GTPases and the control of neuronal polarity.

Neurons are probably the most highly polarized cell type and typically develop a single axon and several dendrites. The establishment of a polarized morphology and the functional specialization of axonal and dendritic compartments are essential steps in the differentiation of neurons. Primary cultures of dissociated hippocampal neurons are a widely used system to study the development of neuronal differentiation. In this article, we will describe gain-of-function and loss-of-function approaches that allow us to analyze the role of GTPases in neuronal differentiation

The stimulation of dendrite growth by Sema3A requires integrin engagement and focal adhesion kinase.

The rate and direction of axon and dendrite growth depend on multiple guidance signals and growth factors. Semaphorin 3A (Sema3A) acts as a repellent for axons and attractant for dendrites. Here, we show that the requirement for integrin engagement distinguishes the response of axons and dendrites to Sema3A in hippocampal neurons. Sema3A promotes the extension of hippocampal dendrites by a pathway that requires focal adhesion kinase (FAK). The stimulation of dendrite growth and FAK phosphorylation by Sema3A depend on integrin engagement. Unlike their function as a target of Sema3A during the collapse of axonal growth cones, integrins facilitate the stimulation of dendrite extension. Conditional inactivation of the genes encoding beta1 integrin or FAK blocks the growth-promoting effect of Sema3A but not the collapse of axonal growth cones. Our results demonstrate that different pathways mediate the stimulation of dendrite growth and the collapse of axonal growth cones by Sema3A

Semaphorin 3A-mediated axon guidance regulates convergence and targeting of P2 odorant receptor axons

Semaphorins are known to play an important role in axon guidance of vertebrate olfactory sensory neurons to their targets in specific glomeruli of the olfactory bulb (OB). However, it is not clear how semaphorin-mediated guidance contributes to a systematic hierarchy of cues that govern the organization of this system. Because of the putative role that odorant receptor molecules such as P2 could play in establishing appropriate glomerular destinations for growing olfactory axons, we have also determined the spatial organization of P2 glomeruli in semaphorin 3A (Sema3A) mutant mice. First, in the postnatal OB of control and Sema3A(-/-) mice, we analysed the trajectories of olfactory axons that express the Sema3A receptor, neuropilin-1 (npn-1) and the positions of npn-1(+) glomeruli. Sema3A at the ventral OB midline guides npn-1(+) axons to targets in the lateral and medial OB. Absence of Sema3A permits many npn-1 axons to terminate aberrantly in the rostral and ventral OB. Second, in Sema3A(-/-) mice, many P2 axons are abnormally distributed throughout the ventral OB nerve layer and converge in atypical locations compared with littermate controls where P2 axons converge on stereotypically located lateral and medial glomeruli. In addition to their radically altered spatial distribution, P2 glomeruli in Sema3A(-/-) mice are significantly smaller and more numerous than in heterozygote littermates. These data show that Sema3A is an important repulsive olfactory guidance cue that establishes restricted npn-1(+) subcompartments in the olfactory bulb. Furthermore, Sema3A plays a key role in the convergence of axons expressing the odorant receptor P2 onto their appropriate targets

Influence of point mutations on the functionality of NK cells in interaction with Aspergillus fumigatus

Ziel der vorliegenden Arbeit war die Charakterisierung von Punktmutationen in ifng und ncam1 in Hinblick auf eine veränderte Funktionalität von NK-Zellen bei der Interaktion mit A. fumigatus. Die gewonnenen Erkenntnisse sollen langfristig zur Verbesserung der Diagnostik, Prophylaxe und Therapie einer Invasiven Aspergillose, die zum Beispiel im Rahmen einer Stammzelltransplantation auftreten könnte, beitragen. In dieser Arbeit wurde die DNA von zwanzig gesunden Spendern auf einen ifng-SNP (rs2069705) und einen ncam1-SNP (rs10502171) untersucht. Von je drei ausgewählten Spendern mit SNP und sechs Kontrollspendern wurden NK-Zellen isoliert. Diese wurden unstimuliert belassen, mit Interleukin 2/15 oder A. fumigatus stimuliert. Bei der Versuchsreihe zum ifng-SNP wurde eine qPCR zur Ermittlung der relativen Expression von ifng und ccl4, bei den Versuchen zum ncam1-SNP eine durchflusszytometrische Analyse zur Messung der Expression verschiedener Oberflächenmarker durchgeführt. Bei beiden wurde mittels ELISA die Freisetzung von IFN-gamma bzw. CCL4/MIP-1ß bestimmt. Die in dieser Arbeit gewonnenen Ergebnisse zum ifng-SNP lassen vermuten, dass das Vorliegen dieses ifng-SNP keine durch NK-Zellen vermittelten Auswirkungen auf das Risiko der Patienten, an einer Invasiven Aspergillose zu erkranken, hat. In Bezug auf den ncam1-SNP konnte die Hypothese bestätigt werden, dass der SNP die Interaktion zwischen der NK-Zelle und A. fumigatus verändert. Der SNP korreliert zwar mit einer erhöhten Grundaktivierung von NK-Zellen, jedoch auch mit einem schwächeren Aktivierungspotential bei Stimulation mit dem Pilz.The aim of this thesis was the characterization of point mutations in ifng and ncam1 with respect to an altered functionality of NK cells during interaction with A. fumigatus. In the long term, the findings should contribute to the improvement of the diagnosis, prophylaxis and therapy of invasive aspergillosis, which can occur, for example, after stem cell transplantation. In this work, the DNA of twenty healthy donors was examined for one ifng-SNP (rs2069705) and one ncam1-SNP (rs10502171). NK cells were isolated from three donors for each SNP and six control donors. These were left unstimulated, stimulated with interleukin 2/15 or A. fumigatus. In the ifng-SNP series qPCR was performed to determine the relative expression of ifng and ccl4, in the ncam1-SNP series flow cytometric analysis was performed to measure the expression of different surface markers. In both cases the release of IFN-gamma and CCL4/MIP-1ß was determined by ELISA. The results obtained in this study on ifng-SNP suggest that the presence of this ifng-SNP has no NK cell mediated effects on the risk of patients suffering from invasive aspergillosis. With regard to the ncam1-SNP, the hypothesis that the SNP alters the interaction between the NK cell and A. fumigatus was confirmed. The SNP correlates with an increased basic activation of NK cells, but also with a weaker activation potential when stimulated with the fungus

Regrowing the adult brain: NF-kappaB controls functional circuit formation and tissue homeostasis in the dentate gyrus

Imielski Y, Schwamborn JC, Lüningschrör P, et al. Regrowing the adult brain: NF-kappaB controls functional circuit formation and tissue homeostasis in the dentate gyrus. PLoS ONE. 2012;7(2): e30838.Cognitive decline during aging is correlated with a continuous loss of cells within the brain and especially within the hippocampus, which could be regenerated by adult neurogenesis. Here we show that genetic ablation of NF-kappaB resulted in severe defects in the neurogenic region (dentate gyrus) of the hippocampus. Despite increased stem cell proliferation, axogenesis, synaptogenesis and neuroprotection were hampered, leading to disruption of the mossy fiber pathway and to atrophy of the dentate gyrus during aging. Here, NF-kappaB controls the transcription of FOXO1 and PKA, regulating axogenesis. Structural defects culminated in behavioral impairments in pattern separation. Re-activation of NF-kappaB resulted in integration of newborn neurons, finally to regeneration of the dentate gyrus, accompanied by a complete recovery of structural and behavioral defects. These data identify NF-kappaB as a crucial regulator of dentate gyrus tissue homeostasis suggesting NF-kappaB to be a therapeutic target for treating cognitive and mood disorders