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《南京师大学报（自然科学版）》[ISSN:1001-4616/CN:32-1239/N]

Issue:

2020年01期

Page:

115-121

Research Field:

·生物学·

Publishing date:

Info

Title:

ANewKindofImidazolesInducesTumorCellAutophagyviaAMPK/mTORPathway

Author(s):

MaMengjiao; JinDong; ZhangGuangqin; YuXiaolu; WenChuanjun

SchoolofLifeSciences,NanjingNormalUniversity,InstituteofMolecularandCellBiology,Nanjing210023,China

Keywords:

NO.143; autophagy; tumor; LC3B; AMPK/mTOR

PACS:

Q291

DOI:

10.3969/j.issn.1001-4616.2020.01.017

Abstract:

Autophagyiscloselyrelatedtothetumoroccurrence.Bypreventingtheaccumulationoftoxicitiesindamagedproteinsandorganelles,autophagylimitsoxidativestress,chronictissuedamageandoncogenicsignaling,inhibitingthedevelopmentofcancer.Thisindicatestheroleofautophagyactivationincancerpreventionandtreatment.ItwasfoundanewimidazolenamedNO.143.PANC-1wasusedasamodeltodetecttheeffectofdifferentconcentrationsofNO.143oncellviabilitybyMTS.Theautophagyfluorescencespotswereobservedbyconfocalmicroscopy.Westernblotwasusedtodetecttheexpressionofautophagy-relatedproteinsLC3B,ATG13,p62andtheexpressionofAMPK/mTORsignalingpathway-relatedproteins.TheresultsshowedthatNO.143showedaconcentration-dependentinhibitionoftumorcellproliferation.NO.143cansignificantlyincreaseautophagicfluorescentspotsincells,increaseLC3Bexpression,ATG13contentandp62degradation.TheseresultsshowthatNO.143cansignificantlyup-regulateautophagyintumorcells.FurtherstudiesshowedthatNO.143wasabletoincreasethephosphorylationlevelofAMPKαandreducethephosphorylationlevelsofmammalianrapamycintargetprotein(mTOR)andS6.Conversely,thisphenomenonreversesafterinhibitingAMPKαactivity.TheseresultsmayindicatethatNO.143inducestumorautophagythroughtheAMPK/mTORsignalingpathwayandinhibitstumorcellproliferation.

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Last Update: 2020-03-15