Ageing or NOT, clock genes are important for memory processes: an interesting hypothesis raising many questions

Commentary on: Kondratova et al. Circadian clock proteins control adaptation to novel environment and memory formation. Aging. 2010: this issue

Melatonin synthesis in the human pineal gland

Poster presentation: The mammalian pineal organ is a peripheral oscillator, depending on afferent information from the so-called master clock in the suprachiasmatic nuclei of the hypothalamus. One of the best studied outputs of the pineal gland is the small and hydrophobic molecule melatonin. In all vertebrates, melatonin is synthesized rhythmically with high levels at night, signalling the body the duration of the dark period. Changes or disruptions of melatonin rhythms in humans are related to a number of pathophysiological disorders, like Alzheimer's disease, seasonal affective disorder or the Smith-Magenis-Syndrome. To use melatonin in preventive or curative interferences with the human circadian system, a complete understanding of the generation of the rhythmic melatonin signal in the human pineal gland is essential. Melatonin biosynthesis is best studied in the rodent pineal gland, where the activity of the penultimate and rate-limiting enzyme, the arylalkylamine N-acetyltransferase (AA-NAT), is regulated on the transcriptional level, whereas the regulatory role of the ultimate enzymatic step, achieved by the hydroxyindole O-methyltransferase (HIOMT), is still under debate. In rodents, Aa-nat mRNA is about 100-fold elevated during the night in response to adrenergic stimulation of the cAMP-signalling pathway, with AA-NAT protein levels closely following this dynamics. In contrast, in all ungulates studied so far (cow, sheep), a post-transcriptional regulation of the AA-NAT is central to determine rhythmic melatonin synthesis. AA-NAT mRNA levels are constantly elevated, and lead to a constitutive up-regulation of AA-NAT protein, which is, however, rapidly degraded via proteasomal proteolysis during the day. AA-NAT proteolysis is only terminated upon the nocturnal increase in cAMP levels. Similar to ungulates, a post-transcriptional control of this enzyme seems evident in the pineal gland of the primate Macaca mulatta. Studies on the molecular basis of melatonin synthesis in the human being are sparse and almost exclusively based on phenomenological data, derived from non-invasive investigations. Yet the molecular mechanisms underlying the generation of the hormonal message of darkness can currently only be deciphered using autoptic material. We therefore analyzed in human post-mortem pineal tissue Aa-nat and Hiomt mRNA levels, AA-NAT and HIOMT enzyme activity, and melatonin levels for the first time simultaneously within tissue samples of the same specimen. Here presented data show the feasibility of this approach. Our results depict a clear diurnal rhythm in AA-NAT activity and melatonin content, despite constant values for Aa-nat and Hiomt mRNA, and for HIOMT activity. Notably, the here elevated AA-NAT activity during the dusk period does not correspond to a simultaneous elevation in melatonin content. It is currently unclear whether this finding may suggest a more important role of the ultimate enzyme in melatonin synthesis, the HIOMT, for rate-limiting the melatonin rhythm, as reported recently for the rodent pineal gland. Thus, our data support for the first time experimentally that post-transcriptional mechanisms are responsible for the generation of rhythmic melatonin synthesis in the human pineal gland

Concession bargaining in den USA und beschäftigungssichernde Tarifpolitik in Deutschland: ein Vergleich der tarifpolitischen Konzepte

"Der Beitrag vergleicht das US-amerikanische Konzept des concession bargaining aus den achtziger Jahren mit aktuellen Entwicklungen in der deutschen Tarifpolitik. In beiden Ländern haben die Tarifparteien in ökonomischen Krisensituationen ähnliche Instrumente eingesetzt, um Arbeitsplätze zu erhalten. Trotz weitreichender Gemeinsamkeiten der jeweiligen tariflichen Regelungen überwiegen die Unterschiede zwischen dem US-amerikanischen concession bargaining und der deutschen beschäftigungssichernden Tarifpolitik. Die Differenzen in den Tarifpolitiken erklären sich zum einen aus den völlig verschiedenen Systemen der industriellen Beziehungen und zum anderen aus den unterschiedlichen Strategien der jeweiligen Akteure. Zum besseren Verständnis des US-amerikanischen concession bargaining werden zunächst die wichtigsten Unterschiede zwischen dem deutschen und dem US-amerikanischen Kollektivvertragssystem herausgestellt, bevor auf das Konzept des concession bargaining näher eingegangen wird. Im nächsten Schritt werden die Gemeinsamkeiten und Unterschiede zur beschäftigungssichernden Tarifpolitik in Deutschland aufgezeigt. Schließlich wird den Ursachen und Folgen der jeweiligen Tarifpolitiken nachgegangen." (Autorenreferat, IAB-Doku

Elevated rhythmic Ras activity in the suprachiasmatic nucleus of synRas transgenic mice: implications for the regulation of the mammalian circadian clock

Poster presentation: Light is the main phase-adjusting stimulus of the circadian clock located in the suprachiasmatic nucleus (SCN). A candidate pathway transmitting photic information at the postsynaptic site in the SCN is the extracellular signal-regulated kinase (ERK 1/2) which has been previously shown to be an essential element in the photoentrainment of the circadian rhythm. An upstream activator of the ERK signalling route is the small intracellular GTPase Ras. Here we observed that endogenous Ras activity in the SCN was subjected to rhythmic changes, reaching maximum levels at the late subjective day and minimum levels at the late subjective night (CT22). In order to investigate if Ras would modulate the circadian cycle, we used transgenic mice expressing constitutively activated Val-12 Ha-Ras selectively in neurons (synRas mice). In these mice Ras activity was also cycling during the circadian rhythm yet, Ras activities were up-regulated at each time point measured. We investigated if this change in Ras activity translates into a behavioral phenotype by monitoring free-running activity rhythms under conditions of constant darkness. SynRas mice exhibited circadian rhythms in locomotor activities similar to WT mice. However, when challenged by applying a 15 minutes light pulse at CT22 to promote phase advance shifts, synRas mice were completely non-responsive. As a first step towards the possible intracellular mechanism of this behavioral change we analyzed ERK1/2 activities in more details: We found a 1,7-fold increase of circadian peak levels of ERK 1/2 activities at CT10 and CT14 in synRas mice, while at minimum levels (CT18, CT22) no differences were found between ERK1/2 activities of WT and synRas mice. In WT animals the 15 minutes light pulse at CT22 resulted in rapid up regulations of Ras, ERK1/2 and CREB activities as described previously by others. However, in correlation with the lack of a behavioral response, ERK1/2 but not Ras and CREB activities remained unchanged in synRas mice, suggesting that Ras-dependent and Ras-independent pathways may co-exist to regulate ERK1/2 and behavioral phase shifts in response to the acute light treatment. Next we investigated the length "tau" of the locomotor activity rhythm during constant darkness and found a slight shortening by about 10 minutes in synRas mice as compared to the WT littermates. Recently, "tau" has been discussed to be modulated by the interaction between glycogen synthase 3beta (GSK3beta) and a clock gene product (Per 2) that is involved in the determination of circadian phase durations. We describe here a down-regulation of GSK3beta phosphorylation in synRas mice as a possible mechanism of "tau" shortening. Taken together, cycling of Ras activity at elevated levels in the SCN during the circadian rhythm results in a distinct pattern of behavioral phenotype changes correlating with de-regulated ERK1/2 or GSK3beta activities

OPAC out of a Construction Kit

Die vorliegende Bachelorthesis beschreibt die exemplarische Erstellung des Katalog 2.0 „bachelopac“ unter Verwendung der Open-Source-Software VuFind. Die Frage, inwieweit dies mit den erlernten Kenntnissen und erworbenen Fähigkeiten während des Studiums Bibliotheks- und Informationsmanagement der HAW Hamburg realisierbar ist, wird beantwortet. Hierzu werden vom Gemeinsamen Bibliotheksverbund (GBV) zur Verfügung gestellte Metadaten des Bibliotheksystems der HAW Hamburg verwendet. Die Vor- und Nachteile, die durch den Einsatz von Open-Source-Software in Bibliotheken entstehen, werden ebenso erläutert wie die Notwendigkeit zeitgemäßer Kataloge und deren Umsetzung im Hinblick auf Bibliothek 2.0 und Katalog 2.0. Angelehnt an eine Machbarkeitsstudie werden Projektaufgaben und Projektziele sowie ein Kriterienkatalog zur Beurteilung der eigenen Kenntnisse entwickelt und durchgeführt. Der praktische Teil dieser Arbeit befasst sich mit den Problemen und Schwierigkeiten der technischen Umsetzung, beschreibt aber auch Lösungswege und -konzepte. Neben der aktiven Unterstützung durch die Community wird auch die Möglichkeit zur Nachnutzung von bereits bestehenden Lösungen aufgezeigt.This bachelor thesis describes the exemplary generation and implementation of a catalog 2.0 named “bachelopac” using VuFind. The broader aim of this paper is to report about the possibility to implement a catalog 2.0 based on open source software with the knowledge and skills acquired by passing the bachelor program of Library and Information Science at the Hamburg University of Applied Sciences. Based on the method of a feasibility test, criteria have been developed to evaluate the knowledge and skills acquired during the studies. Without deeper programming skills, the support and the assistance of the professional community and the reuse of source code from other catalog 2.0 projects is a crucial success factor

Melatonin synthesis in the human pineal gland:advantages, implications, and difficulties

Rhythms in the mammalian pineal organ depend on afferent information that is derived from the endogenous clock residing in the hypothalamic suprachiasmatic nucleus (SCN). The best characterized function of the pineal gland is the nocturnally elevated synthesis of the hormone melatonin, which provides the body with the signal of the duration of the night period. The rate-limiting enzyme for melatonin synthesis is arylalkylamine N-acetyltransferase (AANAT). In contrast to the transcriptional regulation of the Aanat gene in rodents, a post-translational shaping of the melatonin pattern is indicated in the human pineal gland. Despite the fact that melatonin levels can be determined easily in various body fluids, the molecular elements involved in shaping the rhythmic hormone synthesis cannot be analyzed experimentally in the living organism. However, the use of post-mortem pineal material seems to constitute a valid approach to decipher the regulation of human melatonin synthesis.</p