Controlling cytokinesis in the fission yeast Schizosaccharomyces pombe : the role of dma1; and ubc8

ABSTRACT The fission yeast Schizosaccharomyces pombe is a single celled eukaryote that has proved to be an excellent model system for the study of cell cycle control. S. pombe cells are rod shaped and grow mainly by elongation at their tips. They divide by formation of medially-placed cell wall, or septum, which cleaves the cell in two. Once the cell commits itself to mitosis the site of division is determined by formation of an acto-myosin based contractile ring at the cell cortex. The ring is assembled in stages throughout mitosis and contracts at the end of anaphase, coincident with spindle disassembly. The contraction, but not the assembly, of the ring requires the signal transduction network called the septation initiation network or SIN. The core components of the SIN are three protein kinases (cdc7p, sidl p and sid2p) and their regulatory subunits (spg1 p, cdcl4p and moblp, respectively). Signalling is dependent upon the nucleotide status of the GTPase spgl p, which is regulated by a two-component GAP protein, cdc16p-byr4p. Signalling is thought to emanate from the spindle pole body, where core SIN components are anchored to a scaffold comprised of sid4p and cdc11p. Activation of the SIN requires the protein kinase plolp, which also has additional roles in mitosis. SIN signalling is tightly regulated to assure the proper co-ordination of mitosis and cytokinesis. Ectopic activation of the SIN in interphase can uncouple septum formation from mitosis, while deregulated SIN signalling leads to formation of cells with multiple septa that do not cleave. Regulators of SIN activity are therefore of considerable interest. This study has concentrated upon two of these, dma1 and ubc8. I have demonstrated that dmal becomes essential when SIN signalling is activated. This leads me to propose a tripartite model for regulation of the SIN during the mitotic cell cycle. Increased expression of dma1 inhibits SIN signalling and prevents cell division. To identify potential targets and mediators of this, multicopy suppressors of dma1 toxicity were identified. One of these, ubc8, is the subject of this thesis. Genetic and molecular analyses are consistent with the view that ubc8p acts as an inhibitor of the SIN Localisation of ubc8p indicates that it is a nuclear protein. The ubc8 gene is not essential, but in its absence cells are unable to prevent septum formation if progression through mitosis is impaired. These data suggest that it may be an effector of the spindle assembly checkpoint. Together, these data shed new light upon the mechanisms by which cytokinesis is regulated in S. pombe. RESUME La levure Schizosaccharomyces pombe est un eucaryote unicellulaire qui est un bon système d'étude du cycle cellulaire. Les cellules de S. pombe sont en forme de bâtonnets et poussent par allongement aux deux bouts. Elles se divisent en formant une paroi au milieu de la cellule, qui s'appelle un septum et qui sépare la cellule en deux. Une fois que la cellule est engagée dans la mitose, le site de clivage est déterminé par la formation d'un anneau contractile d'acto-myosine au niveau du cortex cellulaire. Cet anneau est séquentiellement assemblé au cours de la mitose et se contacte à la fin de l'anaphase, au moment où le fuseau mitotique et désassemblé. La contraction, mais non pas l'assemblage, de l'anneau dépend d'un réseau de signalisation appelé septation initiation netvvork' ou SIN. Les composants centraux du SIN sont trois kinases (cdc7, sidi et sid2) ainsi que leurs sous-unités régulatrices (spgl, cdc14 et mob1, respectivement). La signalisation dépend du nucléotide rattaché à la GTPase spgl qui est régulée par une GAP comprenant deux sous-unités cdc16 et byr4. La signalisation est présumée provenir du pôle du fuseau où les composants centraux du SIN sont ancrés grâce à un échafaudage comprenant sid4 et cdcl 1. La signalisation est étroitement régulée pour assurer une bonne coordination entre mitose et cytokinèse. Une activation ectopique du SIN en interphase peut découpler la formation du septum de la mitose, engendrant des cellules à multiples septa qui ne sont pas clivés. C'est pourquoi les régulateurs du SIN sont d'un intérêt considérable. Cette étude se concentre autour de deux ces régulateurs, dma1 et ubc8. J'ai montré que dma1 devient essentiel quand la signalisation du SIN est activée. Ceci m'amène à proposer un modèle en trois parties pour la régulation du SIN durant la mitose. Une expression élevée de dma1 inhibe la signalisation du SIN et empêche la division cellulaire. Afin d'identifier des substrats ou médiateurs potentiels de la toxicité de dma1, des supresseurs en copies multiples ont été identifiés. Un de ces supresseurs, ubc8, constitue le deuxième sujet de cette thèse. Les études génétiques et moléculaires suggèrent un rôle inhibiteur du SIN par ubc8. Ubc8p est une protéine nucléaire, non essentielle, mais en son absence les cellules ne peuvent pas restreindre la fomation du septum, lorsque la progression de la mitose est perturbée. Les données suggèrent que ubc8 pourrait être un effecteur de point de contrôle de l'assemblage du fuseau mitotique. Prises dans leur ensemble, ces données apportent un nouvel éclairage sur les mécanismes de régulation de la cytokinèse dans S. pombe.

SOURCE, FATE AND FUNCTION OF EARLY GLIAL CELLS EXPRESSING NKX2.1 IN MOUSE EMBRYONIC BRAINS

The brain tissue is made of neuronal and glial cells generated in the germinal layer bordering the ventricles. These cells divide, differentiate and migrate following specific pathways. The specification of GABAergic interneurons and glutamatergic neurons has been broadly studied but little is known about the origin, the fate and the function of early glial cells in the embryonic telencephalon. It has been commonly accepted since long that the glial cells and more particularly the astrocytes were generated after neurogenesis from the dorsal telencephalon. However, our work shows that, unlike what was previously thought, numerous glial cells (astroglia and polydendrocytes) are generated during neurogenesis in the early embryonic stages from E14.5 to E16.5, and originate from the ventral Nkx2.1-expressing precursors instead. NK2 homeobox 1 (Nkx2.1) is a member of the NK2 family of homeodomaincontaining transcription factors. The specification of the MGE precursors requires the expression of the Nkx2.1 homeobox gene. Moreover, Nkx2.1 is previously known to regulate the specification of GABAergic interneurons and early oligodendrocytes in the ventral telencephalon. Here, in my thesis work, I have discovered that, in addition, Nkx2.1 also regulates astroglia and polydendrocytes differentiation. The use of Nkx2.1 antibody and Nkx2.1 riboprobe have revealed the presence of numerous Nkx2.1-positive cells that express astroglial markers (like GLAST and GFAP) in the entire embryonic brain. Thus, to selectively fate map MGE-derived GABAergic interneurons and glia, we crossed Nkx2.1-Cre mice, Glast-Cre ERT+/- inducible mice and NG2-Cre mice with the Cre reporter Rosa26-lox-STOP-lox-YFP (Rosa26-YFP) mice. The precise origin of Nkx2.1-positive astroglia has been directly ascertained by combining glial immunostaining and focal electroporation of the pCAG-GS-EGFP plasmids into the subpallial domains of organotypic slices, as well as, by using in vitro neurosphere experiments and in utero electroporation of the pCAG-GS-tomato plasmid into the ventral pallium of E14.5 Nkx2.1-Cre+/Rosa-YFP+/- embryos. We have, thus, confirmed that the three germinal regions of the ventral telencephalon i.e. the MGE, the AEP/POA and the triangular septal nucleus are able to generate early astroglial cells. Moreover, immunohistochemistry for several astroglial cells and polydendrocyte markers, both in the Nkx2.1-/- and control embryos and in the neurospheres, has revealed a severe loss of both glial cell types in the Nkx2.1 mutants. We found that the loss of glia corresponded to a decrease of Nkx2.1-derived precursor division capacity and glial differentiation. There was a drastic decrease of BrdU+ dividing cells labeled for Nkx2.1 in the MGE*, the POA* and the septal nucleus* of Nkx2.1 mutants. In addition, we noticed that while some remaining Nkx2.1+ precursors still succeeded to give rise to post-mitotic neurons in vitro and in vivo in the Nkx2.1-/-, they completely lost the capacity to differentiate in astrocytes. Altogether, these observations indicate for the first time that the transcription factor Nkx2.1 regulates the proliferation and differentiation of precursors in three subpallial domains that generate early embryonic astroglia and polydendrocytes. Furthermore, in order to investigate the potential function of these early Nkx2.1- derived glia, we have performed multiple immunohistochemical stainings on Nkx2.1-/- and wild-type animals, and Nkx2.1-Cre mice that were crossed to Rosa-DTA+/- mice in which the highly toxic diphtheria toxin aided to selectively deplete a majority of the Nkx2.1-derived cells. Interestingly, in these two mutants, we observed a drastic and significant loss of GFAP+, GLAST+, NG2+ and S100ß+ astroglial cells at the telencephalic midline and in the medial cortical areas. This cells loss could be directly correlated with severe axonal guidance defects observed in the corpus callosum (CC), the hippocampal commissure (HIC), the fornix (F) and the anterior commissure (AC). Axonal guidance is a key step allowing neurons to form specific connections and to become organized in a functional network. The contribution of guidepost cells inside the CC and the AC in mediating the growth of commissural axons have until now been attributed to specialized midline guidepost astroglia. Previous published results in our group have unravelled that, during embryonic development, the CC is populated in addition to astroglia by numerous glutamatergic and GABAergic guidepost neurons that are essential for the correct midline crossing of callosal axons. Therefore, the relative contribution of individual neuronal or glial populations towards the guidance of commissural axons remains largely to be investigated to understand guidance mechanisms further. Thus, we crossed Nkx2.1-Cre mice with NSE-DTA+/- mice that express the diphtheria toxin only in neurons and allowed us to selectively deplete Nkx2.1-derived GABAergic neurons. Interestingly, in the Nkx2.1-/- mice, the CC midline was totally disorganized and the callosal axons partly lost their orientation, whereas in the Nkx2.1Cre+/Rosa-DTA+/- and the Nkx2.1Cre+/NSE-DTA+/- mice, the axonal organization of the CC was not affected. In the three types of mice, hippocampal axons of the fornix were not properly fasciculated and formed disoriented bundles through the septum. Additionally, the AC formation was completely absent in Nkx2.1-/- mice and the AC was divided into two/three separate paths in the Nkx2.1Cre+/Rosa-DTA+/- mice that project in wrong territories. On the other hand, the AC didn't form or was reduced to a relatively narrower tract in the Nkx2.1Cre+/NSE-DTA+/- mice as compared to wild-type AC. These results clearly indicate that midline Nkx2.1-derived cells play a major role in commissural axons pathfinding and that both Nkx2.1-derived guidepost neurons and glia are necessary elements for the correct development of these commissures. Furthermore, during our investigations on Nkx2.1-/- and Nkx2.1Cre+/Rosa-DTA+/- mice, we noticed similar and severe defects in the erythrocytes distribution and the blood vessels network morphology in the embryonic brain of both mutants. As the Cre-mediated recombination was never observed to occur in the blood vessels of Nkx2.1-Cre mice, we inferred that the vessels defects observed were due to the loss of Nkx2.1-derived cells and not to the cells autonomous effects of Nkx2.1 in regulating endothelial cell precursors. Thereafter, the respective contribution of individual Nkx2.1-regulated neuronal or glial populations in the blood vessels network building were studied with the use of transgenic mice strains. Indeed, the use of Nkx2.1Cre+/NSE-DTA+/- mice indicated that the Nkx2.1-derived neurons were not implicated in this process. Finally, to discriminate between the two Nkx2.1-derived glial cell populations, the GLAST+ astroglia and the NG2+ polydendrocytes, an NG2-Cre mouse strain crossed to the Rosa-DTA+/- mice was used. In that mutant, the blood vessel network and the erythrocytes distribution were similarly affected as observed in Nkx2.1Cre+/Rosa-DTA+/- animals. Therefore, this result indicates that most probably, the NG2+ polydendrocytes are involved in helping to build the vessels network in the brain. Taken altogether, these observations show that during brain development, Nkx2.1- derived embryonic glial cells act as guidepost cells on the guidance of axons as well as forming vessels. Both Nkx2.1-regulated guidepost GABAergic neurons and glia collaborate to guide growing commissural axons, while polydendrocytes are implicated in regulating brain angiogenesis. - Le tissu cérébral est composé de cellules neuronales et gliales générées dans les couches germinales qui bordent les ventricules. Ces cellules se divisent, se différencient et migrent selon des voies particulières. La spécification des interneurones GABAergiques et des neurones glutamatergiques a été largement étudiée, par contre, l'origine, le destin et la fonction des cellules gliales précoces du télencéphale embryonnaire restent peu élucidées. Depuis longtemps, il était communément accepté que les cellules gliales, et plus particulièrement les astrocytes, sont générés après la neurogénèse à partir du télencéphale dorsal. Toutefois, notre travail montre que de nombreuses cellules gliales sont générées à partir de précurseurs ventraux qui expriment le gène Nkx2.1, entre E14.5 et E16.5, c'est-à dire,à des stades embryonnaires très précoces. Le gène NK2 homéobox 1 (Nkx2.1) appartient à une famille de facteurs de transcription appelée NK2. Il s'agit de protéines qui contiennent un homéo-domaine. La spécification des précurseurs de la MGE requiert l'expression du gène homéobox Nkx2.1. De plus, la fonction du gène Nkx2.1 dans la régulation de la spécification des interneurones GABAergiques et des oligodendrocytes dans le télencéphale ventral était déjà connue. Au cours de mon travail de thèse, j'ai également mis en évidence que, Nkx2.1 régule aussi les étapes de prolifération et de différenciation de divers sous-types de cellules gliales soit de type astrocytes ou bien polydendrocytes. L'utilisation d'un anticorps contre la protéine Nkx2.1 ainsi qu'une sonde à ribonucléotides contre l'ARN messager du gène Nkx2.1 ont révélé la présence de nombreuses cellules positives pour Nkx2.1 qui exprimaient des marqueurs astrocytaires (comme GLAST et GFAP) dans le télencéphale embryonnaire. Afin de déterminer de manière sélective le sort des interneurones GABAergiques, des polydendrocytes et des astrocytes dérivés de la MGE, nous avons croisé soit des souris Nkx2.1-Cre, des souris Glast-Cre ERT+/- inductibles ou bien des souris NG2-Cre avec des souris Rosa26-lox-STOP-lox-YFP (Rosa26-YFP) Cre rapportrices. L'origine précise des astroglies positives pour Nkx2.1 a été directement établie en combinant une coloration immunologique pour les glies et une électroporation focale d'un plasmide pCAG-GS-EGFP dans les domaines subpalliaux de tranches organotypiques, puis également, par des cultures de neurosphères in vitro et des expériences d'électroporation in utero d'un plasmide pCAG-GS-tomato dans le pallium ventral d'embryons Nkx2.1-Cre+/Rosa- YFP+/- au stade E14.5. Nous avons donc confirmé que les trois régions germinales du télencéphale ventral, c'est-à-dire, la MGE, l'AEP/POA et le noyau triangulaire septal sont capables de générer des cellules astrogliales. D'autre part, l'immunohistochimie pour plusieurs marqueurs d'astrocytes ou de polydendrocytes, dans les embryons Nkx2.1-/- et contrôles ainsi que dans les neurosphères, a révélé une sévère perte de ces deux types gliaux chez les mutants. Nous avons trouvé que la perte de glies correspondait à une diminution de la capacité de division des précurseurs dérivés de Nkx2.1, ainsi que l'incapacité de ces précurseurs de se différencier en cellules gliales. Nous avons en effet observé une diminution importante des cellules BrdU+ en division exprimant Nkx2.1dans la MGE*, la POA* et le noyau septal* des mutants pour Nkx2.1. D'autre part, nous avons pu mettre en évidence aussi bien in vitro, qu'in vivo, que certains précurseurs Nkx2.1+ chez le mutant gardent la capacité à se différencier en neurones tandis qu'ils perdent celle de se différencier en cellules gliales. Prises dans leur ensemble, ces observations indiquent pour la première fois que le facteur de transcription Nkx2.1 régule les étapes de prolifération et de différentiation des précurseurs des trois domaines subpalliaux qui génèrent les astroglies et polydendrocytes embryonnaires précoces. Par la suite, dans le but de comprendre la fonction potentielle de ces glies précoces, nous avons procédé à de multiples colorations immunohistochimiques sur des animaux Nkx2.1-/- et sauvages, ainsi que sur des souris Nkx2.1-Cre croisées à des souris Rosa-DTA+/- dans lesquelles la toxine diphthérique hautement toxique a permis de supprimer sélectivement la majorité des cellules dérivées de Nkx2.1. De manière intéressante, nous avons observé dans ces deux mutants, une perte drastique et significative de cellules astrogliales GFAP+, GLAST+ et polydendrocytaires NG2+ et S100ß+ dans le télencéphale, à la midline et dans les aires corticales médianes. Ces pertes ont pu être directement corrélées avec des défauts de guidage axonal observés dans le corps calleux (CC), la commissure hippocampique (HIC), le fornix (F) et la commissure antérieure (AC). Le guidage axonal est une étape clé permettant aux neurones de former des connections spécifiques et de s'organiser dans un réseau fonctionnel. La contribution des cellules « guidepost » dans le CC et dans la AC comme médiateurs de la croissance des axones commissuraux à jusqu'à aujourd'hui été attribuée spécifiquement à des astroglies « guidepost » de la midline. Des résultats publiés précédemment dans notre groupe, ont permis de montrer que, pendant le développement embryonnaire, le CC est peuplé en plus de la glie par de nombreux neurones « guidepost » glutamatergiques et GABAergiques qui sont essentiels pour le croisement correct des axones callosaux à la midline. Ainsi, la contribution relative des populations individuelles neuronales ou gliales pour le guidage des axones commissuraux demande à être approfondie afin de mieux comprendre les mécanismes de guidage. A ces fins, nous avons croisé des souris Nkx2.1-Cre avec des souris NSE-DTA+/- qui expriment la toxine diphthérique uniquement dans les neurones et ainsi, nous avons pu sélectivement supprimer les neurones dérivés de domaines Nkx2.1+. Dans les souris Nkx2.1-/-,nous avons découvert que le CC était désorganisé avec des axones callosaux perdant partiellement leur orientation, alors que dans les souris Nkx2.1Cre+/Rosa-DTA+/- et Nkx2.1Cre+/NSE-DTA+/-, l'organisation axonale n'était pas affectée. De plus, les faisceaux hippocampiques du fornix étaient défasciculés dans les trois types de mutants. Par ailleurs, la formation de la commissure antérieure (AC) était complètement absente dans les souris Nkx2.1-/- d'une part, et d'autre part, celle-ci était divisée en deux à trois voies séparées dans les souris Nkx2.1Cre+/Rosa-DTA+/-. Finalement, la AC était soit absente, soit réduite de manière ne former plus qu'un faisceau relativement plus étroit dans les souris Nkx2.1Cre+/NSE-DTA+/- en comparaison avec la AC sauvage. Ces derniers résultats indiquent clairement que les cellules dérivées de Nkx2.1 à la midline, jouent un rôle majeur dans le guidage des axones commissuraux et que, autant les neurones, que les astrocytes « guidepost » dérivés de Nkx2.1, sont des éléments nécessaires au développement correct de ces commissures. En outre, lors de nos investigations sur les souris Nkx2.1-/- et Nkx2.1Cre+/Rosa-DTA+/-, nous avons remarqués des défauts sévères et similaires dans la distribution des erythrocytes et dans la morphologie du réseau de vaisseaux sanguins dans le cerveau embryonnaire des deux mutants précités. Puisque nous n'avons jamais observé de recombinaison de la Cre recombinase dans les vaisseaux sanguins des souris Nkx2.1Cre, nous en avons déduit que les défauts de vaisseaux observés étaient dus à la perte de cellules dérivées de Nkx2.1. Il existerait donc en plus de la fonction cellulaire autonome de Nkx2.1 reconnue pour régulée directement la spécification des cellules endothéliales, une fonction indirecte de Nkx2.1. Afin de déterminer la contribution respective des populations individuelles neuronales ou gliales régulées par Nkx2.1 dans la construction du réseau de vaisseaux sanguins, nous avons utilisé diverses lignées de souris transgéniques. L'utilisation de souris Nkx2.1Cre+/NSE-DTA+/- a indiqué que les neurones dérivés de Nkx2.1 n'étaient pas impliqués dans ce processus. Finalement, afin de discriminer entre les deux populations de cellules gliales dérivées de Nkx2.1, les astroglies et les polydendrocytes, nous avons croisé une lignée de souris NG2-Cre avec des souris Rosa-DTA+/-. Dans ce dernier mutant, le réseau de vaisseaux sanguins du cortex ainsi que la distribution des erythrocytes étaient affectés de la même manière que dans le cortex des souris Nkx2.1Cre+/Rosa-DTA+/-. Par conséquent, ce résultat indique que très probablement, les polydendrocytes NG2+ sont impliqués dans la mise en place du réseau de vaisseaux dans le cerveau. Prises dans leur ensemble, ces observations montrent que durant le développement embryonnaire du cerveau, des sous-populations de glies régulées par Nkx2.1 jouent un rôle de cellules « guidepost » dans le guidage des axones, ainsi que des vaisseaux. Les polydendrocytes sont impliquées dans la régulation de l'angiogenèse tandis que, autant les neurones GABAergiques que les astrocytes collaborent dans le guidage des axones commissuraux en croissance.

The transventricular-transseptal access to the aortic root : a new route for extrapleural trans-catheter aortic stent-valve implantation

Rapport de synthèseObjectif: le remplacement valvulaire aortique par voie transcathétère est, actuellement, une méthode fiable indiquée pour des patients à haut risque porteurs d'une sténose valvulaire aortique. La voie transfémorale est utilisable seulement en cas d'absence de maladie vasculaire et la voie transapicale est contrindiquée en cas de dysfonction pulmonaire chronique sévère. Une alternative pour ne pas passer a travers l'espace pleural serait par voie sous- xiphoïdienne et trans-septale à travers le ventricule droit.Méthode: une expérience animale a été amené au laboratoire de recherche du CHUV. Cinq cochons (poids : 52.3±10.9 kg) ont été endormi et, sous anesthésie générale, le ventricule droit a été préparé a travers un accès sous- xiphoïdien. Ensuite, sous guide fluoroscopique et avec l'utilisation d'une échocardiographie intracardiaque, un accès trans-septal a été crée entre le ventricule droit et le ventricule gauche en utilisant des dilatateur de diamètre croissant (de 8F à 26F). Par la suite, une valve stentée crée dans le laboratoire en utilisant un stent en nitinol et du péricarde a été chargé dans une cartouche et introduite dans le ventricule gauche à travers un introducteur trans-septal. Enfin, la valve a été amené dans la chambre de chasse du ventricule gauche et ensuite dans la racine aortique et puis déployé au bon endroit. Quand le système a été retiré, le septum ventriculaire a pu être réparé par mise en place d'un système d'occlusion septal Amplazer. Trente minutes après la procédure, les animaux ont été sacrifié et le coeur a été analysé pour étudier le positionnement da la valve stentée, l'efficacité de la fermeture du septum inter-ventriculaire et la fermeture de la paroi du ventricule droit.Résultat : les cinq cochon ont tous eu un parfait positionnement et pose de la prothèse en position aortique au premier essai (efficacité 100%). Les procédures ont duré, moyennement, 49±4 minutes et la progressive dilatation de l'accès trans-septale à donné lieu à une communication inter-ventriculaire mesurable après dilatation avec du 18F et plus. Toutes les valves stentées ont été déployées au bon endroit avec un bon résultat du fonctionnement des valves prothétiques et absence d'insuffisance para prothétique. Pendant les procédures, des battement prématurés ainsi que des épisodes isolées de tachycardie supra ventriculaire ont été détectés. Par contre, il n'y a pas eu de bloc atrio-ventriculaire. Les pertes sanguines pendant les procédures étaient de 280±10mL, et les systèmes d'occlusion Amplatzer étaient tous bien déployés sans shunts inter-ventriculaires résiduels.Conclusion: la technique d'introduction de valve stentées par voie extrapleural (trans-ventriculaire et trans-septale) est techniquement possible et elle jette les bases pour le remplacement valvulaire aortique trans-ventriculaire sous anesthésie locale.

FtsZ-independent septal recruitment and function of cell wall remodelling enzymes in chlamydial pathogens.

The nature and assembly of the chlamydial division septum is poorly defined due to the paucity of a detectable peptidoglycan (PG)-based cell wall, the inhibition of constriction by penicillin and the presence of coding sequences for cell wall precursor and remodelling enzymes in the reduced chlamydial (pan-)genome. Here we show that the chlamydial amidase (AmiA) is active and remodels PG in Escherichia coli. Moreover, forward genetics using an E. coli amidase mutant as entry point reveals that the chlamydial LysM-domain protein NlpD is active in an E. coli reporter strain for PG endopeptidase activity (ΔnlpI). Immunolocalization unveils NlpD as the first septal (cell-wall-binding) protein in Chlamydiae and we show that its septal sequestration depends on prior cell wall synthesis. Since AmiA assembles into peripheral clusters, trimming of a PG-like polymer or precursors occurs throughout the chlamydial envelope, while NlpD targets PG-like peptide crosslinks at the chlamydial septum during constriction.

Anorectal Malformations: Finding the Pathway out of the Labyrinth.

Anorectal malformations (ARMs) are a complex group of congenital anomalies involving the distal anus and rectum, as well as the urinary and genital tracts in a significant number of cases. Most ARMs result from abnormal development of the urorectal septum in early fetal life. In most cases, the anus is not perforated and the distal enteric component ends blindly (atresia) or as a fistula into the urinary tract, genital tract, or perineum. ARMs are also present in a great number of syndromes and associations of congenital anomalies. The classification of ARMs is mainly based on the position of the rectal pouch relative to the puborectal sling, the presence or absence of fistulas, and the types and locations of the fistulas. All of this information is crucial in determining the most appropriate surgical approach for each case. Imaging studies play a key role in evaluation and classification of ARMs. In neonates, clinical and radiologic examinations in the first 3 days of life help determine the type of ARM and the need for early colostomy. In older children, preoperative pelvic magnetic resonance imaging is the most efficient diagnostic method for evaluating the size, morphology, and grade of development of the sphincteric musculature.

Genetic interactions in the control of septation in Schizosaccharomyces pombe.

We have used genetic and molecular techniques to investigate the interactions among genes required for the initiation and regulation of septum formation in Schizosaccharomyces pombe. Our data suggest that the products of the cdc7, cdc11, cdc14 and cdc16 genes interact. These activities may regulate the function of the cdc15 gene product. A model for the control of septation in fission yeast is presented.

Prise en charge des endométriomes et de l'endométriose recto-vaginate et vésicate [Management of endometrioma, recto-vaginal and bladder endometriosis].

Endometriosis is a frequent, benign, chronic disease associated with pain and/or infertility. Classically the lesions are found on the pelvic peritoneum, ovary (endometrioma), rectovaginal septum and bladder. Management of endometrioma has evolved over the last few years to individualised treatment. Indeed endometrioma cystectomy can decrease pain and the risk of recurrence but is also associated with a decrease in ovarian reserve. A multi-disciplinary team should manage recto-vaginal or bladder endometriosis. Surgical resection of these lesions must be as complete as possible and can be complex.

Calcineurin-Mediated Regulation of Hyphal Growth, Septation, and Virulence in Aspergillus fumigatus.

Calcineurin is a heterodimeric protein phosphatase complex composed of catalytic (CnaA) and regulatory (CnaB) subunits and plays diverse roles in regulating fungal stress responses, morphogenesis, and pathogenesis. Fungal pathogens utilize the calcineurin pathway to survive in the host environment and cause life-threatening infections. The immunosuppressive calcineurin inhibitors (FK506 and cyclosporine A) are active against fungi, making calcineurin a promising antifungal drug target. Here, we review novel findings on calcineurin localization and functions in Aspergillus fumigatus hyphal growth and septum formation through regulation of proteins involved in cell wall biosynthesis. Extensive mutational analysis in the functional domains of A. fumigatus CnaA has led to an understanding of the relevance of these domains for the localization and function of CnaA at the hyphal septum. An evolutionarily conserved novel mode of calcineurin regulation by phosphorylation in filamentous fungi was found to be responsible for virulence in A. fumigatus. This finding of a filamentous fungal-specific mechanism controlling hyphal growth and virulence represents a potential target for antifungal therapy.

Angiotensinergic and noradrenergic neurons in the rat and human heart.

Although the physiological and pharmacological evidences suggest a role for angiotensin II (Ang II) with the mammalian heart, the source and precise location of Ang II are unknown. To visualize and quantitate Ang II in atria, ventricular walls and interventricular septum of the rat and human heart and to explore the feasibility of local Ang II production and function, we investigated by different methods the expression of proteins involved in the generation and function of Ang II. We found mRNA of angiotensinogen (Ang-N), of angiotensin converting enzyme, of the angiotensin type receptors AT(1A) and AT(2) (AT(1B) not detected) as well as of cathepsin D in any part of the hearts. No renin mRNA was traceable. Ang-N mRNA was visualized by in situ hybridization in atrial ganglial neurons. Ang II and dopamine-β-hydroxylase (DβH) were either colocalized inside the same neuronal cell or the neurons were specialized for Ang II or DβH. Within these neurons, the vesicular acetylcholine transporter (VAChT) was neither colocalized with Ang II nor DβH, but VAChT-staining was found with synapses en passant encircle these neuronal cells. The fibers containing Ang II exhibited with blood vessels and with cardiomyocytes supposedly angiotensinergic synapses en passant. In rat heart, right atrial median Ang II concentration appeared higher than septal and ventricular Ang II. The distinct colocalization of neuronal Ang II with DβH in the heart may indicate that Ang II participates together with norepinephrine in the regulation of cardiac functions: Produced as a cardiac neurotransmitter Ang II may have inotropic, chronotropic or dromotropic effects in atria and ventricles and contributes to blood pressure regulation.

Immediate improvement in coronary flow reserve after alcohol septal ablation in patients with hypertrophic obstructive cardiomyopathy.

OBJECTIVES: To examine whether percutaneous alcohol septal ablation affects coronary flow reserve (CFR) in patients with hypertrophic cardiomyopathy (HCM). METHODS: CFR was measured immediately before and after septal ablation in patients with symptomatic obstructive HCM. CFR was also obtained in normal subjects (NL) for comparison. RESULTS: Patients with HCM (n = 11), compared with NL (n = 22), had a lower mean (SD) baseline CFR (1.96 (0.5) vs 3.0 (0.7), p<0.001), a lower coronary resistance (1.04 (0.45) vs 3.0 (2.6), p = 0.002), a higher coronary diastolic/systolic velocity ratio (DSVR; 5.1 (3.0) vs 1.8 (0.5), p = 0.04) and a lower hyperaemic coronary flow per left ventricular (LV) mass (0.73 (0.4) vs 1.1 (0.6) ml/min/g, p = 0.007). Septal ablation in the HCM group (n = 7) reduced the outflow tract gradient but not the left atrial or LV diastolic pressures. Ablation resulted in immediate normalisation of CFR (to 3.1 (1), p = 0.01) and DSVR (to 1.9 (0.8), p = 0.09) and an increase in coronary resistance (to 1.91 (0.6), p = 0.02). This was probably related to an improvement in the systolic coronary flow. CONCLUSIONS: This study demonstrates that successful septal ablation in patients with symptomatic HCM results in immediate improvement in CFR, which is reduced in HCM partly because of the increased systolic contraction load.

Neurons in the corpus callosum of the cat during postnatal development.

The corpus callosum (CC) is a major telencephalic commissure containing mainly cortico-cortical axons and glial cells. We have identified neurons in the CC of the cat and quantified their number at different postnatal ages. An antibody against microtubule-associated protein 2 was used as a marker of neurons. Immunocytochemical double-labelling with neuron-specific enolase or gamma-aminobutyric acid antibodies in the absence of glial fibrillary acidic protein positivity confirmed the neuronal phenotype of these cells. CC neurons were also stained with anti-calbindin and anti-calretinin antibodies, typical for interneurons, and with an anti-neurofilament antibody, which in neocortex detects pyramidal neurons. Together, these findings suggest that the CC contains a mixed population of neuronal types. The quantification was corrected for double counting of adjacent sections and volume changes during CC development. Our data show that CC neurons are numerous early postnatally, and their number decreases with age. At birth, about 570 neurons are found within the CC boundaries and their number drops to about 200 in the adult. The distribution of the neurons within the CC also changes in development. Initially, many neurons are found throughout the CC, while at later ages they become restricted to the boundaries of the CC, and in the adult to the rostrum of the CC close to the septum pellucidum or to the indusium griseum. Although origin and function of transient CC neurons in development and in adulthood remain unknown, they are likely to be interstitial neurons. Some of them have well-developed and differentiated processes and resemble pyramidal cells or interneurons. An axon-guiding function during the early postnatal period can not be excluded.

Review: Contact sport-related chronic traumatic encephalopathy in the elderly: clinical expression and structural substrates.

A. Costanza, K. Weber, S. Gandy, C. Bouras, P. R. Hof, P. Giannakopoulos and A. Canuto (2011) Neuropathology and Applied Neurobiology37, 570-584 Contact sport-related chronic traumatic encephalopathy in the elderly: clinical expression and structural substrates Professional boxers and other contact sport athletes are exposed to repetitive brain trauma that may affect motor functions, cognitive performance, emotional regulation and social awareness. The term of chronic traumatic encephalopathy (CTE) was recently introduced to regroup a wide spectrum of symptoms such as cerebellar, pyramidal and extrapyramidal syndromes, impairments in orientation, memory, language, attention, information processing and frontal executive functions, as well as personality changes and behavioural and psychiatric symptoms. Magnetic resonance imaging usually reveals hippocampal and vermis atrophy, a cavum septum pellucidum, signs of diffuse axonal injury, pituitary gland atrophy, dilated perivascular spaces and periventricular white matter disease. Given the partial overlapping of the clinical expression, epidemiology and pathogenesis of CTE and Alzheimer's disease (AD), as well as the close association between traumatic brain injuries (TBIs) and neurofibrillary tangle formation, a mixed pathology promoted by pathogenetic cascades resulting in either CTE or AD has been postulated. Molecular studies suggested that TBIs increase the neurotoxicity of the TAR DNA-binding protein 43 (TDP-43) that is a key pathological marker of ubiquitin-positive forms of frontotemporal dementia (FTLD-TDP) associated or not with motor neurone disease/amyotrophic lateral sclerosis (ALS). Similar patterns of immunoreactivity for TDP-43 in CTE, FTLD-TDP and ALS as well as epidemiological correlations support the presence of common pathogenetic mechanisms. The present review provides a critical update of the evolution of the concept of CTE with reference to its neuropathological definition together with an in-depth discussion of the differential diagnosis between this entity, AD and frontotemporal dementia.

Ebstein's anomaly: one and a half ventricular repair.

Patients with Ebstein's anomaly can present after childhood or adolescence with cyanosis, arrhythmias, severe right ventricular dysfunction and frequently with left ventricular dysfunction secondary to the prolonged cyanosis and to the right ventricular interference. At this point conventional repair is accompanied by elevated mortality and morbidity and poor functional results. We report our experience with three patients (8, 16 and 35 years of age) with Ebstein's anomaly, very dilated right atrium, severe tricuspid valve regurgitation (4/4), bi-directional shunt through an atrial septal defect and reduced left ventricular function (mean ejection fraction = 58%, mean shortening fraction = 25%). All underwent one and a half ventricular repair consisting of closure of the atrial septal defect, tricuspid repair with reduction of the atrialised portion of the right ventricle and end-to-side anastomosis of the superior vena cava to the right pulmonary artery. All patients survived, with a mean follow-up of 33 months. In all there was complete regression of the cyanosis and of the signs of heart failure. Postoperative echocardiography showed reduced degree of tricuspid regurgitation (2/4) and improvement of the left ventricular function (mean ejection fraction = 77%, mean shortening fraction = 40%). In patients with Ebstein's anomaly referred late for surgery with severely compromised right ventricular function or even with reduced biventricular function, the presence of a relatively hypoplastic and/or malfunctioning right ventricular chamber inadequate to sustain the entire systemic venous return but capable of managing part of the systemic venous return, permits a one and a half ventricular repair with good functional results.

No association between herpes simplex virus 1 and cardiac myxoma.

PRINCIPLES: Cardiac myxoma is the most commonly diagnosed cardiac tumour. Infection of herpes simplex virus 1 (HSV1) has been postulated to be a factor for this pathologic entity. The aim of the current study was to evaluate the association between HSV 1 and myxoma occurrence.METHODS: Between 1965 and 2005, 70 patients (36 female, mean age: 52.6 years) underwent a resection of myxoma. Selected variables such as hospital mortality and morbidity were studied. A follow-up (FU; mean FU time: 138 +/- 83 months) was obtained (76% complete). Immunohistological studies with monoclonal antibodies against HSV type 1 were performed on tumour biopsies of 40 patients.RESULTS: The mean age was 53 +/- 16 years (range 23 to 84 years, 51% female). Of the investigated population, 31 (44%) were in New York Heart Association (NYHA) class III-IV. Mitral valve stenosis was identified in 14 patients (20%), and in 25 (36%) patients mitral valve was insufficient. During hospitalisation 3 patients suffered from a transient neurological disorder, and in addition to myxoma resection 18 (25.7%) patients had to undergo an additional intervention. The overall survival rate was 91% at 40 years. There was no early postoperative mortality in follow-up, although 4 patients died and 2 patients had been re-operated on for recurrent myxomas after 2 and 9 years. Immunohistology revealed no positive signals for HSV-1 antigens among the 40 analysed cases.CONCLUSION: Complete surgical resection, septum included, was the treatment of choice and mandatory to prevent relapse. Peri-operative morbidity and mortality over 40 years remained low, and no association between HSV infection and occurrence of cardiac myxoma was found.

Is our heart a well-designed pump? The heart along animal evolution.

A carrier system for gases and nutrients became mandatory when primitive animals grew larger and developed different organs. The first circulatory systems are peristaltic tubes pushing slowly the haemolymph into an open vascular tree without capillaries (worms). Arthropods developed contractile bulges on the abdominal aorta assisted by accessory hearts for wings or legs and by abdominal respiratory motions. Two-chamber heart (atrium and ventricle) appeared among mollusks. Vertebrates have a multi-chamber heart and a closed circulation with capillaries. Their heart has two chambers in fishes, three chambers (two atria and one ventricle) in amphibians and reptiles, and four chambers in birds and mammals. The ventricle of reptiles is partially divided in two cavities by an interventricular septum, leaving only a communication of variable size leading to a variable shunt. Blood pressure increases progressively from 15 mmHg (worms) to 170/70 mmHg (birds) according to the increase in metabolic rate. When systemic pressure exceeds 50 mmHg, a lower pressure system appears for the circulation through gills or lungs in order to improve gas exchange. A four-chamber heart allows a complete separation of systemic and pulmonary circuits. This review describes the circulatory pumping systems used in the different classes of animals, their advantages and failures, and the way they have been modified with evolution.