Shenetal.CellDeathandDisease (2018) 9:229 DOI10.1038/s41419-018-0310-x Cell Death & Disease ARTICLE Open Access fi Genetic modi cation to induce CXCR2 overexpression in mesenchymal stem cells fi enhances treatment bene ts in radiation- induced oral mucositis Zongshan Shen 1,2, Jiancheng Wang2, Qiting Huang1, Yue Shi2, Zhewei Wei3, Xiaoran Zhang2, Yuan Qiu2, Min Zhang2,4, Yi Wang2, Wei Qin1, Shuheng Huang1, Yinong Huang2, Xin Liu2, Kai Xia2,4, Xinchun Zhang5 and Zhengmei Lin1 Abstract Radiation-inducedoralmucositisaffectspatientqualityoflifeandreducestolerancetocancertherapy.Unfortunately, traditional treatments are insufficient for the treatment of mucositis and might elicit severe side effects. Due to their immunomodulatory and anti-inflammatory properties, the transplantation of mesenchymal stem cells (MSCs) is a potentialtherapeuticstrategyformucositis.However,systemicallyinfusedMSCsrarelyreachinflamedsites,impacting their clinical efficacy. Previous studies have demonstrated that chemokine axes play an important role in MSC targeting. By systematically evaluating the expression patterns of chemokines in radiation/chemical-induced oral 1234567890():,;1234567890():,; mC(MXuSCcCRos2sC.iXtTiCshR,2uw)sef,owfroemuneudxcpotlshoiatrietsdCtrXtehCaetLm2peowntaets.nIthniaidglehtehlyde,eraMxppSerCeusstCsicXeCdbR,2ewnehexfiehtrisbeaiotsefdctuheletnuhtrreaadnncsMepdlSaCntastrangteieogtnilniggoifbalCbyXileiCtxyRp2tr-oeosvtshetreheexinpCflraXemsCsLien2dgrmeMcueScpCotsosar in radiation/chemical-induced oral mucositis mouse models. Furthermore, we found that MSCCXCR2 transplantation accelerated ulcer healing by suppressing the production of pro-inflammatory chemokines and radiogenic reactive oxygenspecies(ROS).Altogether,thesefindingsindicatethatCXCR2overexpressioninMSCsacceleratesulcerhealing, providing new insights into cell-based therapy for radiation/chemical-induced oral mucositis. Introduction swallowing and speaking ability, ultimately leading to mal- Approximately 80–100% of patients with head and neck nutrition, and can lead to life-threatening bacteremia2,3, cancers who receive radiation treatment develop oral thereby reducing patient tolerance to cancer therapy and mucositis, which is the most common complication of this patientsurvival3.Previousstudieshavefoundthatoxidative treatment1. Oral mucositis affects food intake and stress induced by radiation leads to reactive oxygen species (ROS)production,whichgreatlyimpactsmucositisbecause ROSdamageDNA,inducecellapoptosis,andincreasepro- Correspondence:XinchunZhang([email protected])orZhengmeiLin inflammatory cytokine release4. However, traditional treat- ([email protected]) 1GuangdongProvincialKeyLaboratoryofStomatology,Departmentof ments,suchaspainmanagement,nutritionsupporttherapy, OperativeDentistryandEndodontics,GuanghuaSchoolofStomatology,Sun andantibioticsadministration,canalleviatethesymptomsof Yat-senUniversity,Guangzhou,China 2TheKeyLaboratoryforStemCellsandTissueEngineering,CenterforStem mucositis but are not sufficient for the prevention or CellBiologyandTissueEngineering,MinistryofEducation,SunYat-sen treatment of this condition1,4,5. Moreover, these treat- University,Guangzhou,China ments elicit severe side effects, such as opportunistic Fulllistofauthorinformationisavailableattheendofthearticle ZongshanShen,JianchengWang,andQitingHuangcontributedequallytothiswork. EditedbyYWang ©TheAuthor(s)2018 OpenAccessThisarticleislicensedunderaCreativeCommonsAttribution4.0InternationalLicense,whichpermitsuse,sharing,adaptation,distributionandreproduction inanymediumorformat,aslongasyougiveappropriatecredittotheoriginalauthor(s)andthesource,providealinktotheCreativeCommonslicense,andindicateif changesweremade.Theimagesorotherthirdpartymaterialinthisarticleareincludedinthearticle’sCreativeCommonslicense,unlessindicatedotherwiseinacreditlinetothematerial.If materialisnotincludedinthearticle’sCreativeCommonslicenseandyourintendeduseisnotpermittedbystatutoryregulationorexceedsthepermitteduse,youwillneedtoobtain permissiondirectlyfromthecopyrightholder.Toviewacopyofthislicense,visithttp://creativecommons.org/licenses/by/4.0/. OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page2of14 Results infections and lipid metabolic disorder. Therefore, it is essential to explore effective treatments with fewer CXCL2 is upregulated in radiation/chemical-induced oral adverse effects. mucositis Because mesenchymal stem cells (MSCs) exhibit bene- To systematically investigate the expression of chemo- ficial immunomodulatory, anti-oxidative, and anti- kines during the inflammatory phase of RIM/CIM, we inflammatory characteristics, MSC therapy has been evaluatedthemRNAexpressionofchemokinesassociated reported to be effective for patients with a series of with skin and mucosal inflammation, including CCL2, inflammatory and radiogenic diseases, including myo- CCL8, CCL17, CCL19, CCL21, CXCL1, CXCL2, CXCL3, cardial infarction (MI), spinal cord injury, osteomyelitis, CXCL5, CXCL9, CXCL10, and CXCL1216–19. We found Crohn’s disease, and radiogenic skin inflammation6–9. that the mRNA levels of various CXCR2 ligands, includ- These studies indicated that MSC transplantation might ing CXCL1, CXCL3, CXCL5, and CXCL2, were upregu- representapromisingtherapyforradiogenicmucositis.In lated. The CXCL2 mRNA levels were markedly aclinicalsetting,MSCsaretypicallyadministeredthrough upregulatedafterradiationcomparedwithnormaltissues two routes: local transplantation and systemic infusion. (Fig. 1a). Furthermore, CXCL2 upregulation was con- Because radiogenic mucositis is distributed in various firmed by in situ immunofluorescence staining and wes- parts of the human body, local transplantation is not tern blotting (Fig. 1b, c). Interestingly, the expression of appropriate. Additionally, local implantation has many CXCL2 mRNA peaked on day 7 after radiation and then limitations, such as significant morbidity and disruption gradually declined (Supplementary Fig. 2A), which was of the structure of the local environment10. Thus, intra- consistent with the clinical symptoms. CIM is another vascular administration is much more appropriate. model applied for studying oral mucositis caused by However, the low migratory efficiency of MSCs into the cancer therapy20. Similarly, the expression levels of inflamed mucosa limits this approach and reduces its CXCL2 mRNA and protein were substantially increased clinical benefits11. Therefore, studies aimed at promoting inCIM(Fig.1d–f).However,thehighestlevelsofCXCL2 MSC migration toward mucositis sites are vital. mRNA expression were observed 5 days after chemical Chemokine axes control the migratory patterns of induction(SupplementaryFig.2B).Theseresultsindicate MSCstospecificsites(i.e.,injuredsites)12,13.Chemokines thatCXCL2isthedominantchemokineexpressedinoral released from inflammatory tissues might activate adhe- mucositis. sion ligands and promote the transendothelial migration or subsequent implantation of MSCs in the surrounding CXCR2-overexpressing MSCs retain the characteristics of tissues14. The targeting of MSCs toward inflamed sites human MSCs relies on specific chemokine receptors. However, the Chemokine receptors play an essential role in MSC expression of these receptors in MSCs decreases after targeting to inflamed sites by binding to their corre- in vitro expansion15. To enhance their migratory ability, sponding chemokines12,21. Therefore, we evaluated the researchers have attempted to overexpress the corre- expression of chemokine receptors on MSCs. A tran- sponding receptors in MSCs. In our previous study, scription quantitative real-time PCR (RT-qPCR) analysis CXCR5-overexpressing MSCs exhibited enhanced tar- demonstrated that cultured MSCs at passage six expres- geting ability to the inflamed skin in a contact hypersen- sed very low levels of chemokine receptors, including sitivity (CHS) mouse model, in which CXCL13 was CXCR2 (Fig. 2a; Supplementary Fig. 2c), which is the notablyupregulated.Moreover,thesegeneticallymodified receptor of the chemokine that is highly expressed in MSCs with enhanced targeting ability markedly suppress mucositis, CXCL2. skininflammation13.Therefore,methodsthatre-establish Subsequently, we overexpressed CXCR2 in MSCs by the interactions between tissue-specific chemokines and infectingthemwithalentiviralvectorencodingCXCR2to their corresponding receptors on MSCs are promising construct MSCsCXCR2 (Supplementary Fig. 3A) and strategiesforenhancingthetargetingabilityofMSCsand potentially enhance the targeting of MSCs to inflamed therebyimprovethetherapeuticbenefitsofMSCtherapy. sites.Moreover,weinfectedMSCswithalentiviralvector Here, overexpression of the chemokine receptor encoding GFP (referred to as MSCsGFP) to allow the tra- CXCR2onMSCsimprovedcellmigrationtotheinflamed cing of MSCs after transplantation (Supplementary mucosa and promoted cell survival in oral radiation/ Fig. 3B). Indeed, the CXCR2 expression levels were sig- chemical-induced mucositis (RIM/CIM). Furthermore, nificantly upregulated 2 days after infection (Fig. 2b). CXCR2-overexpressing MSCs (MSCsCXCR2) accelerated Moreover, this upregulation was further confirmed by ulcer healing, likely by suppressing ROS and pro- western blotting and flow cytometry (Fig. 2c, d). To inflammatory chemokine production. Thus, this innova- determine whether CXCR2-overexpressing MSCs retain tivestrategythatenhancesthetherapeuticbenefitsshows their identities, we investigated the expression of MSC- promise for future clinical applications. specific markers and the multilineage differentiation OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page3of14 Fig.1(Seelegendonnextpage.) potential of the transduced MSCs. A flow cytometry lineage differentiation conditions, both MSCsCXCR2 and analysis indicated that MSCsCXCR2 expressed the same MSCsGFP showed similar trilineage differentiation pattern of stem cell surface markers as MSCsGFP (Sup- potential and exhibited osteogenic, adipogenic, and plementary Fig. 3C). Moreover, under mesenchymal chondrogenic lineage phenotypes during the 2-to-4-week OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page4of14 (seefigureonpreviouspage) Fig.1CXCL2isupregulatedinradiation/chemical-inducedmucositis.aThemRNAexpressionlevelsofvariouschemokinesinvolvedin radiation-inducedtonguemucositiswereanalyzedbyRT-qPCR.Sampleswereextractedfromnormalandinflamedtongues.Thefoldchange representstheexpressionofeachchemokinemRNAininflamedtonguescomparedwithnormaltonguesonday7afterradiation.Allthedataare presentedasthemeans±standarderrorsofthemeans(SEMs)(n=6)foreachgroup.bImmunofluorescencestainingofCXCL2(red)innormaland inflamedtonguesonday5afterradiation.Theexperimentswererepeatedthreetimesinindividualmice.NucleiwerevisualizedthroughDAPI staining(blue).Scalebar=100μm.cTotaltissuelysatesofnormalandinflamedtonguesweresubjectedtowesternblotanalysisofmouseCXCL2 proteinexpression.Theexperimentswererepeatedthreetimes,andarepresentativeblotisshown.dThefoldchangesinthemRNAlevelsofvarious chemokinesinchemical-inducedmucositiswereanalyzedbyRT-qPCR.Sampleswereextractedfromnormalandinflamedmucosaltissuesonday5 afterchemicalstimulation.Thedataarepresentedasthemeans±SEMs(n=6)foreachgroup.eImmunofluorescencestainingforCXCL2(red)in normalandinflamedmucosaltissuesonday5afterchemicalstimulation.Theexperimentswererepeatedthreetimesinindividualmice.Nucleiwere visualizedthroughDAPIstaining(blue).Scalebar=100μm.fTotaltissuelysatesfromnormalandinflamedmucosaltissuesweresubjectedto westernblotanalysisofmouseCXCL2.RIMradiation-inducedmucositis,CIMchemical-inducedmucositis differentiation period (Fig. 2e). A cytogenetic analysis (Supplementary Figs. 3A, B), and infected MSCs to allow demonstratedthatallMSCsCXCR2(atpassageeight)hada their tracing after in vivo transplantation. Biolumines- normaldiploidchromosomalcomplement(Fig.2f).Taken cence imaging (BLI) revealed a strong linear relationship together, these results indicate that the transgenic mod- (r2=0.992)betweenthenumberofMSCsandtheaverage ification of MSCs does not alter the intrinsic character- luminescence intensity (Fig. 4a, b), indicating that the istics of MSCs. numberofMSCscanbedeterminedbytheluminescence intensity.Thus,toinvestigateMSCsurvivalaftersystemic MSCsCXCR2 exhibit enhanced migration potential in vitro injection in mouse models, we examined the average and in vivo luminescence intensity through BLI. The average lumi- Chemokine axes mediate MSC migration to inflamed nescence intensity of both groups peaked 1 day after sites12,21. Hence, we used a chemotaxis assay to assess infusion. Although the luminescence intensity in the whether CXCR2-overexpressing MSCs exhibited MSCGFP group decreased sharply within 3 days, the enhanced targeting ability in vitro. The results showed luminescence intensity intheMSCCXCR2groupremained thatMSCsCXCR2,butnotMSCsGFP,stronglyrespondedto steady for 3 days and was even observed after 7 days 5ng/ml human CXCL2 (hCXCL2) and 50ng/ml murine (Fig. 4c, d). These findings indicated that the over- CXCL2 (mCXCL2) (Fig. 3a). Additionally, the number of expression of CXCR2 in MSCs not only enhanced their migrated MSCsCXCR2 increased nearly two-fold when the targetingabilitytomucositissitesbutalsoincreasedtheir incubation time was extended from 6 to 12h (Fig. 3b). survival rate. To determine whether MSCsCXCR2 had an enhanced To further verify that the overexpression of CXCR2 in ability to target radiation-damaged tongues in vivo, we MSCs increased their survival rate, we used an in vitro injected MSCsCXCR2 and MSCsGFP into RIM model mice hydrogen peroxide (H O ) model as previously repor- 2 2 through the tail vein on day 7 after radiation. Inflamed ted22. Cell Counting Kit-8 (CCK-8) assays indicated that tongues were collected from each group on days 1 and 3 MSCsCXCR2 exhibited increased survival rates 2 and 4h post-injection. An immunofluorescence staining analysis after exposure to oxidative stress compared with demonstrated that MSCsCXCR2 accumulated in the MSCsGFP (P<0.05) (Fig. 4e). The PI3K/Akt and MAPK/ mucositis region in the RIM model. Interestingly, within Erksignalingpathwayshavealargeimpactoncellsurvival 3 days of injection, the number of MSCsGFP declined andproliferation23.Awesternblotanalysisindicated that sharply,andthenumberofMSCsCXCR2decreasedslightly theP-AktandP-Erk1/2levelsweresignificantlyincreased (Fig. 3c, d). To further investigate whether MSCsCXCR2 in MSCsCXCR2 (Fig. 4f). These results indicated that displayed enhanced targeting ability to CIM sites, we CXCR2 enhances cell survival and proliferation, likely by injectedMSCsCXCR2andMSCsGFPintoCIMmodelmice. activating the PI3K/Akt and MAPK/Erk signaling Animmunostaininganalysisindicatedthatthenumberof pathways. MSCsCXCR2wassignificantlyhigherthanthatofMSCsGFP in the inflamed mucosa (Supplementary Fig. 4A, B). MSCsCXCR2 notably attenuate RIM/CIM Altogether, these results indicate that CXCR2 over- To investigate whether the enhanced migration of expression enhances MSC targeting to RIM/CIM sites. MSCsCXCR2 would improve their beneficial effect on oral mucositis, we injected mice with MSCsGFP and MSCsCXCR2 exhibit enhanced survival in RIM MSCsCXCR2 on days 7 and 5 after radiation and chemical We inserted luciferase 2-monooxygenenase (luc) after induction, respectively. Hematoxylin and eosin (HE) thechemokinereceptorinalentiviralvector,placingboth staining revealed that the group with radiation-induced constructs under the control of the same promoter ulcers exhibited a loss of filiform papillae, ulcerations, a OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page5of14 Fig.2CXCR2-overexpressingMSCsretainthecharacteristicsofhumanMSCs.aHistogramsrepresentingthemRNAexpressionlevelsofC–C andC–X–Cchemokinereceptorsfromthreeindependentsamplesofsixth-passageMSCs.MSCsurfacemarkers(CD44,CD90,CD73,andCD105)were detectedasapositivecontrol.Thedataarepresentedasthemeans±SEMsforeachgroup(n=3,t-test).bTheexpressionlevelsofCXCR2mRNAin MSCsGFPandMSCsCXCR2aftergenetransductionwereanalyzedviaRT-qPCR.Glyceraldehyde3-phosphatedehydrogenase(GAPDH)mRNAwas detectedasaninternalcontrol.Thedataarepresentedasthemeans±SEMsforeachgroup(n=3,t-test).cTotalMSCGFPandMSCCXCR2lysatesfrom threeindependentsamplesweresubjectedtowesternblotanalysisofCXCL2expression.dAflowcytometryanalysiswasusedtodetectCXCR2 proteinonthesurfaceofMSCsGFPandMSCsCXCR2.Sixindependentsampleswereanalyzed.eRepresentativeimagesshowingthetrilineage differentiationpotentialofMSCsCXCR2andMSCsGFPintoadipocytes(oilredO),osteocytes(alizarinred),andchondrocytes(alcianblue).Scalebar=20 µm.fCytogeneticanalysisofMSCsCXCR2attheeighthpassage.Theexperimentswererepeatedthreetimes OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page6of14 Fig.3MSCsCXCR2exhibitenhancedmigrationpotentialinvitroandinvivo.aInvitromigrationofMSCsCXCR2andMSCsGFPtowardhumanCXCL2 (hCXCL2)ormurineCXCL2(mCXCL2).Transwellfilterswerestainedwith0.1%crystalvioletandobservedunderamicroscope.Scalebar=25μm.b ThemigratedMSCsafterincubationforeither6or12hwerequantifiedineachmicroscopicfield;***P<0.001.cMSCsCXCR2andMSCsGFP,bothof whichexpressedGFPwheninjectedintoradiation-inducedmucositismodels,wereexaminedbyimmunofluorescencestainingondays1and3 post-injection.Signals:GFP,green;DAPI,blue.Scalebar=100μm.dGFP-positivecellswerequantifiedineachmicroscopicfieldofthemouse tongue.Thedataarepresentedasthemeans±SEMsforeachgroup(n=6,t-test).***P<0.001fortheRIM+MSCCXCR2groupcomparedwiththeRIM +MSCGFPgroupontheindicatedday OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page7of14 Fig.4MSCsCXCR2exhibitenhancedcellsurvivalinradiation-inducedmucositis.aInvitrobioluminescenceimaging(BLI)ofMSCsCXCR2from groupswithdifferentcellnumbers.Thecolorscalebarrepresentstheopticalfluorescenceintensityinphotons/second/cm2/steradian(photons/s/ cm2/sr).bLinearcorrelationofthecellnumberwiththeluc-inducedluminescenceintensity(r2=0.992).cInvivoBLIrepresentingMSCsurvivalon days1,3,7,and10afterinjection.Theluminescenceintensityrepresentsthenumberoflivingcells.Scalebar=10mm.dQuantitativeanalysisofBLI ondays1,3,7,and10afterinjection.Thedataarepresentedasthemeans±SEMs(n=3).***P<0.001.eCCK-8assayshowingtheviabilityof MSCsCXCR2andMSCsGFP2hand4hafterexposuretooxidativestress.Thedataarepresentedasthemeans±SEMs(n=3)foreachgroupandare representativeofthreeindependentexperiments.*P<0.05.fTotalMSCGFPandMSCCXCR2lysatesweresubjectedtowesternblotanalysisofAktand Erk1/2phosphorylation.Theexperimentswererepeatedthreetimes OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page8of14 disrupted epithelium layer, inflammatory cell infiltration, apoptosiswasmeasuredviaAnnexinV/propidiumiodide and decreased mucosal thickness. The MSCGFP group (PI) staining and flow cytometry. The apoptosis of pri- showed an increase in filiform papillae and decreased marytonguecellssubjectedtoco-culturewithMSCswas ulceration, but inflammatory cell infiltration was still significantly decreased compared with mono-cultured observed in the submucosal area. However, extensive MSCs (Supplementary Fig. 5A, B). Taken together, these ulceration was absent in the MSCCXCR2 group, which findingsindicatethatMSCsacceleratemucositisrecovery, exhibitedthelowestlevelofinflammatorycellinfiltration likely by decreasing radiogenic ROS production and and increased thickness of the epithelium layer and protecting tongue cells from cell death. mucosallining(Fig.5a).Wethenexaminedthemaximum Discussion diameter of ulceration in RIM/CIM models to assess the severity of mucositis. Smaller ulceration diameters in the OralRIM is oneof themost common complications of mouse mucosa were measured in the MSCCXCR2 group radiotherapy among patients with head and neck cancer. than in MSCGFP group (Fig. 5b). Inflammatory cytokines, However, traditional treatments for severe mucositis are includingtumornecrosisfactor-α(TNF-α),interleukin-1β limited and cannot prevent ulcer recurrence. Here, we (IL-1β), IL-6, and IL-10, play important roles in wound reportaninnovateandhighlyefficienttreatment,namely, repair4,16.Hence,weexaminedthelevelsofinflammatory thesystematictransplantationofMSCswithanenhanced cytokines after MSC treatment to assess the anti- targetingcapacitytomucositissites.Thisstudyshedsnew inflammatory effects of MSCs. A RT-qPCR analysis light on the treatment of RIM and provides groundwork demonstrated that the mRNA expression of pro- for the clinical application of MSC-based therapy for inflammatory cytokines in the mouse mucosa was sig- mucositis. nificantlydownregulatedintheMSCCXCR2groupbutonly Duetotheiranti-inflammatoryandimmunomodulatory slightly reduced in the MSCGFP group (Fig. 5c). These capabilities, MSCs have therapeutic potential for the results indicate that MSCsCXCR2 can markedly attenuate treatment of inflammatory diseases6,9. However, systemi- oral mucositis, in part due to their anti-inflammatory callyinfusedMSCsrarelyhometoinflamedmucosainthe effects. orofacial region. MSC targeting depends on the interac- tions between chemokine receptors and specific chemo- MSCs accelerate mucositis recovery by decreasing kines from inflamed sites12,21. A RT-qPCR analysis radiation-induced ROS production revealed that CXCL2 was the most highly expressed RIM is initially caused by radiogenic ROS4,24. Because chemokine in the inflamed mucosa in oral RIM mouse MSCs have great anti-oxidation potential25,26, we won- models. Recent studies have reported that the over- dered whether MSCs promoted ulcer healing by pro- expression of corresponding chemokine receptors in tecting tissue cells from ROS-induced damage. The MSCscanenhancetheirtargetingabilitytoinflamedsites. staining of inflamed tongue tissues with the superoxide- For example, CCR1, CXCR4, and CCR7 overexpression sensitivefluorescentdyedihydroethidium(DHE)revealed has been shown to enhance MSC targeting to injured that both MSCGFP and MSCCXCR2 treatment exerted myocardium29, ischemic myocardium30, and secondary benefits by reducing the cellular ROS levels. However, lymphoid organs31, respectively. Notably, our chemotaxis MSCCXCR2treatmenthadthegreatesteffectondecreasing assays demonstrated that MSCs overexpressing CXCR2 thecellularROSlevelsamongallgroupsinvivo(Fig.6a). had enhanced migratory ability when exposed to CXCL2 We further applied CellROXTM for detection of the in vitro. Furthermore, immunostaining and BLI analyses radiogenic ROS levels in primary tongue epidermal and revealedthatMSCsCXCR2exhibitedenhancedtargetingto fibroblast cells after treatment with 4Gy of radiation the inflamed mucosa. Interestingly, we also observedthat in vitro. Based on immunofluorescence staining, the CXCR2 overexpression prolonged MSC survival in the radiogenic ROS levels in primary tongue cells were atte- inflamed mucosa, and this effect is likely mediated by P- nuated by co-culture with MSCsCXCR2 or MSCsGFP (P< Akt and P-Erk1/2 upregulation. 0.05) (Fig. 6b). Furthermore, a flow cytometry analysis of Subsequently, we exploited the therapeutic potential of the intracellular redox status confirmed that primary MSCCXCR2 transplantation. A HE staining analysis tongue epidermal or fibroblast cells co-cultured with demonstrated that mice that received MSCsCXCR2 dis- MSCs exhibited less intracellular ROS generation than played enhanced epithelial integrity in the mucosa com- mono-cultured cells (Fig. 6c). In addition, an oxidative pared with those that received MSCsGFP. Furthermore, environment contributes to cell death, which is also the ulceration diameters in the MSCCXCR2-treated group responsible for ulcer healing delays22,27,28. Therefore, we were significantly smaller than those in the MSCGFP- used an H O -induced cell death model to determine treatedcontrolgroup.Together,theseresultssuggestthat 2 2 whether MSCs protect tongue epidermal or fibroblast MSCCXCR2 transplantation accelerates ulcer recovery. cells from cell death in an oxidative environment. Cell Conventional treatments, such as pain management and OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page9of14 Fig.5MSCsCXCR2markedlyattenuateradiation/chemical-inducedmucositis.aHematoxylinandeosin(HE)-stainedtonguesamplesfromfour groups:thenormalgroup,theRIM/CIMgroup,theRIM/CIM+MSCGFPgroup,andtheRIM/CIM+MSCsCXCR2group.Sampleswerecollectedat72h post-injection,cryosectioned,andstainedwithHE.Alltheexperimentswererepeatedthreetimes.Scalebar=100μm.bThemaximumulcer dimensionineachgroupwasexaminedwithVerniercalipers.Thedataarepresentedasthemeans±SEMsforindividualmice;n=6mice/group fromthreeindependentexperiments.*P<0.05;**P<0.01;***P<0.001.cThelevelsofTNF-α,IL-1β,IL-6,andIL-10mRNAwereanalyzedbyRT-qPCR. mRNAsampleswereextractedfromthetonguesofmiceineachgroupatday3post-injection.GAPDHmRNAwasdetectedasaninternalcontrol. Theresultsarerepresentativeofthreeexperiments;*P<0.05;**P<0.01;***P<0.001 OfficialjournaloftheCellDeathDifferentiationAssociation Shenetal.CellDeathandDisease (2018) 9:229 Page10of14 Fig.6(Seelegendonnextpage.) OfficialjournaloftheCellDeathDifferentiationAssociation
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