TY - JOUR A1 - Scheiner, Ricarda A1 - Toteva, Anna A1 - Reim, Tina A1 - Sovik, Eirik A1 - Barron, Andrew B. T1 - Differences in the phototaxis of pollen and nectar foraging honey bees are related to their octopamine brain titers JF - Frontiers in physiology N2 - The biogenic amine octopamine is an important neuromodulator, neurohormone and neurotransmitter in insects. We here investigate the role of octopamine signaling in honey bee phototaxis. Our results show that groups of bees differ naturally in their phototaxis. Pollen forgers display a lower light responsiveness than nectar foragers. The lower phototaxis of pollen foragers coincides with higher octopamine titers in the optic lobes but is independent of octopamine receptor gene expression. Increasing octopamine brain titers reduces responsiveness to light, while tyramine application enhances phototaxis. These findings suggest an involvement of octopamine signaling in honey bee phototaxis and possibly division of labor, which is hypothesized to be based on individual differences in sensory responsiveness. KW - biogenic amines KW - tyramine KW - division of labor KW - honey bee KW - light responsiveness KW - insect KW - behavior Y1 - 2014 U6 - https://doi.org/10.3389/fphys.2014.00116 SN - 1664-042X VL - 5 PB - Frontiers Research Foundation CY - Lausanne ER - TY - JOUR A1 - Scheiner, Ricarda A1 - Abramson, Charles I. A1 - Brodschneider, Robert A1 - Crailsheim, Karl A1 - Farina, Walter M. A1 - Fuchs, Stefan A1 - Grünewald, Bernd A1 - Hahshold, Sybille A1 - Karrer, Marlene A1 - Koeniger, Gudrun A1 - Königer, Niko A1 - Menzel, Randolf A1 - Mujagic, Samir A1 - Radspieler, Gerald A1 - Schmickl, Thomas A1 - Schneider, Christof A1 - Siegel, Adam J. A1 - Szopek, Martina A1 - Thenius, Ronald T1 - Standard methods for behavioural studies of Apis mellifera JF - Journal of apicultural research N2 - In this BEEBOOK paper we present a set of established methods for quantifying honey bee behaviour. We start with general methods for preparing bees for behavioural assays. Then we introduce assays for quantifying sensory responsiveness to gustatory, visual and olfactory stimuli. Presentation of more complex behaviours like appetitive and aversive learning under controlled laboratory conditions and learning paradigms under free-flying conditions will allow the reader to investigate a large range of cognitive skills in honey bees. Honey bees are very sensitive to changing temperatures. We therefore present experiments which aim at analysing honey bee locomotion in temperature gradients. The complex flight behaviour of honey bees can be investigated under controlled conditions in the laboratory or with sophisticated technologies like harmonic radar or RFID in the field. These methods will be explained in detail in different sections. Honey bees are model organisms in behavioural biology for their complex yet plastic division of labour. To observe the daily behaviour of individual bees in a colony, classical observation hives are very useful. The setting up and use of typical observation hives will be the focus of another section. The honey bee dance language has important characteristics of a real language and has been the focus of numerous studies. We here discuss the background of the honey bee dance language and describe how it can be studied. Finally, the mating of a honey bee queen with drones is essential to survival of the entire colony. We here give detailed and structured information how the mating behaviour of drones and queens can be observed and experimentally manipulated. The ultimate goal of this chapter is to provide the reader with a comprehensive set of experimental protocols for detailed studies on all aspects of honey bee behaviour including investigation of pesticide and insecticide effects. KW - COLOSS KW - BEEBOOK KW - honey bee KW - behaviour KW - gustatory responsiveness KW - olfactory responsiveness KW - phototaxis KW - non-associative learning KW - associative learning KW - appetitive learning KW - aversive learning KW - locomotion KW - temperature sensing KW - honey bee flight KW - observation hive KW - honey bee dance KW - honey bee navigation KW - harmonic radar KW - BeeScan KW - RFID KW - honey bee mating KW - free-flying honey bees Y1 - 2013 U6 - https://doi.org/10.3896/IBRA.1.52.4.04 SN - 0021-8839 SN - 2078-6913 VL - 52 IS - 4 PB - International Bee Research Association CY - Cardiff ER - TY - THES A1 - Rolke, Daniel T1 - Räumliche und zeitliche Expressionsmuster sowie Funktionen der Serotonin-Rezeptor-Subtypen der Honigbiene, Apis mellifera L., 1758 T1 - Spatial and temporal expression patterns as well as functions of the serotonin-receptor-subtypes in the honey bee, Apis mellifera L., 1758 N2 - Das biogene Amin Serotonin (5-Hydroxytryptamin, 5-HT) agiert als wichtiger chemischer Botenstoff bei einer Vielzahl von Organismen. Das durch 5 HT vermittelte Signal wird dabei durch spezifische Rezeptoren wahrgenommen und in eine zelluläre Reaktion umgesetzt. Diese 5 HT Rezeptoren gehören überwiegend zur Familie der G Protein gekoppelten Rezeptoren (GPCRs). Die Honigbiene Apis mellifera bietet unter anderem aufgrund ihrer eusozialen Lebensweise vielfältige Ansatzpunkte zur Erforschung der Funktionen des serotonergen Systems in Insekten. Bei A. mellifera wurden bereits vier 5-HT-Rezeptor-Subtypen beschrieben und molekular sowie pharmakologisch charakterisiert: Am5 HT1A, Am5 HT2α, Am5 HT2β und Am5 HT7. Ziel dieser Arbeit war es, gewebespezifische sowie alters- und tageszeitabhängige Expressionsmuster der 5 HT Rezeptor-Subtypen zu untersuchen, um zu einem umfassenden Verständnis des serotonergen Systems der Honigbiene beizutragen und eine Basis zur Hypothesenentwicklung für mögliche physiologische Funktionen zu schaffen. Es wurde die Expression der 5 HT Rezeptorgene sowohl im zentralen Nervensystem, als auch in Teilen des Verdauungs-, Exkretions- und Speicheldrüsensystems gemessen. Dabei konnte gezeigt werden, dass die untersuchten 5-HT-Rezeptor-Subtypen generell weit im Organismus der Honigbiene verbreitet sind. Interessanterweise unterschieden sich die untersuchten Gewebe hinsichtlich der mRNA-Expressionsmuster der untersuchten Rezeptoren. Während beispielsweise im Gehirn Am5 ht1A und Am5 ht7 stärker als Am5 ht2α und Am5 ht2β exprimiert wurden, zeigte sich in Darmgewebe ein umgekehrtes Muster. Es war bereits bekannt, dass es bei der Expression der Am5-ht2-Gene zu alternativem Spleißen kommt. Dies führt zur Entstehung der verkürzten mRNA-Varianten Am5 ht2αΔIII und Am5 ht2βΔII. Die daraus resultierenden Proteine können nicht als funktionelle GPCRs agieren. Es konnte gezeigt werden, dass diese verkürzten Spleißvarianten dennoch ubiquitär in der Honigbiene exprimiert werden. Bemerkenswerterweise wurden gewebeübergreifende Ähnlichkeiten der Expressionsmuster der Spleißvarianten gegenüber deren zugehörigen Volllängenvarianten festgestellt, welche auf Funktionen der verkürzten Varianten in vivo hindeuten. Im Hinblick auf die bei A. mellifera hauptsächlich altersbedingte Arbeitsteilung wurde die Expression der 5 HT Rezeptor-Subtypen in Gehirnen von unterschiedlich alten Arbeiterinnen mit unterschiedlichen sozialen Rollen verglichen. Während auf mRNA-Ebene keines der vier 5 HT Rezeptor-Subtypen eine altersabhängig unterschiedliche Expression zeigte, konnte für das Am5-HT1A-Protein eine höhere Konzentration in den Gehirnen älterer Tiere gefunden werden. Dies deutet auf eine posttranskriptionale Regulation der 5 HT1A Rezeptorexpression hin, welche im Zusammenhang mit der Arbeitsteilung stehen könnte. Es erfolgte die Untersuchung tageszeitlicher Änderungen sowohl der Expression der 5 HT Rezeptor-Subtypen, als auch des biogenen Amins 5 HT selbst. Während es in den Gehirnen von Arbeiterinnen, welche unter natürlichen Bedingungen gehalten wurden, zu keiner tageszeitabhängigen Veränderung des 5 HT-Titers kam, zeigte die mRNA-Expression von Am5-ht2α und Am5-ht2β eine periodische Oszillation mit Zunahme während des Tages und Abnahme während der Nacht. Diese Regulation wird durch externe Faktoren hervorgerufen und ist nicht auf einen endogenen circadianen Rhythmus zurückzuführen. Dies ging aus der Wiederholung der Expressionsmessungen an Gehirnen von Bienen, welche unter konstanten Laborbedingungen gehalten wurden, hervor. Weiterhin wurde die Beteiligung des serotonergen Systems an der Steuerung von Aspekten des circadianen lokomotorischen Aktivitätsrhythmus anhand von Verhaltensexperimenten untersucht. Mit 5 HT gefütterte Arbeiterinnen zeigten dabei unter konstanten Bedingungen eine längere Periode des Aktivitätsrhythmus als Kontrolltiere. Dies deutet auf einen Einfluss von 5 HT auf die Modulation der Synchronisation der inneren Uhr hin. Die vorliegenden Ergebnisse tragen wesentlich zum tieferen Verständnis des serotonergen Systems der Honigbiene bei und bieten Ansatzpunkte für weitergehende Studien zur Funktion von 5 HT im Zusammenhang mit der Modulation von physiologischen Prozessen, Arbeitsteilung und circadianen Rhythmen. N2 - The biogenic amine serotonin (5-hydroxytryptamine, 5-HT) acts as an important chemical messenger in a variety of organisms. The 5 HT-mediated signal is perceived by specific receptors and converted to a cellular response. This 5 HT receptors mainly belong to the family of G protein-coupled receptors (GPCRs). The honeybee offers various starting points to explore the functions of the serotonergic system in insects, among other things because of their eusocial lifestyle. In A. mellifera four 5-HT receptor subtypes have been described and molecularly and pharmacologically characterized: Am5 HT1A, Am5 HT2α, Am5 HT2β and Am5 HT7. The aim of this study was to investigate the tissue-specific and age- and daytime-dependent expression patterns of the 5 HT receptor subtypes in order to contribute to a comprehensive understanding of the serotonergic system in A. mellifera. The expression of the 5 HT receptor genes was measured in the central nervous system, as well as in parts of the digestive, excretory and salivary system. It was shown that the investigated 5-HT receptor subtypes are widely distributed in the honeybee. Interestingly, the tissues examined differed with regard to the mRNA expression pattern of the studied receptors. While in the brain the expression of Am5 ht1A and Am5 ht7 was higher than that of Am5 ht2α and Am5 ht2β, the opposite held true for intestinal tissue. It was already known that alternative splicing occurs in the expression of both Am5-ht2 genes. This leads to the formation of the truncated mRNA variants Am5 ht2αΔIII and Am5 ht2βΔII. The resulting proteins cannot act as functional GPCRs. However, it was demonstrated that these truncated splice variants are still ubiquitously expressed in the honeybee. Remarkably, similarities in the expression patterns of the shortened splice variants towards their corresponding full length variants were found throughout different tissues that indicate in vivo functions of the shortened variants. In view of the mainly age related division of labor in A. mellifera, the expression of the 5 HT receptor subtypes was compared in brains of different aged workers with different social roles. While none of the four 5 HT receptor subtypes showed an age-dependent differential expression at the mRNA level, a higher concentration in the brains of older animals could be found for the Am5-HT1A protein. This points to a post-transcriptional regulation of 5 HT1A receptor expression, which could be associated with the division of labor. It was carried out the investigation of diurnal changes in both the expression of the 5 HT receptor subtypes, and of the biogenic amine 5 HT itself. While in the brains of workers, which were kept under natural conditions, no daytime-dependent changes of the 5 HT titer could be found, the mRNA expression of Am5 ht2α and Am5-ht2β showed a periodic oscillation with an increase during the day and a decrease at night. This regulation is caused by external factors and not due to an endogenous circadian rhythm. That was shown by the repetition of the expression measurements on brains of bees, which were kept under constant laboratory conditions. Furthermore, the involvement of the serotonergic system in controlling aspects of circadian locomotor activity rhythm was investigated in behavioral experiments. Under constant conditions, worker bees which were fed with 5 HT showed a longer period of locomotor rhythm than control animals. This suggests an influence of 5 HT in the modulation of the synchronization of the internal clock. In conclusion, the present results contribute to a more detailed understanding of the serotonergic system of the honeybee and provide a basis for further studies on the function of 5 HT in connection with the modulation of physiological processes, division of labor and circadian rhythms. KW - Serotonin KW - Rezeptor KW - Honigbiene KW - serotonin KW - receptors KW - honey bee Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-96667 ER - TY - THES A1 - Reim, Tina T1 - Biogene Aminrezeptoren bei der Honigbiene Apis mellifera T1 - Biogenic amine receptors in the honey bee Apis mellifera BT - Charakterisierung des Tyramin 2-Rezeptors und die Beteiligung der Octopamin- und Tyraminrezeptoren an der Steuerung der altersabhängigen Arbeitsteilung N2 - Die Honigbiene Apis mellifera zeigt innerhalb einer Kolonie eine an das Alter gekoppelte Arbeitsteilung. Junge Honigbienen versorgen die Brut (Ammenbienen), während ältere Honigbienen (Sammlerinnen) außerhalb des Stocks Pollen und Nektar eintragen. Die biogenen Amine Octopamin und Tyramin sind an der Steuerung der Arbeitsteilung maßgeblich beteiligt. Sie interagieren mit Zielzellen über die Bindung an G Protein gekoppelte Rezeptoren. A. mellifera besitzt fünf charakterisierte Octopaminrezeptoren (AmOctαR1, AmOctβR1-4), einen charakterisierten Tyraminrezeptor (AmTyr1) sowie einen weiteren putativen Tyraminrezeptor. In der vorliegenden Arbeit wurde dieser putative Aminrezeptor als zweiter Tyraminrezeptor (AmTyr2) identifiziert, lokalisiert und pharmakologisch charakterisiert. Die von der cDNA abgeleitete Aminosäuresequenz weist strukturelle Eigenschaften und konservierte Motive von G Protein gekoppelten Rezeptoren auf. Phylogenetisch ordnet sich der AmTyr2 Rezeptor bei den Tyramin 2 Rezeptoren anderer Insekten ein. Die funktionelle und pharmakologische Charakterisierung des putativen Tyraminrezeptors erfolgte in modifizierten HEK293 Zellen, die mit der Rezeptor cDNA transfiziert wurden. Die Applikation von Tyramin aktiviert Adenylylcyclasen in diesen Zellen und resultiert in einem Anstieg des intrazellulären cAMP Gehalts. Der AmTyr2 Rezeptor kann durch Tyramin in nanomolaren Konzentrationen halbmaximal aktiviert werden. Während es sich bei Octopamin um einen wirkungsvollen Agonisten des Rezeptors handelt, sind Mianserin und Yohimbin effektive Antagonisten. Für die Lokalisierung des Rezeptorproteins wurde ein polyklonaler Antikörper generiert. Eine AmTyr2-ähnliche Immunreaktivität zeigt sich im Gehirn in den optischen Loben, den Antennalloben, dem Zentralkomplex und in den Kenyon Zellen der Pilzkörper. Des Weiteren wurde die Rolle der Octopamin- und Tyraminrezeptoren bei der Steuerung der altersabhängigen Arbeitsteilung analysiert. Die Genexpression des AmOctαR1 in verschiedenen Gehirnteilen korreliert unabhängig vom Alter mit der sozialen Rolle, während sich die Genexpression von AmOctβR3/4 und den Tyraminrezeptoren AmTyr1 und AmTyr2 maximal mit dem Alter aber nicht der sozialen Rolle ändert. Sammlerinnen weisen einen höheren Octopamingehalt im Gesamtgehirn auf als Ammenbienen; bei Tyramin zeigen sich keine Unterschiede. Während Tyramin offensichtlich keine direkte Rolle spielt, werden durch Octopamin gesteuerte Prozesse der altersabhängigen Arbeitsteilung bei der Honigbiene vermutlich über den AmOctαR1 vermittelt. Die Ergebnisse der vorliegenden Arbeit zeigen die wichtige Rolle von biogenen Aminen, insbesondere Octopamin bei der sozialen Organisation von Insektenstaaten. N2 - The honey bee Apis mellifera exhibits an age-dependent division of labour. Young bees take care of the brood (nurse bees), while older honey bees (foragers) leave the hive to provide the colony with pollen and nectar. The biogenic amines octopamine and tyramine are significantly involved in regulating the division of labour. They interact with target cells via binding to G protein-coupled receptors. A. mellifera has five characterised octopamine receptors (AmOctαR1, AmOctβR1-4), one characterised tyramine receptor (AmTyr1) and an additional putative tyramine receptor. In the present study, the putative amine receptor was identified as a second tyramine receptor (AmTyr2), was localized and characterised pharmacologically. The deduced amino acid sequence shows structural properties and conserved motifs of G protein-coupled receptors. Phylogenetically the AmTyr2 receptor clusters with tyramine 2 receptors from other insect species. Functional and pharmacological characterisation of the putative tyramine receptor was carried out using modified HEK293 cells trans¬fected with the receptor cDNA. Application of tyramine activates adenylyl cyclases in these cells, which leads to an elevated intracellular cAMP level. Half maximal activation can be achieved by applying tyramine with concentrations in the nanomolar range. While octopa¬mine is an effective agonist of the receptor, mianserin and yohimbine are the most effective antagonists. A polyclonal antibody was generated for the localisation of the receptor protein. AmTyr2 like immunoreactivity can be observed in the optic lobes, the Kenyon cells of the mushroom bodies, the antennal lobes and the central complex of the brain. Furthermore, the role of the octopamine and tyramine receptors in regulating the age-dependent division of labour was analysed. The gene expression of the AmOctαR1 in different brain neuropiles correlates with the social role of the honey bee, while the gene expression of AmOctβR3/4, AmTyr1 and AmTyr2 mostly changes with age but not social role. Additionally, foragers have higher octopamine brain titres than nurse bees. No differences can be observed for the titre of tyramine. Octopamine-regulated processes in age-dependent division of labour are probably mediated via the AmOctαR1. Tyramine has obviously no direct impact on the age-dependent division of labour. The present study shows the important role of biogenic amines, particularly octopamine in the social organisation of insect societies. KW - Apis mellifera KW - honey bee KW - Honigbiene KW - biogene Amine KW - biogenic amines KW - Octopamin KW - octopamine KW - Tyramin KW - tyramine KW - Arbeitsteilung KW - division of labor Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-80982 ER - TY - JOUR A1 - Gisder, Sebastian A1 - Schüler, Vivian A1 - Horchler, Lennart L. A1 - Groth, Detlef A1 - Genersch, Elke T1 - Long-Term Temporal Trends of Nosema spp. Infection Prevalence in Northeast Germany BT - Continuous Spread of Nosema ceranae, an Emerging Pathogen of Honey Bees (Apis mellifera), but No General Replacement of Nosema apis JF - Frontiers in cellular and infection microbiology N2 - The Western honey bee (Apis mellifera) is widely used as commercial pollinator in worldwide agriculture and, therefore, plays an important role in global food security. Among the parasites and pathogens threatening health and survival of honey bees are two species of microsporidia, Nosema apis and Nosema ceranae. Nosema ceranae is considered an emerging pathogen of the Western honey bee. Reports on the spread of N. ceranae suggested that this presumably highly virulent species is replacing its more benign congener N. apis in the global A. mellifera population. We here present a 12 year longitudinal cohort study on the prevalence of N. apis and N. ceranae in Northeast Germany. Between 2005 and 2016, a cohort of about 230 honey bee colonies originating from 23 apiaries was sampled twice a year (spring and autumn) resulting in a total of 5,600 bee samples which were subjected to microscopic and molecular analysis for determining the presence of infections with N. apis or/and N. ceranae. Throughout the entire study period, both N. apis- and N. ceranae-infections could be diagnosed within the cohort. Logistic regression analysis of the prevalence data demonstrated a significant increase of N. ceranae-infections over the last 12 years, both in autumn (reflecting the development during the summer) and in spring (reflecting the development over winter) samples. Cell culture experiments confirmed that N. ceranae has a higher proliferative potential than N. apis at 27. and 33 degrees C potentially explaining the increase in N. ceranae prevalence during summer. In autumn, characterized by generally low infection prevalence, this increase was accompanied by a significant decrease in N. apis- infection prevalence. In contrast, in spring, the season with a higher prevalence of infection, no significant decrease of N. apis infections despite a significant increase in N. ceranae infections could be observed. Therefore, our data do not support a general advantage of N. ceranae over N. apis and an overall replacement of N. apis by N. ceranae in the studied honey bee population. KW - honey bee KW - Apis mellifera KW - Nosema spp. KW - epidemiology KW - replacement Y1 - 2017 U6 - https://doi.org/10.3389/fcimb.2017.00301 SN - 2235-2988 VL - 7 PB - Frontiers Research Foundation CY - Lausanne ER - TY - JOUR A1 - Behrends, Andreas A1 - Scheiner, Ricarda T1 - Octopamine improves learning in newly emerged bees but not in old foragers JF - JOURNAL OF EXPERIMENTAL BIOLOGY N2 - Honey bees (Apis mellifera) are well known for their excellent learning abilities. Although most age groups learn quickly to associate an odor with a sucrose reward, newly emerged bees and old foragers often perform poorly. For a long time, the reason for the poor learning performance of these age groups was unclear. We show that reduced sensitivity for sucrose is the cause for poor associative learning in newly emerged bees but not in old foragers. By increasing the sensitivity for sucrose through octopamine, we selectively improved the learning performance of insensitive newly emerged bees. Interestingly, the learning performance of foragers experiencing the same treatment remained low, despite the observed increase in sensitivity for the reward. We thus demonstrate that increasing sensitivity for the reward can improve the associative learning performance of bees when they are young but not when they had foraged for a long time. Importantly, octopamine can have very different effects on bees, depending on their initial sensory sensitivity. These differential effects of octopamine have important consequences for interpreting the action of biogenic amines on insect behavior. KW - honey bee KW - PER KW - olfactory conditioning KW - ageing KW - sucrose responsiveness Y1 - 2012 U6 - https://doi.org/10.1242/jeb.063297 SN - 0022-0949 VL - 215 IS - 7 SP - 1076 EP - 1083 PB - COMPANY OF BIOLOGISTS LTD CY - CAMBRIDGE ER -