Los puntos clave no están disponibles para este artículo en este momento.
Quantitative LC-MS/MS assays were designed for tryptic peptides representing 53 high and medium abundance proteins in human plasma using a multiplexed multiple reaction monitoring (MRM) approach. Of these, 47 produced acceptable quantitative data, demonstrating within-run coefficients of variation (CVs) (n = 10) of 2–22% (78% of assays had CV <10%). A number of peptides gave CVs in the range 2–7% in five experiments (10 replicate runs each) continuously measuring 137 MRMs, demonstrating the precision achievable in complex digests. Depletion of six high abundance proteins by immunosubtraction significantly improved CVs compared with whole plasma, but analytes could be detected in both sample types. Replicate digest and depletion/digest runs yielded correlation coefficients (R2) of 0.995 and 0.989, respectively. Absolute analyte specificity for each peptide was demonstrated using MRM-triggered MS/MS scans. Reliable detection of L-selectin (measured at 0.67 μg/ml) indicates that proteins down to the μg/ml level can be quantitated in plasma with minimal sample preparation, yielding a dynamic range of 4.5 orders of magnitude in a single experiment. Peptide MRM measurements in plasma digests thus provide a rapid and specific assay platform for biomarker validation, one that can be extended to lower abundance proteins by enrichment of specific target peptides (stable isotope standards and capture by anti-peptide antibodies (SISCAPA)). Quantitative LC-MS/MS assays were designed for tryptic peptides representing 53 high and medium abundance proteins in human plasma using a multiplexed multiple reaction monitoring (MRM) approach. Of these, 47 produced acceptable quantitative data, demonstrating within-run coefficients of variation (CVs) (n = 10) of 2–22% (78% of assays had CV <10%). A number of peptides gave CVs in the range 2–7% in five experiments (10 replicate runs each) continuously measuring 137 MRMs, demonstrating the precision achievable in complex digests. Depletion of six high abundance proteins by immunosubtraction significantly improved CVs compared with whole plasma, but analytes could be detected in both sample types. Replicate digest and depletion/digest runs yielded correlation coefficients (R2) of 0.995 and 0.989, respectively. Absolute analyte specificity for each peptide was demonstrated using MRM-triggered MS/MS scans. Reliable detection of L-selectin (measured at 0.67 μg/ml) indicates that proteins down to the μg/ml level can be quantitated in plasma with minimal sample preparation, yielding a dynamic range of 4.5 orders of magnitude in a single experiment. Peptide MRM measurements in plasma digests thus provide a rapid and specific assay platform for biomarker validation, one that can be extended to lower abundance proteins by enrichment of specific target peptides (stable isotope standards and capture by anti-peptide antibodies (SISCAPA)). Accurate quantitation of proteins and peptides in plasma and serum is a challenging problem because of the complexity and extreme dynamic range that characterize these samples (1Anderson N.L. Anderson N.G. The human plasma proteome: history, character, and diagnostic prospects.Mol. Cell. Proteomics. 2002; 1: 845-867Abstract Full Text Full Text PDF PubMed Scopus (3564) Google Scholar). The widely adopted separative (survey) approach to proteomics, in which an attempt is made to detect all components, has proven to be limited in sensitivity toward low abundance proteins (2Anderson N.L. Polanski M. Pieper R. Gatlin T. Tirumalai R.S. Conrads T.P. Veenstra T.D. Adkins J.N. Pounds J.G. Fagan R. Lobley A. The human plasma proteome: a non-redundant list developed by combination of four separate sources.Mol. Cell. Proteomics. 2004; 3: 311-326Abstract Full Text Full Text PDF PubMed Scopus (760) Google Scholar) and typically provides limited quantitative precision. The alternative candidate-based approach, which relies on specific assays optimized for quantitative detection of selected proteins, can provide significantly increased sensitivity (into the pg/ml range) and precision (CVs 1The abbreviations used are: CV, coefficient of variation; QqQ, triple quadrupole; MRM, multiple reaction monitoring; S/N, signal-to-noise; Nat, natural sample-derived peptide; SIS, stable isotope-labeled internal standard; polySIS, polyprotein SIS; SISCAPA, stable isotope standards and capture by anti-peptide antibodies; MIDAS, multiple reaction monitoring-initiated detection and sequencing; MARS, multiple affinity removal system. < 5–10%) at the cost of restricting discovery potential toward novel proteins (3Kuhn E. Wu J. Karl J. Liao H. Zolg W. Guild B. Quantification of C-reactive protein in the serum of patients with rheumatoid arthritis using multiple reaction monitoring mass spectrometry and 13C-labeled peptide standards.Proteomics. 2004; 4: 1175-1186Crossref PubMed Scopus (370) Google Scholar). In practice, a combination of these approaches (one or more survey approaches for de novo biomarker discovery coupled with a candidate-based approach to biomarker validation in large sample sets) appears to provide an effective staged pipeline (4Anderson N.L. The roles of multiple proteomics platforms in a pipeline for new diagnostics.Mol. Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google Scholar) for of plasma of and specific assays on the specificity of capture or detection to a specific antibodies can provide extreme specificity antibodies used in a and the of protein is in of assays multiplexed 2002; PubMed Scopus Google in Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google Scholar) in in the of antibodies and in the of multiple assays in one spectrometry provides an alternative assay approach, on the of mass to a specific analyte and on measurements for In the of analytes R. T. T. spectrometry in PubMed Scopus Google and of a for the of in human serum using mass 2004; PubMed Scopus Google protein Quantitative of protein of and in and proteins by mass spectrometry multiple reaction PubMed Google and A. M. of with mass spectrometry to the of a new of in and A. 2004; PubMed Scopus Google using approach at high with precision < assays by of mass a the mass of the analyte of the by with a a specific of the a selected reaction monitoring The mass a specific and for the selected analyte that can be used to detect and a in a of the In approach can provide specificity for the and in combination with stable isotope-labeled internal standards can provide quantitation of analyte measurements multiplexed to provide or more specific assays in one A for the of in human serum and plasma using mass B. 2002; PubMed Scopus Google Scholar). in the for the of in for a of of W. B. R. B. in mass spectrometry to for J. PubMed Google and M. mass spectrometry for of and a in whole 2002; PubMed Scopus Google the MRM assay approach has to the of specific peptides in complex tryptic digests of plasma (3Kuhn E. Wu J. Karl J. Liao H. Zolg W. Guild B. Quantification of C-reactive protein in the serum of patients with rheumatoid arthritis using multiple reaction monitoring mass spectrometry and 13C-labeled peptide standards.Proteomics. 2004; 4: 1175-1186Crossref PubMed Scopus (370) Google Scholar). In a specific tryptic peptide can be selected a of the protein which is and quantitated a internal stable isotope-labeled peptide J. Absolute of proteins and by A. PubMed Scopus Google to a of protein In an assay of the of the selected peptide and and an to the stable isotope-labeled C-reactive protein (3Kuhn E. Wu J. Karl J. Liao H. Zolg W. Guild B. Quantification of C-reactive protein in the serum of patients with rheumatoid arthritis using multiple reaction monitoring mass spectrometry and 13C-labeled peptide standards.Proteomics. 2004; 4: 1175-1186Crossref PubMed Scopus (370) Google of specific with PubMed Scopus Google human H. R. proteomics of proteins in human plasma by using human a 2002; 1: PubMed Scopus Google and Absolute of the biomarker in serum by LC-MS/MS using protein and isotope mass 2004; 3: PubMed Scopus Google Scholar) in plasma or serum using approach. the sensitivity of these assays is limited by mass dynamic range and by the and of the developed MRM assays with enrichment of proteins by and H. Wu J. E. W. B. Karl J. R. Zolg W. Guild of mass spectrometry to protein of in the and serum of patients with rheumatoid 2004; PubMed Scopus Google Scholar) or enrichment of peptides by capture N.L. Anderson N.G. quantitation of peptides and proteins using stable isotope standards and capture by anti-peptide antibodies 2004; 3: PubMed Scopus Google In the approach the mass a that has has to the sensitivity of a peptide assay by at orders of magnitude N.L. Anderson N.G. quantitation of peptides and proteins using stable isotope standards and capture by anti-peptide antibodies 2004; 3: PubMed Scopus Google Scholar) and with appears of the MRM to the dynamic range of plasma to the pg/ml is that high and medium abundance plasma proteins and thus that be for specific MRM assays plasma proteins can be by peptides in a plasma and could these measurements the to be could be using high LC-MS/MS these and MRM assays on peptides a of high to medium abundance plasma proteins to could be by LC-MS/MS with and of the of the of MS/MS in could and of plasma proteins and provide a for of MS/MS in more anti-peptide assays for low abundance developed a of using in LC-MS/MS survey data, and MRM of all of the peptides of a In attempt to by in a of proteins and protein was that demonstrated or potential to be plasma of of N.L. proteomics in the for of PubMed Scopus Google and a of proteins was selected for which an of plasma abundance was tryptic peptides for each of these were with and a of peptide T.P. of protein A. PubMed Scopus Google and in R. W. improved for of of tryptic peptides in to protein peptide by Cell. Proteomics. 2004; 3: Full Text Full Text PDF PubMed Scopus Google Scholar). of the of detection was a by Adkins J.N. Pounds J.G. a human serum proteome: by coupled with mass Cell. Proteomics. 2002; 1: Full Text Full Text PDF PubMed Scopus Google Scholar) by the number of separate for the peptide in the by the number of for the detected peptide the of peptide was to a that gave to and and to or and mass or The tryptic peptides for the protein peptides in to the range of peptides had a and had a In peptides of these target proteins in were selected for selected peptides on of survey In the LC-MS/MS of plasma digests in which the were to MS/MS using the of the The peptides the and for a protein were In used the of R. for and protein 2004; 3: PubMed Scopus Google Scholar) to peptides target proteins that were detected used an of the for A. reaction monitoring to of protein with high Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google M. E. T. reaction monitoring a for protein Google to for tryptic peptides a of plasma In approach, the protein is in and for all the peptides in an acceptable used a survey in a to detect specific peptide and each MRM is by MS/MS to of the peptide specificity in protein selected peptides were with for the and peptides using approaches were used to In the used the and and of an of with and the of the thus the of peptides and In a in a large of with the of the the that each had to be and the mass for detected in these were by MS/MS The were and and experiments were on of a single human plasma sample a The six abundance proteins were plasma using the multiple affinity removal to the sample was using a plasma was or plasma samples were and by proteins in and at for The sample was to with and for at in the was in one of and for at A of peptides was to samples in selected experiments by with the tryptic digest of a Anderson and in protein was produced by and of a for tryptic peptide plasma in the of mass of compared with the natural The peptides were selected on in MRM approaches and thus optimized using Of these were used in the were detected in plasma with The of the at the extreme of each peptide has the that all that the the the mass to the all the that the one of more the the the the natural target and provide a in the of the peptides in with the by in proteomics using proteins of PubMed Scopus Google Scholar). the of an was with and and to yielding an of A tryptic digest of the protein was whole and human plasma digests at the in of plasma plasma plasma plasma plasma plasma digest digest digest digest in a new digests with and peptides were by LC-MS/MS using of or with and with of with A was used to the at were using the on a triple and the were using quantitation in the MRM were at in both the and to In an approach to the of peptides for MRM a single peptide of was each of proteins a range of plasma down to on N.L. Anderson N.G. quantitation of peptides and proteins using stable isotope standards and capture by anti-peptide antibodies 2004; 3: PubMed Scopus Google Scholar). were designed peptide and using selected the of the with by a = and the peptides were a protein single of each peptide with a tryptic digest of the was all peptides were detected by a digest of whole human plasma was to the of the peptides were detected by the MRMs, but of the plasma peptides were detected the for isotope peptides a single protein can widely in by to the in approach to MRM using a peptide survey of a human plasma digest and the to peptides with demonstrated a MS/MS were for the or the using and a was using of the peptide detected in the The plasma proteins in abundance down to plasma of MS/MS for peptide and the specific used with peptide improved of these were used to the sample in a MS/MS at MRM of the peptides were detected in the and by In of these MRM a single was peptide detection sensitivity using MRM is to be that in a survey approach, a de novo MRM was for proteins detected in the survey experiment. a novel a large of was for each of a of target proteins by all tryptic peptides in a range with multiple high mass of each A. reaction monitoring to of protein with high Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google M. E. T. reaction monitoring a for protein Google were in LC-MS/MS runs of the plasma in that all the tryptic peptides of one or proteins at a with MS/MS on Of proteins produced at one MRM MRM the approaches were and a of optimized was that a of peptides representing 53 proteins in human plasma proteins were by peptides selected by the in approach by an in the of of the in peptides were to be low abundance for and alternative peptides were selected for four all but one of the peptides to using yielding for stable isotope-labeled internal of target peptides the tryptic digest of the the digest plasma The of 137 was in all the replicate runs using an MRM and a of of designed and for the detection of 53 proteins in human plasma or serum in a new the MRM was each MRM and were of each specific Full MS/MS was the of the MRM and each was to to the specific peptide experiments were in each of which the of 137 was replicate LC-MS/MS runs of a single sample and the were by the to a for each MRM in each (10 replicate runs each) in experiments tryptic digests of both whole human plasma and and plasma of proteins by and high and and low and peptide and was to the of the in plasma digest The peptide was tryptic of the protein in of plasma of protein an plasma of A. A. A. H. and in and of plasma proteins and by and PubMed Scopus Google of the proteins using an of protein mass be on a using an of to be a with of the MRM and used to the by increased and by increased analyte that the was were CVs of and of the coefficients of variation for the five experiments for each MRM in In of plasma, more of the within-run CVs and CVs A number of these and an within-run CV of precision to that of of whole plasma digests CVs of had CV <10%). is to that these on using internal of the proteins were to be by the used In in of digests of whole and in to to and to was detected in of the runs a peptide for MRM and removal could be to the by the measurements of an MRM be to and thus the of the for of the peptides a CV replicate runs the in the CV for the peptides is lower the of the CV is compared with the lower of the CVs for each MRM, the in CV in experiments to in CV at the cost of the the number of peptides and thus to be in for of CV by of of in a new The CV and in for experiments indicates that to acceptable CVs A of to a of which is with the quantitative of a of for a lower of The peptides in whole plasma digest demonstrating a dynamic range of orders of magnitude A of peptides the of the tryptic peptides were used to the of the quantitative measurements of the by MRM yielded quantitative because the of the or sample digest peptide The peptides were with a in an in and were the protein by with peptides were in experiments and at peptide of and peptides at of and of MRM peptides an these the natural sample-derived and of these peptides were in the experiments and a = orders of magnitude in the the of the CVs of the typically CVs of the measurements of proteins with low in plasma were detected the L-selectin and The of L-selectin is a protein in plasma at a of μg/ml E. T. of on and and in patients with J. 2002; Full Text Full Text PDF PubMed Scopus Google Scholar) or is a protein in plasma at a of μg/ml A. of in PubMed Scopus Google Scholar) or that an of digest to of plasma was on in these peptides be to be on at and respectively. In the of L-selectin had a peptide at and thus could that the natural peptide was at the of yielding a and plasma of μg/ml in with CVs for in experiments and were and and for L-selectin were and the that L-selectin was the lower for high of the 53 selected target proteins were by low a for the selected peptides protein or were in which peptides more proteins were the the that a peptide the of protein gave a and In these the problem is of alternative peptides for both the and but for proteins, be and enrichment of these peptides be In of the proteins using the improved the of for proteins to be to improved detection sensitivity and improved by the peptide by both of which to improved MRM and lower the of in the peptide in and thus the in the sample high of plasma large in but at in the of the of high abundance peptides on MRM was In a on of the plasma sample and of each sample of four to the digest of the replicate runs of the 137 were for each sample in to the of digests of a single sample and The orders of magnitude of which orders is at the which CVs digests = 0.995 and for and the of digests = and for or of the designed to detect a single the of a complex digest plasma had a to the target peptide had a the in to that the of peptide in was low to high MS/MS specificity to sample by of in the plasma digest In a were with the mass range of peptides used in the 137 designed and the mass and the mass the designed Of the MRMs, six a with and of these MRM produced MS/MS that to a protein with A of was by and the of designed in plasma, the mass was lower the combination using peptide and these potential the of peptide to mass In of the a with and of these gave MS/MS yielding a protein the in the MRM in the the of a large of the designed plasma protein that the of in MRM at for a complex peptide sample and using in both mass is of which a be tryptic The of for the for in designed MRMs, that these a the for sample selected the of and the peptide peptides were A MRM for 47 of the 53 proteins by an in the MRM in of the 47 peptide was in the human by the and in the target of the peptides and protein in the and protein and and in the human in the Of the 47 MRMs, were by the in approach to the and one was by an in these in by an in the for the internal A of in were by peptides the target protein a of and four of the 137 and and were because of in were in Of the six proteins to be the range that be and peptides for The of CVs for the 47 is in in of these had CVs and had CVs designed and mass MRM assays for tryptic peptides representing 53 abundance proteins of human The of 47 MRMs, within-run CVs to in plasma, be in the of and in serum and plasma The that MRM can be on triple widely used for quantitation of at high the of large sample approach the of specific assays to the validation of in plasma (4Anderson N.L. The roles of multiple proteomics platforms in a pipeline for new diagnostics.Mol. Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google to tryptic peptides by in were of the peptides of produced acceptable in the of of tryptic peptides can be to in the used MS/MS data, in combination with to more target abundance peptides were detected in LC-MS/MS experiments in which a of high peptides in to abundance peptides were detected by of to all tryptic peptides a target protein and detected MRM by MS/MS in which MRM designed using a designed the typically more survey for detection of low abundance components, the approach to for more lower abundance peptides and the for MRM was by the combination of high sensitivity triple MRM and MS/MS on the triple mass A for MRM using these of is in in which the approach. The in the alternative for a protein on CVs in replicate is because of the in CV with CV appears to be a of a peptide to separate the complexity of plasma digests of plasma a number of peptides a single the peptide is with the low of in of in plasma digests and the specificity of the used the the of or tryptic in a of indicates that is an in the analyte specificity in these more with specific and variation that in to in be to a of plasma that of and that could be using by in peptides The of a peptide L-selectin of that proteins in plasma at μg/ml by MRM in and samples with minimal sample tryptic peptides the protein can by of at in LC-MS/MS the peptides that detected at variation is to multiple to in the in with of tryptic and of to or sample the of high peptides the tryptic of each that plasma proteins can be down to μg/ml using and that proteins be to list to the plasma (2Anderson N.L. Polanski M. Pieper R. Gatlin T. Tirumalai R.S. Conrads T.P. Veenstra T.D. Adkins J.N. Pounds J.G. Fagan R. Lobley A. The human plasma proteome: a non-redundant list developed by combination of four separate sources.Mol. Cell. Proteomics. 2004; 3: 311-326Abstract Full Text Full Text PDF PubMed Scopus (760) Google N.L. proteomics in the for of PubMed Scopus Google Scholar). that the protein in plasma, is by MRM in plasma in the that the dynamic range of proteins appears to be μg/ml to or dynamic range of orders of magnitude is with quantitation experiments using MRM on and the dynamic range of and proteins in human plasma (1Anderson N.L. Anderson N.G. The human plasma proteome: history, character, and diagnostic prospects.Mol. Cell. Proteomics. 2002; 1: 845-867Abstract Full Text Full Text PDF PubMed Scopus (3564) Google Scholar). The dynamic range of measurements appears to be for to which CVs In is to that of proteins dynamic range measuring peptides at a range of because is to lower peptides high abundance proteins high peptides low abundance to the dynamic range at the peptide stable isotope-labeled internal standards the quantitative in be by peptide The of peptide MRM measurements was in the experiments plasma an of of the 47 had within-run CVs of or and had CVs A number of gave low CVs five experiments in and whole plasma digests at widely peptides (CVs and and precision to MRM measurements and approach the of used in M. M. H. E. B. W. of the for the of and using the in to measuring 2002; Google Scholar). that peptide MRM measurements can be used in high precision quantitative on at appears that samples be by measurements and that quantitative could be detected of be the for of the and thus The that peptides or lower CVs that quantitative precision on of the peptide and of be in to MRM peptides on CV replicate runs in to the and designed for quantitation using a of peptides to of the selected tryptic at these internal standards for quantitation and in a for L-selectin in with the for is but target protein in sample by and the peptides by of a quantitated were all of measurements with In single used provide the in quantitation multiple the extreme = of the peptide experiments and orders of magnitude in and in peptide peptides a more be using of peptides selected to each of peptide one or a of peptides for each of the abundance In the of and thus the of the be Depletion of the abundance plasma proteins using an to be in measuring to be to a digest of plasma plasma because these samples of and was that the of peptides of of was but the for and in a system. had that were in the sample but the The in the lower CVs of in the sample to the level of peptides and to In of to lower abundance proteins, is that Depletion significantly the of and and tryptic a in sample for MRM In a designed to at these were for in and were for and in the thus appears that both and can be with to provide measurements and that MRM assays provide an for sample The of platforms for measuring peptides in complex digests is an to large of proteins in each on the of the of 137 MRMs, which were all continuously the is that be used to peptides in is with to each MRM a the is to a of of an CV in in experiments and approach is on of and and that selected that in more could be used in a single MRM experiment. for of MRM measurements is the of the In replicate experiments and a was used that to a of be could be more samples to be The extreme analyte specificity by the low of in MRM that of with and the to the MRM measurements in more to be in the multiple measurements each that in be in with a to increased in significantly lower sensitivity but in the be to more sample sample at these is in a MRM assays to in to The used to peptide is to that used in platforms for high quantitative of in plasma, for the detection of of in and for A large of and thus the target proteins detected tryptic peptide sample and peptide MRM be to in protein and that can MRM by in using and widely used and thus the is on the more complex to the and of a discovery is that the cost high be lower for to the assay to with and to to large sample of peptide be the is to the be or and be designed the assay A. reaction monitoring to of protein with high Cell. Proteomics. 4: Full Text Full Text PDF PubMed Scopus Google Scholar) be de novo by proteins The protein be and to with or be or sample a single in the selected peptide by the these be in and designed these appears to of peptide for measuring of plasma on the plasma proteins can be by peptide with precision to The of assays the of candidate-based biomarker validation approach and toward a assay platform for all human proteins in for and
Anderson et al. (Tue,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: