AMP-Activated Protein Kinase alpha 2 in Neutrophils Regulates Vascular Repair via Hypoxia-Inducible Factor-1 alpha and a Network of Proteins Affecting Metabolism and Apoptosis

Rationale: The AMP-activated protein kinase (AMPK) is stimulated by hypoxia, and although the AMPK alpha 1 catalytic subunit has been implicated in angiogenesis, little is known about the role played by the AMPK alpha 2 subunit in vascular repair. Objective: To determine the role of the AMPK alpha 2 subunit in vascular repair. Methods and Results: Recovery of blood flow after femoral artery ligation was impaired (>80%) in AMPK alpha 2(-/-) versus wild-type mice, a phenotype reproduced in mice lacking AMPK alpha 2 in myeloid cells (AMPK alpha 2(Delta MC)). Three days after ligation, neutrophil infiltration into ischemic limbs of AMPK alpha 2(Delta MC) mice was lower than that in wild-type mice despite being higher after 24 hours. Neutrophil survival in ischemic tissue is required to attract monocytes that contribute to the angiogenic response. Indeed, apoptosis was increased in hypoxic neutrophils from AMPK alpha 2(Delta MC) mice, fewer monocytes were recruited, and gene array analysis revealed attenuated expression of proangiogenic proteins in ischemic AMPK alpha 2(Delta MC) hindlimbs. Many angiogenic growth factors are regulated by hypoxia-inducible factor, and hypoxia-inducible factor-1 alpha induction was attenuated in AMPK alpha 2-deficient cells and accompanied by its enhanced hydroxylation. Also, fewer proteins were regulated by hypoxia in neutrophils from AMPK alpha 2(Delta MC) mice. Mechanistically, isocitrate dehydrogenase expression and the production of alpha-ketoglutarate, which negatively regulate hypoxia-inducible factor-1 alpha stability, were attenuated in neutrophils from wild-type mice but remained elevated in cells from AMPK alpha 2(Delta MC) mice. Conclusions: AMPK alpha 2 regulates alpha-ketoglutarate generation, hypoxia-inducible factor-1 alpha stability, and neutrophil survival, which in turn determine further myeloid cell recruitment and repair potential. The activation of AMPK alpha 2 in neutrophils is a decisive event in the initiation of vascular repair after ischemia

Temas y problemas en Antropología Social

El presente texto tiene que ver con el programa de la materia Antropología Cultural y Social dictada en la Facultad de Psicología de nuestra Universidad de La Plata. Sus diversos capítulos cubren varios temas del curso y fueron antecedidos por otros textos temáticos menos formalizados, editados anteriormente por la Cátedra. Nos ha parecido siempre importante adaptar los conocimientos de la Antropología en el marco de las Ciencias Sociales y de la Antropología Social en particular -que constituyen el eje de la materia- con la intención de conformar un eje didáctico de materiales que sean de fácil comprensión y permitan una lectura ulterior de mayor profundidad y continuidad, según el avance en la construcción de los conocimientos por parte de alumnos. Esto es importante por cuanto la disciplina constituye, de acuerdo al nuevo perfil del Plan de Estudios, uno de los cuatro pilares de conocimiento básico de la Psicología. En este sentido, se la considera un ámbito disciplinar académico destacado que aporta a los estudiantes herramientas conceptual-metodológicas básicas para la lectura y comprensión crítica del contexto sociohistórico, cultural y político en el que desarrollan sus prácticas actuales y su futura práctica profesional. Con una perspectiva más amplia se ha pensado, al redactar los capítulos, en el posible interés que puedan tener su lectura en el ámbito general de la Universidad.Facultad de Psicologí

Wann tickt die innere Uhr? : Untersuchung genexpressiver Vorgänge während der ontogenetischen Entwicklung zirkadianer Rhythmen und ihrer Synchronisation in der Maus

Das Leben aller Organismen wird grundlegend durch den tages- und jahreszeitlich bedingten Wechsel der Beleuchtungsverhältnisse geprägt. Die Anpassung der Stoffwechselprozesse und Verhaltensweisen an diese Oszillationen erfolgt nicht passiv, sondern wird durch eine innere Uhr gesteuert. Tageszeitliche Rhythmen, die auch ohne den Einfluss äußerer, periodisch verlaufender Umgebungsreize (Zeitgeber) ablaufen, werden als zirkadiane Rhythmen bezeichnet. Im Säugetier steuert ein endogener Rhythmusgenerator im Nucleus suprachiasmaticus (SCN) zirkadiane Rhythmen, indem er periphere Oszillatoren miteinander synchronisiert. Auf molekularer Ebene besteht dieser endogener Rhythmusgenerator aus Aktivatoren (BMAL1 und CLOCK/NPAS2) und Inhibitoren (PER1/2 und Cry1/2), die in Rückkopplungsschleifen die Grundlage für die Rhythmogenese steuern. Die Synchronisation dieses molekularen Uhrwerkes an die Umgebungszeit erfolgt durch Licht, das in der Retina wahrgenommen und an das SCN weitergeleitet wird. Die Signaltransduktionskaskaden nach einem Lichtpuls in der frühen und der späten Nacht unterscheiden sich dabei wesentlich: Ein Lichtpuls während der frühen Nacht führt zu einer erhöhten Freisetzung von Ca2+-Ionen über Ryanodin Rezeptoren (RYR), während ein Lichtpuls während der späten Nacht zu einer erhöhten Guanylylcyclase Aktivität führt. Um zu untersuchen, wie der endogene Rhythmusgenerator seinen Lichteingang reguliert, wurde die Licht-vermittelte Phasenverzögerung in BMAL1+/+- (profizienten) und BMAL1-/-- (defizienten) Mäusen untersucht. Die Befunde aus den in-situ Hybridisierungsstudien, RTQ-PCR und immunhistochemischen Untersuchungen dieser Arbeit zeigten, dass in BMAL1-/--Mäusen die Licht-induzierte mPer-Expression während der frühen Nacht selektiv beeinträchtigt ist. Zudem konnte gezeigt werden, dass die mRNA- und Proteinmengen von RYRs in BMAL1-/--Mäusen dramatisch reduziert waren. Ryr1:: und Ryr2::Luciferase-Reportersstudien zeigten darüber hinaus, dass die Ryr-Expression durch CLOCK/BMAL1 aktiviert und durch CRY1inhibiert werden kann. Diese Ergebnisse liefern den ersten Beweis dafür, dass der endogene Rhythmusgenerator des Säugers die Signalübertragung seines eigenen Lichteingangs regulieren kann. Weiterhin wurde in dieser Arbeit die ontogenetische Entwicklung des endogenen Rhythmusgenerators im SCN und in einem Melatonin-abhängigen peripheren Oszillator, der PT, untersucht und miteinander verglichen. Dazu wurden die Uhrengenproteine im fetalen (E18), postnatalen (P2 & P10) und adulten SCN und in der PT von C3H-Mäusen zu vier verschiedenen zirkadianen Zeitpunkten mittels Immunhistochemie untersucht. Die Anzahl immunreaktiver SCN-Zellen gegen alle untersuchten Uhrengenproteine (außer BMAL1) war im Fetus signifikant niedriger, als in der adulten Maus. Auch im SCN neonataler (P2) Mäuse erreichte die Anzahl immunreaktiver Zellen noch nicht das Niveau der adulten Maus. Erst 10 Tage nach der Geburt (P10) zeigen alle Uhrengenproteine im SCN ein adultes Verteilungsmuster. Offenbar reift das Uhrwerk im SCN von Mäusen graduell während der postnatalen Entwicklungsphase. Dabei besteht eine zeitliche Korrelation zwischen der Reifung des endogenen Rhythmusgenerators im SCN und der Ausbildung von inter-suprachiasmatischen und retino-suprachiaamatischen neuronalen Kontakten. Im Gegensatz zum SCN zeigte der Melatonin-abhängigen Oszilllator in der PT bereits im Fetus einen nahezu vollständig ausgeprägten Rhythmus der Uhrengenproteine. Da das fetale Pinealorgan noch nicht zur rhythmischen Melatonin-Synthese fähig ist, liegt es nahe, dass das mütterliche Melatonin die rhythmische Expression der Uhrengene in der fetalen PT reguliert. Wie in vitro Untersuchungen an PER2::LUCIFERASE-Mäusen zeigten, hat das mütterliche Melatonin offenbar auch einen modulierenden Einfluss auf den fetalen SCN. Bei diesen Mäusen konnte im fetalen und postnatalen SCN ein zirkadianer Rhythmus in der PER2-Synthese nachgewiesen werden, der eine relativ lange Periodenlänge aufwies und nach 3 Tagen zum Erliegen kam. Eine Stimulation mit Melatonin führte zu einer deutlichen Verkürzung der Periodenlänge im PER2-Rhythmus. Folglich scheint das mütterliche Melatonin eine wichtige Quelle für Informationen der Umgebungszeit im Fetus zu sein. Um die Uhrengenexpression während der Maus-Ontogenese in vitro auf zellulärer Ebene darzustellen, wurde in dieser Arbeit zudem ein vom murinen Per2-Promoter angetriebenes DsRed- Reportersystem etabliert und der Versuch begonnen, eine darauf basierende transgene Maus zu generieren

Robust and automated three-dimensional segmentation of densely packed cell nuclei in different biological specimens with Lines-of-Sight decomposition

Background: Due to the large amount of data produced by advanced microscopy, automated image analysis is crucial in modern biology. Most applications require reliable cell nuclei segmentation. However, in many biological specimens cell nuclei are densely packed and appear to touch one another in the images. Therefore, a major difficulty of three-dimensional cell nuclei segmentation is the decomposition of cell nuclei that apparently touch each other. Current methods are highly adapted to a certain biological specimen or a specific microscope. They do not ensure similarly accurate segmentation performance, i.e. their robustness for different datasets is not guaranteed. Hence, these methods require elaborate adjustments to each dataset. Results: We present an advanced three-dimensional cell nuclei segmentation algorithm that is accurate and robust. Our approach combines local adaptive pre-processing with decomposition based on Lines-of-Sight (LoS) to separate apparently touching cell nuclei into approximately convex parts. We demonstrate the superior performance of our algorithm using data from different specimens recorded with different microscopes. The three-dimensional images were recorded with confocal and light sheet-based fluorescence microscopes. The specimens are an early mouse embryo and two different cellular spheroids. We compared the segmentation accuracy of our algorithm with ground truth data for the test images and results from state-of-the-art methods. The analysis shows that our method is accurate throughout all test datasets (mean F-measure: 91%) whereas the other methods each failed for at least one dataset (F-measure≤69%). Furthermore, nuclei volume measurements are improved for LoS decomposition. The state-of-the-art methods required laborious adjustments of parameter values to achieve these results. Our LoS algorithm did not require parameter value adjustments. The accurate performance was achieved with one fixed set of parameter values. Conclusion: We developed a novel and fully automated three-dimensional cell nuclei segmentation method incorporating LoS decomposition. LoS are easily accessible features that ensure correct splitting of apparently touching cell nuclei independent of their shape, size or intensity. Our method showed superior performance compared to state-of-the-art methods, performing accurately for a variety of test images. Hence, our LoS approach can be readily applied to quantitative evaluation in drug testing, developmental and cell biology

Cytotoxicity and infiltration of human NK cells in in vivo-like tumor spheroids

Background: The complex cellular networks within tumors, the cytokine milieu, and tumor immune escape mechanisms affecting infiltration and anti-tumor activity of immune cells are of great interest to understand tumor formation and to decipher novel access points for cancer therapy. However, cellular in vitro assays, which rely on monolayer cultures of mammalian cell lines, neglect the three-dimensional architecture of a tumor, thus limiting their validity for the in vivo situation. Methods: Three-dimensional in vivo-like tumor spheroid were established from human cervical carcinoma cell lines as proof of concept to investigate infiltration and cytotoxicity of NK cells in a 96-well plate format, which is applicable for high-throughput screening. Tumor spheroids were monitored for NK cell infiltration and cytotoxicity by flow cytometry. Infiltrated NK cells, could be recovered by magnetic cell separation. Results: The tumor spheroids were stable over several days with minor alterations in phenotypic appearance. The tumor spheroids expressed high levels of cellular ligands for the natural killer (NK) group 2D receptor (NKG2D), mediating spheroid destruction by primary human NK cells. Interestingly, destruction of a three-dimensional tumor spheroid took much longer when compared to the parental monolayer cultures. Moreover, destruction of tumor spheroids was accompanied by infiltration of a fraction of NK cells, which could be recovered at high purity. Conclusion: Tumor spheroids represent a versatile in vivo-like model system to study cytotoxicity and infiltration of immune cells in high-throughput screening. This system might proof useful for the investigation of the modulatory potential of soluble factors and cells of the tumor microenvironment on immune cell activity as well as profiling of patient-/donor-derived immune cells to personalize cellular immunotherapy

Advanced light microscopy core facilities : Balancing service, science and career

Core Facilities (CF) for advanced light microscopy (ALM) have become indispensable support units for research in the life sciences. Their organizational structure and technical characteristics are quite diverse, although the tasks they pursue and the services they offer are similar. Therefore, throughout Europe, scientists from ALM-CFs are forming networks to promote interactions and discuss best practice models. Here, we present recommendations for ALM-CF operations elaborated by the workgroups of the German network of ALM-CFs, German Bio-Imaging (GerBI). We address technical aspects of CF planning and instrument maintainance, give advice on the organization and management of an ALM-CF, propose a scheme for the training of CF users, and provide an overview of current resources for image processing and analysis. Further, we elaborate on the new challenges and opportunities for professional development and careers created by CFs. While some information specifically refers to the German academic system, most of the content of this article is of general interest for CFs in the life sciences. Microsc. Res. Tech. 79:463-479, 2016.publishe

Advanced light microscopy core facilities : balancing service, science and career

Core Facilities (CF) for advanced light microscopy (ALM) have become indispensable support units for research in the life sciences. Their organizational structure and technical characteristics are quite diverse, although the tasks they pursue and the services they offer are similar. Therefore, throughout Europe, scientists from ALM‐CFs are forming networks to promote interactions and discuss best practice models. Here, we present recommendations for ALM‐CF operations elaborated by the workgroups of the German network of ALM‐CFs, German Bio‐Imaging (GerBI). We address technical aspects of CF planning and instrument maintainance, give advice on the organization and management of an ALM‐CF, propose a scheme for the training of CF users, and provide an overview of current resources for image processing and analysis. Further, we elaborate on the new challenges and opportunities for professional development and careers created by CFs. While some information specifically refers to the German academic system, most of the content of this article is of general interest for CFs in the life sciences

Adherens junction assembly of WT-N-cadherin and its mutants.

<p>(<b>A</b>) Expression pattern of WT-N-cadherin and its mutants in L cells. Confocal images of control L cells or L cell lines stably expressing the N-cadherin-Venus WT and its mutant forms. Membrane fluorescence can be seen for all mutants demonstrating plasma membrane localization and junction formation for all mutants. Top panel: Venus channel, bottom: Overlay of DIC and Venus channel. (<b>B</b>) Example images of junction assembly. Images were taken for all mutants at time 0, 1 and 2 h after imaging commenced. Established junctions can be seen for WT and R14E at 1 h and for all mutants at 2 h (arrowheads). (<b>C</b>) Quantification of junction assembly. The number of junctions formed in a field of view (FOV) was counted over time and plotted. The graph shows that the rate of junction formation for WT is fastest followed by R14E. The number of junctions for all mutants was compared to WT at 60 and 120 min. R14E was not significantly different while W2A and V81D/V174D had significantly lower number of junctions at 60 min and 120 min (n = 3 for all mutants, two-tailed unpaired t-test, P < 0.05). (<b>D</b>) Quantification of junction lifetime. The junction lifetime for junctions present in a FOV was calculated between 60 and 120 min. On average WT junctions were present for 82% of time, R14E = 75%, W2A and V81D/V174D had significantly lower average junction lifetimes of 39% and 6%, respectively, thus confirming that mutating the <i>cis</i> interface leads to highly volatile junctions (Mann-Whitney U test, P < 0.0001). Error bars indicate SD. n(WT) = 15, n(W2A) = 17, n(R14E) = 12, n(V81D/V174D) = 15 junctions. Scale bar (A) and (B) = 10 µm.</p