Crude Polysaccharides Extracted From Several Medicinal Fungi Exhibit Hypoglycemic Functions in MiceWord文档下载推荐.docx
《Crude Polysaccharides Extracted From Several Medicinal Fungi Exhibit Hypoglycemic Functions in MiceWord文档下载推荐.docx》由会员分享,可在线阅读,更多相关《Crude Polysaccharides Extracted From Several Medicinal Fungi Exhibit Hypoglycemic Functions in MiceWord文档下载推荐.docx(5页珍藏版)》请在冰豆网上搜索。
Keywords:
Cordyceps;
Phellinus;
Ganoderma;
polysaccharides;
hypoglycemiceffect
MedicinalfungiareaveryimportantpartoftraditionalChineseherbalmedicine.Extensiveresearchonthestructureandbioactivityoffungalcomponentshasindicatedthatfungalpolysaccharidesinparticulararehighlyeffectiveinmaintaininggeneralgoodhealth,andinthetreatmentofcertaindiseasessuchashyperglycemia.Forexample,polysaccharidesextractedfromGanodermalucidum,Cordycepsspp,Coriulusversicolor,Auriculariapolytricha,A.auricula,Tremellafuciformis,T.aurantialba,Hericiumerinaceum,Grifolafrondosa,ArmillariellamelleaandAgrocybepraecoxincreasedtherateofinsulinsecretionandloweredbloodglucoselevels[1,2].WenowreporthypoglycemicfunctionsassociatedwithcrudepolysaccharidepreparationsfromfruitbodiesofG.lucidumandCordycepsmilitaris,andfromvegetativemyceliaofCordycepstaii,CordycepsmemorabilisandPhellinussp.
1MaterialsandMethods
1.1Strainsandtestsample
AllfungalstrainswereprovidedbytheGuangdongInstituteofMicrobiology(GIM).Phellinussp.GIMYY0512wasisolatedfromafruitbodycollectedfromthewildatPreahVihear,Cambodia,andwasidentifiedasanewspeciesofPhellinusthroughITSsequenceanalysis(ITSsequencedepositedinGenbankunderaccessionNo.EU826013);
CordycepstaiiGIMYY0508andCordycepsmemorabilisGIMYY0607wereisolatedfromfruitbodiescollectedfromthewildatHenyang,HunanProvinceandDinghu,GuangdongProvince,respectively.FruitbodiesofGanodermalucidumGIMYY0403andCordycepsmilitarisGIMYY0610werecultivatedinourlaboratory.
1.2Testmice
Specificpathogen-free(SPF)NIHmice(maleandfemale,18~22g)weresuppliedbytheGuangdongMedicalandLaboratoryAnimalCenter,LicenceNos.SCXK(Yue)2003-002and2007A004.
1.3Reagentsandmedia
AlloxanwasfromAcrosOrganics,NewJersey,USA,Lot:
A011257301;
metforminhydrochloridewasfromShenzhenChinaAssociatedPharmaceutical,Lot:
0610304;
Glucosemono-reagentwasfromShanghaiKexinBio-technologyInstitute,Lot:
20070202.
Liquidmedium1(%w/v):
glucose5,peptone1,KNO30.2,MgSO40.2,CaCl20.01,and(NH4)?
?
3PO4?
3H2O0.2;
pHadjustedto7.0with1mol/LNaOH.
Liquidmedium2(%w/v):
wheatbran3,glucose3,peptone0.3,yeastextract0.1,K?
2HPO40.1,andMgSO40.05;
pHadjustedto6.0with1mol/LNaOH.
1.4Cultivationoffungalmycelia
Liquidmedium1(200mL)in500mLflaskswasinoculatedseparatelywith2%~5%(w/v)C.taiiGIMYY0508orC.memorabilisGIMYY0607myceliumandincubatedat26℃for5dwithshaking(120r/min).Myceliawereharvestedbyfiltrationanddriedat50℃.
Liquidmedium2(200mL)in500mLflaskswasinoculatedwith15%~20%(w/v)Phellinussp.GIMYY0512myceliumandincubatedat28℃for7~10dwithshaking(120r/min).Myceliawereharvestedbyfiltrationanddriedat50℃.
1.5Preparationofcrudepolysaccharides
Dryfruitbodiesormyceliaweregroundseparatelyintoapowderandsuspendedin30volwater.Afterextractionfor2hat100℃,thesuspensionwascentrifuged(1400g,10min)andthesolidresiduere-suspendedin20volswaterandextractedagainusingthesameprocedure.Combinedsupernatantswereconcentrated10-foldundervacuum,fourvolumesof90%(v/v)ethanolwereadded,andthemixturewasmaintainedat4℃overnighttoallowcompleteprecipitationofthepolysaccharides.Theprecipitateofcrudepolysaccharidewascollectedbycentrifugation(1400g,15min)anddriedat50~60℃.Thecarbohydratecontentwasdeterminedusingthephenol-sulfuricacidmethod[3],andthepolysaccharideyield(%)=weightofcrudepolysaccharide/dryweightoffruitbodiesormycelia.
1.6Preparationofdiabeticmice
Micewerefedanormaldietfor3daysandthengivenonlywaterfor24hours.Alloxan(0.02g/mL)wasinjectedintotheabdominalcavityatadosageof200mg/kg.Bloodsugarlevelsweredetermined5dayslaterbeforethemicehadbeenfed,andanimalswithavalue>
10.0mmol/Lwereselectedasdiabeticmice.
1.7Micetreatmentgroups
Tenuntreatedmiceweredesignatedasthe‘normal’group.Diabeticmiceweredividedrandomlyinto12groups(10miceineachgroup)thatincludedanegativecontrolgroup(administered10mL/kgsaline),apositivecontrolgroup(administered250mg/kgmetforminhydrochloride),andtentestgroupsadministeredeitherhigh(1g/kg)orlow(0.5g/kg)dosesofthedifferentcrudepolysaccharidepreparations.Stocksolutions(preparedinsaline)containingeither1.0g/10mLor0.5g/10mLofcrudepolysaccharidewereusedtoadministerhighandlowdoses,respectively.Treatmentswereadministeredthroughstomachfilling(10mL/kg)every24hfor7daysalongwithnormalfeedandwater.Afterthefinalstomachfilling,micewerefastedfor24handbloodsamplesweretakenfromeyeveins.Serumwasseparatedandbloodsugarvaluesweredeterminedusingtheglucoseoxidasemethodaccordingtothemanufacturer?
sinstructions.
1.8Dataanalysis
AllexperimentaldataweresubjectedtostatisticalanalysisbyExcelsoftwareandthet-test.
2Resultsandanalysis
2.1Polysaccharideyields
PolysaccharideyieldsfromdifferentfungiareshowninTable1(seetheChineseversion).Highestpolysaccharideyields(8.1%)wereobtainedfromC.memorabilismyceliumwhereaslowestyields(2.3%)werefromG.lucidumfruitbodies.
2.2Effectofcrudepolysaccharidepreparationsondiabeticmice
TheeffectsofthedifferentpolysaccharidetreatmentsondiabeticmicearesummarizedinTable2(seetheChineseversion).Allofthesamplesexhibitedhypoglycemicfunctionsthatweremorepronouncedinthehigherdosagegroups.CrudepolysaccharideextractedfrommyceliaofC.taiiandC.memorabilisweremosteffectiveinloweringserumglucoselevels.TheimpactsofbothhighandlowdosagesweresignificantatP<
0.01,andglucoselevelsinboththehigherdosagegroupsweresimilartothelevelobservedinthepositivecontrolgrouptreatedwithmetformin,acommonmedicinefordiabetics.Incomparison,relativelyweakeffectswereobservedwithcrudepolysaccharideextractedfromfruitbodiesofG.lucidumandC.militaris;
theimpactofhighandlowdoseswassignificantatP<
0.05,respectively.NosignificanteffectcomparedwithnegativecontrolswasobservedwiththetestgroupgivenlowdosesofcrudepolysaccharideextractedfrommyceliumofPhellinussp.althoughtherewasasignificantimpact(P<
0.05)inthegroupadministeredhigherdosesofthismaterial.
3Discussion
Thecytotoxinalloxandamagespancreaticβ-cellsandiswidelyusedtoinduceexperimentaldiabetesinanimalsinordertotestdifferentcompoundsforhypoglycemicfunctions.Inthepresentstudy,lowerdosages(0.5g/kg)ofcrudepolysaccharideextractedfromG.lucidumloweredbloodglucoselevelsby9.3%inalloxan-induceddiabeticmicecomparedwithcontrolsafteroneweekoftreatment.ThesefindingsareinagreementwithpreviousreportsbyCHENetal[4],andbyZHANGandFENG[5].However,ourfindingthatcrudepolysaccharidefromC.militarisatdosesof1.0g/kgloweredglucoselevelsby11.3%didnotcomplywiththeresultsofZHANGetal.[6],althoughthismayhavebeenduetodifferencesinthefungalstrainand/ortheanimalmodeluseintheirinvestigation.
C.taii,whichcontainsvariouschemicalcomponentsincommonwithC.sinensis[7~9],haspreviouslybeenreportedtopossessimmunomodulatoryfunctions[10,11],
whereasC.memorabilishasbeenassignednervecellprotectingproperties[12,13],aswellasantisepticandcytotoxicactivity[14].However,asfarasweareaware,thisisthefirstreportofhypoglycemicfunctionsassociatedwithcrudepolysaccharidematerialextractedfromthesetwofungi.BothMCTandMCMexhibitedgoodhypoglycemiceffectswhenusedathigherdosages(1g/kg).Ourdatashowedthatbloodglucosewasloweredtosimilarlevelsobservedinmicegivenmetforminhydrochloride,andsuggestthatthesematerialsareworthyoffurtherinvestigation.
References
[1]DUM,ZHANGS.Mechanismofediblefungalpolysaccharideonreducingbloodsugar[J].JournalofMicrobiology,2007,27
(2):
83-87.(inChinesewithEnglishabstract)
[2]SHUNYF.Pharmacologicalactionandapplicationofediblefunguspolysacchaides[J].JournalofMedicineCommunity,2006,4
(1):
29-31.(inChinese)
[3]TAOMH,PANQL,ZHANGWM.Testmethodforpolysaccharidesinmedicialfungi[J].EdibleFungiofChina,2005,24(5):
37-38.(inChinese)
[4]CHENWQ,HUANGJW,LUOLQ,etal.StudiesonpreventiveeffectsofGanodermalucidumpolysaccharide(GLP)againsttheformationofhyperlipidaemiainrats[J].ChineseJournalofGerontology,2005,25(8):
957-958.(inChinese)
[5]ZHANGLZ,FENGL.ResearchingthemechanismofGLP'
shypoglycemia[J].FujianMedicalJournal,2004,26(3):
137-140.(in
升级会员 