G2020–October2015 Cellsunderthemicroscope–partII Nanotomy,T1D,electronmicroscopy Lecturer:BenN.G.Giepmans Department:CellBiology,UMCG Contact:www.cellbiology.nl Last update: 2015-09-07 BNGG Cellsunderthemicroscope–partIINanotomy–T1D–EM Preparation Reading Ravellietal.SREP01804(2013)accessiblevia: http://www.nature.com/srep/2013/130508/srep01804/full/srep01804.html You also can study the Dutch summary in the Nederlands tijdschrift voor diabeteologie (Ravellietal.NTD(2013). Forthelabrules,seeCellsunderthemicroscope–part1(September2014) Theassignmentsinthismanual EssentialCellBiology,Albertsetal.,(Garland,4thed.2013). – Chapters1&15 FunctionalHistology,Kerr(Mosby,2nded.2009) – Chapters1&17:pp.404‐407 Functionelehistologie[FunctionalHistology,inDutch],Junqueira(Reed,14thed.2014) – Chapters1,2,3&19:pp.566‐568 Todo Executeassignments1‐6,studytherelatedbackgroundinformation(sources) Assignments5‐6willbediscussed/finishedduringthepracticum Ensureyouareontime Importantsourcesofinformation Inadditiontothismanualandthelistedbooks:http://www.ronaldschulte.nl/ Assignments1‐3havebeenmodifiedfromDrs.D.Opstelten&N.A.Bos,ManualforCellBiology Location: Combizaal311multipurposeroom,situatedonthe3rdfloorofbuilding3214,onthe Ant.Deusinglaan1 NB:Althoughtheassignmentsmustbecompletedduringthepractical,itisessentialtoreadthem inadvanceforfullcomprehension. Afterthisworkshop,studentsshouldbeableto: 1. recognize and interpret electron microscopic images, with regard to tissue characteristics,celltypes,organelles,andmacromolecularcomplexes 2. explain how functional information about cell function, e.g. regarding secretion, can be determinedusingnanotomy 3. describe the structure of the cell, cell organelles and macromolecular complexes and nametheirfunctions 4. usetheinformationfrom1‐3forpathophysiologicalanalysis,inthisworkshopprimarily withregardtotype1diabetes 2 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment1:Electronmicroscopystructure/function Acellcontainsorganellesthatareessentialforitsfunction.Dependingoncellularfunction,one typeofcellwillhaveahighernumberofcertainorganellesthanothers.Tocheckifyouknowthe variouscellorganelles,examinethefollowingschematicdrawingofacell(anexocrinecell). a. Identifythevariouscellorganellesbyplacingtherightnumberattherightline b. Statethemainfunction(s)oftheorganelleinthetable Fig.1.Source:LaboratoryManualofHistology,Pappas.(W.C.Brown,1990) Structure Function Structure Function 1.centriole 9.microtubules 2.cytosol 10.mitochondria 3.Golgicomplex 11.microvilli 4.nucleus 12.nucleolus 5.nuclearenvelope 13.plasmamembrane 6.nuclearpore 14.ribosomes 7.lysosome 8.microfilaments 15. rough endoplasmic reticulum 16.secretiondrops 3 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment2:Studyelectronmicroscopy IntransmissionEM(TEM),ahighvoltagegeneratedbetweenaheated cathode (incandescent filament) and an anode produces a beam of electrons.Oneormorecondenserlensesfocusthisbeamontotheplane of focus of the objective lenses, where an ultrathin specimen section which can be irradiated has been placed. The objective lenses create a magnifiedimageoftheobjectwhichisshownonscreenorcapturedby camera.AstandardTEMprovidesmagnificationofupto300,000times, with a resolution of ∼ 2 nm, of specimen sections which are ∼ 60 nm thick,withamaximumdiameterof3mm. ThebiologicalmaterialpresentintheultrathinsectionmainlycomprisesC,H,NandOanddoes not scatter electrons sufficiently to provide an image, which is why the specimen must be stained with heavy metals, which do scatter electrons. The most common contrast medium is osmiumtetroxide(OsO4),whichbindsparticularlyeasilytodoublebondsoflipids,fixingthem bycreatingcross‐links,makingmembranesvisible. In scanning EM (SEM), the electron beam is focused by the condenser and objective lenses in the same manner as in TEM. Here, too, the specimenisplacedinthefocalpoint. The primary electron beam is not stationary,likeinTEM,butscansitin a grid‐like fashion. The electron beamscansthespecimensurfaceline for line, releasing secondary electrons (SE2) in the sample or having the electrons reflected (backscatter electrons). These are both used to create an image of the specimen surface. If the specimen section isultrathin,the electronswillofcoursepassthroughit.Byplacingadetectorunderneath,aTEMimagecanbe transformedintoanSEMimage.ThisisknownasSTEM:scanningtransmissionEM. Alsoread:EssentialCellBiology,Albertsetal.,(Garland,4thed.2013)page11. 4 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment3:Studyingmembranetransport Membranesformcompartments.Theplasmamembraneistheboundarybetweenthecytoplasm andtheextracellularside.Thisboundaryisdynamic,withvarioustransportprocessesallowing substancestopassinandoutofthecell.Someprocessesareexemplifiedusingglucose‐induced insulinsecretion(Fig.2).Notethatvariousmoleculesandsubstancescanbetransportedacross themembraneinregulatedfashion.Inthefigurebelow,indicatewhattypeoftransportprocess isinvolved(encircleone). Fig.2.Insulinsecretionin beta cellscausedbythe increasingbloodsugar levels. UptakeofglucosebyGLUT2 andglycolytic phosphorylationofglucose causestheATP:ADPratioto rise.Thisinactivatesthe potassiumchannelwhich depolarizesthemembrane sothatavoltage‐dependent calciumchannelopens.The increaseinthecalcium concentrationleadstothe releaseofinsulin Source:www.betacell.org 1.GlucoseuptakebyGLUT2isprimarilydependenton: Exocytosis/Concentration/Voltage‐dependentinflux/Effluxinhibition 2.TheATP‐sensitiveK+pumpisatypeof: Exocytosis/Concentration/Voltage‐dependentinflux/Effluxinhibition 3.Thevoltage‐gatedcalciumpumpisatypeof: Exocytosis/Concentration/Voltage‐dependentinflux/Effluxinhibition 4.Insulinsecretionisatypeof: Exocytosis/Concentration/Voltage‐dependentinflux/Effluxinhibition 5 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment4:Fromtissuetomolecularcomplexes Microscopy allows studying samples at different magnifications. Figs.1and2showedmodels. Figure3isahistologicaldepictionoftheisletsofLangerhans.Intheassignmentbelow,wewill lookatasectionofasingleislet. 1.DrawascalebarInFigures1,2and3,indicatingtheestimateddimensions.Areyouableto givevarious‐sizedscalesinFig.2?Ifyoucannot,returntoitaftercompletingAssignment5. Fig. 3. The beta cells grouped in the islets of Langerhans in the pancreas. The rest of the pancreas consists of exocrine tissue where digestive enzymes are produced. The endocrine tissue–theisletsofLangerhans–producesotherhormonesbesidesinsulin. Source:www.bu.edu/histology/p/10401loa.htm Furtherreading:FunctionalHistology,Kerr(Mosby,2nded.2009)p404‐407. 6 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment5:Nanotomy:EMoftissues, cells,organellesandmacromolecules Type 1 diabetes (T1D) is an auto‐immune disease results in degradation of the insulin‐ producingbetacells(Fig.2),whicharelocatedintheisletsofLangerhansinthepancreas(Fig.3). A cure does not exist; patients depend on lifelong insulin therapy. Moreover, the trigger that causes the disease is also unknown. Finding alternatives for insulin therapy and making advances in etiology of T1D benefits from a full structural and functional insight into Islets of Langerhans. EM can visualize Islet morphology at the highest possible resolution, however, conventionalEMonlyprovidesbiasedsnapshotsandlackscontext. Nanotomy is an innovation in EM that allows to study tissues, cells, organelles and macromoleculesinGoogle‐Earth‐likefashion.Here,nanotomyhasbeenusedinananimalmodel forType1diabetes:Ravellietal.(2013);www.nature.com/srep/2013/130508/srep01804/full/srep01804.html. StudytheultrastructureofanisletofLangerhans.Gotowww.nanotomy.nlandclickonthe largestislet(grey).ThisdatasetcanbestudiedinthesamewayyouviewalandscapeinGoogle Earth. Click on the IIP icon at top left for extra instructions if necessary. Go through the annotations and answer the questions below. The numbers correspond to theannotations:1A refersto1,forexample.Ifyouplaceyourcursoron'Supracellular',forexample,asubmenuwill appear, including A, Islet. Before you begin, drag the menu at bottom left up a bit and the scalewillappear. 1.IsletsofLangerhansinrecent‐onsettype1diabetes(rat) Judge what the largest structure is that you can recognize. And if you zoom in, what is the smallest?Whatarethedimensions? Onceagain:Theannotationmenucanbedraggedtoallowthescaletoshow. Largest: Sizeisapproximately: Smallest: Sizeisapproximately: 1A.NametheclearestdifferenceswhichdistinguishtheisletsofLangerhansfromtheexocrine pancreas. Whatarethevariousfunctions? 1B.Whichcellisinthecapillary? 1C.Whichtwotypesofcelldoyourecognizeinthevein?Whatarethemostobviousdifferences? 7 Cellsunderthemicroscope–partIINanotomy–T1D–EM 1D.Thecentroacinarlumenbelongstothe: a. endocrinepancreasandcontainsenzymes b. endocrinepancreasandcontainshormones c. exocrinepancreasandcontainsenzymes d. exocrinepancreasandcontainshormones 1E. Depicted here is a cross‐section of a bundle of unmyelinated axons. The bundle was discovered more or less by chance: the electrons cause the axons to be slightly lighter. These containroundtubulesandlight‐greyfilaments.Howmanyaxonsdoyouseehere? 1F.Insomeexocrinecellsthenucleusisnotvisible.Why? 2A. The exocrine cell contains a lot of rough ER for protein synthesis. The content will be secretedwithcytoplasmicvesiclesandeventuallyendupinthe: a. blood b. digestivetract 2B.Thealphacellproducesglucagon,whichisvisibleinthedarkvesicles.Glucagonensuresthat thebloodsugarlevels: a. increase b. decrease 2C. The depicted beta cell is in bad shape: the rat has diabetes. Later you will compare the differences with a healthy rat. Do you recognize the various organelles? Only a few granules withhormonesarevisible,inparticulartothebottomleftofthenucleus.Thecrystal‐likeshape istypicalandisevenmorepronouncedinhumanbetacells.Whichhormoneisit? 2D.Somatostatin‐producingdeltacellsalsoformpartoftheislets,althoughtheycompriseonly afewpercent.Wecandistinguishvariouscelltypesthankstothedifferentgranulestructures. Howcanwedifferentiatebetweensomatostatingranulesandglucagonorinsulin? 2E. Is the centroacinar cell important for protein production, or the structure of the efferent ducts?Howcanyouseethis? 2F.Theindicatedcell,knownasapericyte,separatesthehormone‐producing……….....pancreas fromtheenzymeorproenzyme‐producing……………....pancreas. 2G.Inflammatorycellsarepresentbecausethereisanongoingimmuneresponsetotheisletsin therat.Whattypeofleukocyteisvisiblehere?Howcanyouseethis? 8 Cellsunderthemicroscope–partIINanotomy–T1D–EM 2H.Whatistheapproximatesizeofthiserythrocyte? 2I.Whatistypicalofthenucleusofamonocyte? 2J.Thisphagocyteis(a)passiveor(b)active,because: 2K. The granulocytes in the blood cell practical were spherical / round. These clearly are not. Explainthedifference? 2L.Theleukocytehasblackspotsonit.Whatistheapproximatesizeofthese?Whatcouldthey be? 2M. The small platelets clearly have a more heterogeneous content than the adjacent erythrocytes.Howmanyplateletsarevisibleinthisvein? 3A.TheroughERisimportantamongotherthingsfor: Theblackspotsmeasureapproximately...........nm.Theseare................ontheinside/outsideof theroughER. 3B.Amitochondrioniseasilyrecognizedby: 3C.Thecellnucleuscontains: Severaltypescanbedistinguishedandtheseare: Withregardtofunction,thisreflectstheprocessthatwecall: 3D.TheGolgiapparatuscanbenano‐anatomicallydistinguishedfromtheERbecauseit: TheGolgiapparatusisimportantforsuchthingsas: 4A.Zymogengranulescontainenzymesandproenzymesinthe.................cells. 9 Cellsunderthemicroscope–partIINanotomy–T1D–EM 4B.Insulinisproducedbythe…………...cells. 4C./4D./4E. Exosomes are secreted granules. Using the various stages, is it possible to form a pictureofexosomerelease?Yes/No Inwhatwaydoesexosomereleasedifferfromvesiclefusionin,forinstance,insulinsecretion? 4F.Glucagonisproducedbythe……….....cells. 4G.Somatostatinisproducedbythe……………..cells. 5.Structure/functionofvesicles 5A.Densebodiesareknownassuchbecause: 5B.Lysosomesplayanimportantrolein: 5C.Whattypeofcellisthiswhichisswarmingwithcaveolae? 5D.Theseareaboutthesmallestvesiclesinexistence.Whatistheirdiameter? 5E.Andwhatisthediameterofthelipiddroplets? 5F.Whichtwocharacteristicsallowthistoberecognizedasanearlyendosome? 5G.Clathrin‐coatedpitsarecharacteristicallyinvolvedin(a)endocytosisor(b)exocytosis. 5H.Ifthemulti‐vesicularbodiesfusewiththeplasmamembrane,itisconceivable that: 6A.Crystaearetypicalof: 6B.Whichatomisaccumulatedinthismembranousmass? 6C.Doyourecognizethecells?Thefenestraeenable: 6D.Thebasementmembranedepictedhereisbetweentwotypesofcells,whichare: 6E.Here,thebasementmembraneformspartofacomplexstructure.Thisisstillthediabeticrat. Morphologicallyspeaking,bothcellscontainingnucleiclearlyappeartobeleukocytes.However, theseareindifferentlocations.Theleukocyteontheleftisinthe....,whiletheotherclearlyis not.Explainwhatmaybegoingon. 10 Cellsunderthemicroscope–partIINanotomy–T1D–EM 7. Macromolecules are just barely discernible at these image settings. There are certain characteristicswhichallowthevariousmacromoleculestoberecognized. 7A. How many nuclear pores can you distinguish in the ENTIRE cross‐section of the nuclear membrane? 7B.Thisisthetipofthenucleuswherenuclearporescanalsobedistinguished.Howmanyare there? Basedon7A.and7B.,sketcha3Dreconstructionofasinglenuclearpore. 7C.Polysomescomprise: 7D.Sketchamodelofasinglepolysomewith5ribosomes.Ifpossible,indicatethe5’UTRand3 ‘UTRandsketchadiagramofproproteins. 7E.Desmosomesarespecializedcell‐cellcontactpoints,whichinparticularareimportantfor (a)tissuestrengthor(b)formingabarrier. 7F.Tightjunctionsarespecializedcell‐cellcontactpoints,whichinparticularareimportantfor formingabarrier.Otherthanindesmosomes,thereisnomajorconcentrationofintermediate filamentsonthecytoplasmicside.Whichbarrierhasbeencreatedhere? 7G./H.Collagenis(a)cytoplasmicor(b)extracellularandservesparticularlyto: 7I./7J.Centriolesareoftenfoundperinuclearlyandaremainlymadeupof: 7K.Everycellhasapairofcentrioles.Givearoughestimateofhowmanycentriolesshouldbe visibleinthisdataset.Explain. 11 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment6:Isletsduringtype1diabetes Following this introduction to the EM of cells, organelles and macromolecules, the focus will nowturntotheeffectoftype1diabetesintheratmodel.Returntothehomepage(nanotomy.nl) andcompareDataset1(control)withDataset5(diabetes). 1.Whatisthebloodsugarlevelofthehealthyanimal?Andthatoftheanimalwithdiabetes? 2.Thisiscausedbyadeficitin: 3.Thisiscausedbythebreakdownofbetacells.Insulitisclearlyexists,sinceDataset5shows manymore: 4.Thebeta‐celldestructionisclearlyrecognizableduetothefollowingcharacteristics(nameat least3): 5.Peoplewithdiabeteswillbenefitfromthefollowingtreatment: 6.Toomuchtreatmentleadsto....andcanbecompensatedby: Comatosepatientsbenefitfrom: Two stages have now been shown. Time permitting, knowledge can be further tested by studyingtheotherstages.Thiscanalsobedoneathome. 12 Cellsunderthemicroscope–partIINanotomy–T1D–EM Assignment7:Testingnewlyacquiredknowledgeona healthyislet(Dataset1) Distinguish9differenttypesofcells.Whichcharacteristicscanbeusedindoingso? 1. 2. 3. 4. 5. 6. 7. 8. 9. Sketch4differentorganellesandindicatetheircharacteristics. Sketch4differentmacromoleculesandmacromolecularcomplexes,andnameafunction. ‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐endofpractical‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐‐ 13