1、Journal of Visualized ECopyright 2011 Journal of Visualized ExperimentsFebruary 2011|48|e2164|Page 1 of 9Video ArticleBlue Native Polyacrylamide Gel Electrophoresis(BN-PAGE)for Analysis ofMultiprotein Complexes from Cellular LysatesGina J.Fiala1,2,3,Wolfgang W.A.Schamel*2,3,Britta Blumenthal*31Spema
2、nn Graduate School of Biology and Medicine(SGBM),University of Freiburg2Centre for Biological Signalling Studies(bioss)and Biology III,Faculty of Biology,University of Freiburg3Department of Molecular Immunology,Max-Planck-Institute of Immunology and Epigenetics*These authors contributed equallyCorr
3、espondence to:Wolfgang W.A.Schamel at schamelimmunbio.mpg.de,Britta Blumenthal at blumenthalimmunbio.mpg.deURL:http:/ 48,BN-PAGE,2D gel electrophoresis,cellular lysate,dialysis,protein complex,multiprotein complex,proteininteractionDate Published:2/24/2011Citation:Fiala,G.J.,Schamel,W.W.A.,Blumentha
4、l,B.Blue Native Polyacrylamide Gel Electrophoresis(BN-PAGE)for Analysis of MultiproteinComplexes from Cellular Lysates.J.Vis.Exp.(48),e2164,doi:10.3791/2164(2011).AbstractMultiprotein complexes(MPCs)play a crucial role in cell signalling,since most proteins can be found in functional or regulatory c
5、omplexeswith other proteins(Sali,Glaeser et al.2003).Thus,the study of protein-protein interaction networks requires the detailed characterization ofMPCs to gain an integrative understanding of protein function and regulation.For identification and analysis,MPCs must be separated undernative conditi
6、ons.In this video,we describe the analysis of MPCs by blue native polyacrylamide gel electrophoresis(BN-PAGE).BN-PAGE isa technique that allows separation of MPCs in a native conformation with a higher resolution than offered by gel filtration or sucrose densityultracentrifugation,and is therefore u
7、seful to determine MPC size,composition,and relative abundance(Schgger and von Jagow 1991);(Schgger,Cramer et al.1994).By this method,proteins are separated according to their hydrodynamic size and shape in a polyacrylamidematrix.Here,we demonstrate the analysis of MPCs of total cellular lysates,poi
8、nting out that lysate dialysis is the crucial step to make BN-PAGE applicable to these biological samples.Using a combination of first dimension BN-and second dimension SDS-PAGE,we show thatMPCs separated by BN-PAGE can be further subdivided into their individual constituents by SDS-PAGE.Visualizati
9、on of the MPC componentsupon gel separation is performed by standard immunoblotting.As an example for MPC analysis by BN-PAGE,we chose the well-characterizedeukaryotic 19S,20S,and 26S proteasomes.Video LinkThe video component of this article can be found at http:/ video protocol is based on an assoc
10、iated publication 1:Blue Native Polyacrylamide Gel Electrophoresis(BN-PAGE)for theIdentification and Analysis of Multiprotein Complexes.Mahima Swamy,Gabrielle M.Siegers,Susana Minguet,Bernd Wollscheid,and WolfgangW.A.Schamel.Sciences STKE 2006(345):pl2,July 25,2006,DOI:10.1126/stke.3892006pl4.Please
11、 click here to see this publication.1.Preparation of dialyzed cell lysate1.Harvest 10 x106 cells and pellet by centrifugation at 350g for 5 min at 4C.2.Wash the cell pellet three times with 1 mL of ice-cold PBS(recipe 1),centrifuge as in step 1.1.3.Resuspend pellet in 250 L of ice-cold BN-Lysis Buff
12、er(recipe 2)and incubate on ice for 15 min.4.Centrifuge at 13,000g for 15 min at 4C to remove insoluble material.5.Melt a hole in the cap of a 1.5-mL microcentrifuge tube using the heated large diameter side of a Pasteur pipette,then place the tube on iceto cool down to 4C.6.Transfer supernatant fro
13、m step 1.4 into the chilled tube with the hole in the cap.7.Place a dialysis membrane(molecular weight cut-off of 10 kD)with forceps on top of the opened tube,close the cap,and cut off excessdialysis membrane that sticks out.8.Seal the cap on the side carefully with Parafilm.9.Invert the tubes and c
14、entrifuge upside-down at the lowest speed possible in a 50-mL conical tubes in a cell culture centrifuge for 10 sec at4C.Remove the inverted tube from the centrifuge using tweezers to avoid turning the tube right side up.10.Prepare a 100-mL beaker with cold BN-Dialysis Buffer(recipe 3)and a stir pla
15、te.Use at least 10 mL of BN-Dialysis Buffer per 100-L sample.11.Affix the tube with tape upside-down inside the beaker,and remove air bubbles from the hole beneath the cap using a bent Pasteur pipette.Journal of Visualized ECopyright 2011 Journal of Visualized ExperimentsFebruary 2011|48|e2164|Page
16、2 of 912.Place beaker on top of a magnet stirrer,switch on the stirrer and leave it for 6 hours or overnight in the cold room.Check occasionally toensure that stirring is not creating air bubbles at the dialysis membrane.13.Collect the dialyzed cell lysate in a new chilled microcentrifuge tube.2.Pou
17、ring of BN-gels1.Gradient gel pouring is done at room temperature with a gradient mixer.Gloves must be worn because polyacrylamide is highly neurotoxic.Avoid any contact with SDS.2.Place the gradient mixer on a stir plate and attach it to a piece of flexible tubing.Close the channel using the valve
18、and close the tubing with aclamp.Place a magnetic stirrer 15%into the high cylinder connected to the tubing.3.Thread the flexible tubing into a peristalitic pump and attach a syringe needle to its end.Then,place the needle between the two glass platesof the gel apparatus.4.Prepare 4%(recipe 5)and 15
19、%(recipe 6)separating gel solutions,adding APS and TEMED immediately before use.The combined volumesshould be equal to the volume of the separating gel.5.Pour these gel solutions into the corresponding cylinders of the gradient mixer(4%into the low and 15%into the high cylinder).6.Open the valve and
20、 force out the air bubble inside the channel connecting the two gel reservoirs by pressing over the left cylinder with yourthumb.7.Switch on the magnetic stirrer,remove the clamp,and switch on the peristalitic pump to 5 ml per minute.Allow the gel to slowly flow betweenthe glass plates.Ensure that t
21、he needle is always above the liquid.8.Allow all liquid to enter the gel apparatus,and then overlay gently with isopropanol.Allow the gel to polymerize for at least 30 min at roomtemperature.9.Clean the pouring apparatus immediately with dH2O(do not use detergent).10.Remove the isopropanol,wash with
22、 dH2O,and remove the dH2O with a Whatman paper.11.Prepare a 3.2%stacking gel(recipe 7),adding APS and TEMED immediately before use.12.Pour the stacking gel on top of the separating gel and introduce the comb between the glass plates,avoiding bubbles.After the stacking gelhas polymerized,cool the gel
23、 down to 4C.13.Immediately before sample loading,remove the comb slowly,pulling it out at an angle to the plane of the gel.This allows air to enter thepockets rapidly,which improves the quality of the wells.3.Separation of dialyzed cell lysate by BN-PAGE1.Load 1 to 40 L of dialyzed lysate and 10 to
24、20 l of Marker Mix(recipe 10)in the dry wells at 4C.Overlay the samples in each well with coldCathode Buffer(recipe 8).2.Fill the inner chamber with cold Cathode Buffer and the outer/lower chamber with cold Anode Buffer(recipe 9).3.Apply 100 V to a minigel or 150V to a large gel,until the samples ha
25、ve entered the separating gel.Run the gel at 4C.4.Increase the voltage to 180 V(minigel)or 400 V(large gel)and run until the dye front reaches the end of the gel.The run takes 3 to 4 hoursfor a mini-,and 18 to 24 hours for a large gel.4.Second dimension SDS-PAGE1.Prepare a standard 10%SDS-gel(recipe
26、s 12-15)with a single large lane for the first dimension BN-PAGE lane,one regular lane for themolecular weight marker,and one regular lane for an aliquot of the dialyzed lysate that has been mixed with SDS sample buffer(recipe 11)and boiled for 5 min at 95C.Use spacers whose thickness was increased
27、by two layers of scotch tape to simplify loading of the BN-PAGEgel slice onto the SDS gel.2.Remove the BN-PAGE gel in the plates from the electrophoresis apparatus and gently pry up one plate.3.Remove the stacking gel and cut out the lane of the BN-PAGE gel containing the proteins of interest.4.Plac
28、e the BN-PAGE gel slice in 2x SDS Sample Buffer and incubate for 10 min at room temperature.5.Boil the BN-PAGE gel slice briefly(not more than 20 sec)in a microwave.6.Incubate the BN-PAGE gel slice in the hot SDS Sample Buffer for another 15 min at room temperature.7.Load the BN-PAGE gel slice in th
29、e large well over the stacking gel of the SDS-PAGE gel avoiding air bubbles,and overlay the slice with SDSSample Buffer.Load marker and lysate control.8.Perform electrophoresis according to standard protocols.5.Detection of MPC subunits by immunoblotting1.For transfer,prepare six Whatman papers and
30、a PVDF membrane fitting to the size of the SDS-gel.2.Incubate the PVDF membrane in 100%methanol for 30 s and soak the Whatman papers in transfer buffer(recipe 16).3.Place three Whatman papers,the PVDF membrane,the SDS-gel(remove stacking gel),and again three Whatman papers in a sandwich-likestructur
31、e into a semidry transfer cell.4.Apply 20 V for 25 min.5.Detect proteins according to standard immunoblotting protocols.6.Representative ResultsWe present the analysis of the eukaryotic 19S,20S,and 26S proteasomes as an example for MPC characterization by 2D BN/SDS-PAGE(Figure 1A).HEK293 cells were
32、lysed with a buffer containing 0.1%Triton X-100 as a detergent to disrupt the membranes and solubilizemembrane protein complexes.These lysates were dialyzed against BN-Dialysis buffer to remove salts and small metabolites.Then,MPCs wereJournal of Visualized ECopyright 2011 Journal of Visualized Expe
33、rimentsFebruary 2011|48|e2164|Page 3 of 9separated by 4-15%gradient BN-PAGE followed by a second dimension SDS-PAGE.Proteins were visualized by immunoblotting with antibodiesagainst the subunits 2 and Mcp21 of the 20S proteasome.Figure 1.A two-dimensional BN-PAGE/SDS-PAGE approach using cellular lys
34、ates.(A)Flow diagram of a 2D BN-PAGE/SDS-PAGEapproach from cellular lysates.(B)Schematic scheme of a 2D BN-PAGE/SDS-PAGE.Proteins and MPCs are separated under native conditionsby BN-PAGE in a first dimension.For the second dimension,proteins and/or MPCs are denatured by SDS in the gel strip after se
35、paration by BN-PAGE and subsequently subjected to SDS-PAGE.Monomeric proteins will migrate in a hyperbolic diagonal due to the gradient gel in the first anda linear gel in the second dimension.Components of one concrete MPC will be found below the diagonal,located on a vertical line.It has been show
36、n that by combination of first dimension BN-and second dimension SDS-PAGE,monomeric proteins migrate within a hyperbolicdiagonal due to the gradient gel in the first and the linear gel in the second dimension(Camacho-Carvajal,Wollscheid et al.2004);Figure 1B).Components of MPCs are located below thi
37、s diagonal.Proteins that represent subunits of the same MPC can be found in one vertical line inthe second dimension,whereas several spots of the same protein in a horizontal line indicate the presence of the protein in several distinctMPCs.Figure 2 shows that in our experiment immunoblotting agains
38、t 2 and Mcp21 revealed the presence of specific protein complexescontaining these proteasomal subunits.Both proteins were detectable as individual spots arranged in a horizontal line,indicating that 2 andMcp21 represent constituents of several distinct MPCs.These MPCs could be clearly identified as
39、the 26S proteasome(20S plus 19S cap),the20S proteasome together with the regulatory subunit PA28,and the 20S proteasomes alone,on the basis of their size and composition.Takentogether,these results demonstrate that endogenous MPCs can be identified and characterized by a two-dimensional BN-PAGE/SDS-
40、PAGEapproach using cellular lysate.This method is applicable for determination of size,composition,and relative abundance of MPCs.Figure 2.Detection of different forms of the eukaryotic proteasome by immunoblotting after two-dimensional BN-PAGE/SDS-PAGE.For identification and analysis of eukaryotic
41、proteasomes,HEK293 cells were lysed with 0.1%Triton X-100.Cellular lysates were dialyzed andsubsequently subjected to BN-PAGE(4-15%)to separate MPCs.Afterwards,a second dimension SDS-PAGE(10%)was run for size separationof individual subcomponents.Immunoblotting was performed with specific antibodies
42、 recognizing the Mcp21 and 2 subunit of the 20S corecomplex,and the regulatory subunit PA28.Journal of Visualized ECopyright 2011 Journal of Visualized ExperimentsFebruary 2011|48|e2164|Page 4 of 9I.Table of specific reagents(alphabetical order):ReagentCompanyComments6-aminohexanoic acid(-aminocapro
43、ic acid)Sigma-Aldrich,Taufkirchen,GermanyThis chemical is an irritant and should behandled with gloves.Acrylamide-bisacrylamide solution(40%),Mix32:1Applichem,Darmstadt,GermanyThis solution is neurotoxic and should behandled with gloves.Bis-trisRoth,Karlsruhe,Germa-ny Brij 96Sigma-Aldrich,Taufkirche
44、n,Germany Coomassie blue G250Serva,Heidelberg,Ger-manyDo not substitute other types of Coomassie dyesuch as Coomassie blue R250 or colloidal Coo-massie blues.DigitoninSigma-Aldrich,Taufkirchen,GermanyDigitonin is toxic.Gloves should be worn whenhandling buffers or samples containing thisdeter-gent.D
45、odecylmaltosideApplichem,Darmstadt,Germany Triton X-100Roth,Karlsruhe,Germa-nyTriton X-100 is toxic.Gloves should be wornwhen handling buffers or samples containingthis detergent.II.Table of specific material and equipment:EquipmentCompanyDialysis membranes(molecular weight cut-off 10 to 50 kD)Roth,
46、Karlsruhe,GermanyGel electrophoresis systemFor example from Bio-Rad,Munich,GermanyGradient mixerSelf-made or commercially available from Bio-Rad,Munich,GermanyPeristaltic pumpAmersham Pharmacia Biotech,Freiburg,GermanyPolyvinylidene difluoride(PVDF)membraneImmobilon-P,Millipore,Eschborn,GermanySemi-
47、dry transfer equipmentFor example from Bio-Rad,Munich,GermanySilicon tubing(3 to 5 mm diameter,1 m length)NeoLab,Heidelberg,GermanyIII.Table of recipes:No.Buffers and solutionsContentComments1Phosphate-Buffered Saline(PBS)Na2HPO4 8.1 mMKH2 PO4 1.5 mM NaCl 138 mM KCl 2.7 mMSolution should be pH 7.4 i
48、f pre-pared properly.2BN-Lysis BufferBase buffer Bis-tris 20 mM-aminocaproic acid 500 mM NaCl 20 mM EDTA,pH 8.0 2 mM Glycerol 10%Adjust pH to 7.0 with HCl.Store at4C.Detergent The appropriate detergent must bedetermined empirically and shouldbe the same as that used in theother lysis buffer recipes.
49、Digitonin must be added justbefore use from a 2%stocksolution in dH2O(store in 5-mlaliquots at-20C).Protease and phophatase inhibit-ors should be added immediatelybefore use.Journal of Visualized ECopyright 2011 Journal of Visualized ExperimentsFebruary 2011|48|e2164|Page 5 of 9Digitonin 0.5 to 1.0%
50、or Brij 96 0.1 to 0.5%or Triton X-100 0.1 to 0.5%or Dodecylmaltoside 0.1 to 0.5%Protease and phosphataseinhibitors Aprotinin 10 g/mL Leupeptin 10 g/mL PMSF 1 mM Sodium fluoride 0.5 mM Sodium orthovanadate 0.5 mMUpon addition of sodium orthova-nadate,the buffer will becomeyellowish in color.3BN-Dialy