Description
Therearefivefluorescentcontrolliposomeproducts(Fluoroliposome®)forClodrosome®(Clodronateliposomes).Allfivefluorescentliposomesincorporatealipophilicdyeinsidetheirmembranes.Theyareinsolubleinwater;however,theirfluorescenceiseasilydetectedwhenincorporatedintomembranes.DiI,DiO,DiD,DiRandDiAcoverawiderangeofexcitationandemissionwavelengthsfrom300sto900s.DiIandDiOhavefluorescenceexcitationandemissionmaximaseparatedbyabout65nm,facilitatingtwo-colorlabeling.TheemissionspectrumofDiAisverybroad,allowingittobedetectedasgreen,orangeorevenredfluorescencedependingontheopticalfilterused.DiI,DiO,DiDandDiRbelongtothedialkylcarbocyaninesfamilyofcompounds.Thespectralpropertiesofthedialkylcarbocyaninesarelargelyindependentofthelengthsofthealkylchains.Instead,theyaredeterminedbytheheteroatomsintheterminalringsystemsandthelengthoftheconnectingbridge.Theyhaveextremelyhighextinctioncoefficients,moderatefluorescencequantumyieldsandshortexcitedstatelifetimesinlipidenvironments(~1ns).Thefluorescencespectrumofeachdyeisshownbelow.
YoucanchoosetheFluoroliposome®basedonthetypeofthefluorescentequipmentandfiltersthatyouuseinyourlab.Clodronateliposomescannotbemadefluorescentsimplyduetothepotentialforinaccurateand/oruninterpretabledatabeinggeneratedbylabelledClodrosome®.Formoreinformation,pleaserefertothetechnicalnotesection.
TechnicalInformation
Fluoroliposome®-DiD
| LipidComposition | Concentration(mg/ml) | Concentration(mM) | MolarRatioPercentage |
|---|---|---|---|
| Total | 23mg/ml | 35.1mM | 100 |
| L-alpha-Phosphatidylcholine | 18.8 | 24.3 | 70 |
| Cholesterol | 4.2 | 10.9 | 30 |
| FluorescentDye | Excitation/Emission(nm) | Concentration(mg/ml) | Concentration(mM) |
|---|---|---|---|
1,1"-Dioctadecyl-3,3,3",3"-Tetramethylindodicarbocyanine,4-ChlorobenzenesulfonateSalt(DiD) | 644/665 | 0.0625 | 0.065 |
| BufferandLiposomeSize | Specification |
|---|---|
| Buffer | PhosphateBufferedSaline |
| pH | 7.4 |
| LiposomeSize | 1.5-2µm |
TechnicalNotes
- TECHNICALNOTES
- TheissuewithfluorescentClodrosome®hastodowiththepotentialforinaccurateand/oruninterpretabledatabeinggeneratedbylabelledClodrosome®.WhenClodrosome®inducesmacrophageapoptosis,thefluorescentlipidincorporatedintotheClodrosome®isdisruptedandmetabolizedinthephagolysosomewillbedispersedamongtheresidualapoptoticbodieswhicharesubsequentlyphagocytosedbyothermacrophages.Therefore,fluorescentlipidsmaybedetectedinphagocyticcellswhichneverphagocytosedClodrosome®especiallywhenFACSorfluoroscopyareutilizedtodetectfluorescentcells(FACS)orfluorescencelevelsinatissuehomogenate(fluoroscopy).Anotherpotentialartifactarisesfromfluorescentlipidremainingintheextracellular“garbage”,whichhasnotyetbeenclearedbyotherphagocytes,generatingahighbackgroundfluorescence.However,experiencedconfocalmicroscopistmaybeabletodifferentiatebetweenthepunctatefluorescence,resultingfromfluorescentintactliposomesversusthemorediffusefluorescencecharacteristicofdisruptedliposomesandsomehavesuccessfullyusedfluorescentclodronateliposomestovisualizethecellularlocationoftheseliposomesbyconfocalmicroscopy invivo [1].Afurthercomplicatingfactoristhatpublisheddatavarieswidelyastoexactlywhenclodronateliposomesbegintoinduceapoptosisinmacrophages.Mönkönnnen etal. showthatmacrophagedeathismeasurablewithinthefirsthourafterclodronateliposometreatmentonRAW264cells invitro [2],whilemanyothershavereportednosignsofmacrophageapoptosisuntilseveralhoursaftertreatment invivo.ThevariABIlityinthedataislikelyduetodifferentLiposomalformulationsofclodronateaswellasthevastlydifferentexperimentalconditions.Therefore,aswithmostBIOLOGicalstudies,especiallythoseinvolvingliposomes,theamountoftimebetweentreatingtheanimalorcellswithclodronateliposomesandtheonsetofapoptosiswillneedtobeestablishedineachexperimentalmodel.IfthenatureoftheresearchdemandsthatClodrosome®betrackedratherthanthecontrol,EncapsulacanprovideDiI-labelledClodrosome®uponrequest,andassumingthattheClodrosome®distributioncandefinitivelybeassessedpriortotheonsetofapoptosis,clearandvaliddataonthebiodistributionoffluorescentClodrosome®shouldbeobtainable.Still,formostpurposes,Fluoroliposome®(fluorescentcontrolliposomes)willprovidetherequireddatawithfarfewerpotentialartifacts.
- Whenmonitoringmonocyteuptake invivo innormalanimals,thecirculatingmonocytesmay“disappear”orshowreducedcountswithinthefirst2hpost-injectionduetomarginationofthemonocytespost-liposomephagocytosis.Thesecellswillre-enterthecirculationwithinafewhours.Sunderkötter etal. demonstratethisphenomenonanddiscussthebehaviorindetail.Alsoconsiderthatcirculatingmonocyteshavealifetimeofabout24hsolabeledmonocyteswillbecontinuallyleavingthecirculation,eveninnormalanimals,duetoagingofthemonocytes[3].
- Liposomesmaysettlewhenleftundisturbedformorethanafewhours.Immediatelypriortouse,inordertoensureahomogeneousliposomesUSPension,slowlyinvertthevialseveraltimesuntilthesuspensionappearshomogeneousbyvisualinspection.Vigorousorerraticshakingwillnotdamagetheliposomesbutmayinducefoamingandbubbleformationmakingitmoredifficulttoaccuratelymeasurethedesireddosage.
- Ifthepersonnelperformingintravenousinjectionsarenotexperiencedinorfamiliarwith,precautionsforinjectinglargervolumes(~10%animalweightinml),viscousliquidsorparticulatesuspensions,considerhavingextraanimalsavailableincaseseriousinjection-relatedadverseeventsoccur.Dosecontrolanimalsfirsttobecomefamiliarwithlargevolumeinjections.
- Whendosingintravenously,usestandardprecautionsfordosinglargervolumestoanimalsincludingthefollowing:a)Warmproducttoroomtemperaturepriortodosing.b)Ensurethatallairbubblesareremovedfromthesyringepriortodosing;intravenousinjectionofairbubblesmayresultinairemboliwhichcankillorseriouslyinjureanimals.c)Injectproductataslow,steadyrateofnomorethan1ml/min;decreaseinfusionrateifanimalsdisplayanyatypicalreactionssuchasunusualagitation.
- Infusion-relatedadversereactionsusuallyinvolvetheanimalgaspingforairorotherseizure-likemovements.Animalsoftenrecoverwithnoapparentpermanentinjury,butanypotentialeffectsonexperimentalresultsmustbeassessedbytheresearcher.
- Liposomesshouldbekeptat4°Cand NEVER befrozen.
Dosage
Appearance
Fluoroliposome®-DiDisablueliquidsuspensionmadeoflargemicronsizemultilamellarliposomes.Duetotheirlargesize,someliposomesmightsettletothebottomofthevial.Ifleftsittingidleintherefrigerator,Fluoroliposome®-DiDwillphaseseparateandformpelletsinthebottomofthevial,leavingaclearsolutionontop.Therefore,thevialshouldbeshakentoformahomogeneoussolutionpriortouse.
EducationalVideos
Ordering/ShippingInformation
- Allliposomebasedformulationsareshippedonblueiceat4°Cininsulatedpackagesusingovernightshippingorinternationalexpressshipping.
- LiposomesshouldNEVERbefrozen.Icecrystalsthatforminthelipidmembranecanrupturethemembrane,changethesizeoftheliposomesandcausetheencapsulateddrugtoleakout.Liposomesinliquidformshouldalwaysbekeptintherefrigerator.
- ClientswhoorderfromoutsideoftheUnitedStatesofAmericaareresponsIBLefortheirgovernmentimporttaxesandcustomspaperwork.EncapsulaNanoSciencesisNOTresponsibleforimportationfeestocountriesoutsideoftheUnitedStatesofAmerica.
- WestronglyencouragetheclientsinJapan,Korea,TaiwanandChinatoorderviaadistributor.Toughcustomsclearanceregulationsinthesecountrieswillcausedelayincustomclearanceoftheseperishableformulationsifordereddirectlythroughus.Distributorscaneasilyclearthepackagesfromcustoms.Toseethelistofthedistributorsclickhere.
- ClientsorderingfromuniversitiesandresearchinstitutesinAustraliashouldkeepinmindthattheliposomeformulationsaremadefromsyntheticmaterialandtheformulationsdonotrequirea“permittoimportquarantinematerial”.LiposomesareNOTbiologicalproducts.
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StorageandShelfLife
Storage
Fluoroliposome®productsshouldalwaysbestoredatinthedarkat4°C,exceptwhenbroughttoroomtemperatureforbriefperiodspriortoanimaldosing.DONOTFREEZE.ENSisnotresponsibleforresultsgeneratedbyfrozenproduct.
ShelfLife
Fluoroliposome®productsaremadeondailybasis.Thebatchthatisshippedismanufacturedonthesameday.Itisadvisedtousetheproductswithin60daysofthemanufacturingdate.
ReferencesandbackgroundreADIng
1.PolflietMM,GoedePH,vanKesteren-HendrikxEM,vanRooijenN,DijkstraCD,vandenBergTK.Amethodfortheselectivedepletionofperivascularandmeningealmacrophagesinthecentralnervoussystem.J.Neuroimmunol.2001Jun1;116(2):188–95.
2.MönkkönenJ,LiukkonenJ,TaskinenM,HeathTD,UrttiA.Studiesonliposomeformulationsforintra-articulardeliveryofclodronate.JournalofControlledRelease.1995Aug;35(2–3):145–54.
3.SunderkötterC,NikolicT,DillonMJ,vanRooijenN,StehlingM,DrevetsDA,LeenenP.SubpopulationsofMouseBloodMonocytesDifferinMaturationStageandInflammatoryResponse.JImmunol.2004Apr1;172(7):4410–7.
4.NagaiH,KuwahiraI,SchwenkeDO,TsuchimochiH,NaraA,OguraS,SonobeT,InagakiT,FujiiY,YamaguchiR,WingenfeldL.Pulmonarymacrophagesattenuatehypoxicpulmonaryvasoconstrictionviaβ3AR/iNOSpathwayinratsexposedtochronicintermittenthypoxia.PLoSOne.2015Jul1;10(7):e0131923.
5.ZhuY,SoderblomC,KrishnanV,AshbaughJ,BetheaJR,LeeJK.Hematogenousmacrophagedepletionreducesthefibroticscarandincreasesaxonalgrowthafterspinalcordinjury.Neurobiologyofdisease.2015Feb28;74:114-25.
6.YunMH,DavaapilH,BrockesJP.Recurrentturnoverofsenescentcellsduringregenerationofacomplexstructure.Elife.2015;4:e05505.
7.ArwertEN,HarneyAS,EntenbergD,WangY,SahaiE,PollardJW,CondeelisJS.AUnidirectionalTransitionfromMigratorytoPerivascularMacrophageIsRequiredforTumorCellIntravasation.Cellreports.2018May1;23(5):1239-48.
