, independentemente da idade e classe social, os mais acometidos são indivíduos hospitalizados, crianças e idosos. A desnutrição causa alterações fisiológicas em diversos tecidos. O tecido hematopoiético é afetado na desnutrição protéica, por ser um tecido de elevada e constante necessidade de proteínas, levando a alterações hematológicas como anemia e leucopenia. Estudos do nosso laboratório têm demonstrado in vivo, alterações do microambiente hematopoiético, em camundongos submetidos à desnutrição protéica, bem como hipoplasia medular, mudanças quantitativas da matriz extracelular (MEC) como o aumento do deposito de fibronectina na região subendosteal (local da fixação das células tronco/ progenitoras hematopoiéticas), alterações do ciclo celular das células tronco/ progenitoras hematopoiéticas e alteração na expressão de VLA5; principal integrina na interação das células a fibronectina. Sendo assim propõe-se neste projeto avaliar possíveis isoformas da molécula de fibronectina, para melhor compreender o seu papel biológico no ciclo celular as células tronco/ progenitoras hematopoiéticas em um modelo de desnutrição protéica. Para isso foram utilizados camundongos C57BLI/6J machos, adultos, mantidos em gaioleiros metabólicos, separados em dois grupos. O grupo controle recebeu uma ração normoproteíca com 12% de proteína e o grupo desnutrido, uma ração hipoprotéica com 2% de proteína, num período de 5 semanas. Após este período os animais foram sacrificados para avaliação hematológica, celularidade da medula óssea, quantificação e pesquisa de isoformas da fibronectina, análise do perfil protéico no estroma medular em culturas de longa duração bem como a análise do estabelecimento do estroma medular em culturas de longa duração. Os animais desnutridos apresentaram uma menor celularidade e uma diminuição significativa de células jovens na medula óssea. O estroma medular estabelecido em culturas de longa duração dos animais do grupo desnutrido apresentaram uma menor confluência em relação ao grupo controle. Também foi observado nas culturas de longa duração um aumento significativo da fibronectina no 28° dia de cultura, mas com uma diminuição da fibronectina no 35° dia, porém com uma menor quantidade de região EDA nos dois períodos analisados (sítio de ligação das integrinas a fibronectina) quando comparados aos animais do grupo controle. A pesquisa de isoformas de fibronectina no estroma medular, por meio de RT-PCR, revelou que tanto os animais do grupo controle quanto os animais do grupo desnutrido apresentaram diferentes isoformas de fibronectina, porém não foi possível fazer uma análise quantitativa das regiões de splicing alternativo. O perfil protéico das culturas de longa duração analisado por meio de eletroforese bidimensional demonstrou que os animais do grupo desnutrido possuem um perfil protéico diferente dos animais do grupo controle, também foi observado uma diferença do perfil protéico entre os 28° e 35° dias de cultura. Portanto a alteração quantitativa da molécula de fibronectina e da região EDA, bem como a presença de diferentes isoformas de fibronectina, juntamente com as alterações do perfil protéico podem ser devido a um aumento e ou degradação das proteínas de matriz extracelular. E estas alterações podem ser responsáveis pela hipoplasia medular e alteração do ciclo celular das células tronco/ progenitoras hematopoiéticas e estromais, talvez pela menor interação com as integrinas, sendo esta interação fundamental para a modulação de diversas funções celulares tais como proliferação e diferenciação e para a regulação do remodelamento da matriz extracelular. Mas ainda se faz necessário a quantificação das regiões de splicing alternativo, seqüênciamento das proteínas da matriz extracelular e a identificação das possíveis metalaproteinases presentes no estroma medular para melhor elucidar as funções da fibronectina e outras proteínas da matriz extracelular na manutenção da hemopoese. / Malnutrition affects 925 million people worldwide, regardless of age and social class, the most affected individuals are hospitalized, children and elderly.Malnutrition causes physiological changes in various tissues.The hematopoietic tissue is affected in protein malnutrition, because it is a tissue of high and constant need of proteins, leading to hematological abnormalities such as anemia and leucopenia. Studies from our laboratory have demonstrated in vivo changes in the hematopoietic microenvironment in mice submitted to protein malnutrition, and bone marrow hypoplasia, quantitative changes of the extracellular matrix (ECM) as the increase in deposit fibronectin in the region subendosteal (site of attachment of the cells stem / progenitor), changes in cell cycle of stem cells / progenitor and changes in the expression of VLA5; main integrin interaction of cells to fibronectin. Therefore this project proposes to evaluate possible isoforms of fibronectin molecule, to better understand its biological role in cell cycle stem cells / progenitor in a model of protein malnutrition. Mice were used for this C57BLI/6J male adults were kept in metabolic gaioleiros, separated into two groups. The control group received a ration normoproteíca with 12% protein and the malnourished group, a low protein diet with 2% protein over a period of 5 weeks. After this period the animals were sacrificed for hematological evaluation, bone marrow cellularity, and quantification of fibronectin isoforms research, analysis of protein profiles in marrow stroma in long-term cultures and analysis of the establishment of bone marrow stroma in long-term cultures. The malnourished animals showed a lower cellularity and a significant decrease of young cells in the bone marrow.The bone marrow stromal cultures established in long-term animal malnourished group had a lower convergence in the control group. It was also observed in cultures long term a significant increase in fibronectin on the 28th day of culture, but with a decrease in fibronectin 35 th day, but with a smaller amount of EDA region in both periods analyzed (binding site of integrins to fibronectin) compared to the control group.The survey of isoforms of fibronectin in bone marrow stroma, by RT-PCR revealed that both control animals and animals in the malnourished group presented different isoforms of fibronectin, but it was not possible to make a quantitative analysis of the regions of alternative splicing.The protein profile of long-term cultures analyzed using two-dimensional electrophoresis showed that animals of the malnourished group have a protein profile different from the control group was also observed a difference in protein profile between 28° and 35° day of culture. Therefore, the quantitative change of the molecule fibronectin and the region of EDA, as well as the presence of different isoforms of fibronectin, together with changes in protein profile may be due to an increase, or degradation of extracellular matrix proteins. And these changes may be responsible for bone marrow hypoplasia and alteration of the cell cycle of stem cells / progenitor and stromal cells; perhaps because of less interaction with integrins, this interaction is essential for the modulation of various cellular functions such as proliferation and differentiation and to regulation of extracellular matrix remodeling. But it is still necessary to quantify the areas of alternative splicing, sequencing of the extracellular matrix proteins and identification of possible metalaproteinases present in bone marrow stroma to better elucidate the roles of fibronectin and other extracellular matrix proteins in maintaining hemopoese.

Bone marrow

Desnutrição protéica

Extracellular matrix

Fibronectin

Fibronectin isoforms

Fibronectina

Hemopoese

Hemopoese

Hemopopoieic niche

Isoformas de fibronectina

Matriz extracelular

Medula óssea

Nicho hemopoético

Protein malnutrition

Papel da proteína quinase C (PKC) na modulação da isoforma 1 do permutador Na+ - H+ (NHE1), em células MDCK. / Role of PKC on exchanger isoform 1 (NHE1), modulation in MDCK cells.

Figueiredo, Claudia Ferreira dos Santos Ruiz

31 March 2008

O presente trabalho visa contribuir para o esclarecimento da seqüência de eventos intracelulares produzidos pelas PKCs a e e, na modulação do pHi, via NHE1. Os estudos foram realizados em células MDCK e as medidas de pHi efetuadas por microscopia de fluorescência. A expressão das PKCs a e e, bem como do NHE1 foi investigada por western blot, utilizando anticorpos específicos para cada proteína. Os estudos foram realizados na situação controle ou na vigência de PMA ou ANG II, AVP e /ou inibidores específicos para cada receptor hormonal ou isoforma de PKC. Nossos resultados indicam que PMA (10-7 M) estimula a recuperação do pHi, por modular a atividade das PKCs a e e. ANG II e AVP em concentrações fisiológicas estimulam a recuperação do pHi após sobrecarga ácida, concomitante com o aumento da fosforilação da PKC a. Em concentração elevada, ambos hormônios não alteram estes parâmetros. O efeito de ANG II ou de AVP depende da interação de cada hormônio com receptores específicos para modular as vias de sinalização celular envolvidas com o aumento dos níveis de diacilglicerol, cálcio citosólico e AMPc. / The purpose of this work was to investigate the signaling events of PKCs a e e on the NHE1 activity. The effect of phorbol 12-myristate 13-acetate (PMA), angiotensin II (ANG II) or arginine vasopressin (AVP) on the intracellular pH (pHi) was investigated in MDCK cells by using the fluorescence microscopy and fluorescent probe BCECF/AM. The NHE1 or PKCs a e e expression was examined by western blot and specific antibodies. Our results indicate that PMA (10-7 M) or low concentration of ANG II and AVP induced a significant increase of pH recovery rate and PKC a expression, after intracellular acidification with NH4Cl pulse. ANG II or AVP did not change the PKC a expression. However, in right concentration, both hormones did not change these parameter. In conclusion, the effect of ANG II and AVP on NHE1 activity, depend of specifics membrane receptors and cellular signaling of intracellular calcium, DAG and PKCs a and e.

Angiotensin II

Angiotensina II

Arginin vasopressin

Arginina vasopressina

Células MDCK

Isoformas de PKC

MDCK cells

NHE1

NHE1

Phorbol 12-Myristate 13-Acetate

Phorbol 12-Myristate 13-Acetate

PKC isoforms

Identification des nouvelles phospholipases A microbiennes : purification et caractérisation biochimique d’une phospholipase A2 fongique secrétée / Identification of novel microbial phospholipases A and the purification and biochemical characterization of a secreted fungal phospholipase A2

Sutto Ortiz, Priscila

05 October 2017

Les phospholipases A catalysent sélectivement l'hydrolyse de la liaison ester des glycérophospholipides dans la position sn-1 (PLA1) et sn-2 (PLA2), libérant des acides gras et des lysophospholipides. Nous avons identifié des PLAs à partir des champignons/actinomycètes isolés des environnements du Mexique. Dans la 1ère partie, une méthode colorimétrique à haut débit pour la détection générale de l'activité PLA (cHTS-PLA) avec la PC comme substrat et le rouge crésol a été développée. L'analyse rRNA 16S des souches productrices des PLAs a démontrant qu'elles appartiennent aux genres Streptomyces et Aureobasidium. La production des PLAs a été mise en œuvre utilisant la fermentation en milieu solide avec la PC comme inducteur et la bagasse de canne à sucre comme support. Globalement, cette étude a contribué à la découverte des nouvelles PLA et au criblage des PLAs à haut débit dans les extraits microbiens / Phospholipase A are lipolytic enzymes that hydrolyze selectively the ester bond of glycerophospholipid substrates at the sn-1 (PLA1) and sn-2 (PLA2) position, respectively, releasing free fatty acids and lysophospholipids. We identified new PLAs from fungi and actinomycetes isolated from Mexican environments. Firstly, we implemented an agar-plate method containing rhodamine 6G and phosphatidylcholine (PC) for the primary screening. Then, a colorimetric high-throughput screening assay for general PLA activity detection (cHTS-PLA) using PC substrate and cresol red was developed. According to 16S rRNA analysis, PLA producing strains were mostly belonging to Streptomyces and Aureobasidium genus. Production of PLAs was implemented by solid-state fermentation with PC as inductor and sugar-cane bagasse as support. Overall, this study has contributed to the discovery of new microbial PLAs and to pave the way toward the HTS of PLA activity in microbial extracts

Phospholipase A

Actinomycètes

Champignons

Isoformes

Criblage à haut débit

Fermentation en milieu solide

Groupe XIV sPLA2

Phospholipase A

Actinomycetes

Fungi

Isoforms

High-throughput screening

Solid-state fermentation

Group XIV sPLA2

572.7

Functional Significance of Multiple Poly(A) Polymerases (PAPs)

Nordvarg, Helena

January 2002

<p>3’ end cleavage and polyadenylation are important steps in the maturation of eukaryotic mRNAs. Poly(A) polymerase (PAP), the enzyme catalysing the addition of adenosine residues, exists in multiple isoforms. In this study the functional significance of multiple poly(A) polymerases have been investigated. It is concluded (i) that at least three mechanisms generate the multiple isoforms i.e. gene duplication, post-translational modification and alternative mRNA processing and (ii) that the different isoforms of poly(A) polymerases have different catalytic properties. The study highlights regulation of poly(A) polymerase activity through modulation of its affinity for the substrate as visualised by the K_M parameter. We suggest that trans-acting factors modulating the K_M of poly(A) polymerase will play important roles in regulating its activity.</p><p>A new human poly(A) polymerase (PAPγ) encoded by the PAPOLG gene was identified. PAPγ is 65% homologous to the previously identified PAP. In human cells three isoforms of poly(A) polymerases being 90, 100 and 106 kDa in sizes are present. These native isoforms were purified. The PAPOLA gene encoded the 100 and 106 kDa isoforms while the 90 kDa isoform was encoded by the PAPOLG gene. Native PAPγ was found to be more active than 100 kDa PAP while the hyperphosphorylated 106 kDa PAP isoform was comparably inactive due to a 500-fold decrease in affinity for the RNA substrate. </p><p>The PAPOLG gene was shown to encode one unique mRNA while the PAPOLA gene generated five different PAP mRNAs by alternative splicing of the last three exons. The PAPOLA encoded mRNAs were divided into two classes based on the composition of the last three exons. Poly(A) polymerases from the two classes were shown to differ in polyadenylation activities. These differences revealed two novel regulatory motifs in the extreme C-terminal end of PAP, one being inactivating and the other activating for polyadenylation activity.</p>

Genetics

poly(A) polymerase

PAP

phosphorylation

isoforms

alternative splicing

kinetic parameters

hyperphosphorylation

regulation

Genetik

Poly(A) polymeras

PAP

fosforylering

isoformer

alternativ splitsning

kinetiska parametrar

reglering

Clinical genetics

Klinisk genetik

Das Lektin aus der Erbse Pisum sativum : Bindungsstudien, Monomer-Dimer-Gleichgewicht und Rückfaltung aus Fragmenten

Küster, Frank

January 2002

Das Lektin aus <i>Pisum sativum</i>, der Gartenerbse, ist Teil der Familie der Leguminosenlektine. Diese Proteine haben untereinander eine hohe Sequenzhomologie, und die Struktur ihrer Monomere, ein all-ß-Motiv, ist hoch konserviert. Dagegen gibt es innerhalb der Familie eine große Vielfalt an unterschiedlichen Quartärstrukturen, die Gegenstand kristallographischer und theoretischer Arbeiten waren. Das Erbsenlektin ist ein dimeres Leguminosenlektin mit einer Besonderheit in seiner Struktur: Nach der Faltung in der Zelle wird aus einem Loop eine kurze Aminosäuresequenz herausgeschnitten, so dass sich in jeder Untereinheit zwei unabhängige Polypeptidketten befinden. Beide Ketten sind aber stark miteinander verschränkt und bilden eine gemeinsame strukturelle Domäne. Wie alle Lektine bindet Erbsenlektin komplexe Oligosaccharide, doch sind seine physiologische Rolle und der natürliche Ligand unbekannt. In dieser Arbeit wurden Versuche zur Entwicklung eines Funktionstests für Erbsenlektin durchgeführt und seine Faltung, Stabilität und Monomer-Dimer-Gleichgewicht charakterisiert. Um die spezifische Rolle der Prozessierung für Stabilität und Faltung zu untersuchen, wurde ein unprozessiertes Konstrukt in <i>E. coli</i> exprimiert und mit der prozessierten Form verglichen. <br /> <br /> Beide Proteine zeigen die gleiche kinetische Stabilität gegenüber chemischer Denaturierung. Sie denaturieren extrem langsam, weil nur die isolierten Untereinheiten entfalten können und das Monomer-Dimer-Gleichgewicht bei mittleren Konzentrationen an Denaturierungsmittel auf der Seite der Dimere liegt. Durch die extrem langsame Entfaltung zeigen beide Proteine eine apparente Hysterese im Gleichgewichtsübergang, und es ist nicht möglich, die thermodynamische Stabilität zu bestimmen. Die Stabilität und die Geschwindigkeit der Assoziation und Dissoziation in die prozessierten bzw. nichtprozessierten Untereinheiten sind für beide Proteine gleich. Darüber hinaus konnte gezeigt werden, dass auch unter nicht-denaturierenden Bedingungen die Untereinheiten zwischen den Dimeren ausgetauscht werden.<br /> <br /> Die Renaturierung der unprozessierten Variante ist unter stark nativen Bedingungen zu 100 % möglich. Das prozessierte Protein dagegen renaturiert nur zu etwa 50 %, und durch die Prozessierung ist die Faltung stark verlangsamt, der Faltungsprozess ist erst nach mehreren Tagen abgeschlossen. Im Laufe der Renaturierung wird ein Intermediat populiert, in dem die längere der beiden Polypeptidketten ein Homodimer mit nativähnlicher Untereinheitenkontaktfläche bildet. Der geschwindigkeitsbestimmende Schritt der Renaturierung ist die Assoziation der entfalteten kürzeren Kette mit diesem Dimer. / The lectin from <i>Pisum sativum</i> (garden pea) is a member of the family of legume lectins. These proteins share a high sequence homology, and the structure of their monomers, an all-ß-motif, is highly conserved. Their quaternary structures, however, show a great diversity which has been subject to cristallographic and theoretical studies. Pea lectin is a dimeric legume lectin with a special structural feature: After folding is completed in the cell, a short amino acid sequence is cut out of a loop, resulting in two independent polypeptide chains in each subunit. Both chains are closely intertwined and form one contiguous structural domain. Like all lectins, pea lectin binds to complex oligosaccharides, but its physiological role and its natural ligand are unknown. In this study, experiments to establish a functional assay for pea lectin have been conducted, and its folding, stability and monomer-dimer-equilibrium have been characterized. To investigate the specific role of the processing for stability and folding, an unprocessed construct was expressed in <i>E. coli</i> and compared to the processed form.<br /> <br /> Both proteins have the same kinetic stability against chemical denaturant. They denature extremely slowly, because only the isolated subunits can unfold, and the monomer-dimer-equilibrium favors the dimer at moderate concentrations of denaturant. Due to the slow unfolding, both proteins exhibit an apparent hysteresis in the denaturation transition. Therefore it has not been possible to determine their thermodynamic stability. For both proteins, the stability and the rates of association and dissociation into processed or unprocessed subunits, respectively, are equal. Furthermore it could be shown that even under non-denaturing conditions the subunits are exchanged between dimers.<br /> <br /> Renaturation of the unprocessed variants is possible under strongly native conditions with 100 % yield. The processed protein, however, can be renatured with yields of about 50 %, and its refolding is strongly decelerated. The folding process is finished only after several days. During renaturation, an intermediate is populated, in which the longer of the two polypeptide chains forms a homodimer with a native-like subunit interface. The rate limiting step of renaturation is the association of the unfolded short chain with this dimer.

Life sciences

Functional Significance of Multiple Poly(A) Polymerases (PAPs)

Nordvarg, Helena

January 2002

3’ end cleavage and polyadenylation are important steps in the maturation of eukaryotic mRNAs. Poly(A) polymerase (PAP), the enzyme catalysing the addition of adenosine residues, exists in multiple isoforms. In this study the functional significance of multiple poly(A) polymerases have been investigated. It is concluded (i) that at least three mechanisms generate the multiple isoforms i.e. gene duplication, post-translational modification and alternative mRNA processing and (ii) that the different isoforms of poly(A) polymerases have different catalytic properties. The study highlights regulation of poly(A) polymerase activity through modulation of its affinity for the substrate as visualised by the KM parameter. We suggest that trans-acting factors modulating the KM of poly(A) polymerase will play important roles in regulating its activity. A new human poly(A) polymerase (PAPγ) encoded by the PAPOLG gene was identified. PAPγ is 65% homologous to the previously identified PAP. In human cells three isoforms of poly(A) polymerases being 90, 100 and 106 kDa in sizes are present. These native isoforms were purified. The PAPOLA gene encoded the 100 and 106 kDa isoforms while the 90 kDa isoform was encoded by the PAPOLG gene. Native PAPγ was found to be more active than 100 kDa PAP while the hyperphosphorylated 106 kDa PAP isoform was comparably inactive due to a 500-fold decrease in affinity for the RNA substrate. The PAPOLG gene was shown to encode one unique mRNA while the PAPOLA gene generated five different PAP mRNAs by alternative splicing of the last three exons. The PAPOLA encoded mRNAs were divided into two classes based on the composition of the last three exons. Poly(A) polymerases from the two classes were shown to differ in polyadenylation activities. These differences revealed two novel regulatory motifs in the extreme C-terminal end of PAP, one being inactivating and the other activating for polyadenylation activity.

Genetics

poly(A) polymerase

PAP

phosphorylation

isoforms

alternative splicing

kinetic parameters

hyperphosphorylation

regulation

Genetik

Poly(A) polymeras

PAP

fosforylering

isoformer

alternativ splitsning

kinetiska parametrar

reglering

Clinical genetics

Klinisk genetik

Der Einfluss des Tau-Proteins auf die Morphologie von Nervenzellen

Barbu, Corina

28 November 2012

Tau ist ein Mikrotubuli-assoziiertes Protein, das die Polymerisation von Tubulin fördert und die Mikrotubuli stabilisiert. Folglich wird angenommen, dass Tau essentiell für die neuronale Morphogenese ist, vor allem für die Axonenausbildung und -aufrechterhaltung. Mittels tangentieller Nissl-gefärbter Schnitte von Mäusegehirnen konnte in der vorliegenden Arbeit gezeigt werden, dass Tau-knockout Mäuse die regelhafte thalamokortikale Barthaar-projektion („Barrel“ Konfiguration) entwickeln. Der Einfluss von Tau auf die Entstehung von Dendriten wurde anhand von Golgi-gefärbten Präparaten untersucht. Die Sholl-Analyse der gefärbten CA1-Pyramidenzellen zeigte, dass die Komplexität apikaler Dendriten durch das Fehlen von Tau reduziert wurde, während die Basaldendriten unbeeinflusst blieben. Das Tau-Protein scheint demzufolge unwesentlich für die Entstehung von axonalen Verbindungen im embryonalen Gehirn zu sein, ist aber beteiligt an der Steuerung des dendritischen Verzweigungsmusters. Ferner wurde beobachtet, dass sowohl die adulte Neurogenese, als auch die Mikrotubuli-Stabilität in den Apikal- und Basaldendriten und die Synapsen von dem Fehlen des Tau-Proteins unbeeinflusst blieben. In primären Zellkulturen aus dem Kleinhirn von Tau-knockout und Tau-wildtyp Mäusen konnten zwischen den zwei Genotypen keine signifikanten Unterschiede in der Länge oder im Verzweigungsmuster der Dendriten und der Axone von Körnerzellen beobachtet werden. Die Untersuchung der Effekte einzelner Tau-Isoformen auf die Morphologie von N2A-Zellen zeigte, dass es Unterschiede sowohl zwischen Tau-defizienten und Tau-positiven Zellen, als auch zwischen Zellen mit den verschiedenen Tau-Isoformen gibt. Das Tau-Protein übt demnach in vivo einen wichtigen Einfluss auf die Morphologie der Nervenzellen und besonders der Dendriten aus, welcher in vitro weiter analysiert wurde.

Tau

knockout

Hippocampus

CA1 Pyramidenzellen

Isoforme

Neurogenese

Mikrotubuliassoziierte Proteine

Tau

knockout

Hypocampus

CA1 cells

neurogenesis

isoforms

microtubuli associated proteins

ddc:610

Study On The Molecular Basis Of Individual Variation In Spatial Memory In Rats

Gokcek Sarac, Cigdem

01 June 2012

Despite very extensive studies related to molecular processes underlying memory formation, still little known about the potential differences in the brain biochemistry between &ldquo / good&rdquo / and &ldquo / poor&rdquo / learners belonging to a random population of young animals. In the present study, an attempt was taken to correlate the individual variation in short- and long-term spatial memory in three different lines of young, healthy rats: inbred Wistar (W), outcrossed Wistar/Spraque Dawley (W/S) and pigmented Long-Evans rats, with hippocampal levels of selected enzymes known as &ldquo / memory molecules&rdquo / including neuronal (n), endothelial (e) and inducible (i) NOS, CaMKII&alpha / , PKA and ChAT. Additionally, in order to indirectly estimate the activity of CaMKII&alpha / and PKA, hippocampal levels of their phosphorylated forms (pCaMKII&alpha / and pPKA) were assessed. Rats were classified as &ldquo / good&rdquo / and &ldquo / poor&rdquo / learners on the basis of their performance in a partially baited 12-arm radial maze. The hippocampal protein levels were measured using Western Blot technique. In addition to individual variation in animals&rsquo / learning capacity, strain-depended differences have also been observed. Deficient performance recorded in inbred W rats compared to outcrossed W/S rats, and &ldquo / poor&rdquo / learners from both rat groups had predominantly related to the higher frequency of reference memory errors. The results of biochemical assays showed strain-depended differences in the NOS expression. The overall NOS levels were significantly higher in outcrossed W/S rats compared to inbred W rats. In both rat lines, the rate of learning positively correlated with hippocampal levels of nNOS and negatively correlated with iNOS levels. Hippocampal eNOS levels correlated negatively with animals&rsquo / performance but only in the W rats. These results suggested that all 3 NOS isoforms are implemented in the learning process playing, however, different roles in neural signaling. Experiments carried out on Long-Evans rats did not reveal a significant difference in the basal hippocampal levels of the CaMKII&alpha / , however, the level of the pCaMKII&alpha / , was significantly higher in &ldquo / good&rdquo / learners. Also, hippocampal levels of both PKA and pPKA, as well as that of ChAT were significantly higher in &ldquo / good&rdquo / as compared to &ldquo / poor&rdquo / learners. Taken together, the latter findings indicate that low hippocampal expression of PKA and ChAT as well as low CaMKII&alpha / or PKA activation may cause learning deficits in random population of young rats, and thus, these enzymes can be considered target molecules when looking for cognitive enhancers to treat memory deficits in young subjects.

, pCaMKII&alpha

, PKA, pPKA, ChAT, Rats

Progesterone Receptor Isoforms : functional Selectivity and Pharmacological Targeting

Khan, Junaid Ali

06 October 2011

Progesterone receptor (PR) is an essential pharmacological target for contraception, female reproductive disorders as well as for hormone-dependent breast and uterine cancers. Human PR is expressed as two major isoforms PRA and PRB which behave as distinct transcriptional factors. PRA vs PRB expression is often altered under pathological conditions notably breast cancer through unknown mechanisms. In this thesis we demonstrate that down-regulations of PRB and PRA proteins are negatively controlled by key phosphorylation events involving distinct MAP kinase signaling. PRA is selectively stabilized by p38 MAPK whereas p42/44 MAPK specifically controls PRB stability leading to unbalanced PRA/PRB ratios in a ligand sensitive manner. In cancer cells, elevated extracellular stimuli such as epidermal growth factors or pro-inflammatory cytokines that preferentially activate p42/44 or p38 MAPK respectively may result in opposite variations in PRA/PRB expression ratio. These results may explain altered PRA/PRB ratios often associated with breast tumors. To get a mechanistic understanding of how varied PRA/PRB ratio contributes in cell signaling, we generated an original bi-inducible PR-isoform cell model allowing selective, reversible and dose-dependent expression of PRA and/or PRB, enabling fine-tune adjustment of PRA/PRB ratio in the same cells. Using this cell-based system, we undertook genome-wide transcriptomic studies to investigate transcriptional regulation driven by unliganded and liganded PR isoforms. We report that several aspects of PR signaling such as target gene selection/transcriptional regulation, cross-talk with growth factors and antiproliferative efficacy of antiprogestin are highly dependent upon variation in PRA/PRB ratio. A new potential therapeutic strategy in PR-dependent pathological conditions may rely on the use of PR antagonists. Most of the currently available antiprogestins such as mifepristone present partial agonist activity and are not selective to PR leading to undesirable side effects. Therefore, in a collaborative project we have synthesized and characterized several new PR antagonist compounds named as APRn. Structure-activity relationship studies allowed identification of the key substitutions in steroidal skeleton responsible for agonist/antagonist character of these molecules. Several selected APRn lack partial agonist effect, are PR specific and inhibit PR transcriptional properties through a new passive mechanism of action i.e. impaired recruitment of transcriptional coregulators. Such PR selective antagonists devoid of partial agonist character might provide important therapeutic perspectives for various reproductive tract abnormalities and hormone-dependent uterine and breast cancers. Altogehter, our results provide mechanistic insights into the functional selectivity of PR isoforms and their pharmacological targeting by the use of PR antagonists.

Progesterone

Progesterone receptor isoforms

PRA/PRB ratio

Antiprogestins

Transcription