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Enantioselective carbon-carbon bond-forming reactions, particularly, using organocatalysts represent one of the most important areas in modern synthetic chemistry. New concepts and methods in organocatalysis are emerging continuously, allowing more selective, economically more appealing and environmentally friendlier transformations. Chiral Brønsted-acid catalysts have recently emerged as a new class of organocatalysts for a number of enantioselective carbon-carbon bond-forming reactions. The first part of this thesis focused on the new development of new Brønsted acid-catalyzed enantioselective Nazarov cyclizations. The Nazarov reaction belongs to the group of electrocyclic reactions and is one of the most versatile methods for the synthesis of five-membered rings, which are the key structural elements of numerous natural products. In general, the Nazarov cyclization can be catalyzed by Brønsted or Lewis acids. However, only a few asymmetric variations have been described, of which most require the use of large amounts of chiral metal complexes. The reactivities of Nazarov cyclizations are also depending on the substituents of the divinyl ketone substrates as described in the first chapter. The substrates to study Brønsted acid-catalyzed enantioselective Nazarov cyclization were prepared following the known procedures. The dihydropyran was treated with tBuLi in THF at –78 oC and then the α,β-unsaturated aldehydes 1 were added to the reaction mixture to afford the corresponding alcohols 2 in moderate to good yields. The alcohols 2 were oxidized to divinyl ketones 3 employing Dess-Martin periodinane/pyridine (DMP/py) in CH2Cl2 at room temperature to obtain the divinyl ketones 3 in moderate to good yields (Scheme 1). Scheme 1. Preparation of substrates in order to study Brønsted acid-catalyzed enantioselective Nazarov cyclization and subsequent transformations. At the starting point, an evaluation of suitable Brønsted acid catalysts for the enantioselective Nazarov cyclization of divinyl ketone 3a was performed. The initial reactions conducted with various BINOL-phosphoric acids 4a-4e in toluene at 60 oC provided the mixture of cis and trans cyclopentenones 5a with enantioselectivities of up to 82% ee (Table 1, entries 1-5). Eventually, improved reactivity could be achieved by using the corresponding N-triflylphosphoramides 4f and 4g, which even at 0 oC gave complete conversion after ten minutes. Additionally, it was shown that the use of these catalysts significantly enhanced both the diastereoselectivity (cis/trans ratio up to 7:1) and the enantioselectivity (up to 96% ee; Table 1, entries 6 and 7). Table 1. Evaluation of Brønsted acids 4a-4g in the enantioselective Nazarov cyclization. The scope of the Brønsted acid-catalyzed enantioselective Nazarov cyclization of various divinyl ketones 3 was explored under an optimized reaction condition (Scheme 2). Treatment of divinyl ketones 3 in CHCl3 in the presence of 2 mol% chiral BINOL-Ntriflylphosphoramide 4g at 0 oC for 1-6 h provided the corresponding cyclopentenone 5 in good yields (45-92%) with excellent enantioselectivities (up to 93% ee) (Scheme 2). Furthermore, the isomerization of cis-cyclopentenone under basic condition led to the corresponding trans-cyclopentenone without loss of enantiomeric purity. This efficient method introduced here was not only the first example of an organocatalytic electrocyclic reaction but also represented the first enantioselective activation of a carbonyl group catalyzed by a chiral BINOL phosphoric acid. Compared to the metal-catalyzed reaction, special features of this new Brønsted acid-catalyzed electrocyclization are the lower catalyst loadings (2 mol%), higher enantioselectivities, accessibility to all possible stereoisomers, as well as the mild conditions. ....
Mycophenolat-Mofetil (MMF) hemmt die Aktivität von Mikrogliazellen und verringert den exzitotoxischen neuronalen Schaden in organotypischen hippocampalen Schnittkulturen (OHSC). Der Tractus perforans ist die wichtigste neuronale afferente Verbindung zwischen entorhinalem Kortex (EC) und Gyrus dentatus (GD) im Hippocampus. Er besteht aus Axonen, deren Ursprungsneurone im EC liegen und die im GD terminieren. Ziel dieser Arbeit war es, die Wirkung von MMF auf den Erhalt dieser Projektion zu untersuchen. Methodisch wurde zu diesem Zweck die Fluoreszenzmarkierung des Tractus perforans in der organotypischen hippokampalen Schnittkultur (OHSC) etabliert. Die von uns angestrebte retrograde Färbemethode sollte entorhinale Neurone unter der Voraussetzung markieren, dass deren Axone (Tractus perforans) intakt waren. Ein guter neuronaler Erhalt sollte sich in einem entsprechend erhaltenen Tractus perforans und retrograd markierten entorhinalen Neuronen wiederspiegeln. OHSC aus 8 Tage alten Wistar Ratten wurden für 9 div (days in vitro) mit oder ohne MMF (100 mikro g/ml) kultiviert. Zunächst wurde methodisch die retrograde Markierung des Tractus perforans mit dem lipophilen Farbstoff DiI (1,1’-Dioctadecyl-3,3,3’,3’-tetramethylindo-carbocyaninperchlorat) in der OHSC etabliert und mit dem hydrophilen Dextranamin Mini Ruby versucht. Die retrograde Markierung entorhinaler Neurone und die durchgängige Darstellung des Tractus perforans in der OHSC mit Mini Ruby gelang in unseren Versuchen nicht, während die Markierung mit DiI erfolgreich war. Nach der Fixierung wurde die retrograde Markierung des Tractus perforans durch das Platzieren eines DiI-Kristalles im GD eingeleitet. Die auf diese Weise mit DiI markierten entorhinalen Neurone wurden mit neuronenspezifischen Antikörpern gegen NeuN gegengefärbt und somit zweifelsfrei als Neurone identifiziert. An diesem Modell wurde der Einfluß von MMF auf die Zahl DiI/NeuN doppelmarkierter entorhinaler Neurone quantitativ ausgewertet. Die quantitative Analyse erfolgte an Bildern, die mit einem konfokalen Laser Scanning Mikroskop gewonnen wurden. Die quantitative Auswertung retrograd mit DiI markierter OHSC zeigte, dass die Anzahl der DiI-NeuN doppelmarkierten entorhinalen Neurone in den MMF behandelten OHSC 19fach höher war als in den unbehandelten OHSC (p<0,05). Unsere Ergebnisse zeigen, dass MMF den Erhalt ganzer neuronaler Fasertrakte und Projektionen in der OHSC verbessert. Vor dem Hintergrund vorhandener Arbeiten, die auf neuroprotektive Effekte der MMF deuten, scheint MMF ein aussichtsreicher Kandidat für die Reduzierung des Sekundärschadens im Rahmen von Verletzungen des zentralen Nervensystems zu sein.
The physiology of our most complex organ, the brain, is still not comprehensively understood. The brain basically serves the processing, storing and binding of external and internal information, and thereby generates amazing phenomena like the understanding of oneself as an individual entitiy. How exactly information is encoded and represented, how individual neurons or networks of neurons actually interact, is a gigantic puzzle, whose pieces were collected since many decades. Subject of scientific discussions are the basic spatiotemporal structures of neuronal representations. Suggestions and observations reach hereby from simple rate coding of individual neurons to synchronous activity of larger ensembles. To approach answers to these questions, our working group has used a combination of different recording techniques that allowed for the comparison of neuronal interactions on different spatial scales. We focused on prefrontal neuronal interactions during visual short-term memory. Herefore two rhesus monkeys had been trained to perform a visual short-term memory task. We measured and recorded their neuronal activity by means of a microelectrode matrix that could be inserted into the cortex via a closable chamber, which had been previously implanted above prefrontal cortex. The acquired signal was separated into two components: a high-frequency component, that represents the spiking output activity of few neurons in the vicinity of each electrode tip (multi-unit activity), and a low-frequency component, that results from dendritic input activity of larger neuronal assemblies (local field potential). From one of the experimental animals we also recorded mass signals of even larger neuronal populations by means of small silverball electrodes, that had been implated into the skull above prefrontal cortex (skull EEG) in the context of a pilot project. In the first subproject, we analyzed the selectivity of output signals with respect to the memorized stimulus and task performance. We compared selectivities of local recording sites (multi-unit activity) with the selectivities of patterns created by the combined activity of all recording sites, thus representing the activity of large and distributed ensembles. Local neuronal activity correlated with the course of the visual short-term memory task, but was not highly discriminative with respect to different visual stimuli. We could show that the population activity was significantly more specific. Concerning task performance, we obtained the same result, albeit less pronounced. Further analyses revealed that the patterns of distributed ensemble activity were only partly based on realtime coordination of neuronal activity, and in addition, did not remain stable across the time course of the short-term memory task. In the second subproject, we focused on the oscillatory behavior of the local field potential. After a time-frequency analysis, we studied different frequency bands concerning stimulus selectivity and task performance of the monkey. We hereby found significant modulations of oscillations in the beta- and gamma-frequency range, that correlated with different periods of the task. Especially for oscillations in beta- and low-gamma-range, we observed phase-locking of oscillations between different recording sites, which could play an important role as internal clock to coordinate spatially separate activity. Local high-gamma oscillations themselves seemed to be important for the maintenance of information. These results could be partly confirmed by mass signals of EEG. In sum, our results support the hypothesis that information is represented in the brain by means of concerted activity of spatially distributed neuronal ensembles. This activity again appears to be coordinated by oscillatory activity in beta- and low-gamma-frequency ranges. A deeper understanding of central nervous information processing could contribute to better treatment of diseases like Parkinson’s, Alzheimer’s as well as epilepsy, and neuropsychiatric disorders like schizophrenia.
Following the discovery of context-dependent synchronization of oscillatory neuronal responses in the visual system, the role of neural synchrony in cortical networks has been expanded to provide a general mechanism for the coordination of distributed neural activity patterns. In the current paper, we present an update of the status of this hypothesis through summarizing recent results from our laboratory that suggest important new insights regarding the mechanisms, function and relevance of this phenomenon. In the first part, we present recent results derived from animal experiments and mathematical simulations that provide novel explanations and mechanisms for zero and nero-zero phase lag synchronization. In the second part, we shall discuss the role of neural synchrony for expectancy during perceptual organization and its role in conscious experience. This will be followed by evidence that indicates that in addition to supporting conscious cognition, neural synchrony is abnormal in major brain disorders, such as schizophrenia and autism spectrum disorders. We conclude this paper with suggestions for further research as well as with critical issues that need to be addressed in future studies.
We examined the neural signatures of stimulus features in visual working memory (WM) by integrating functional magnetic resonance imaging (fMRI) and event-related potential data recorded during mental manipulation of colors, rotation angles, and color–angle conjunctions. The N200, negative slow wave, and P3b were modulated by the information content of WM, and an fMRI-constrained source model revealed a progression in neural activity from posterior visual areas to higher order areas in the ventral and dorsal processing streams. Color processing was associated with activity in inferior frontal gyrus during encoding and retrieval, whereas angle processing involved right parietal regions during the delay interval. WM for color–angle conjunctions did not involve any additional neural processes. The finding that different patterns of brain activity underlie WM for color and spatial information is consistent with ideas that the ventral/dorsal “what/where” segregation of perceptual processing influences WM organization. The absence of characteristic signatures of conjunction-related brain activity, which was generally intermediate between the 2 single conditions, suggests that conjunction judgments are based on the coordinated activity of these 2 streams. Keywords: EEG, fMRI, source analysis, visual, working memory
Hintergrund: Bisher gibt es nur wenige Daten bezüglich des Neuauftretens von Vorhofflimmern nach dem Verschluss des persistierenden Foramen ovale (PFO). Methodik: In der Zeit von 1994 bis Januar 2007 wurde bei 1349 Patienten, im Alter von 17 bis 85 Jahren (mittleres Alter 50 Jahre), ein PFO kathetertechnisch verschlossen. Vor der Intervention erlitten 696 einen ischämischen Schlaganfall, 610 eine transitorisch Ischämische Attacke (TIA), 22 eine periphere Embolie, 8 Migräneattacken und 13 Patienten eine Dekompressionskrankheit. Es wurden 535 Amplatzer-, 379 Helex-, 270 STARFlex-, 131 Premere-, 9 SIDERIS-, 9 ASDOS-, 7 CardioSEAL-, 5 AngelWings- und 4 PFO-Star-Okkluder implantiert. Die Nachuntersuchungen beinhalteten ein EKG nach einem, drei und sechs Monaten. Jedes Jahr wurde ein EKG wiederholt und Fragebögen an die Patienten verschickt. Ergebnisse: Die Nachbeobachtungszeit betrug im Mittel 38,1 ± 28 Monate. 1324 von 1334 (99.3%) nahmen an der 6-Monats-Nachuntersuchung, 1198 von 1220 (98.2%) an der 1-Jahres-Nachuntersuchung -, 747 von 778 (96%) an der 3-, 374 von 393 (95.2%) an der 5- und 21 von 21 (100%) an der 10-Jahres-Nachuntersuchung teil. Vorhofflimmern trat bei 50 Patienten, kombiniert mit Vorhofflattern bei zwei weiteren, nur Vorhofflattern bei einem Patient auf (insgesamt 53 von 1349, 3,9%). Bei 33 Patienten wurde das Vorhofflimmern innerhalb der ersten vier Wochen diagnostiziert, bei 8 Patienten innerhalb sechs Monaten, bei 12 Patienten noch später. 23 Patienten entwickelten paroxysmales, 4 von ihnen rezidivierend, 28 persistierendes und 2 permanentes Vorhofflimmern. Die Inzidenz beim Amplatzer-Okkluder betrug 3% (16/535), 1,8% (7/379) beim Helex-, 10% (27/270) beim STARFlex-, 1,5% (2/131) beim Premere-, 11% (1/9) beim SIDERIS-, 0/9 beim ASDOS-, 0/7 beim CardioSEAL-, 0/5 beim AngelWings- und 0/4 beim PFO-Star-Okkluder. Der Unterschied zwischen dem STARFlex- versus Premere- (+), Amplatzer- (+) und Helex- (+) Okkluder war statistisch signifikant (jedes p<0,05). Bei 13 Patienten wurde Vorhofflimmern während einer Routinenachuntersuchung entdeckt, die anderen 40 Patienten waren symptomatisch. Bei 22 Patienten wurde der Sinusrhythmus mittels medikamentöser Konversion erreicht, bei 7 Patienten mittels elektrischer Kardioversion. 20 Patienten erhielten eine medikamentöse Prophylaxe, 22 zusätzlich Marcumar. 1 Patient erlitt eine TIA, 2 Patienten einen Schlaganfall (1 während einer Episode von Vorhofflimmern). Das Alter war ein positiver Prädiktor für Vorhofflimmern (p=0,0009). Bei 3 Patienten wurde ein Thrombus auf dem Okkluder diagnostiziert. Bei 1 von 3 Patienten wurde Vorhofflimmern eine Woche vor Diagnosestellung des Thrombus entdeckt, bei 2 von 3 Patienten wurde Vorhofflimmern und Thrombus zeitgleich diagnostiziert. Patienten mit Vorhofflimmern (3/53) haben eine signifikant höhere Inzidenz (p=0,02) Thromben zu entwickeln, verglichen mit Patienten ohne Vorhofflimmern (13/1296). Schlussfolgerung: Permanentes oder symptomatisches Vorhofflimmern ist eine seltene Komplikation nach PFO-Verschluss. Es trat häufiger beim STARFlex-Okkluder auf. Für gewöhnlich war es vorübergehend, es kann jedoch zur Thrombusbildung auf dem Okkluder führen. Eine frühzeitige Diagnostik und Behandlung sind wichtig.