NPAS2 as a transcriptional regulator of non-rapid eye movement sleep: genotype and sex interactions.

Because the transcription factor neuronal Per-Arnt-Sim-type signal-sensor protein-domain protein 2 (NPAS2) acts both as a sensor and an effector of intracellular energy balance, and because sleep is thought to correct an energy imbalance incurred during waking, we examined NPAS2's role in sleep homeostasis using npas2 knockout (npas2-/-) mice. We found that, under conditions of increased sleep need, i.e., at the end of the active period or after sleep deprivation (SD), NPAS2 allows for sleep to occur at times when mice are normally awake. Lack of npas2 affected electroencephalogram activity of thalamocortical origin; during non-rapid eye movement sleep (NREMS), activity in the spindle range (10-15 Hz) was reduced, and within the delta range (1-4 Hz), activity shifted toward faster frequencies. In addition, the increase in the cortical expression of the NPAS2 target gene period2 (per2) after SD was attenuated in npas2-/- mice. This implies that NPAS2 importantly contributes to the previously documented wake-dependent increase in cortical per2 expression. The data also revealed numerous sex differences in sleep; in females, sleep need accumulated at a slower rate, and REMS loss was not recovered after SD. In contrast, the rebound in NREMS time after SD was compromised only in npas2-/- males. We conclude that NPAS2 plays a role in sleep homeostasis, most likely at the level of the thalamus and cortex, where NPAS2 is abundantly expressed.

Disturbed local auxin homeostasis enhances cellular anisotropy and reveals alternative wiring of auxin-ethylene crosstalk in Brachypodium distachyon seminal roots.

Observations gained from model organisms are essential, yet it remains unclear to which degree they are applicable to distant relatives. For example, in the dicotyledon Arabidopsis thaliana (Arabidopsis), auxin biosynthesis via indole-3-pyruvic acid (IPA) is essential for root development and requires redundant TRYPTOPHAN AMINOTRANSFERASE OF ARABIDOPSIS 1 (TAA1) and TAA1-RELATED (TAR) genes. A promoter T-DNA insertion in the monocotyledon Brachypodium distachyon (Brachypodium) TAR2-LIKE gene (BdTAR2L) severely down-regulates expression, suggesting reduced tryptophan aminotransferase activity in this mutant, which thus represents a hypomorphic Bdtar2l allele (Bdtar2l(hypo) ). Counterintuitive however, Bdtar2l(hypo) mutants display dramatically elongated seminal roots because of enhanced cell elongation. This phenotype is also observed in another, stronger Bdtar2l allele and can be mimicked by treating wild type with L-kynerunine, a specific TAA1/TAR inhibitor. Surprisingly, L-kynerunine-treated as well as Bdtar2l roots display elevated rather than reduced auxin levels. This does not appear to result from compensation by alternative auxin biosynthesis pathways. Rather, expression of YUCCA genes, which are rate-limiting for conversion of IPA to auxin, is increased in Bdtar2l mutants. Consistent with suppression of Bdtar2l(hypo) root phenotypes upon application of the ethylene precursor 1-aminocyclopropane-1-carboxylic-acid (ACC), BdYUCCA genes are down-regulated upon ACC treatment. Moreover, they are up-regulated in a downstream ethylene-signaling component homolog mutant, Bd ethylene insensitive 2-like 1, which also displays a Bdtar2l root phenotype. In summary, Bdtar2l phenotypes contrast with gradually reduced root growth and auxin levels described for Arabidopsis taa1/tar mutants. This could be explained if in Brachypodium, ethylene inhibits the rate-limiting step of auxin biosynthesis in an IPA-dependent manner to confer auxin levels that are sub-optimal for root cell elongation, as suggested by our observations. Thus, our results reveal a delicate homeostasis of local auxin and ethylene activity to control cell elongation in Brachypodium roots and suggest alternative wiring of auxin-ethylene crosstalk as compared to Arabidopsis.

Signalling pathways in skin homeostasis

SUMMARY The results presented here contribute to a better understanding of the crucial molecular relationships and signalling cues exchanged by several fundamental cell types (epidermal keratinocytes, dermal fibroblasts, immune and endothelial cells) of the skin. Importantly we provide evidence to directly implicate Wnt/ß-catenin signalling as a putative player in different cell types (keratinocytes and neutrophils) in mediation of the cutaneous inflammatory response (Fart A). Finally we highlight the importance of several molecules, specifically expressed in the hair follicle stem cell niche to the morphogenesis and homeostasis of the hair follicle (Part B). PART A Currently the body of work pertaining to Wnt signalling and immune cells largely focuses on Wnt signalling in the development of these cells. The data presented here suggests a novel mechanism in which Wnt signalling appears to modulate immune cell recruitment to the skin. Keratinocytes are major contributors to early inflammatory responses by the release of chemokines which recruit immune cells. The resultant inflammatory response is a dynamic process of sequentially infiltrating immune cells governed by a network of growth factors, chemokines and cytokines. In wild type mice the response is typified by a rapid and substantial infiltration of neutrophils followed at later time points by macrophages and Tcells. The expression of the canonical Wnt pathway activating ligand, Wnt3a, is able to induce a strong neutrophil infiltration in the dermis. This response originates in keratinocytes, as it is abrogated upon keratinocyte-specific ablation of ß-catenin. Notably, this suggests that the crucial cross talk between these resident cells and recruited immune cells is, in part, mediated by Wnt signalling. In corroboration of this role of Wnt-mediated recruitment of neutrophils, expression of the Wnt inhibitory ligand sFRPI during acute inflammation results in a dramatic 'dampening' of immune cell infiltration in particular of neutrophil chemoattraction. Importantly, an intrinsic Wnt signalling pathway is essential for neutrophil chemoattraction in response to inflammatory stimuli. There is a marked reduction of neutrophil infiltration in mice grafted with a ß-catenin deficient bone marrow upon TPA induced cutaneous inflammation. Additionally, neutrophils lacking Wnt/ß-catenin fail to respond to IFNγ, an early inflammatory cue, in vitro. In combination, these data indicate a potent function of Wnt signalling in immune cell recruitment and the modulation of the inflammatory response. PART B Tissue specific stem cells form the cellular base on which tissue homeostasis and repair of adult tissue relies. The maintenance of this stem cell pool is highly dependent on the immediate environment or niche. We have identified three genes, the fibroblast growth factor receptor 1 (FGFR1), serpin protease inhibitor (serpin F1) and the haematopoietic cell phosphatase (Hcph) to be specifically expressed in a small population of stromal cells which are in close contact to bulge stem cells. These specialized stromal cells might represent an essential mesenchymal component of the skin stem cell niche and may regulate stem cell proliferation and differentiation. Multiple FGFR1 isoforms are generated through alternate transcript splicing and are able to interact with both FGFs and cell adhesion molecules. Two predominant forms of the receptor are FGFR1-α and FGFR1-ß. Expression of a dominant negative form of the alpha isoform prevents hair follicle morphogenesis altogether. Given that FGFR1-ß signals principally through the FGF ligands, this data indicates that FGF signalling is dispensable for follicle morphogenesis. Moreover the loss of follicular morphogenesis upon suggests a requirement for signalling via cell adhesion molecule association with the receptor as FGFR1 α has a greater affinity for these molecules. The expression of the second candidate niche gene serpin f1, lead to the complete ablation of hair follicle morphogenesis. The serpin f1 product, pigment-epithelial derived factor (PEDF) has potent anti-angiogenic effects. Immunohistochemical analysis using CD31, a endothelial cell marker, revealed that although these cells are present, they have are disorganised and do not form vessels. Interestingly, endothelial cells have been found to contribute to the neuronal stem cell niche and our results suggest a similar mechanism in the skin. SHP1, the Hcph gene product, is a phosphatase which acts in the haematopoetic system. Motheaten mice carrying spontaneous mutations in the Hcph gene have patchy alopecia in their skin and severe defects in their haematopoietic system. However the haematopoietic rescue of the mouse does not result in normal follicular homeostasis. Additionally, ablation of Hcph in either the dermal or keratinocyte compartments of the skin produces hair follicles with abberant morphologies. This data indicates that although SHP1 is not essential for hair follicle morphogenesis it is required in both epidermal and dermal compartments to maintain follicular morphology. RÉSUMÉ PARTIE A Jusqu'à présent, les travaux dédiés à l'étude de la voie de signalisation Wnt dans le système immunitaire se sont essentiellement concentrés sur son rôle dans le développement des cellules immunitaires. Les données présentées ici suggèrent fortement et de manière nouvelle, l'existence d'un mécanisme par lequel la voie de signalisation Wnt/ß-caténine module le recrutement de cellules immunitaires dans un tissu périphérique, la peau, et ainsi la réponse inflammatoire cutanée. La réponse inflammatoire cutanée est un processus dynamique d'infiltration séquentielle de diverses cellules immunitaires, orchestré par un réseau de facteurs de croissance, chémokines et cytokines. Les kératinocytes sont des contributeurs majeurs à la réponse inflammatoire précoce par la libération de chémokines qui permettent ensuite de recruter les cellules immunitaires. Dans des souris sauvages, la réponse est d'abord caractérisée par une infiltration rapide et substantielle de neutrophiles, suivie par celle des macrophages et des lymphocytes T. L'expression d'un ligand activateur de le voie canonique de signalisation Wnt (après injection infra-dermique de fibroblastes sur-exprimant Wnt-3a) induit une infiltration dermique très marquée de neutrophiles. De plus, la réponse est éliminée en l'absence de ß-caténine spécifiquement dans les kératinocytes, indiquant que ces cellules sont à l'origine de la réponse. De manière remarquable, ceci suggère qu'une signalisation cruciale entre ces cellules résidentes de la peau et les cellules immunitaires recrutées est, au moins en partie, médiée par la voie Wnt. Corroborant ce rôle de la voie Wnt/ß-caténine dans le recrutement des neutrophiles, l'expression d'un ligand inhibiteur de la voie (sFRP1) résulte au cours d'une inflammation aigüe en une réduction spectaculaire de l'infiltration des cellules immunitaires en général, et des neutrophiles en particulier. De manière importante, la voie de signalisation Wnt est intrinsèquement requise pour la chémoattraction des neutrophiles en réponse à un stimulus inflammatoire. En effet, suite à une inflammation cutanée induite par un ester de phorbol (TPA), une réduction notable de l'infiltration des neutrophiles est observée dans des souris préalablement greffées avec de la moelle osseuse constituée de cellules déficientes en ß-caténine. De plus, in vitro, les neutrophiles sans ß-caténine ne répondent pas à une stimulation par l'interféron γ, qui est pourtant un signal inflammatoire établi in vivo. En conclusion, nos données indiquent que la voie de signalisation Wnt/ß-caténine joue une fonction active dans le recrutement des cellules immunitaires vers un organe périphérique, la peau, ainsi que dans la modulation, à plusieurs niveaux, de la réponse inflammatoire cutanée. PARTIE B Les cellules souches tissu-spécifiques forment la base cellulaire sur laquelle repose l'homéostase et la réparation tissulaires chez l'adulte. La maintenance de ce réservoir de cellules souches est hautement dépendante de leur environnement cellulaire immédiat, encore appelé «niche des cellules souches». Dans la peau, ces cellules stromales spécialisées représentent un compartiment mésenchymateux essentiel de la niche des cellules souches en régulant leurs prolifération et différentiation. Nous avons identifié trois gènes, le «récepteur 1 àux facteurs de croissance des fibroblastes » (Fgfr1 ), l' «inhibiteur de protéase à sérine » (serpinf1 ou pedf) et la « phosphatase des cellules hématopoiétiques » (Hcph ou Ptpn6), comme spécifiquement exprimés par une petite population de cellules stromales qui sont étroitement associées aux cellules souches de la peau (localisées au niveau du bombement du follicule pileux). Pour analyser leur fonction dans ce contexte, nous avons utilisé un test de reconstitution complète de peau murine en combinaison à des. transductions géniques basées sur l'utilisation de lentivirus. Ce test repose sur le mélange de deux compartiments cellulaires, épidermique (kératinocytes) et dermique (fibroblastes), greffés sur une zone ouverte de peau du dos d'une souris pour ensemble reconstituer la peau. Des isoformes multiples de FGFR1 sont générées par épissage alternatif de transcrits et sont capables d'interagir à la fois avec les FGFs (facteurs de croissance des fibroblastes) et les molécules d'adhésion cellulaires. Les deux formes prédominantes du récepteur, FGFR1-α et FGFR1-ß, ne différent que par le «domaine ressemblant aux immunoglobulines 1 » (immunoglobulin-like 1 domain), absent de FGFR1-ß. De plus, FGFR1-ß a une affinité plus grande pour les FGFs et plus faible pour les molécules d'adhésion cellulaires telles que la Ncadhérine (connue pour activer FGFR). La sur-expression de l'une ou l'autre des formes n'empêche pas la morphogenèse folliculaire mais conduit à la formation de follicules aberrants. Toutefois, une différence phénotypique majeure est observée lorsqu'une forme «Dominant-Négatif » (DN) est exprimée dans le compartiment dermique. La sur-expression de FGFR1-ß DN conduit en effet à la formation de follicules petits et tronqués, avec des gaines épithéliales et un bulbe élargis ainsi qu'une petite papille dermique. Par contre, l'expression de FGFR1-α DN abolit complètement la morphogenèse folliculaire. Etant donné que la signalisation par FGFR1-ß est principalement dépendante des ligands FGFs, ces données indiquent que la signalisation par ceux-cì est non-nécessaire à la morphogenèse folliculaire. De plus, l'abolition du processus par la sur-expression de FGFR1-a DN suggëre une signalisation nécessaire entre le récepteur FGFR1 et une ou des molécules d'adhésion cellulaire. L'expression de notre second candidat comme gène spécifique de la niche des cellules souches de la peau, serpinf1, prévient la morphogenèse folliculaire. Seules de petites structures ressemblant à des cystes sont observées après reconstitution de la peau. De plus, dans ces transplants, aucune cellule CD34-positive (marqueur des cellules souches) n'est retrouvée associé à ces cystes. Le produit du gène serpin f1, le «facteur dérivé d'épithélium pigmentaire » (PEDF) est un puissant facteur anti-angiogénique. Nous avons donc analysé la vascularisation des transplants par immunohistochirnies utilisant CD31, un marqueur des cellules endothéliales. Nos résultats révèlent que les cellules endothéliales sont bien présentes, mais de manière désorganisée et ne formant pas de vaisseaux. De manière intéressante, les cellules endothéliales contribuent activement à la niche des cellules souches neuronales, et nos résultats suggèrent donc l'existence possible d'un mécanisme similaire dans la peau. SHP1, le produit du gène Hcph, est une phosphatase quì agit dans le système hématopoiétique. Les souris « motheaten »qui portent des mutations spontanées du gène ont une alopécie inégale au niveau de la peau et de sévères troubles du système hématopoiétique. Pour s'assurer que le phénotype observé au niveau de la peau n'est pas une conséquence d'un défaut du système hématopoiétique, nous avons transplanté des souris Hcph -/- avec de la moelle osseuse sauvage afin de restaurer la fonction de SHP 1 dans le système hématopoiétique. Toutefois, le défaut de morphologie folliculaire est maintenu. De plus, l'ablation d'Hcph dans le compartiment dermique ou épidermique d'essais de reconstitution de peau conduit à la production de follicules pileux avec des morphologies aberrantes. Ces données indiquent que SHP1 n'est pas essentiel à la morphogenèse folliculaire mais est toutefois requis à la fois dans les compartiments épidermiques et dermiques pour la maintenance de la forme du follicule.

Hes1 is a critical but context-dependent mediator of canonical Notch signaling in lymphocyte development and transformation.

Although canonical Notch signaling regulates multiple hematopoietic lineage decisions including T cell and marginal zone B cell fate specification, the downstream molecular mediators of Notch function are largely unknown. We showed here that conditional inactivation of Hes1, a well-characterized Notch target gene, in adult murine bone marrow (BM) cells severely impaired T cell development without affecting other Notch-dependent hematopoietic lineages such as marginal zone B cells. Competitive mixed BM chimeras, intrathymic transfer experiments, and in vitro culture of BM progenitors on Delta-like-expressing stromal cells further demonstrated that Hes1 is required for T cell lineage commitment, but dispensable for Notch-dependent thymocyte maturation through and beyond the beta selection checkpoint. Furthermore, our data strongly suggest that Hes1 is essential for the development and maintenance of Notch-induced T cell acute lymphoblastic leukemia. Collectively, our studies identify Hes1 as a critical but context-dependent mediator of canonical Notch signaling in the hematopoietic system.

Primary root protophloem differentiation requires balanced phosphatidylinositol-4,5-biphosphate levels and systemically affects root branching.

Protophloem is a specialized vascular tissue in growing plant organs, such as root meristems. In Arabidopsis mutants with impaired primary root protophloem differentiation, brevis radix (brx) and octopus (ops), meristematic activity and consequently overall root growth are strongly reduced. Second site mutation in the protophloem-specific presumed phosphoinositide 5-phosphatase COTYLEDON VASCULAR PATTERN 2 (CVP2), but not in its homolog CVP2-LIKE 1 (CVL1), partially rescues brx defects. Consistent with this finding, CVP2 hyperactivity in a wild-type background recreates a brx phenotype. Paradoxically, however, while cvp2 or cvl1 single mutants display no apparent root defects, the root phenotype of cvp2 cvl1 double mutants is similar to brx or ops, although, as expected, cvp2 cvl1 seedlings contain more phosphatidylinositol-4,5-biphosphate. Thus, tightly balanced phosphatidylinositol-4,5-biphosphate levels appear essential for proper protophloem differentiation. Genetically, OPS acts downstream of phosphatidylinositol-4,5-biphosphate levels, as cvp2 mutation cannot rescue ops defects, whereas increased OPS dose rescues cvp2 cvl1 defects. Finally, all three mutants display higher density and accelerated emergence of lateral roots, which correlates with increased auxin response in the root differentiation zone. This phenotype is also created by application of peptides that suppress protophloem differentiation, CLAVATA3/EMBRYO SURROUNDING REGION 26 (CLE26) and CLE45. Thus, local changes in the primary root protophloem systemically shape overall root system architecture.

Beurling-Landau densities of weighted Fekete sets and correlation kernel estimates

Let $Q$ be a suitable real function on $C$. An $n$-Fekete set corresponding to $Q$ is a subset ${Z_{n1}},\dotsb, Z_{nn}}$ of $C$ which maximizes the expression $\Pi^n_i_{1)+\dotsb+Q(Z_{nn}))}$. It is well known that, under reasonable conditions on $Q$, there is a compact set $S$ known as the 'droplet' such that the measures $\mu_n n^{-1} (\delta_{zn1}+\dots+\delta_{znn})$ converges to the equilibrium measure $\Delta Q.1 _S$d$A$ as $n \rightarrow \infty$. In this note we prove that Fekete sets are, in a sense, maximally spread out with respect to the equilibrium measure. In general, our results apply only to a part of the Fekete set, which is at a certain distance away from the boundary of the droplet. However, for the potential $Q=|Z|^2$ we obtain results which hold globally, and we conjecture that such global results are true for a wide range of potentials.

Biomarkers of Host Response Predict Primary End-Point Radiological Pneumonia in Tanzanian Children with Clinical Pneumonia: A Prospective Cohort Study.

BACKGROUND: Diagnosing pediatric pneumonia is challenging in low-resource settings. The World Health Organization (WHO) has defined primary end-point radiological pneumonia for use in epidemiological and vaccine studies. However, radiography requires expertise and is often inaccessible. We hypothesized that plasma biomarkers of inflammation and endothelial activation may be useful surrogates for end-point pneumonia, and may provide insight into its biological significance. METHODS: We studied children with WHO-defined clinical pneumonia (n = 155) within a prospective cohort of 1,005 consecutive febrile children presenting to Tanzanian outpatient clinics. Based on x-ray findings, participants were categorized as primary end-point pneumonia (n = 30), other infiltrates (n = 31), or normal chest x-ray (n = 94). Plasma levels of 7 host response biomarkers at presentation were measured by ELISA. Associations between biomarker levels and radiological findings were assessed by Kruskal-Wallis test and multivariable logistic regression. Biomarker ability to predict radiological findings was evaluated using receiver operating characteristic curve analysis and Classification and Regression Tree analysis. RESULTS: Compared to children with normal x-ray, children with end-point pneumonia had significantly higher C-reactive protein, procalcitonin and Chitinase 3-like-1, while those with other infiltrates had elevated procalcitonin and von Willebrand Factor and decreased soluble Tie-2 and endoglin. Clinical variables were not predictive of radiological findings. Classification and Regression Tree analysis generated multi-marker models with improved performance over single markers for discriminating between groups. A model based on C-reactive protein and Chitinase 3-like-1 discriminated between end-point pneumonia and non-end-point pneumonia with 93.3% sensitivity (95% confidence interval 76.5-98.8), 80.8% specificity (72.6-87.1), positive likelihood ratio 4.9 (3.4-7.1), negative likelihood ratio 0.083 (0.022-0.32), and misclassification rate 0.20 (standard error 0.038). CONCLUSIONS: In Tanzanian children with WHO-defined clinical pneumonia, combinations of host biomarkers distinguished between end-point pneumonia, other infiltrates, and normal chest x-ray, whereas clinical variables did not. These findings generate pathophysiological hypotheses and may have potential research and clinical utility.

Circadian and feeding rhythms differentially affect rhythmic mRNA transcription and translation in mouse liver.

Diurnal oscillations of gene expression are a hallmark of rhythmic physiology across most living organisms. Such oscillations are controlled by the interplay between the circadian clock and feeding rhythms. Although rhythmic mRNA accumulation has been extensively studied, comparatively less is known about their transcription and translation. Here, we quantified simultaneously temporal transcription, accumulation, and translation of mouse liver mRNAs under physiological light-dark conditions and ad libitum or night-restricted feeding in WT and brain and muscle Arnt-like 1 (Bmal1)-deficient animals. We found that rhythmic transcription predominantly drives rhythmic mRNA accumulation and translation for a majority of genes. Comparison of wild-type and Bmal1 KO mice shows that circadian clock and feeding rhythms have broad impact on rhythmic gene expression, Bmal1 deletion affecting surprisingly both transcriptional and posttranscriptional levels. Translation efficiency is differentially regulated during the diurnal cycle for genes with 5'-Terminal Oligo Pyrimidine tract (5'-TOP) sequences and for genes involved in mitochondrial activity, many harboring a Translation Initiator of Short 5'-UTR (TISU) motif. The increased translation efficiency of 5'-TOP and TISU genes is mainly driven by feeding rhythms but Bmal1 deletion also affects amplitude and phase of translation, including TISU genes. Together this study emphasizes the complex interconnections between circadian and feeding rhythms at several steps ultimately determining rhythmic gene expression and translation.

DLL4 promotes continuous adult intestinal lacteal regeneration and dietary fat transport.

The small intestine is a dynamic and complex organ that is characterized by constant epithelium turnover and crosstalk among various cell types and the microbiota. Lymphatic capillaries of the small intestine, called lacteals, play key roles in dietary fat absorption and the gut immune response; however, little is known about the molecular regulation of lacteal function. Here, we performed a high-resolution analysis of the small intestinal stroma and determined that lacteals reside in a permanent regenerative, proliferative state that is distinct from embryonic lymphangiogenesis or quiescent lymphatic vessels observed in other tissues. We further demonstrated that this continuous regeneration process is mediated by Notch signaling and that the expression of the Notch ligand delta-like 4 (DLL4) in lacteals requires activation of VEGFR3 and VEGFR2. Moreover, genetic inactivation of Dll4 in lymphatic endothelial cells led to lacteal regression and impaired dietary fat uptake. We propose that such a slow lymphatic regeneration mode is necessary to match a unique need of intestinal lymphatic vessels for both continuous maintenance, due to the constant exposure to dietary fat and mechanical strain, and efficient uptake of fat and immune cells. Our work reveals how lymphatic vessel responses are shaped by tissue specialization and uncover a role for continuous DLL4 signaling in the function of adult lymphatic vasculature.

Altered Sleep Homeostasis in Rev-erbα Knockout Mice.

STUDY OBJECTIVES: The nuclear receptor REV-ERBα is a potent, constitutive transcriptional repressor critical for the regulation of key circadian and metabolic genes. Recently, REV-ERBα's involvement in learning, neurogenesis, mood, and dopamine turnover was demonstrated suggesting a specific role in central nervous system functioning. We have previously shown that the brain expression of several core clock genes, including Rev-erbα, is modulated by sleep loss. We here test the consequences of a loss of REV-ERBα on the homeostatic regulation of sleep. METHODS: EEG/EMG signals were recorded in Rev-erbα knockout (KO) mice and their wild type (WT) littermates during baseline, sleep deprivation, and recovery. Cortical gene expression measurements after sleep deprivation were contrasted to baseline. RESULTS: Although baseline sleep/wake duration was remarkably similar, KO mice showed an advance of the sleep/wake distribution relative to the light-dark cycle. After sleep onset in baseline and after sleep deprivation, both EEG delta power (1-4 Hz) and sleep consolidation were reduced in KO mice indicating a slower increase of homeostatic sleep need during wakefulness. This slower increase might relate to the smaller increase in theta and gamma power observed in the waking EEG prior to sleep onset under both conditions. Indeed, the increased theta activity during wakefulness predicted delta power in subsequent NREM sleep. Lack of Rev-erbα increased Bmal1, Npas2, Clock, and Fabp7 expression, confirming the direct regulation of these genes by REV-ERBα also in the brain. CONCLUSIONS: Our results add further proof to the notion that clock genes are involved in sleep homeostasis. Because accumulating evidence directly links REV-ERBα to dopamine signaling the altered homeostatic regulation of sleep reported here are discussed in that context.

Validation of plant dynamic model by online and laboratory measurements – a tool to predict online COD loads out of production of mechanical printing papers

COD discharges out of processes have increased in line with elevating brightness demands for mechanical pulp and papers. The share of lignin-like substances in COD discharges is on average 75%. In this thesis, a plant dynamic model was created and validated as a means to predict COD loading and discharges out of a mill. The assays were carried out in one paper mill integrate producing mechanical printing papers. The objective in the modeling of plant dynamics was to predict day averages of COD load and discharges out of mills. This means that online data, like 1) the level of large storage towers of pulp and white water 2) pulp dosages, 3) production rates and 4) internal white water flows and discharges were used to create transients into the balances of solids and white water, referred to as “plant dynamics”. A conversion coefficient was verified between TOC and COD. The conversion coefficient was used for predicting the flows from TOC to COD to the waste water treatment plant. The COD load was modeled with similar uncertainty as in reference TOC sampling. The water balance of waste water treatment was validated by the reference concentration of COD. The difference of COD predictions against references was within the same deviation of TOC-predictions. The modeled yield losses and retention values of TOC in pulping and bleaching processes and the modeled fixing of colloidal TOC to solids between the pulping plant and the aeration basin in the waste water treatment plant were similar to references presented in literature. The valid water balances of the waste water treatment plant and the reduction model of lignin-like substances produced a valid prediction of COD discharges out of the mill. A 30% increase in the release of lignin-like substances in the form of production problems was observed in pulping and bleaching processes. The same increase was observed in COD discharges out of waste water treatment. In the prediction of annual COD discharge, it was noticed that the reduction of lignin has a wide deviation from year to year and from one mill to another. This made it difficult to compare the parameters of COD discharges validated in plant dynamic simulation with another mill producing mechanical printing papers. However, a trend of moving from unbleached towards high-brightness TMP in COD discharges was valid.

Composição química das sementes de Archontophoenix alexandrae H. Wendl. & Drude (Arecaceae)

Sementes de Archontophoenix alexandrae extraídas de frutos coletados no Parque Estadual da Cantareira, São Paulo, foram analisadas quanto à composição química, ao perfil de ácidos graxos do óleo e aos teores de minerais, visando avaliar o seu potencial alimentício. Detectaram-se alto teor de fibras alimentares (38,80% p/p) e umidade (47,72% p/p). Na fração oleosa, apesar do baixo conteúdo de óleo encontrado (2,74% p/p), predominaram os ácidos palmítico (19,80% p/p), entre os saturados, e oléico (42% p/p) e linoléico (13% p/p), quanto aos insaturados. A presença, no óleo, de alfa-tocoferol (vitamina E) equivalente a 4,0 mg 100 g-1 e de delta-tocoferol (1,8 mg 100 g-1) confere ao óleo certa estabilidade oxidativa. Embora contendo minerais como K, P, S, Ca, Fe, Zn, Se e Cu, lipídios e fibras alimentares, a presença do elemento Pb (2,74 mg kg-1) inviabiliza o consumo dessas sementes como alimento da avifauna e sinaliza contaminação antrópica no local de coleta.

Nitric oxide regulates angiotensin-I converting enzyme under static conditions but not under shear stress

Mechanical forces including pressure and shear stress play an important role in vascular homeostasis via the control of the production and release of a variety of vasoactive factors. An increase in vascular shear stress is accompanied by nitric oxide (NO) release and NO synthase activation. Previously, we have demonstrated that shear stress induces angiotensin-I converting enzyme (ACE) down-regulation in vivo and in vitro. In the present study, we determined whether NO participates in the shear stress-induced ACE suppression response. Rabbit aortic endothelial cells were evaluated using the NO synthase inhibitor L-NAME, and two NO donors, diethylamine NONOate (DEA/NO) and sodium nitroprusside (SNP). Under static conditions, incubation of endothelial cells with 1 mM L-NAME for 18 h increased ACE activity by 27% (from 1.000 ± 0.090 to 1.272 ± 0.182) while DEA/NO and SNP (0.1, 0.5 and 1 mM) caused no change in ACE activity. Interestingly, ACE activity was down-regulated similarly in the presence or absence of L-NAME (delta(0 mM) = 0.26 ± 0.055, delta(0.1 mM) = 0.21 ± 0.22, delta(1 mM) = 0.36 ± 0.13) upon 18 h shear stress activation (from static to 15 dyn/cm²). Taken together, these results indicate that NO can participate in the maintenance of basal ACE levels in the static condition but NO is not associated with the shear stress-induced inactivation of ACE.

Participation of ATP-sensitive K+ channels in the peripheral antinociceptive effect of fentanyl in rats

We examined the effect of several K+ channel blockers such as glibenclamide, tolbutamide, charybdotoxin (ChTX), apamin, tetraethylammonium chloride (TEA), 4-aminopyridine (4-AP), and cesium on the ability of fentanyl, a clinically used selective µ-opioid receptor agonist, to promote peripheral antinociception. Antinociception was measured by the paw pressure test in male Wistar rats weighing 180-250 g (N = 5 animals per group). Carrageenan (250 µg/paw) decreased the threshold of responsiveness to noxious pressure (delta = 188.1 ± 5.3 g). This mechanical hyperalgesia was reduced by fentanyl (0.5, 1.5 and 3 µg/paw) in a peripherally mediated and dose-dependent fashion (17.3, 45.3 and 62.6%, respectively). The selective blockers of ATP-sensitive K+ channels glibenclamide (40, 80 and 160 µg/paw) and tolbutamide (80, 160 and 240 µg/paw) dose dependently antagonized the antinociception induced by fentanyl (1.5 µg/paw). In contrast, the effect of fentanyl was unaffected by the large conductance Ca2+-activated K+ channel blocker ChTX (2 µg/paw), the small conductance Ca2+-activated K+ channel blocker apamin (10 µg/paw), or the non-specific K+ channel blocker TEA (150 µg/paw), 4-AP (50 µg/paw), and cesium (250 µg/paw). These results extend previously reported data on the peripheral analgesic effect of morphine and fentanyl, suggesting for the first time that the peripheral µ-opioid receptor-mediated antinociceptive effect of fentanyl depends on activation of ATP-sensitive, but not other, K+ channels.

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[Vente (Livres). 1910-03-07 - 1910-03-10. Paris]