Mar 30, 2020

Public workspaceHigh-Throughput Stool Metaproteome Extraction

mSystems
DOI
dx.doi.org/10.17504/protocols.io.9gph3vn
  • 1Stanford University;
  • 2Chan Zuckerberg Biohub
Carlos Gonzalez
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DOI: dx.doi.org/10.17504/protocols.io.9gph3vn
External link: https://doi.org/10.1128/mSystems.00200-20
Protocol CitationCarlos Gonzalez, Josh Elias 2020. High-Throughput Stool Metaproteome Extraction. protocols.io https://dx.doi.org/10.17504/protocols.io.9gph3vn
Manuscript citation:
Gonzalez CG, Wastyk HC, Topf M, Gardner CD, Sonnenburg JL, Elias JE, High-Throughput Stool Metaproteomics: Method and Application to Human Specimens. mSystems 5(3). doi: 10.1128/mSystems.00200-20
License: This is an open access protocol distributed under the terms of the Creative Commons Attribution License,  which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Protocol status: Working
We use this protocol and it's working
Created: November 18, 2019
Last Modified: March 30, 2020
Protocol Integer ID: 29935
Keywords: Proteome, metaproteome, stool, mass spectrometry
Abstract
The gut microbiome is strongly associated various disease related periods. In order to better understand how the host and microbiome interact during these periods, it is necessary to survey the proteomic response of both the host and microbes in a large portion of a population. However to date, techniques used to isolate stool proteins have been low-throughput and due to their lack of purity can foul columns and increase mass spectrometer downtime. To address these shortcomings, this protocol was developed. It allows for the processing of 96 samples in parallel and is compatible with common multiplexing labeling technology. It has thus far been used to process anywhere between 10 and 400 samples, with very reproducible results.
Guidelines
  1. The optimal place to stop first part of protocol is after elution of digested peptides from S-trap column/plate
  2. Small Nitrogen tanks (R-tanks) run out really quickly, order at least 3.
Materials
MATERIALS
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512
ReagentAgilent AssayMap Bravo RP­S CartridgesAgilent TechnologiesCatalog #G5496­60033 {RPS­M07}
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4
ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656
ReagentUreaMerck MilliporeSigma (Sigma-Aldrich)Catalog #U4884
ReagentAcetonitrile Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A955-500
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit
ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149
ReagentWaters 96 well sealing matWatersCatalog #186006335
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024
ReagentPromega trypsinPromegaCatalog #V5113
ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G
ReagentHydroxylamine solutionMerck MilliporeSigma (Sigma-Aldrich)Catalog #438227
STEP MATERIALS
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1
ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentPromega trypsinPromegaCatalog #V5113
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512
ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024
ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
Protocol materials
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentAcetonitrile Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A955-500
ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit
ReagentWaters 96 well sealing matWatersCatalog #186006335
ReagentPromega trypsinPromegaCatalog #V5113
ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024
ReagentUreaMerck MilliporeSigma (Sigma-Aldrich)Catalog #U4884
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024
ReagentHydroxylamine solutionMerck MilliporeSigma (Sigma-Aldrich)Catalog #438227
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4
ReagentPromega trypsinPromegaCatalog #V5113
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentAgilent AssayMap Bravo RP­S CartridgesAgilent TechnologiesCatalog #G5496­60033 {RPS­M07}
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512
ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656
ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4
ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit
ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482
ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML
ReagentPromega trypsinPromegaCatalog #V5113
ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512
ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024
Before start
  • Make all buffers prior to starting protocol. It's also highly suggested that you plate all samples the day prior to starting the protocol. Keep them in -80.
Lysis and solubilization
Lysis and solubilization
Spin down bead beater plates for 1 minute to pull beads into wellDuration00:01:00 at Centrifigation1000 x g . Aliquot approximately Amount200 mg of stool into 96 well beads plate. This protocol will work with less stool at the risk of increasing preparative replicate bias. The samples should be arrayed in a logical way, especially if the end goal is to use multiplexing reagents. Make sure samples are pushed to the bottom of the plate or the lysis buffer may overflow into neighboring wells.
Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007




To each sample, add Amount750 µL 750 uL of lysis buffer:
UreaConcentration6 Molarity (M)
Tris-BaseConcentration50 millimolar (mM)
SDSConcentration5 % volume
Ph08.1
Use a multichannel pipette or get carpal tunnel syndrome instantly.





Seal plate with provided top. Plate the sealed plate into 96-well bead beater. 20 Hz for Duration00:10:00 . Spin down samples in plate centrifuge at Centrifigation3000 x g forDuration00:10:00 at Temperature4 °C .

Reagent2 ML DEEP WELL PLATES PRE-FILLED WITH 0.1 MM CERAMIC BEADS – 10 PACKOmni InternationalCatalog #27-6007






Observe the samples and make sure they are sufficiently homogenated/solubilized. Aliquot Amount500 µL of the homogenated sample into a new Waters 2 mL deep well plate. Spin the new plate for Duration00:10:00 at Centrifigation3000 x g and take supernatant into new 2 mL Waters plate, this will be the sample stock.
Reagent96-well Sample Collection Plate 2 mL Square well 50/pkWatersCatalog #186002482



Add 3 Amount3 µL benzonase to each sample and place in incubator at Temperature37 °C for Duration00:10:00

ReagentBenzonaseMerck Millipore (EMD Millipore)Catalog #101656

To each well, add 10 uL Concentration500 millimolar (mM) DTT. Reseal with same mat. Place samples in incubator at Temperature47 °C for Duration00:30:00




ReagentDTTMerck MilliporeSigma (Sigma-Aldrich)Catalog #DTT-RO


Remove plates from incubator and let cool to room temperature. Spin plates down for Duration00:00:30 at Centrifigation1000 x g After plate has cooled, remove sealing mat and add Amount30 µL of Concentration500 millimolar (mM) iodoacetamide. Place into totally dark environment (e.g. closed drawer) for Duration01:00:00
ReagentIodoacetamideMerck MilliporeSigma (Sigma-Aldrich)Catalog #I1149

ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787


Protifi Plate Digestion
Protifi Plate Digestion
Aliquot Amount50 µL of sample into new Thermo 1.2 mL plate (Waters plate works as well but is harder to pipette from). Add Amount5 µL of Concentration12 % volume phosphoric acid. Add Amount300 µL Protifi Sample Binding Buffer:
Concentration90 % volume methanol
Concentration10 % volume triethylammonium bicarbonate (TEAB)
ReagentMethanol Optima™ LC/MS Grade Fisher ChemicalFisher ScientificCatalog #A456-4

Ph7.1
Mix each sample by pipetting up and down for Duration00:00:10 .
Expected result
You will often see a cloudy colloidal suspension after adding the binding buffer.

ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML




Add the mixture from step 7 to the Protifi S-trap 96-well plate. Place S-trap on top of Waters 96 well 2 mL plate. This will be waste plate. Use the positive pressure machine to press sample through. Our experience suggests that 6 psi on the main dial and 15 on the secondary control dial will push through a majority of samples. There will be clogging and this can be corrected by gently scraping the top of the well with a pipette tip.
ReagentProtifi S-trap 96-well plateCatalog #C02-96well-1

Equipment
Waters 96-well Positive Pressure Processor
NAME
Waters
BRAND
NA
SKU
https://www.waters.com/waters/en_US/Waters-Positive-Pressure-96-Processor/nav.htm?cid=10161512&locale=en_US
LINK

Wash samples with Amount500 µL fresh Protifi Binding Buffer 5 times. You may have a few clogs at this point as well, clear them as before. Be sure to empty waste plate as needed. After washes are done, place S-trap plate on fresh 1.2 mL Thermo plate.
ReagentAbgene™ 96 Well 1.2mL Polypropylene Deepwell Storage PlateThermo Fisher ScientificCatalog #AB0787




To each well, add Amount5 µg of trypsin dissolved in Amount125 µL ofConcentration50 millimolar (mM) TEAB. Place Protifi S-trap lid back on plate (should be loose fitting). Place in incubator for Duration03:00:00 . After Duration02:00:00 have passed, check that digestion mixutre has been taken up by wells. If it is still sitting on top, place 96 well plate and it's collection plate into the positive pressure machine for approximatelyDuration00:00:05 and check if liquid drained into collection plate. If any liquid came out (it is normal that it does), place back into appropriate well and continue with digestion.
ReagentTriethylammonium bicarbonate bufferMerck MilliporeSigma (Sigma-Aldrich)Catalog #T7408-100ML

ReagentPromega trypsinPromegaCatalog #V5113



After digestion, elute peptides using positive pressure. Once initial digestion volume has been eluted, add Amount100 µL of TEAB and use positive pressure to wash directly into previously eluted peptides. Repeat this with Amount100 µL ofConcentration0.2 % volume formic acid (FA), then Amount100 µL of a mixture of Concentration50 % volume acetonitrile and Concentration0.2 % volume FA. This should be approximately Amount425 µL of digested peptides and wash. Speedvac to dryness.

RPS or C18 cleanup
RPS or C18 cleanup
Resuspend the dry peptides in Amount150 µL ofConcentration0.2 % volume FA. Pipetting up and down as well as washing well walls is critical in getting maximum peptide recovery. Spin plate atCentrifigation3000 x g for Duration00:10:00 . Carefully avoiding any debris left in the well, move peptide suspension into fresh plate.

Consult ownder of Assaymap Bravo to use Peptide Cleanup V2 app using either RPS or C18 tips. These tips have a capacity of approximately Amount100 µg but you will likely lose quite a bit of it during this step. Dry down samples in speedvac

Resuspend dried down peptides in Amount30 µL of Concentration0.2 % volume FA.

If samples will not be labeled (eg TMT, see below) use nanodrop to adjust concentration that is appropriate for your mass spectrometer (usually Amount0.5 µg toAmount1 µg is sufficient for nano-flow LC systems.

OPTIONAL - TMT labeling
OPTIONAL - TMT labeling
From step 15, nanodrop samples and record concentration. If everything was properly done and you started with enough sample, each well should have upwards ofAmount40 µg of unlabeled peptide. We will use Amount20 µg of this for TMT labeling. Resuspend each well at a concentration of Amount0.5 µg per Amount1 µL . Transfer Amount20 µg of peptide from each well into a new plate. Dry down both plates. Leave your original plate dryand store in Temperature-20 °C .

From the concentrations obtained in Go togo to step #17 , calculate the ratio of TMT reagent to peptide. Thermo suggests that you have at least 8:1 TMT to peptide, however YMMV. For the example below our ratio was approximately 6.5:1 TMT to peptide.
Note
Kuster paper showing TMT ratio as low as 1:1 if concentrations are kept at least 4ug/uL.:
https://www.mcponline.org/content/early/2019/04/09/mcp.TIR119.001385


Resuspend Amount20 µg plate in Amount50 µL of Concentration50 millimolar (mM) Na-HEPES at Ph08.5 (should be around that pH already). Move peptide suspension into fresh Eppendorf 150 uL plate
ReagentEppendorf twin.tec® PCR plate 96 LoBind skirted 150 µL PCR clean colorless 25 platesEppendorfCatalog #30129512


ReagentHEPES-NaMerck MilliporeSigma (Sigma-Aldrich)Catalog #H7006-100G

Take TMT kit out of freezer and let warm to room temperature for approximately Duration00:10:00 , do not open lids to avoid condensation . Spin down each reagent tube to collect residue on top on benchtop micro centrifuge. For each sample to be labeled with a specific channel, add Amount20 µL of acetonitrile (ACN). EXAMPLE: if you have a single 96 well plate and a TMT-11plex, and every sample in column 1 will be labeled with channel 126, add (n+1)*20 uL of ACN, where n is the number of samples in column 1. After each reagent has been resuspended, close lid and quickly vortex then wait Duration00:05:00 for reagent to completely dissolve, with another quick vortex Duration00:02:30 into 5 minute period . After reagent is dissolved, spin down and aliquot into fresh 96 well plate first row (up to TMT-11), you will use a multichannel in next step to redistribute into each sample.
ReagentTMT multiplexThermo Fisher ScientificCatalog #varies-by-kit


With a multichannel pipette, carefully redistribute Amount20 µL of the appropriate TMT reagent into each well. Cover loosely with Axygen silicone cover to avoid ACN loss. Incubate for Duration01:00:00
ReagentAxygen™ AxyMats™ Sealing Mat for 96 Well PCR MicroplatesFisher ScientificCatalog #14-222-024




Quench reaction with Amount10 µL of Concentration5 % volume hydroxylamine solution in Concentration50 millimolar (mM) HEPES-Na. Incubate for 15 minutes at room temperature

Acidify each well down to approximately Ph2 with Concentration25 % volume formic acid. This should be done on a dummy sample with no peptides in it. In general this may be up to Amount15 µL .

You now need to construct your ratio check samples. Each ratio check should have a total of Amount10 µg peptide. This means that each channel needs to contribute equally to that amount so the total taken from each well will depend on what TMT kit is used. For example if a TMT-11 kit is used, each sample/channel would contribute 10 ug/11 = 0.9 ug. Transfer appropriate amount from each sample/channel into its ratio check tube

If you are doing a bridge channel, each bridge will need a total of 20 ug so make sure you calculate that too.

Resuspend sample in Amount10 µL Concentration0.2 % volume FA and check concentration on nanodrop. Dilute to 0.5 ug/uL. Bottle up samples and shoot on mass spec. Quant ratios
Run resulting raw files through Proteome Discoverer 2.2. Calculate ratios from each channel using PSM quant values. Use these ratio values to adjust each channel on original plate for a 1:1 ratio. Compile new sample and reshoot.