©2016.PublishedbyTheCompanyofBiologistsLtd|JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 RESEARCHARTICLE Insulin effects on honeybee appetitive behaviour CarolinaMengoniGoñalons1,‡,MarieGuiraud2,*,‡,Marıá GabrieladeBritoSanchez2andWalterM.Farina1,§ ABSTRACT Seeley, 1982). Nutrition, age and reproductive status interact to regulate worker behaviour (Amdam et al., 2004). This temporal Worker honeybees (Apis mellifera) carry out multiple tasks phenotypicprogressionis,inpart,aconsequenceofphysiological throughout their adult lifespan. It has been suggested that the changesthattheadultworkerundergoes. insulin/insulin-like signalling pathway participates in regulating To explore these traits in honeybee workers, a hypothesis has behavioural maturation in eusocial insects. Insulin signalling beenproposed.Thereproductivegroundplanhypothesis(Amdam increases as the honeybee worker transitions from nurse to food etal.,2004;Huntetal.,2007)suggeststhattemporallabourdivision processortoforager.Asbehaviouralshiftsrequiredifferentialusage is controlled by ovarian development (Turillazzi and West- of sensory modalities, our aim was to assess insulin effects on Eberhard, 1996): nurses present rudimentary ovary development olfactory and gustatory responsiveness as well as on olfactory whereas foragers lose this feature (Amdam et al., 2004). These learning in preforaging honeybee workers of different ages. Adults resultsleadtoanintegrativepathwaywherejuvenilehormone(JH), wererearedinthelaboratoryorinthehive.Immediatelyafterbeing vitellogenin (Vg) and insulin have pleiotropic effects on caste injected with insulin or vehicle (control), and focusing on the differentiation and worker labour division (Amdam et al., 2004; proboscis extension response, bees were tested for their Amentetal.,2008;LattorffandMoritz,2013).JH,Vgandinsulin spontaneous response to odours, sucrose responsiveness and levelsdifferbetweenfemalecastes(queenandworkers),andvary ability to discriminate odours through olfactory conditioning. Bees throughouttheadultbee’slifespan.JHtitersshowaslightincrease injected with insulin have higher spontaneous odour responses. from2to4daysoftheadultageandthenremainextremelylowuntil Sucrose responsiveness and odour discrimination are differentially peaklevelsarereachedwhenworkersstopperformingtaskswithin affected by treatment according to age: whereas insulin increases the nest and start foraging. By contrast, maximum Vg levels are gustatory responsiveness and diminishes learning abilities of found in young bees and then decrease until they become younger workers, it has the opposite effect on older bees. In undetectable in foragers (Amdam et al., 2004; Hartfelder summary, insulin can improve chemosensory responsiveness in and Engels, 1998). Simultaneously, insulin signalling gene young workers, but also worsens their learning abilities to expression, including insulin-like peptides and their receptors, is discriminateodours.Theinsulinsignallingpathwayisresponsivein higherinforagersthaninnurses(Amentetal.,2008;Coronaetal., youngworkers,althoughtheyarenotyetinitiatingoutdooractivities. 2007). Our results show strong age-dependent effects of insulin on Nutrition has an important role in honeybee age polyethism appetitivebehaviour,whichuncoverdifferencesininsulinsignalling regulationthroughoutthehoneybeeworker’sadulthood. (Amdametal.,2007;Robinson,1992).Theonsetageofforagingis affectedbythecolony’snutritionalstatus(Amdametal.,2007)and KEYWORDS:Apismellifera,Sucrose,Insulin,Chemosensory correlates with changes in the expression of genes implicated in perception,Associativelearning,Odourdiscrimination feeding behaviour (Ament et al., 2008). Changes in nutritional status, which are regulated through the insulin signalling system, INTRODUCTION playaroleindictatingbehaviouralshiftsasworkersage,whichare ThehoneybeeApismelliferaLinnaeus1758isasocialinsectthat likelytobemediatedthroughsocialcues(Amentetal.,2008;Toth presents caste polyphenism (Wilson, 1971). Drones and queens etal.,2005).Unlikevertebrates,expressionofinsulin-relatedgenes constitute the reproductive castes whereas workers are sexually in honeybees is negatively correlated with nutrient store: insulin immature female individuals that perform collective tasks to levelsincreasewhereaslipidstoresdecreasewithworkerage(Toth maintain the nest’s welfare. This caste exhibits age polyethism, etal.,2005).Fromthis,itcanbepostulatedthatinsulinsignalling y whichresultsinyoungadultsperformingdutiesinsidethenestsuch relates to the forager’s sensitivity to nutritional changes. The g o as nursing, comb building, food processing, guarding or fanning. insulin-like peptide is mainly expressed in the brain and is l o The oldest worker bees are foragers, who gather resources for the upregulated in forager brains compared with those of nurses i B whole colony and transport it back to the hive (Lindauer, 1952; (Ament et al., 2008). This, in turn, would make foragers more l sensitive to appetitive cues, contributing to their exaggerated a t 1LaboratoriodeInsectosSociales,DepartamentodeBiodiversidadyBiologıá responsestonutritionalstimuli. en Experimental,IFIBYNE-CONICET,FacultaddeCienciasExactasyNaturales, Honeybeesexhibitaninnatereflextowardsantennalstimulation m UniversidaddeBuenosAires,PabellónII,CiudadUniversitaria,(C1428EHA) withsucrosesolution,theproboscisextensionresponse(PER).By i lBauCeongosniAtioirnesA,nAimrgaelnet,inCaN.R2USn,iFv-e3r1si0te6́2d,eTToouulolouusseeC,UedPeSx,C9,eFnrtarendcee.Recherchessur assessingthePERtowardswaterandsucrosesolutionsvaryingin per *Presentaddress:DepartmentofBiologicalandExperimentalPsychology,Queen concentration, it is possible to estimate the sucrose response x MaryUniversityofLondon,London,UK. E ‡Theseauthorscontributedequallytothiswork threshold (SRT) of individuals, a measure of gustatory f responsiveness (Page et al., 1998). This assay can give o §Authorforcorrespondence([email protected]) information about the bees’ nutritional status (Martinez and al Farina, 2008; Pankiw et al., 2004). Foragers often show high n W.M.F.,0000-0001-6411-489X r sucroseresponsiveness,whereastheoppositeisfoundinyoungand u o Received20May2016;Accepted15July2016 middle-aged bees (Scheineret al., 2004). Regarding the effect on J 3003 RESEARCHARTICLE JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 libitum,andwerecheckedeveryotherday.Foodwasreplacedevery Listofabbreviations 2daysanddeadbeeswereremovedwheneverneeded(aspreviously AIC Akaike’sinformationcriterion describedinMengoniGoñalonsandFarina,2015).Forhiverearing, CR conditionedresponse emergingbeesweremarkedwithacrylicpaint (ALBA-Argentina) CS− unrewardedconditionedstimulus on their thorax. A specific colour was used for each day of CS+ rewardedconditionedstimulus emergencesoastodeterminetheirageatalaterstage.Markedbees DI discriminationindex were introduced into an observational hive that consisted of two GLM generalisedlinearmodel broodframes,amatedqueenandapproximately4000workers,and GLMM generalisedlinearmixedmodel GRS gustatoryresponsescore werereadilyacceptedbytherestofthecolony(Breedetal.,2004). JH juvenilehormone Thehivewascontainedbetweenacrylicwallsthathada40×25cm PER proboscisextensionresponse windowcoveredbyahingeddoorthatallowedaccesstothecolony. QMP queenmandibularpheromone On the day of the experiment, marked bees were captured SOR spontaneousodourresponse individuallyinplastictubesandtakentothelaboratory. SRT sugarresponsethreshold The experiments comply with the ‘Principles of animal care’, Vg vitellogenin publication no. 86-23, revised 1985, of the National Institutes of Health,aswellaswiththecurrentlawsofthecountryinwhichthe experimentswereperformed. cognitive abilities, evidence suggests that a JH analogue affects short-term olfactory memory in recently emerged honeybees Experimentalseriesandinjections (Maleszka and Helliwell, 2001). JH positively influences the Withthepurposeofassessingdifferentialinsulineffectsaccording insulin-like signalling pathway in insects (Amdam and Seehuus, to adult age, four groups of pre-foraging bees were contemplated. 2006;Coronaetal.,2007;Huntetal.,2007;Tuetal.,2005).Thus, Therefore, young beeworkers were assessed when they were 2/3, weexpectthatinsulin,withastrongagedependency,willnotonly 5/6,9/10or14/15daysold. affect sucrose and olfactory responsiveness but will also have an Experimentalbeeswereanaesthetisedwithiceandharnessedin effectonlearningabilitiestodiscriminateodoursinhoneybees. carvedpipette tips, whichrestrainedbodymovement,but allowed Apis mellifera has been considered a reference model within them to freely move their mouthparts and antennae. Before they invertebrates to study behavioural and neural plasticity (Brown regainedactivity,theywereinjectedwithamicrosyringe(NanoFil, etal.,2004;GiurfaandSandoz,2012;MassonandArnold,1987; WorldPrecisionInstruments)throughthefourthandfifthsegments Menzel,1999;Siggetal.,1997;Winningtonetal.,1996).Infact,at oftheabdomen.Treatmentbeeswereinjectedwith1µlofinsulin earlyagesoftheadultstage,thecentralnervoussystemofhoneybee (4mgml−1, Human recombinant Zinc, Gibco, Grand Island, NY, workerscompletesitsmaturation(MassonandArnold,1987),and USA) and control bees received 1µl of Hepes buffer solution experiences undergone during this period can shape later (25mmoll−1) (Ament et al., 2011). Solutions were used physiology and behaviour (Arenas and Farina, 2008; Arenas immediately after melting and kept in ice during the procedure. et al., 2009a,b, 2012). Recently emerged and middle-aged Twenty-fourbeesofthesameagewereusedperinjectionsession, workers show reliable learning performances in an olfactory PER which lasted approximately 45min overall. In order to reduce conditioning (Mengoni Goñalons and Farina, 2015), similar to effectsresultingfromdifferencesinthetimebetweeninjectionand those of foragers. However, gustatory responsiveness and its evaluation,treatmentassignmentwasdonebyblocks,inwhich12 sensitivity to environmental changes vary with age (Mengoni beeswereinjectedwithinsulinandtheother12wereinjectedwith GoñalonsandFarina,2015;Ramírezetal.,2010). buffersolution.Astwoinjectionsessionswereperformedeachday, Previous reports showed that endocrine secretions can tune the order in which the treatments were given in the morning was chemosensorysystem in Drosophila (Ko et al., 2015; Root et al., switched in the afternoon. The following day, the entiretreatment 2011). However, these responses could differ strongly in social assignmentwasalternated.Allfouragegroupswererepresentedina insects. Here, we assess the effect of insulin on appetitive pairofdays.Theorderinwhichagegroupsweretestedwithineach behaviours such as chemosensory responsiveness and learning pair was randomised. Behavioural assays were performed 5min abilities in preforaging bees, especially in the case of young hive afterinjectionofthelastbee.Theorderinwhichbeeswereinjected bees. waskeptinthefollowingprocedure.Timebetweeninjectionandthe y startoftheassaywas25minforallbees. g o MATERIALSANDMETHODS l o Studysiteandanimals Spontaneousodourresponse i B The study was carried out during the summer–autumn season of The harnessed bee was placed between a device that produced a l a 2014intheexperimentalfieldoftheFacultaddeCienciasExactasy constantairflowandanairextractorthatremovedreleasedodours.The t NaturalesoftheUniversidaddeBuenosAires,Argentina(34°32′S, airstream(2.5mls−1)wasdeliveredtotheheadofthebee2cmaway n e 58°26′W).NewlyemergedEuropeanhoneybees(A.mellifera)were fromit.Anodourisconsideredaneutralstimulusandusuallyelicits m obtained from sealed brood frames taken from the experimental no PER. Nevertheless, a naïve bee can still show a spontaneous ri e apiary and placed in an incubator at 36°C and 55% relative response towards a certain odour. For this procedure, pure odours p humidity. After emergence, workers were collected and reared in (Raguso and Pichersky, 1999), linalool and phenylacetaldehyde x E different environments: in the laboratory under controlled (Sigma-Aldrich, Steinheim, Germany), were used. Each was f conditions or in an observational hive. For the former, emerging delivered for 6s when, by means of an electric valve, the airflow o beeswerecollectedingroupsofupto150individualsandconfined wasredirectedtopassthroughasyringecontaining4µlofthepure al n inwoodenboxes(10×10×10cm)withametallicmeshononeside odourimpregnatedona30×3mmfilterpaper.Aspontaneousodour r andaplasticdooronother.Cageswerekeptinanotherincubatorat response (SOR) was considered when the bee fully extended its u o 31°C. They offered 16% w/w sucrose solution and pollen ad proboscis during odour delivery. Bees that responded to the J 3004 RESEARCHARTICLE JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 mechanicalairstimulus(16scleanairflowbeforeodourpresentation) first,butnotthelatter.TheglobalDIwascalculatedasthenumber were discarded, as well as bees that did not respond to 50% w/w oftrialpairsthebeesucceededindiscriminating betweenthetwo sucrose solution after the gustatory response assay (see following odours(valuesinclude0through4). section).Odourpresentationswere10minapart,andtheorderwas Aperiodof20minelapsedbetweenthelasttrialandthetesting alternated frombeetobee(partsofthisprocedurewerepreviously phase.Thelatterconsistedofnon-rewardedpresentationsoftheCS+ describedinMengoniGoñalonsandFarina,2015). andtheCS−,alternatingtheirorderfrombeetobee.Afterthetesting phase, the response to 50% w/w sucrose solution was verified and Gustatoryresponsiveness only responding bees were taken into account (a similar procedure ImmediatelyafterSORevaluation,beeswerestimulatedwithsucrose waspreviouslydescribedinMengoniGoñalonsandFarina,2015). solutionsofincreasingconcentrations(0.1,0.3,1,3,10,30and50% w/w) by touching their antennae (Page et al., 1998). The lowest Statisticalanalysis sucroseconcentrationatwhichanindividualrespondedbyextending The effects of factors on all variables were assessed by means of itsprobosciswasinterpretedasitsSRT.Beeswerelinedupandtested generalised linear models (GLM) or generalised linear mixed sequentiallyforeachconcentration,i.e.allbeeswerepresentedwith models (GLMM). Models were fitted in R (R Foundation for 0.1%solutionfirst,thenwith0.3%solutionandsoon.Beforeeach StatisticalComputing,Vienna,Austria)usingtheglmfunctionfor sucrosesolutionpresentation,allbeesweretestedfortheirresponseto theformercaseandtheglmerfunctionofthelme4package(Bates water (0%). This controlled potential effects of repeated sucrose et al., 2015) for the latter. Alternative models were assessed and stimulationthatcouldleadtoincreasedsensitizationorhabituation,as compared,andonewaschosendependingonitsparsimonyandits wellasensuringthatextensionoftheprobosciswasnotduetothirst. Akaike’sinformationcriterion(AIC)value.Posthoccomparisons Theinter-stimulusintervalbetweenwaterandsucrosesolutionwas wereperformedwiththeglhtfunctionoftheRpackagemultcomp 4minlong.Attheendoftheexperiment,agustatoryresponsescore (Hothornetal.,2008). (GRS)wasobtainedforeachbee.Thisscorewasbasedonthenumber An SOR was defined asthe extension of the proboscistowards ofsucroseconcentrationstowhichthebeesresponded.Theresponse any of the two odours. Effect of insulin injection on SOR was wasarbitrarilyquantifiedwithscoresfrom1to7,where1represented assessed by means of a GLM with binomial error structure. The abeethatonlyrespondedtothehighestsucroseconcentration,whilea initial model included rearing environment, age and treatment as score of 7 represented an individual that responded to all fixed factors. In addition, to test for any odour bias, spontaneous concentrations tested. If a bee failed to respond to sucrose responsestoeachodourwereconsideredinaseparateanalysis.In concentration in the middle of a response series (e.g. responded to thiscase,aGLMMwasusedandtheinitialmodelincludedrearing 0.3,3and10%,butdidnotrespondto1%),this‘failed’responsewas environment,age,treatmentandodourasfixedfactorsandsubject consideredtobeanerrorandthebeewasdeemedtohaverespondedto bee as a random factor. Gustatory responsiveness was estimated thatconcentrationaswell.Abeethatdidnotrespondtoanyofthe throughtheGRS,whichisasumoftheunconditionedresponsesto sucrose concentrations (score of 0) was excluded from further the sugar solutions presented in the procedure. Values include 1 analyses. In addition, those bees that responded to all sucrose through7.TheeffectofinsulininjectiononGRSwasassessedby concentrations and all presentations of water were excluded from means of a GLM with binomial error structure. The initial model analyses as they appeared not to be able to discriminate between includedrearingenvironment,ageandtreatmentasfixedfactors. sucrose solution and water (as previously described in Mengoni Abeethatextendeditsproboscistowardsodoursinthefirsttrial GoñalonsandFarina,2015). pair was considered to showa spontaneous response and was not takenintoaccountforconditioninganalysis.Theeffectofinsulinon OdourdiscriminationinclassicalPERconditioning olfactory discrimination was assessed by means of a GLM with For this procedure, only 5/6- and 14/15-day-old laboratory-reared binomial error structure. The initial model included treatment and bees were used. These naïve bees were presented with the same age as fixed factors. In the testing phase, no bee extended its odoursusedintheSORassay,butinthiscaselinaloolwaspaired proboscis towards the CS−. Therefore, effect of insulin injection with 50% w/w (rewarded conditioned stimulus, CS+; wasonlystudiedonCRtowardstheCS+andassessedbymeansofa unconditioned stimulus) and phenylacetaldehyde was not GLMthatincludedtreatmentandageasfixedfactors. (unrewarded conditioned stimulus, CS−). The harnessed bee was placedinthesamecontextasdescribedintheSpontaneousodour RESULTS y responsesection,above.Duringconditioning,odourwasdelivered Spontaneousodourresponse g o for 6s and, in the case of the CS+ presentation, the reward was Bees were presented with two odour stimuli (linalool and l o presentedduringthelast3softhisperiodbytouchingtheantennae phenylacetaldehyde). We defined a spontaneous response as the i B with 50% w/w sucrose solution and then feeding the bee. A extensionoftheproboscistowardsanyofthetwoodours.Insulin- l a conditionedresponse(CR)wasconsideredtohaveoccurredwhen injected bees, independently of age or rearing environment, had t the bee fully extended its proboscis during the first 3s of odour higher SOR than control bees. As the minimum model did not n e delivery.Onetriallastedfor39sandwascomposedof16sofclean includethesefactors,rearingenvironmentoragehadnoeffecton m airflow,6sofodourand17sofcleanairflow.Trainingconsistedof SOR(SOR∼treatment,AIC=625.13,Z=2.585,P=0.0097;Fig.1; ri fiveCS+andfiveCS−trialsarrangedinapseudo-randomisedorder TableS1).Inaddition,therewasnobiastowardsacertainstimuli e p (CS−, CS+, CS+, CS−, CS−, CS+, CS−, CS+, CS+, CS−). The (SOR ∼ odour+bee, Z=0.00, P=1; Table S2). Therefore, we can x E inter-trial interval lasted approximately 15min. To estimate the statethattherewasnoodourpreference. f ability to discriminate between the two odours in the differential o conditioning,wedefinedaglobaldiscriminationindex(globalDI) Gustatoryresponsiveness al n for each bee. In each trial pair, a bee was considered to Immediately after SOR evaluation, bees were presented with r have discriminated between the CS+ (linalool) and the CS− increasing concentrations of sucrose solutions. A GRS was u o (phenylacetaldehyde)onlyifitextended itsproboscistowardsthe definedasthesumofpositiveresponsesthroughouttheprocedure J 3005 RESEARCHARTICLE JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 A B global DI (5/6days old: Z=−3.493, P<0.001; 14/15days old: 100 100 Z=4.919,P<0.001;Fig.3A).Inaddition,contrololderbeesshowed lower global DI than control younger bees (Z=4.428, P<0.001; 80 80 Fig.3A,whitebars).Inthetestingphase,injectionofinsulinhada %) 60 60 similareffectonCRtotheCS+(CR∼age×treatment,AIC=206.66; SOR ( 40 * 40 n.s. Finigo.l3dBer;Tbeaebsle(5S/56).dIanyssuloinldr:eZd=uc−e2d.3C4R9,inPy=o0u.0n3g8e3r;be1e4s/,1b5udtarayisseodldit: Z=2.399, P=0.0341; Fig. 3B). In addition, control older bees 340 20 333 20 352 321 showed lower conditioned responses than control younger bees (Z=2.829,P=0.0103;Fig.3B,whitebars). 0 0 Hepes Insulin Hive Cage DISCUSSION Treatment Rearing environment Our study reveals that insulin improves spontaneous response to Fig.1.Insulininjectionincreasedtheprobabilityofspontaneousodour odours independent of rearing environment and age. In addition, response,independentlyofageorrearingenvironment,inthehoneybee whereas it improves sucrose responsiveness and reduces odour Apismellifera.Percentageofbeesthatextendedtheirproboscistowards discrimination in younger honeybees, it has the opposite effect in eitherofthetwoodours,linaloolandphenylacethaldehyde(spontaneous older ones. We expected insulin to have an effect on gustatory odourresponse,SOR).Responsesofbeesofallages(A)afterbeinginjected withHepesbuffer(white)orinsulin(black)and(B)obtainedfroman responsiveness in younger workers and little or no effect in older experimentalhive(darkgrey)orfromcageskeptinthelaboratory(lightgrey). ones.Theresultspartiallyverifyourprediction,as2/3-day-oldbees Minimaladequatemodel:SOR∼treatment.Asteriskindicatesasignificant were affected by insulin injection, but 5/6- and 9/10-day-old bees difference(P<0.05);n.s.,notsignificant.Valuesabovebarsindicatethe werenot.Giventhatinsulinlevelsincreasewithworkerage(Corona numberofbeestested. etal.,2007),theseresultsindicatethatexogenousinsulinartificially induces the youngest workers to exhibit higher responsiveness to (Pageetal.,1998).Hive-rearedbeeshadlowerGRSthanlaboratory- sucrose, a trait associated with foragers (Scheiner et al., 2004). In reared bees (GRS ∼ rearing environment+age×treatment, addition, the youngest bees also increased their probability to AIC=2083.1, Z=5.497, P<0.001; Fig. 2A; Table S3). This effect respondspontaneouslytoodoursaftertreatmentadministration.To was independent of age and treatment, as models containing sum up, insulin injection improves chemosensory responsiveness. interactionsbetweenrearingenvironmentandthesetwofactorshad Thisseemstobeanadaptivefunctionintermsofdivisionoflabour, higher AIC values than the one chosen. Effect of insulin on as nurse bees would be able to modify their chemosensory gustatoryresponsivenessdependedonageofinjection.Treated2/3- thresholds, which is required when social structure undergoes a day-old bees presented higher GRS than control bees (Z=4.685, changeasaresultofaselectivepressure,suchasthesuddendeathofa P<0.001), which means their SRT was lower. On the contrary, portionoftheforagers.Inthiscase,nursesandfoodprocessorsare insulin injectionof 14/15-day-old bees had adepressing effect on forcedtoperformoutsidetasksatayoungeragethanexpected.These GRS,raisingtheirSRT(Z=−4.375,P<0.001).Bees5to10daysold precociousbeesexhibitadecreaseinVglevelsandlipidreservesin werenotaffectedbyinsulin(5/6daysold:Z=0.890,P=0.8080;9/ the hemolymph and an increase in JH and insulin levels (Corona 10daysold:Z=−1.521,P=0.3770;Fig.2B). et al., 2007; Hartfelder and Engels, 1998), and they show a poor foraging performance (Chang et al., 2015; Perry et al., 2015). OdourdiscriminationinclassicalPERconditioning Similarly,pollenforagers,whobeginoutsidetasksearlierthannectar For this procedure, 5/6- and 14/15-day-old laboratory-reared bees foragers,showhighgustatoryresponsiveness,aqualitythatindicates wereused.AglobalDIwasdefinedforeachbeeasthenumberof apoornectarforagingability(Amdametal.,2006).Thissuggests trial pairs the bee succeeded in discriminating between the two thatyounghivebeesthatareartificiallyinducedtobecomingforagers odours (if it extended its proboscis towards the CS+, but not the throughariseininsulinlevelswouldbepoornectargatherers. CS−).Aneffectofinsulinwasobservedinbeesofbothages(global Contrarytowhatwasexpected,ourresultsindicatethat14/15-day- DI∼ age×treatment, AIC=576.84; Table S4).Treated 5/6-day-old oldtreatedbeeshadlowerGRSvaluesthancontrolbees.Thus,the beespresentedlowerglobalDIthancontrolbees.Onthecontrary, biologicaleffectfoundwastheinverseofthatfoundintheyoungest insulininjectionof14/15-day-oldbeeshadanincreasingeffecton bees.Ontopofthehighinsulinlevelsthatwouldbefoundinthese y g o A * B * * Fig.2.Effectofinsulininjectionongustatory ol responsivenesswasagedependentin i 7 7 A.mellifera.Gustatoryresponsescores(GRS)of B l (A)beesobtainedfromanobservationalhive a 6 6 Hepes (darkgrey)orfromcageskeptinthelaboratory nt Insulin (lightgrey)and(B)2/3-,5/6-,9/10-and14/15-day- e m 5 5 oldbeesafterbeinginjectedwithHepesbuffer i (white)orinsulin(black).Minimaladequatemodel: r S e R 4 4 GRS∼rearingenvironment+age×treatment. p G 66 Thethickline,boxandwhiskersrepresentthe x 71 E 3 3 median,interquartileintervalanddatarange, f respectively.Asterisksindicateforstatistical o 260 286 66 71 78 68 63 2 2 differencesbetweeninjectiontreatmentswithin l a anagegroup(P<0.05).Valuesinbarsindicate n 1 1 63 thenumberofbeestested. ur Hive Cage 2/3 5/6 9/10 14/15 o Rearing environment Age (days) J 3006 RESEARCHARTICLE JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 A B Fig.3.Effectofinsulininjectiononodour * discriminationinPERconditioningof * * Hepes A.melliferawasagedependent.(A)Global 4 100 Insulin discriminationindices(globalDI)duringacquisition and(B)percentageofbeesthatextendedtheir 80 * proboscistowardstherewardedconditioned 3 stimulus(conditionedresponse,CR)duringthe Global DI 2 CR (%) 6400 * *43 taiwnefhstseuetirnlnibngae(psibnshlgaeacssinksej)ee.pdcBetaeerfndeodsrwmrwieetheadrrHee2de05p/um6ensiadnnbeadurfftl1faee4brr/oa1(rcw5aqhtduoiatiresyyi)stiooornld, 44 conditions.Minimaladequatemodels:globalDI∼ 1 age×treatment,CR∼age×treatment.InA,thethick 44 43 20 line,boxandwhiskersrepresentthemedian,inter- quartileintervalanddatarange,respectively. 47 44 46 47 0 0 Asterisksindicateforstatisticaldifferencesbetween 5/6 14/15 5/6 14/15 injectiontreatmentswithinanagegroup(P<0.05). Age (days) Valuesinorabovebarsindicatethenumberofbees tested. middle-aged bees, an additional insulin shock did not increase endocrine systems – including the insulin system – ready for the sucroseresponsiveness,butdecreasedit. Sucroseresponsivenessis transition from young hive beesto foragers is valuable but it also closely related to nutritional status and, thus, feeding motivation introducespenaltiesintermsofforagingefficiency.Inaddition,we (MartinezandFarina,2008;Pankiwetal.,2004).Ashighlevelsof foundcontrastingeffectsofinsulinonbotholfactorylearningand insulinleadtoforagingactivities(Amentetal.,2008),itseemsclear gustatoryresponsivenessbetweenyoungandmiddle-agedworkers. thattheforagingtaskisdirectlytunedbyinsulinlevelspresentinthe Ultimately, the same results were observed in both acquisition bee hemolymph. Despite the fact that we did not include actual andtestingphasesoftheolfactoryconditioning,whichimpliesthat foragersinourstudy,weclaimthatthe14/15-day-oldbeesusedinour insulin modifies the bee’s chemosensory responsiveness, and this experimentswereinacorrespondingphysiologicalstatetoforagers, modificationlastsatleast20minafterconditioning,suggestingan astheircoetaneoussisters–emergedasadultsonthesameday–were effectonmedium-termmemory. seen flying to an artificial feeder 2days later. A honeybee forager Vertebrate insulin (bovine: Mott and Breed, 2012; human: doesnotseekfoodforindividualsustenance,butinsteadcontributes present study) has been shown to be bioreactive in honeybees. In tocolonyreserves.Nonetheless,itstillneedsmotivationtoinitiatea our case, the mode of administration was systemic and general, foraging trip. In other words, insulin would be comparatively low and we assessed variables in a short-term period. Therefore, it is whentheforagerisinthehive,allowingittoeat.Oncetheforageris not possible to elucidate the hormone’s targets and the source of satiated, insulin levels rise until reaching a threshold that would its behavioural effects. We infer that the insulin pathway is a key trigger a foraging flight (Ament et al., 2008). This fine insulin to understanding how the different metabolic pathways act in regulation would then explain why insulin-injected 14/15-day-old concert to synchronise the development of chemosensory and beesshowlowerGRScomparedwithcontrolbees. physiological processes. Many questions remain unanswered Laboratory-reared bees had higher gustatory responsiveness about what other pathways are involved after an artificial rise in than hive bees. These results are not surprising as bees reared in insulinlevelinthehemolymphofhoneybees.However,thisstudy the hive had been exposed to the queen mandibular pheromone reveals one of the main roles of insulin in adult honeybee (QMP),whichisreleasedbythequeen,andQMPreducessucrose developmentandprovidestoolsforresearchonhowinsulinaffects responsiveness (Pankiw and Page, 2003). In addition, laboratory labour division in bees as well as a worker’s individual bees exposed to QMP, which simulates queen presence, has no physiological state. effect on the expression genes involved in the insulin signalling peptide (Fischer and Grozinger, 2008). This last result Acknowledgements corroborates our own findings that the effect of insulin did not WealsothankK.Lukowiakandtwoanonymousrefereesfortheirvaluable y depend on whether workers were reared in the hive or queen commentsandsuggestionsonanearlierversionofthismanuscript. g o deprived in the laboratory. Competinginterests ol Insulinalsoaffectedolfactorylearningperformance.Inyounger Theauthorsdeclarenocompetingorfinancialinterests. Bi workers, insulin improved chemosensory responsiveness but l a worsened olfactory discrimination. Therefore, contrary to our Authorcontributions t expectations,highergustatoryresponsivenessasaresultofinsulin C.M.G.,M.G.,M.G.d.B.S.andW.M.F.conceivedanddesignedtheexperiments. n e injectiondidnotresultinbettercognitiveabilitiesintermsofodour C.M.G.andM.G.performedtheexperiments.C.M.G.performeddataanalysis. m discrimination(MengoniGoñalonsandFarina,2015;Ramírezetal., C.M.G.,M.G.,M.G.d.B.S.andW.M.F.draftedthemanuscript.Allauthorsrevised ri andcommentedonthemanuscript. e 2010;Scheineretal.,2004).Infact,thecorrelationwastheopposite. p It appears that the adaptive function of modifying gustatory x Funding E responsiveness suggested earlier does not apply to olfactory C.M.G.andW.M.F.thanktheConsejoNacionaldeInvestigacionesCientıf́icasy f learning. In this case, young bees forced to collect resources Tecnológicas(CONICET)andtheUniversidaddeBuenosAires(UBA)forsupport. o wouldbecomeforagers,butbadlearnersintermsofdiscriminating ThisstudywaspartlysupportedbygrantsfromAgenciaNacionaldePromoción al Cientıf́icayTecnológica(PICT20131060),UBA(20020130100185BA)and n floral odours. This olfactory discrimination is beneficial when selectingforagingsites,butisnotessentialifthecolonyisfacinga CONICET(PIP112-201501-00633)toW.M.F.M.G.andM.G.d.B.S.thankthe ur CentredeRecherchessurlaCognitionAnimaleandtheUniversityPaulSabatier o drastic change in social structure. Therefore, having all the (grantAPIGENE)forsupport. J 3007 RESEARCHARTICLE JournalofExperimentalBiology(2016)219,3003-3008doi:10.1242/jeb.143511 Supplementaryinformation Ko, K. I., Root, C. M., Lindsay, S. A., Zaninovich, O. A., Shepherd, A. K., Supplementaryinformationavailableonlineat Wasserman,S.A.,Kim,S.M.andWang,J.W.(2015).Starvationpromotes http://jeb.biologists.org/lookup/doi/10.1242/jeb.143511.supplemental concerted modulation of appetitive olfactory behavior via parallel neuromodulatorycircuits.eLife4,e08298. References Lattorff,H.M.G.andMoritz,R.F.(2013).Geneticunderpinningsofdivisionof Amdam,G.V.andSeehuus,S.-C.(2006).Order,disorder,death:lessonsfroma laborinthehoneybee(Apismellifera).TrendsGenet.29,641-648. superorganism.Adv.CancerRes.95,31-60. Lindauer,M.(1952).Einbeitragzurfragederarbeitsteilungimbienenstaat.Z.Vgl. Amdam,G.V.,Norberg,K.,Fondrk,M.K.andPage,R.E.(2004).Reproductive Physiol.34,299-345. groundplanmaymediatecolony-level selection effects onindividualforaging Maleszka,R.andHelliwell,P.(2001).Effectofjuvenilehormoneonshort-term behaviorinhoneybees.Proc.Natl.Acad.Sci.USA101,11350-11355. olfactory memory in young honeybees (Apis mellifera). Horm. Behav. 40, Amdam,G.V.,Norberg,K.,Page,R.E.,Jr.,Erber,J.andScheiner,R.(2006). 403-408. Downregulation of vitellogenin gene activity increases the gustatory Martinez, A. and Farina, W. M. (2008). Honeybees modify gustatory responsivenessofhoneybeeworkers(Apismellifera).Behav.BrainRes.169, responsiveness after receiving nectar from foragers within the hive. Behav. 201-205. Ecol.Sociobiol.62,529-535. Amdam, G. V., Nilsen, K.-A., Norberg, K., Fondrk, M. K. and Hartfelder, K. Masson, C.andArnold, G. (1987). Organization and plasticityof theolfactory (2007).Variationinendocrinesignalingunderliesvariationinsociallifehistory. system of the honeybee, Apis mellifera. In Neurobiology and Behavior of Am.Nat.170,37-46. Honeybees(ed.R.MenzelandA.Mercer),pp.280-295.Berlin:SpringerVerlag. Ament,S.A.,Corona,M.,Pollock,H.S.andRobinson,G.E.(2008).Insulin MengoniGoñalons,C.andFarina,W.M.(2015).Effectsofsublethaldosesof signalingisinvolvedintheregulationofworkerdivisionoflaborinhoneybee imidaclopridonyoungadulthoneybeebehaviour.PLoSONE10,e0140814. colonies.Proc.Natl.Acad.Sci.USA105,4226-4231. Menzel,R.(1999).Memorydynamicsinthehoneybee.J.Comp.Physiol.ASens. Ament,S.A.,Velarde,R.A.,Kolodkin,M.H.,Moyse,D.andRobinson,G.E. NeuralBehav.Physiol.185,323-340. (2011).NeuropeptideY-likesignallingandnutritionallymediatedgeneexpression Mott,C.M.andBreed,M.D.(2012).Insulinmodifieshoneybeeworkerbehavior. andbehaviourinthehoneybee.InsectMol.Biol.20,335-345. Insects3,1084-1092. Arenas,A.andFarina,W.M.(2008).Ageandrearingenvironmentinteractinthe Page,R.,Jr.,Erber,J.andFondrk,M.(1998).Theeffectofgenotypeonresponse retentionofearlyolfactorymemoriesinhoneybees.J.Comp.Physiol.A194, thresholdstosucroseandforagingbehaviorofhoneybees(ApismelliferaL.). 629-640. Arenas,A.,Fernández,V.M.andFarina,W.M.(2009a).Associativelearning J.Comp.Physiol.ASens.NeuralBehav.Physiol.182,489-500. Pankiw,T.andPage,R.Jr.(2003).Effectofpheromones,hormones,andhandling duringearlyadulthood enhanceslatermemoryretentionin honeybees.PLoS on sucrose response thresholds of honey bees (Apis mellifera L.). J. Comp. ONE4,e8046. Arenas,A.,Giurfa,M.,Farina,W.M.andSandoz,J.C.(2009b).Earlyolfactory Physiol.ASens.NeuralBehav.Physiol.189,675-684. experiencemodifiesneuralactivityintheantennallobeofasocialinsectatthe Pankiw,T.,Nelson,M.,Page,R.E.,Jr.andFondrk,M.K.(2004).Thecommunal adultstage.Eur.J.Neurosci.30,1498-1508. crop:modulationofsucroseresponsethresholdsofpre-foraginghoneybeeswith Arenas,A.,Giurfa,M.,Sandoz,J.C.,Hourcade,B.,Devaud,J.M.andFarina, incomingnectarquality.Behav.Ecol.Sociobiol.55,286-292. W.M.(2012).Earlyolfactoryexperienceinducesstructuralchangesintheprimary Perry, C. J., Søvik, E., Myerscough, M. R. and Barron, A. B. (2015). Rapid olfactorycenterofaninsectbrain.Eur.J.Neurosci.35,682-690. behavioralmaturationacceleratesfailureofstressedhoneybeecolonies.Proc. Bates,D.,Maechler,M.,Bolker,B.,Walker,S.,Christensen,R.H.B.,Singmann, Natl.Acad.Sci.USA112,3427-3432. H.,Dai,B.,Grothendieck,G.,Eigen,C.andRcpp,L.(2015).Package‘lme4’. Raguso,R.A.andPichersky,E.(1999).Newperspectivesinpollinationbiology: Convergence12,1. floralfragrances.Adayinthelifeofalinaloolmolecule:chemicalcommunication Breed, M. D., Diaz, P. H. and Lucero, K. D. (2004). Olfactory information inaplant-pollinatorsystem.Part1:Linaloolbiosynthesisinfloweringplants.Plant processinginhoneybee,Apismellifera,nestmaterecognition.Anim.Behav.68, SpeciesBiol.14,95-120. 921-928. Ramıŕez,G.P.,Martıń ez,A.S.,Fernández,V.M.,Bielsa,G.C.andFarina,W.M. Brown, S. M., Napper, R. M. and Mercer, A. R. (2004). Foraging experience, (2010).Theinfluenceofgustatoryandolfactoryexperiencesonresponsivenessto glomerulusvolume,andsynapsenumber:astereologicalstudyofthehoneybee rewardinthehoneybee.PLoSONE5,e13498. antennallobe.J.Neurobiol.60,40-50. Robinson,G.E.(1992).Regulationofdivisionoflaborininsectsocieties.Annu. Chang,L.-H.,Barron,A.B.andCheng,K.(2015).Effectsofthejuvenilehormone Rev.Entomol.37,637-665. analoguemethopreneonrateofbehaviouraldevelopment,foragingperformance Root,C.M.,Ko,K.I.,Jafari,A.andWang,J.W.(2011).Presynapticfacilitationby andnavigationinhoneybees(Apismellifera).J.Exp.Biol.218,1715-1724. neuropeptidesignalingmediatesodor-drivenfoodsearch.Cell145,133-144. Corona,M.,Velarde,R.A.,Remolina,S.,Moran-Lauter,A.,Wang,Y.,Hughes, Scheiner, R., Page, R. E. and Erber, J. (2004). Sucrose responsiveness and K. A. and Robinson, G. E. (2007). Vitellogenin, juvenile hormone, insulin behavioralplasticityinhoneybees(Apismellifera).Apidologie35,133-142. signaling, and queen honey bee longevity. Proc. Natl. Acad. Sci. USA 104, Seeley, T. D. (1982). Adaptive significance of the age polyethism schedule in 7128-7133. honeybeecolonies.Behav.Ecol.Sociobiol.11,287-293. Fischer, P. and Grozinger, C. M. (2008). Pheromonal regulation of starvation Sigg,D.,Thompson,C.M.andMercer,A.R.(1997).Activity-dependentchanges resistance in honey bee workers (Apis mellifera). Naturwissenschaften 95, tothebrainandbehaviorofthehoneybee,Apismellifera(L.).J.Neurosci.17, 723-729. 7148-7156. Giurfa,M.andSandoz,J.-C.(2012).Invertebratelearningandmemory:fiftyyears Toth,A.L.,Kantarovich,S.,Meisel,A.F.andRobinson,G.E.(2005).Nutritional of olfactory conditioning of the proboscis extension response in honeybees. statusinfluencessociallyregulatedforagingontogenyinhoneybees.J.Exp.Biol. Learn.Mem.19,54-66. Hartfelder, K. and Engels, W. (1998). Social insect polymorphism: hormonal 208,4641-4649. regulationofplasticityindevelopmentandreproductioninthehoneybee.Curr. Tu,M.-P.,Yin,C.-M.andTatar,M.(2005).Mutationsininsulinsignalingpathway y Top.Dev.Biol.40,45-77. alter juvenile hormone synthesis in Drosophila melanogaster. Gen. Comp. g Hothorn, T., Bretz, F., Westfall, P. and Heiberger, R. M. (2008). Multcomp: Endocrinol.142,347-356. o SimultaneousInferenceinGeneralParametricModels.Rpackageversion1.0-0. Turillazzi,S.andWest-Eberhard,M.J.(ed.)(1996).Naturalhistoryandevolution ol Vienna,Austria:RFoundationforStatisticalComputing. ofpaperwasps.Oxford:OxfordUniversityPress. Bi Hunt,G.J.,Amdam,G.V.,Schlipalius,D.,Emore,C.,Sardesai,N.,Williams, Wilson,E.O.(1971).TheInsectSocieties.Cambridge,MA:BelknapPress. l C.E.,Rueppell,O.,Guzmán-Novoa,E.,Arechavaleta-Velasco,M.,Chandra, Winnington,A.P.,Napper,R.M.andMercer,A.R.(1996).Structuralplasticityof a S.etal.(2007).Behavioralgenomicsofhoneybeeforagingandnestdefense. identifiedglomeruliintheantennallobesoftheadultworkerhoneybee.J.Comp. nt Naturwissenschaften94,247-267. Neurol.365,479-490. e m i r e p x E f o l a n r u o J 3008