Your search keyword '"Phosphopeptides chemistry"' showing total 993 results

1. Comparative analysis of plasma affinity depletion methods: Impact on protein composition and phosphopeptide abundance in human plasma.

Author

Nikhil P, Aishwarya D, Dhingra S, Pandey K, Ravichandiran V, and Peraman R

Subjects

Humans, Tandem Mass Spectrometry methods, Chromatography, Liquid methods, Proteome analysis, Chromatography, Affinity methods, Phosphoproteins blood, Phosphoproteins analysis, Phosphoproteins chemistry, Phosphopeptides blood, Phosphopeptides analysis, Phosphopeptides chemistry, Blood Proteins analysis, Blood Proteins chemistry, Proteomics methods

Abstract

Affinity-based protein depletion and TiO 2 enrichment methods play a crucial role in detection of low-abundant proteins and phosphopeptides enrichment, respectively. Here, we assessed the effectiveness of HSA/IgG (HU2) and Human 7 (HU7) depletion methods and their impact on phosphopeptides coverage through comparative proteome analysis, utilizing in-solution digestion and nano-LC-Orbitrap mass spectrometry (MS). Our results demonstrated that both HU2 and HU7 affinity depletion significantly decreased high-abundant proteins by 1.5-7.8-fold (p < 0.001). A total of 1491 proteins were identified, with 48 proteins showing significant expression in the depleted groups. Notably, cadherin-13, neutrophil defensin 1, APM1, and desmoplakin variant protein were exclusively detected in the HU2/HU7-depleted groups. Furthermore, study on effect of depletion on phosphopeptides revealed an increase in tandem MS spectral counts with notable decrease (∼50%) in peptide spectrum matching in depleted groups, which was attributed to significant reduction in protein counts. Our post translation modification workflow for phosphoproteomics detected 42 phosphorylated peptides, corresponding to 12 phosphoproteins with unique peptide match ≥2 (high false discovery rates confidence). Among them, 10 phosphorylated proteins are highly expressed in depleted groups. Overall, these findings offer valuable insights in selection of protein depletion methods for comprehensive plasma proteomics analysis., (© 2024 Wiley‐VCH GmbH.)

Published

2024

2. Casein phosphopeptide interferes the interactions between ferritin and ion irons.

Author

Sha X, Zhu L, Wu H, Li Y, Wu J, Zhang H, Zhang Y, and Yang R

Subjects

Oxidation-Reduction, Animals, Humans, Protein Binding, Ferritins chemistry, Ferritins metabolism, Caseins chemistry, Caseins metabolism, Phosphopeptides chemistry, Iron metabolism, Iron chemistry

Abstract

Ferritin, a vital protein required to store iron in a cage-like structure, is critical for maintaining iron balance. Ferritin can be attacked by free radicals during iron reduction and release, thereby leading to oxidative damage. Whether other biomacromolecules such as casein phosphopeptides (CPP) could influence the ferritin's function in iron oxidation and release and affect the ferritin stability remains unclear. This study aims to investigate the effect of CPP on the ferritin‑iron ion interaction, thereby focusing on role of CPP on ferritin stability. Results showed that CPP weakened the iron oxidation activity of ferritin but promoted iron release. Moreover, CPP could effectively chelate iron, capture hydroxyl radicals, and reduce the degradation of ferritin. This study highlights the role of CPP in the ferritin‑iron relationship, and lays a foundation for understanding the interaction between ferritin, peptides, and metal ions., Competing Interests: Declaration of competing interest There are no conflicts of interest to declare., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

3. One-step fabrication of dipeptide-based bifunctional polymer for individual enrichment of glycopeptides and phosphopeptides from serum.

Author

Meng L, Wang B, Zhang S, Zhang S, Cai T, Ding CF, and Yan Y

Subjects

Humans, Chromatography, Affinity methods, Polymers chemistry, Chromatography, Liquid methods, Hydrophobic and Hydrophilic Interactions, Titanium chemistry, Glycopeptides blood, Glycopeptides chemistry, Phosphopeptides blood, Phosphopeptides chemistry, Phosphopeptides isolation & purification, Tandem Mass Spectrometry methods, Liver Neoplasms blood, Dipeptides blood, Dipeptides chemistry

Abstract

A dipeptide-based bifunctional material immobilized with Ti 4+ (denoted as APE-MBA-VPA-Ti 4+ ) was developed using precipitation polymerization. This polymer combines hydrophilic interaction liquid chromatography (HILIC) and immobilized metal affinity chromatography (IMAC) enrichment strategies, allowing for the individual and simultaneous enrichment of glycopeptides and phosphopeptides. It demonstrated high sensitivity (0.1 fmol μL -1 for glycopeptides, 0.005 fmol μL -1 for phosphopeptides), strong selectivity (molar ratio HRP: BSA = 1:1000, β-casein: BSA = 1:2500), consistent reusability (10 cycles) and satisfactory recovery rate (93.5 ± 1.8 % for glycopeptides, 91.6 ± 0.6 % for phosphopeptides) in the individual enrichment. Utilizing nano LC-MS/MS technology, the serum of liver cancer patients was analyzed after enrichment individually, resulting in the successful capture of 333 glycopeptides covering 262 glycosylation sites, corresponding to 131 glycoproteins, as well as 67 phosphopeptides covering 57 phosphorylation sites, related to 48 phosphoproteins. In comparison, the serum of normal healthy individuals yielded a total of 283 glycopeptides covering 244 glycosylation sites corresponding to 126 glycoproteins, as well as 66 phosphopeptides covering 56 phosphorylation sites related to 37 phosphoproteins. Label-free quantification identified 10 differentially expressed glycoproteins and 8 differentially expressed phosphoproteins in the serum of liver cancer patients. Among them, glycoproteins (HP, BCHE, AGT, C3, and PROC) and phosphoproteins (ZYX, GOLM1, GP1BB, CLU, and TNXB) showed upregulation and displayed potential as biomarkers for liver cancer., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

4. A Rapid One-Pot Workflow for Sensitive Microscale Phosphoproteomics.

Author

Muneer G, Chen CS, Lee TT, Chen BY, and Chen YJ

Subjects

Humans, Reproducibility of Results, ErbB Receptors metabolism, Cell Line, Tumor, Phosphorylation, Titanium chemistry, Lung Neoplasms metabolism, Mass Spectrometry methods, Proteomics methods, Workflow, Phosphopeptides analysis, Phosphopeptides chemistry, Phosphopeptides metabolism, Phosphoproteins metabolism, Phosphoproteins analysis, Phosphoproteins chemistry

Abstract

Compared to advancements in single-cell proteomics, phosphoproteomics sensitivity has lagged behind due to low abundance, complex sample preparation, and substantial sample input requirements. We present a simple and rapid one-pot phosphoproteomics workflow (SOP-Phos) integrated with data-independent acquisition mass spectrometry (DIA-MS) for microscale phosphoproteomic analysis. SOP-Phos adapts sodium deoxycholate based one-step lysis, reduction/alkylation, direct trypsinization, and phosphopeptide enrichment by TiO 2 beads in a single-tube format. By reducing surface adsorptive losses via utilizing n -dodecyl β-d-maltoside precoated tubes and shortening the digestion time, SOP-Phos is completed within 3-4 h with a 1.4-fold higher identification coverage. SOP-Phos coupled with DIA demonstrated >90% specificity, enhanced sensitivity, lower missing values (<1%), and improved reproducibility (8%-10% CV). With a sample size-comparable spectral library, SOP-Phos-DIA identified 33,787 ± 670 to 22,070 ± 861 phosphopeptides from 5 to 0.5 μg cell lysate and 30,433 ± 284 to 6,548 ± 21 phosphopeptides from 50,000 to 2,500 cells. Such sensitivity enabled mapping key lung cancer signaling sites, such as EGFR autophosphorylation sites Y1197/Y1172 and drug targets. The feasibility of SOP-Phos-DIA was demonstrated on EGFR-TKI sensitive and resistant cells, revealing the interplay of multipathway Hippo-EGFR-ERBB signaling cascades underlying the mechanistic insight into EGFR-TKI resistance. Overall, SOP-Phos-DIA is an efficient and robust protocol that can be easily adapted in the community for microscale phosphoproteomic analysis.

Published

2024

5. Ti 4+ functionalized zirconium metal-organic frameworks with polymer brushes for specific identification of phosphopeptides in human serum and skimmed milk.

Author

Chen J, Wang D, Wang B, Zhou C, Ding CF, and Yan Y

Subjects

Humans, Animals, Polymers chemistry, Female, Breast Neoplasms blood, Limit of Detection, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Phosphopeptides blood, Phosphopeptides chemistry, Titanium chemistry, Zirconium chemistry, Metal-Organic Frameworks chemistry, Milk chemistry

Abstract

In the present study, click chemistry and Schiff base reactions were simultaneously applied to prepare polymer brush (PEG)-functionalized MOF materials (UiO-66-NH 2 ) and immobilized with Ti 4+ (MOF-Brush-THBA-Ti 4+ ) for phosphopeptide analysis. The material has a detection limit of 0.5 fmol, a selectivity of 2000:1, and a loading capacity of 133 mg/g for phosphopeptides. It also demonstrated great repeatability (10 cycles) and recovery rate (96.7 ± 1.4%). During the analysis of bio-samples, 4 specific phosphopeptides were identified in endogenous breast cancer serum, while 11 phosphopeptides were identified in skimmed milk. Moreover, 47 phosphopeptides correlated with 29 phosphorylated proteins were selectively identified from normal control serum, and 66 phosphopeptides correlated with 26 phosphorylated proteins were identified from breast cancer serum. Further analysis of gene ontology (GO) revealed that the detected phosphorylated proteins associated with breast cancer included positive regulation of receptor-mediated endocytosis, proteolysis, extracellular exosome, heparin binding, and chaperone binding. These findings suggest that these associated pathways might contribute to the etiology of breast cancer. Overall, this application exhibits enormous potential in the identification of phosphorylated peptides within bio-samples., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH, DE part of Springer Nature.)

Published

2024

6. Polyoxometalate functionalized magnetic metal-organic framework with multi-affinity sites for efficient enrichment of phosphopeptides.

Author

Jiang D, Qi R, Wu S, Li Y, and Liu J

Subjects

Humans, Animals, Milk chemistry, Cattle, A549 Cells, Serum Albumin, Bovine chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Saliva chemistry, Phosphopeptides chemistry, Metal-Organic Frameworks chemistry, Tungsten Compounds chemistry

Abstract

The reasonable design of metal-organic framework (MOF)-derived nanomaterial has important meaning in increasing the enrichment efficiency in the study of protein phosphorylation. In this work, a polyoxometalate (POM) functionalized magnetic MOF nanomaterial (Fe 3 O 4 @MIL-125-POM) was designed and fabricated. The nanomaterial with multi-affinity sites (unsaturated metal sites and metal oxide clusters) was used for the enrichment of phosphopeptides. Fe 3 O 4 @MIL-125-POM had high-efficient enrichment performance towards phosphopeptides (selectivity, a mass ratio of bovine serum albumin/α-casein/β-casein at 5000:1:1; sensitivity, 0.1 fmol; satisfactory repeatability, ten times). Furthermore, Fe 3 O 4 @MIL-125-POM was employed to enrich phosphopeptides from non-fat milk digests, saliva, serum, and A549 cell lysate. The enrichment results illustrated the great potential of Fe 3 O 4 @MIL-125-POM for efficient identification of low-abundance phosphopeptides., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH, DE part of Springer Nature.)

Published

2024

7. Characteristics of casein phosphopeptides in Chinese human milk and its correlation with infant growth: A cross-sectional study.

Author

Han M, Li K, Fang Y, Chen B, Sun H, Xie Q, Zhang S, Jiang S, Lv J, and Xu Y

Subjects

Infant, Female, Humans, Animals, Caseins chemistry, Cross-Sectional Studies, Milk chemistry, China, Milk, Human chemistry, Phosphopeptides chemistry

Abstract

This research aimed to investigate the characteristics of casein phosphopeptides in Chinese human milk, and their potential relationship to infant growth. Using the liquid chromatography-Orbitrap-mass spectrometry technique, a total of 15 casein phosphopeptides were identified from 200 human milk samples. Also, our results indicate that casein phosphopeptides were phosphorylated with only one phosphate. The relative concentrations of casein phosphopeptides at 6 months postpartum were increased compared with milk at 2 months (FDR < 0.05). Significantly positive correlations were observed between casein phosphopeptides and infant growth, as shown by four casein phosphopeptides were positively correlated with the infants' weight-for-age Z-scores (r s range from 0.20 to 0.29), and three casein phosphopeptides were positively correlated with the infants' length-for-age Z-scores (r s range from 0.19 to 0.27). This study is the first to reveal the phosphorylated level and composition of casein phosphopeptides in Chinese human milk, and their potential relationship with infant growth., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

8. Digested casein phosphopeptides impact intestinal calcium transport in vitro .

Author

Tenenbaum M, Deracinois B, Dugardin C, Auger J, Baniel A, Boulier A, Flahaut C, Ravallec R, and Cudennec B

Subjects

Humans, Caco-2 Cells, Biological Transport, Animals, Digestion, Intestinal Absorption drug effects, Caseins pharmacology, Caseins metabolism, Caseins chemistry, Phosphopeptides pharmacology, Phosphopeptides metabolism, Phosphopeptides chemistry, Calcium metabolism, Intestinal Mucosa metabolism, Intestinal Mucosa drug effects

Abstract

Calcium is the most abundant mineral in the human body and is involved in critical physiological and cellular processes. It is essential for the development, maintenance, and integrity of bone tissue throughout life. Identifying new natural food-grade chelating agents to improve calcium uptake is of increasing interest. Casein phosphopeptides (CPPs), highly phosphorylated peptides obtained after enzymatic hydrolysis of caseins, represent promising calcium-chelating candidates. The aim of this study was to investigate, using cell culture models, the ability of a digested milk matrix enriched in CPPs to regulate calcium transport through the intestinal barrier and elucidate the involved mechanisms. To this end, a CPP-preparation underwent in vitro static digestion and was subsequently incubated with an intestinal barrier model to monitor calcium uptake and transport. Our results demonstrated that the digested CPP preparation enhanced the trans -epithelial calcium transport via paracellular pathways and that CPPs, identified by peptidomics, crossed the intestinal barrier in the same time.

Published

2024

9. Exploitation of porphyrin-based titanium-rich porous organic polymers for targeted phosphopeptide enrichment from the serum of colorectal cancer individuals.

Author

Wang D, Sheng X, Shao J, Ding CF, and Yan Y

Subjects

Humans, Porosity, Polymers chemistry, Colorectal Neoplasms blood, Titanium chemistry, Phosphopeptides blood, Phosphopeptides isolation & purification, Phosphopeptides chemistry, Porphyrins chemistry

Abstract

A porphyrin-based titanium-rich porous organic polymer (Th-PPOPs@Ti 4+ ) was designed based on immobilized metal ion affinity chromatography technique and successfully applied to phosphopeptide enrichment with 5,10,15,20-tetrakis(4-carboxyphenyl) porphine tetramethyl ester (TCPTE), 2,3-dihydroxyterephthalaldehyde (DHTA), and 2,3,4-trihydroxybenzaldehyde (THBA) as raw materials. Th-PPOPs@Ti 4+ exhibited remarkable sensitivity (0.5 fmol), high selectivity (β-casein: BSA = 1:2000, molar ratio), outstanding recovery (95.0 ± 1.9%), reusability (10 times), and superior loading capacity (143 mg·g -1 ). In addition, Th-PPOPs@Ti 4+ exhibited excellent ability to specifically capture phosphopeptides from the serum of colorectal cancer (CRC) individuals and normal subjects. Sixty phosphopeptides assigned to 35 phosphoproteins were obtained from the serum of CRC individuals, and 43 phosphopeptides allocated to 28 phosphoproteins were extracted in the serum of healthy individuals via nano-LC-MS/MS. Gene ontology assays revealed that the detected phosphoproteins may be inextricably tied to CRC-associated events, including response to estrogen, inflammatory response, and heparin binding, suggesting that it is possible that these correlative pathways may be implicated in the pathogenesis of CRC., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published

2024

10. Sequencing of Phosphopeptides Using a Sequential Charge Inversion Ion/Ion Reaction and Electron Capture Dissociation Workflow.

Author

Donndelinger DV, Yan T, Scoggins TR 4th, Specker JT, and Prentice BM

Subjects

Sequence Analysis, Protein methods, Ions chemistry, Amino Acid Sequence, Humans, Phosphopeptides chemistry, Phosphopeptides analysis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Tandem Mass Spectrometry methods

Abstract

Protein phosphorylation, a common post-translational modification (PTM), is fundamental in a plethora of biological processes, most importantly in modulating cell signaling pathways. Matrix-assisted laser desorption/ionization (MALDI) coupled to tandem mass spectrometry (MS/MS) is an attractive method for phosphopeptide characterization due to its high speed, low limit of detection, and surface sampling capabilities. However, MALDI analysis of phosphopeptides is constrained by relatively low abundances in biological samples and poor relative ionization efficiencies in positive ion mode. Additionally, MALDI tends to produce singly charged ions, generally limiting the accessible MS/MS techniques that can be used for peptide sequencing. For example, collision induced dissociation (CID) is readily amendable to the analysis of singly charged ions, but results in facile loss of phosphoric acid, precluding the localization of the PTM. Electron-based dissociation methods (e.g., electron capture dissociation, ECD) are well suited for PTM localization, but require multiply charged peptide cations to avoid neutralization during ECD. Conversely, phosphopeptides are readily ionized using MALDI in negative ion mode. If the precursor ions are first formed in negative ion mode, a gas-phase charge inversion ion/ion reaction could then be used to transform the phosphopeptide anions produced via MALDI into multiply charged cations that are well-suited for ECD. Herein we demonstrate a multistep workflow combining a charge inversion ion/ion reaction that first transforms MALDI-generated phosphopeptide monoanions into multiply charged cations, and then subjects these multiply charged phosphopeptide cations to ECD for sequence determination and phosphate bond localization.

Published

2024

11. Cobalt Phthalocyanine-Modified Magnetic Metal-Organic Frameworks for Specific Enrichment of Phosphopeptides.

Author

Jiang D, Wu S, Li Y, Qi R, and Liu J

Subjects

Humans, A549 Cells, Metal-Organic Frameworks chemistry, Indoles chemistry, Organometallic Compounds chemistry, Phosphopeptides chemistry, Phosphopeptides isolation & purification, Phosphopeptides analysis

Abstract

For mass spectrometry (MS)-based phosphoproteomics studies, sample pretreatment is an essential step for efficient identification of low-abundance phosphopeptides. Herein, a cobalt phthalocyanine-modified magnetic metal-organic framework (MOF) (Fe 3 O 4 @MIL-101-CoPc) was prepared and applied to enrich phosphopeptides before MS analysis. Fe 3 O 4 @MIL-101-CoPc exhibited an excellent magnetic response (74.98 emu g -1 ) and good hydrophilicity (7.75°), which were favorable for the enrichment. Fe 3 O 4 @MIL-101-CoPc showed good enrichment performance with high selectivity (1:1:5000), sensitivity (0.1 fmol), reusability (10 circles), and recovery (91.3%). Additionally, the Fe 3 O 4 @MIL-101-CoPc-based MS method was able to successfully detect 827 phosphopeptides from the A549 cell lysate, demonstrating a high enrichment efficiency (89.3%). This study promotes the application of postfunctionalized MOFs for phosphoproteomics analysis.

Published

2024

12. [Preparation of magnetic carbon nitride composite toward phosphopeptide enrichment].

Author

Jiang LY, Zhang WL, Zhao L, and Hu LH

Subjects

Caseins chemistry, Caseins analysis, Phosphorylation, Proteomics methods, Magnetics, Phosphopeptides analysis, Phosphopeptides chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Nitriles chemistry

Abstract

Protein phosphorylation plays an important role in cellular signaling and disease development. Advances in mass spectrometry-based proteomics have enabled qualitative and quantitative phosphorylation studies as well as in-depth biological explorations for biomarker discovery and signaling pathway analysis. However, the dynamic changes that occur during phosphorylation and the low abundance of target analytes render direct analysis difficult because mass spectral detection offers no selectivity, unlike immunoassays such as Western blot and enzyme-linked immunosorbent assay (ELISA). The present study aimed to solve one of the key problems in the specific and efficient isolation of phosphorylated peptides. A method based on a magnetic carbon nitride composite coupled with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) was developed for the enrichment and analysis of phosphopeptides with low abundance in complex samples. Magnetic carbon nitride composite was synthesized and characterized by electron microscopy, infrared spectroscopy, and X-ray diffractometry. The composite showed a well-distributed two-dimensional layered structure and functional groups with excellent paramagnetic performance. Two classical phosphoproteins, namely, α - and β -caseins, were selected as model phosphorylated samples to assess the performance of the proposed enrichment technique. The magnetic carbon nitride composite exhibited high selectivity and sensitivity for phosphopeptide enrichment. The limit of detection was determined by MALDI-TOF-MS analysis to be 0.1 fmol. The selectivity of the method was investigated using the digest mixtures of α -casein, β -casein, and bovine serum albumin (BSA) with different mass ratios (1∶1∶1000, 1∶1∶2000, and 1∶1∶5000). Direct analysis of the samples revealed the dominance of spectral signals from the abundant peptides in BSA. After enrichment with the magnetic carbon nitride composite, the high concentration of background proteins was washed away and only the signals of the phosphopeptides were captured. The signals from the casein proteins were clearly observed with little background noise, indicating the high selectivity of the composite material. The robustness of the method was tested by assessing the reusability of the same batch of magnetic carbon nitride materials over 20 cycles of enrichment. The composite showed nearly the same enrichment ability even after several cycles of reuse, demonstrating its potential applicability for a large number of clinical samples. Finally, the method was applied to the analysis of phosphopeptides from several commonly used phosphoprotein-containing samples, including skimmed milk digest, human serum, and human saliva; these samples are significant in the analysis of food quality, disease biomarkers, and liquid biopsies for cancer. Without enrichment, no phosphopeptide was detected because of the high abundance of nonphosphopeptide materials dominating the spectral signals obtained. After pretreatment with the developed magnetic carbon nitride composite, most of the phosphosites were identified with high selectivity and sensitivity via MALDI-TOF-MS. These results revealed the practicality of the developed approach for clinical applications. In addition, our method may potentially be employed for phosphoproteomics with real complex biological samples.

Published

2024

13. In-Depth Endogenous Phosphopeptidomics of Serum with Zirconium(IV)-Grafted Mesoporous Silica Enrichment.

Author

Wu C, Zhang S, Hou C, Byers S, and Ma J

Subjects

Humans, Porosity, HeLa Cells, Proteomics methods, Tandem Mass Spectrometry, Zirconium chemistry, Silicon Dioxide chemistry, Phosphopeptides blood, Phosphopeptides analysis, Phosphopeptides chemistry

Abstract

Detection of endogenous peptides, especially those with modifications (such as phosphorylation) in biofluids, can serve as an indicator of intracellular pathophysiology. Although great progress has been made in phosphoproteomics in recent years, endogenous phosphopeptidomics has largely lagged behind. One main hurdle in endogenous phosphopeptidomics analysis is the coexistence of proteins and highly abundant nonmodified peptides in complex matrices. In this study, we developed an approach using zirconium(IV)-grafted mesoporous beads to enrich phosphopeptides, followed by analysis with a high resolution nanoRPLC-MS/MS system. The bifunctional material was first tested with digests of standard phosphoproteins and HeLa cell lysates, with excellent enrichment performance achieved. Given the size exclusion nature, the beads were directly applied for endogenous phosphopeptidomic analysis of serum samples from pancreatic ductal adenocarcinoma (PDAC) patients and controls. In total, 329 endogenous phosphopeptides (containing 113 high confidence sites) were identified across samples, by far the largest endogenous phosphopeptide data set cataloged to date. In addition, the method was readily applied for phosphoproteomics of the same set of samples, with 172 phosphopeptides identified and significant changes in dozens of phosphopeptides observed. Given the simplicity and robustness of the proposed method, we envision that it can be readily used for comprehensive phosphorylation studies of serum and other biofluid samples.

Published

2024

14. A magnetic calcium phosphate for selective capture of multi-phosphopeptides.

Author

Ren F, Dai J, Zhang J, Luan Y, Yang F, Shen J, Liu H, and Zhou J

Subjects

Humans, Proteomics methods, Phosphorylation, Tandem Mass Spectrometry methods, Phosphopeptides analysis, Phosphopeptides isolation & purification, Phosphopeptides chemistry, Calcium Phosphates chemistry

Abstract

The specific enrichment of multi-phosphopeptides in the presence of non-phosphopeptides and mono-phosphopeptides was still a challenge for phosphoproteomics research. Most of these enrichment materials relied on Zn, Ti, Sn, and other rare precious metals as the bonding center to enrich multi-phosphopeptides while ignoring the use of common metal elements. The addition of rare metals increased the cost of the experiment, which was not conducive to their large-scale application in biomedical proteomics laboratories. In addition, multiple high-speed centrifugation steps also resulted in the loss of low-abundance multi-phosphopeptides in the treatment procedure of biological samples. This study proposed the use of calcium, a common element, as the central bonding agent for synthesizing magnetic calcium phosphate materials (designated as CaP-Fe 3 O 4 ). These materials aim to capture multi-phosphopeptides and identifying phosphorylation sites. The current results demonstrate that CaP-Fe 3 O 4 exhibited excellent selection specificity, high sensitivity, and stability in the enrichment of multi-phosphopeptides and the identification of phosphorylation sites. Additionally, the introduction of magnetic separation not only reduced the time required for multi-phosphopeptides enrichment but also prevented the loss of these peptides during high-speed centrifugation. These findings contribute to the widespread application and advancement of phosphoproteomics research., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

15. Multiphosphorylation-Dependent Recognition of Anti-pS2 Antibodies against RNA Polymerase II C-Terminal Domain Revealed by Chemical Synthesis.

Author

Piemontese E, Herfort A, Perevedentseva Y, Möller HM, and Seitz O

Subjects

Protein Domains immunology, Protein Binding, Binding Sites, Amino Acid Sequence, Peptide Library, RNA Polymerase II chemistry, RNA Polymerase II immunology, Antibodies, Monoclonal chemistry, Antibodies, Phospho-Specific chemistry, Phosphopeptides chemical synthesis, Phosphopeptides chemistry, Phosphopeptides immunology

Abstract

Phosphorylation is a major constituent of the CTD code, which describes the set of post-translational modifications on 52 repeats of a YSPTSPS consensus heptad that orchestrates the binding of regulatory proteins to the C-terminal domain (CTD) of RNA polymerase II. Phospho-specific antibodies are used to detect CTD phosphorylation patterns. However, their recognition repertoire is underexplored due to limitations in the synthesis of long multiphosphorylated peptides. Herein, we describe the development of a synthesis strategy that provides access to multiphosphorylated CTD peptides in high purity without HPLC purification for immobilization onto microtiter plates. Native chemical ligation was used to assemble 12 heptad repeats in various phosphoforms. The synthesis of >60 CTD peptides, 48-90 amino acids in length and containing up to 6 phosphosites, enabled a detailed and rapid analysis of the binding characteristics of different anti-pSer2 antibodies. The three antibodies tested showed positional selectivity with marked differences in the affinity of the antibodies for pSer2-containing peptides. Furthermore, the length of the phosphopeptides allowed a systematic analysis of the multivalent chelate-type interactions. The absence of multivalency-induced binding enhancements is probably due to the high flexibility of the CTD scaffold. The effect of clustered phosphorylation proved to be more complex. Recognition of pSer2 by anti-pSer2-antibodies can be prevented and, perhaps surprisingly, enhanced by the phosphorylation of "bystander" amino acids in the vicinity. The results have relevance for functional analysis of the CTD in cell biological experiments.

Published

2024

16. Characterization of Phosphorylated Peptides by Electron-Activated and Ultraviolet Dissociation Mass Spectrometry: A Comparative Study with Collision-Induced Dissociation.

Author

Girod M, Arquier D, Helms A, Juetten K, Brodbelt JS, Lemoine J, and MacAleese L

Subjects

Phosphorylation, Electrons, Amino Acid Sequence, Humans, Protein Processing, Post-Translational, Chromatography, Liquid methods, Phosphopeptides chemistry, Phosphopeptides analysis, Tandem Mass Spectrometry methods, Ultraviolet Rays

Abstract

Mass-spectrometry-based methods have made significant progress in the characterization of post-translational modifications (PTMs) in peptides and proteins; however, room remains to improve fragmentation methods. Ideal MS/MS methods are expected to simultaneously provide extensive sequence information and localization of PTM sites and retain labile PTM groups. This collection of criteria is difficult to meet, and the various activation methods available today offer different capabilities. In order to examine the specific case of phosphorylation on peptides, we investigate electron transfer dissociation (ETD), electron-activated dissociation (EAD), and 193 nm ultraviolet photodissociation (UVPD) and compare all three methods with classical collision-induced dissociation (CID). EAD and UVPD show extensive backbone fragmentation, comparable in scope to that of CID. These methods provide diverse backbone fragmentation, producing a / x , b / y , and c / z ions with substantial sequence coverages. EAD displays a high retention efficiency of the phosphate modification, attributed to its electron-mediated fragmentation mechanisms, as observed in ETD. UVPD offers reasonable retention efficiency, also allowing localization of the PTM site. EAD experiments were also performed in an LC-MS/MS workflow by analyzing phosphopeptides spiked in human plasma, and spectra allow accurate identification of the modified sites and discrimination of isomers. Based on the overall performance, EAD and 193 nm UVPD offer alternative options to CID and ETD for phosphoproteomics.

Published

2024

17. Enrichment of Phosphopeptides Based on Zirconium Phthalocyanine-Modified Magnetic Nanoparticles.

Author

Jiang D, Wu S, Li Y, Qi R, and Liu J

Subjects

Humans, Zirconium chemistry, Adsorption, Phosphopeptides analysis, Phosphopeptides chemistry, Magnetite Nanoparticles, Isoindoles

Abstract

Highly selective extraction of phosphopeptides is necessary before mass spectrometry (MS) analysis. Herein, zirconium phthalocyanine-modified magnetic nanoparticles were prepared through a simple method. The Fe-O groups on Fe 3 O 4 and the zirconium ions on phthalocyanine had a strong affinity for phosphopeptides based on immobilized metal ion affinity chromatography (IMAC). The enrichment platform exhibited low detection limit (0.01 fmol), high selectivity (α-/β-casein/bovine serum albumin, 1/1/5000), good reusability (10 circles), and recovery (91.1 ± 1.1%) toward phosphopeptides. Nonfat milk, human serum, saliva, and A549 cell lysate were employed as actual samples to assess the applicability of the enrichment protocol. Metallo-phthalocyanine will be a competitive compound for designing highly efficient adsorbents and offers a new approach to phosphopeptide analysis.

Published

2024

18. Facile preparation of nitrogen/titanium-rich porous organic polymers for specific enrichment of N -glycopeptides and phosphopeptides.

Author

Wang J, Zhang X, Yan Y, and Xuan R

Subjects

Humans, Titanium chemistry, Glycopeptides chemistry, Porosity, Tandem Mass Spectrometry, Polymers, Phosphopeptides chemistry, Phosphopeptides metabolism

Abstract

The comprehensive investigation of protein phosphorylation and glycosylation aids in the discovery of novel biomarkers as well as the understanding of the pathophysiology of illness. In this work, a nitrogen/titanium-rich porous organic polymer was developed by copolymerizing carbohydrazide (CH) and 2,3-dihydroxyterephthalaldehyde (2,3-Dha) and modifying with Ti 4+ (CH-Dha-Ti 4+ ). The adequate nitrogen contributes to the enrichment of glycopeptides via HILIC, while titanium benefits from capturing phosphopeptides through IMAC. The proposed method exhibits excellent selectivity (1 : 1000, both for glycopeptides and phosphopeptides), LOD (for glycopeptides: 0.05 fmol μL -1 , for phosphopeptides: 0.2 fmol), loading capacity (for glycopeptides: 100 mg g -1 , for phosphopeptides: 125 mg g -1 ) and size-exclusion effect (1 : 10 000, both for glycopeptides and phosphopeptides). Furthermore, CH-Dha-Ti 4+ was applied to capture glycopeptides and phosphopeptides from human serum; 205 glycopeptides and 45 phosphopeptides were detected in the serum of normal controls; and 294 glycopeptides and 63 phosphopeptides were found in the serum of uremia patients after being analyzed by nano LC-MS/MS. The discovered glycopeptides and phosphopeptides were involved in several molecular biological processes and activities, according to a gene ontology study.

Published

2024

19. Exploiting Charge State Distribution To Probe Intramolecular Interactions in Gas-Phase Phosphopeptides and Enhance Proteomics Analyses.

Author

Gorshkov V and Kjeldsen F

Subjects

Humans, Reproducibility of Results, Mass Spectrometry, Proteome analysis, Phosphopeptides chemistry, Proteomics methods

Abstract

Charging of analytes is a prerequisite for performing mass spectrometry analysis. In proteomics, electrospray ionization is the dominant technique for this process. Although the observation of differences in the peptide charge state distribution (CSD) is well-known among experimentalists, its analytical value remains underexplored. To investigate the utility of this dimension, we analyzed several public data sets, comprising over 250,000 peptide CSD profiles from the human proteome. We found that the dimensions of the CSD demonstrate high reproducibility across multiple laboratories, mass analyzers, and extensive time intervals. The general observation was that the CSD enabled effective partitioning of the peptide property space, resulting in enhanced discrimination between sequence and constitutional peptide isomers. Next, by evaluating the CSD values of phosphorylated peptides, we were able to differentiate between phosphopeptides that indicate the formation of intramolecular structures in the gas phase and those that do not. The reproducibility of the CSD values (mean cosine similarity above 0.97 for most of the experiments) qualified CSD data suitable to train a deep-learning model capable of accurately predicting CSD values (mean cosine similarity - 0.98). When we applied the CSD dimension to MS1- and MS2-based proteomics experiments, we consistently observed around a 5% increase in protein and peptide identification rate. Even though the CSD dimension is not as effective a discriminator as the widely used retention time dimension, it still holds the potential for application in direct infusion proteomics.

Published

2024

20. Biobased Tannic Acid-Chitosan Composite Membranes as Reusable Adsorbents for Effective Enrichment of Phosphopeptides.

Author

Tang R, Pan L, Bai Q, Li C, Ma S, Ou J, and Shen Y

Subjects

Humans, Titanium chemistry, Ions, Phosphopeptides chemistry, Chitosan chemistry

Abstract

High-performance reusable materials from renewable resources are rare and urgently required in bioseparation. Herein, a series of tannic acid-chitosan composite membranes for the enrichment of phosphopeptides were fabricated by the freeze casting method. First, a tannic acid-chitosan composite membrane was acquired via the multiple hydrogen bonds between tannic acid and chitosan, which had a long-range aligned three-dimensional microstructure. Second, a covalent-hydrogen bond hybrid composite was also fabricated, with stable and aligned honeycomb-like microstructures that formed by the synergy of covalence and hydrogen bonding. Besides, a ternary composite membrane was "one-pot" synthesized by the copolymerization of tannic acid, chitosan, and Ti 4+ ions, indicating the feasibility of involving metal ions in the composition of the polymer skeleton in place of additional modification steps. The as-prepared chitosan composite membranes exhibited excellent performance in the enrichment of phosphopeptides from β-casein tryptic digest and human serum. Benefitting from the long-range aligned honeycomb-like structure coordinated by hydrogen bonds and covalent bonds, and a large number of pyrogallol functional groups provided by tannic acid, the covalent-hydrogen bond hybrid membrane showed excellent reusability and could be reused up to 16 times in phosphopeptide enrichment, as far as we know, which is the best reported result to date.

Published

2024

21. Dual-ligand hydrogen-bonded organic framework: Tailored for mono-phosphopeptides and glycopeptides analysis.

Author

Xiong F, Zhang T, Ma J, and Jia Q

Subjects

Ligands, Protein Processing, Post-Translational, Glycopeptides chemistry, Phosphopeptides chemistry

Abstract

Hydrogen-bonded organic frameworks (HOFs) have emerged as a promising class of materials for applications of separation and enrichment. Utilizing multiple-ligands to construct HOFs is a promising avenue towards the development of structurally stable and functionally diverse frameworks, offering opportunities to create customized binding sites for selective recognition of biomolecules. In recent years, due to the crucial role that protein post-translational modifications (PTMs) play in maintaining protein function and regulating signaling pathways, and the growing recognition of the extensive cross-talk that can occur between PTMs, simultaneous analysis of different types of PTMs represents a requirement of a new generation of enrichment materials. Here, for the first attempt, we report a dual-ligand HOF constructed from borate anion and guanidinium cation for the simultaneous identification of glycopeptides and phosphopeptides, especially mono-phosphopeptides. According to theoretical calculations, the HOF functional sites display a synergistic "matching" effect with mono-phosphopeptides, resulting in a stronger enrichment effect for mono-phosphopeptides as compared to multi-phosphopeptides. Also, due to its high hydrophilicity and boronate affinity, this material can efficiently capture glycoproteins. HOF is set to become an active research direction in the development of highly efficient simultaneous protein enrichment materials, and offers a new approach for comprehensive PTMs analysis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

22. A comprehensive review on preparation, structure-activities relationship, and calcium bioavailability of casein phosphopeptides.

Author

Liu G, Guo B, Luo M, Sun S, Lin Q, Kan Q, He Z, Miao J, Du H, Xiao H, and Cao Y

Subjects

Animals, Cattle, Humans, Caseins chemistry, Caseins metabolism, Biological Availability, Amino Acid Sequence, Calcium, Dietary, Calcium, Phosphopeptides chemistry, Phosphopeptides metabolism

Abstract

Calcium is one of the important elements for human health. Calcium deficiencies can lead to numerous diseases. Calcium chelating peptides have shown potential application in the management of calcium deficiencies. Casein phosphopeptides (CPP) are phosphoseryl-containing fragments of casein by enzymatic hydrolysis or fermentation during manufacture of milk products as well as during intestinal digestion. An increasing number of CPP with the ability to facilitate and enhance the bioavailability of calcium are being discovered and identified. In this review, 249 reported CPP derived from four types of bovine casein (αs1, αs2, β and κ) were collected, and the amino acid sequence and phosphoserine group information were sorted out. This review outlines the current enzyme hydrolysis, detection methods, purification, structure-activity relationship and mechanism of intestinal calcium absorption in vitro and in vivo as well as application of CPP.

Published

2024

23. Facile preparation of porphyrin-based porous organic polymers for specific enrichment and isolation of phosphopeptides and phosphorylated exosomes.

Author

Chen J, Wang B, Luo Y, Wang W, Ding CF, and Yan Y

Subjects

Humans, Polymers, Porosity, Caseins chemistry, Phosphoproteins, Phosphopeptides chemistry, Exosomes

Abstract

Exosomes, which can be used to investigate various disease processes, are novel disease markers that have been extensively studied in recent years. In this work, zirconium-rich porphyrin-based porous organic polymers (Imi-Pops-Zr) were synthesized by a facile and low-cost strategy for specific enrichment and isolation of phosphorylated peptides and exosomes. The proposed material demonstrates a low detection limit (0.5 fmol), a high selectivity (bovine serum albumin (BSA): β-casein = 1000:1), and a loading capability of 100 mg/g for phosphopeptides. For complex practical samples, after enrichment with Imi-Pops-Zr, 4 characteristic phosphopeptides from human serum, 20 and 12 phosphopeptides from human saliva and defatted milk were detected, respectively. Besides, 74 phosphorylated peptides with 67 phosphorylation sites belonging to 61 phosphoproteins and 67 phosphorylated peptides with 63 phosphorylation sites belonging to 65 phosphoproteins were detected from the serum of normal controls and uremic patients, respectively. Biological processes, cellular components and molecular functions revealed that interleukin-6, tumor necrosis factor, high density lipoprotein and proteases binding may be associated with uremia. Furthermore, Imi-Pops-Zr was successfully used to enrich and isolate exosomes from human serum. The experimental results show that Imi-Pops-Zr has promising application in the specific enrichment of phosphorylated peptides and exosomes in complex bio-samples., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

24. Cotton Ti-IMAC: Developing Phosphorylated Cotton as a Novel Platform for Phosphopeptide Enrichment.

Author

Wang D, Huang J, Zhang H, Gu TJ, and Li L

Subjects

Humans, HeLa Cells, Chromatography, Liquid, Tandem Mass Spectrometry, Chromatography, Affinity methods, Titanium chemistry, Phosphopeptides chemistry

Abstract

Protein phosphorylation is an important post-translational modification (PTM), which is involved in many important cellular functions. Understanding protein phosphorylation at the molecular level is critical to deciphering its relevant biological processes and signaling networks. Mass spectrometry (MS) has become a powerful tool for the comprehensive profiling of protein phosphorylation. Yet the low ionization efficiency and low abundance of phosphopeptides among complex biological samples make its MS analysis challenging; an enrichment strategy with high efficiency and selectivity is always necessary prior to MS analysis. In this study, we developed a phosphorylated cotton-fiber-based Ti(IV)-IMAC material (termed as Cotton Ti-IMAC) that can serve as a novel platform for phosphopeptide enrichment. The cotton fiber can be effectively grafted with phosphate groups covalently in a single step, where the titanium ions can then be immobilized to enable capturing phosphopeptides. The material can be prepared using cost-effective reagents within only 4 h. Benefiting from the flexibility and filterability of cotton fibers, the material can be easily packed as a spin-tip and make the enrichment process convenient. Cotton Ti-IMAC successfully enriched phosphopeptides from protein standard digests and exhibited a high selectivity (BSA/β-casein = 1000:1) and excellent sensitivity (0.1 fmol/μL). Moreover, 2354 phosphopeptides were profiled in one LC-MS/MS injection after enriching from only 100 μg of HeLa cell digests with an enrichment specificity of up to 97.51%. Taken together, we believe that Cotton Ti-IMAC can serve as a widely applicable and robust platform for achieving large-scale phosphopeptide enrichment and expanding our knowledge of phosphoproteomics in complex biological systems.

Published

2023

25. Magnetic resin composites for the enrichment of proteins, peptides and phosphopeptides.

Author

Wang Y, Pan Y, Yan Z, Zhong Z, Zhang L, and Zhang W

Subjects

Humans, Mass Spectrometry methods, Phosphoproteins, Magnetic Phenomena, Phosphopeptides chemistry, Phosphopeptides metabolism, Serum Albumin, Bovine analysis, Serum Albumin, Bovine chemistry

Abstract

There is growing interest in the development of materials for enriching proteins and phosphoproteins from complex sample matrices for mass spectrometric analysis. Herein, we designed and synthesized two types of magnetic resin composites, i.e. , MTS9200@Fe 3 O 4 and FPA90CL@Fe 3 O 4 , and assessed their applications as adsorbents for enriching proteins, peptides and phosphopeptides. With the combination of Fe 3+ -IMAC interaction (MTS9200) or electrostatic attraction (FPA90CL) of resins and the adsorption of Fe 3 O 4 , the prepared composites exhibited higher capacities for adsorbing a protein (bovine serum albumin, at 195.71 and 135.03 mg g -1 for MTS9200@Fe 3 O 4 and FPA90CL@Fe 3 O 4 , respectively) than MTS9200, FPA90CL and Fe 3 O 4 . In addition, due to the contributions of the hydrophobic skeleton of resins and Fe 3 O 4 , the magnetic resin composites allowed for efficient enrichment of peptides. Moreover, through Fe 3+ -IMAC interaction or electrostatic attraction of resins and Fe-O MOAC interaction of Fe 3 O 4 with phosphate groups, phosphopeptides could also be captured. Furthermore, we employed the prepared composites for enriching proteins and phosphopeptides from human serum, where 466 and 506 proteins, and 434 and 356 phosphorylation sites, were detected from human serum after being processed with FPA90CL@Fe 3 O 4 and MTS9200@Fe 3 O 4 , respectively. Together, our work revealed the great potential of magnetic resin composites as enrichment materials for proteomics and phosphoproteomics analysis.

Published

2023

26. An easy and straightforward synthesized nano calcium phosphate for highly capture of multiply phosphorylated peptides.

Author

Yu J, Wang X, Ren F, Zhang J, Shen J, Liu H, and Zhou J

Subjects

Chromatography, Affinity methods, Phosphorylation, Phosphopeptides chemistry, Calcium Phosphates

Abstract

Multisite phosphorylation of proteins regulates various cellular life activities, however, the capture of low abundance multi-phosphopeptides from biosamples and identification of phosphorylation sites are largely limited due to the limited enrichment materials and their unclear interactions with multi-phosphopeptides. Here we propose using two cheap raw materials (CaCl 2 ·2H 2 O and Na 2 HPO 4 ·12H 2 O) in 10 min at room temperature to synthesize the structurally simple Nanometric Calcium Phosphate (CaP) to resolve this challenge. The current results showed that the "simple" CaP has good selection specificity, high sensitivity and stability for multi-phosphopeptides enrichment and the identification of phosphorylation sites, which facilitate the popularization and application of phosphoproteomics research. Further, the interaction of CaP and multi-phosphopeptides were qualitatively characterized at the molecular/atomic level and the high affinity between them was quantified by the isothermal titration microcalorimeter based on the laws of thermodynamics. The results indicated that the interaction was a spontaneous (ΔG < 0) exothermic reaction with enthalpy reduction (ΔH < 0) and driven mainly by hydrogen bond and electrostatic interaction process., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

27. Bioinertization of NanoLC/MS/MS Systems by Depleting Metal Ions From the Mobile Phases for Phosphoproteomics.

Author

Komori Y, Niinae T, Imami K, Yanagibayashi J, Yasunaga K, Imamura S, Tomita M, and Ishihama Y

Subjects

Chromatography, Liquid methods, Chromatography, Affinity methods, Ions, Tandem Mass Spectrometry methods, Phosphopeptides chemistry

Abstract

We have successfully developed a bioinertized nanoflow LC/MS/MS (nanoLC/MS/MS) system for the highly sensitive analysis of phosphopeptides by depleting metal ions from the mobile phase. We found that not only direct contact of phosphopeptides with metal components, but also indirect contact with nanoLC pumps through the mobile phase causes significant losses during the recovery of phosphopeptides. Moreover, electrospray ionization was adversely affected by the mobile phase containing multiple metal ions as well as by the sample solvents contaminated with metal ions used in immobilized metal ion affinity chromatography for phosphopeptide enrichment. To solve these problems, metal ions were depleted by inserting an online metal ion removal device containing metal-chelating membranes between the gradient mixer and the autosampler. As a result, the peak areas of the identified phosphopeptides increased an average of 9.9-fold overall and 77-fold for multiply phosphorylated peptides with the insertion of the online metal ion removal system. This strategy would be applicable to the highly sensitive analysis of other phosphorylated biomolecules by microscale-LC/MS/MS., Competing Interests: Conflict of interest The authors declare no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

28. Magnetic Ti 3 C 2 MXene Nanosheets Prepared for Enrichment of Phosphopeptides.

Author

Zhang S, Li JY, Gao W, Qiao JQ, and Lian HZ

Subjects

Magnetics, Magnetic Phenomena, Chromatography, Affinity methods, Phosphopeptides chemistry, Titanium chemistry

Abstract

MXenes have received lots of attention since discovered and have been applied in various fields. In this work, Ti 3 C 2 -Fe 3 O 4 composites with exposed non-modified Ti 3 C 2 MXene nanosheets were designed and prepared by an in situ growth strategy and then applied in the enrichment of phosphopeptides. The two-dimensional composites could interact with the phosphopeptides through a metal oxide affinity chromatography mechanism provided by Ti-O and Fe-O bonds and a hydrophilic interaction chromatography mechanism by surface hydroxyl groups. This magnetic nanomaterial with a specific surface area of 66.1 m 2 ·g -1 had high sensitivity to phosphopeptides (0.5 nmol·L -1 ) and high selectivity (1:1000 of the molar ratio of β-casein to bovine serum albumin). Non-fat milk was adopted as a real sample to preliminarily examine the applicability of the Ti 3 C 2 -Fe 3 O 4 -based protocol. Subsequently, Qingkailing injection, a kind of traditional Chinese medicine injection, was introduced to further explore the suitability of the nanocomposites for phosphopeptide enrichment from more complex matrices and satisfactory results were obtained.

Published

2023

29. An integrated workflow for phosphopeptide identification in natural killer cells (NK-92MI) and their targets (MDA-MB-231) during immunological synapse formation.

Author

Perez-Hernandez D, Filali L, Thomas C, and Dittmar G

Subjects

Workflow, Killer Cells, Natural, Isotopes, Phosphopeptides analysis, Phosphopeptides chemistry, Immunological Synapses chemistry

Abstract

Here, we present a protocol to identify and quantify phosphopeptides during the dynamic formation of an immunological synapse. We describe steps for mixing isotope-labeled immune and target cells, the stabilization of cell-to-cell conjugates by cross-linking, and their isolation by fluorescence-activated cell sorting. We detail the isolation of phosphopeptides by phosphopeptide enrichment and their subsequent measurement by mass spectrometry. Finally, we describe the analysis of the resulting data to separate cell-specific phosphopeptides using the isotope label and label-free quantification., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

30. Binding mechanism and bioavailability of a novel phosvitin phosphopeptide (Glu-Asp-Asp-pSer-pSer) calcium complex.

Author

Si K, Gong T, Ding S, Liu H, Shi S, Tu J, Zhu L, Song L, Song L, and Zhang X

Subjects

Calcium chemistry, Biological Availability, Calcium, Dietary, Phosvitin chemistry, Phosphopeptides chemistry

Abstract

Phosvitin has excellent calcium binding capacity, related to its phosphopeptides. The phosphopeptides may be used as functional ingredients for improving calcium bioavailability, but the calcium-binding mechanism is unclear. In this study, a novel phosvitin phosphorylated pentapeptide (Glu-Asp-Asp-pSer-pSer, EDDpSpS) was selected to prepare an EDDpSpS calcium complex (EDDpSpS-Ca), and the calcium-binding mechanism and bioavailability investigated. The calcium-binding capacity of EDDpSpS was up to 468 ± 152.80 mg/g. Calcium ions prompted the folding of the EDDpSpS structure to form spherical nanoparticles. The calcium binding sites of EDDpSpS involved peptide bonds, carboxyl, amino, and phosphate groups. Molecular forces involved in these interactions were electrostatic in nature. Moreover, EDDpSpS-Ca had excellent bioavailability when compared to CaCO 3 , calcium lactate, and d-calcium gluconate. This study revealed the calcium-binding mechanism of phosvitin phosphopeptide, and suggested that EDDpSpS-Ca has the potential to be a novel, efficient, and promising calcium supplement., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

31. Phosphorylated Peptide Derived from the Myosin Phosphatase Target Subunit Is a Novel Inhibitor of Protein Phosphatase-1.

Author

Kónya Z, Tamás I, Bécsi B, Lontay B, Raics M, Timári I, Kövér KE, and Erdődi F

Subjects

Myosin-Light-Chain Phosphatase metabolism, Phosphorylation, Phosphoserine metabolism, Phosphothreonine metabolism, Phosphopeptides chemistry, Phosphopeptides pharmacology, Protein Phosphatase 1 antagonists & inhibitors, Protein Phosphatase 1 metabolism, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology

Abstract

Identification of specific protein phosphatase-1 (PP1) inhibitors is of special importance regarding the study of its cellular functions and may have therapeutic values in diseases coupled to signaling processes. In this study, we prove that a phosphorylated peptide of the inhibitory region of myosin phosphatase (MP) target subunit (MYPT1), R 690 QSRRS(pT696)QGVTL 701 (P-Thr696-MYPT1 690-701 ), interacts with and inhibits the PP1 catalytic subunit (PP1c, IC 50 = 3.84 µM) and the MP holoenzyme (Flag-MYPT1-PP1c, IC 50 = 3.84 µM). Saturation transfer difference NMR measurements established binding of hydrophobic and basic regions of P-Thr696-MYPT1 690-701 to PP1c, suggesting interactions with the hydrophobic and acidic substrate binding grooves. P-Thr696-MYPT1 690-701 was dephosphorylated by PP1c slowly (t 1/2 = 81.6-87.9 min), which was further impeded (t 1/2 = 103 min) in the presence of the phosphorylated 20 kDa myosin light chain (P-MLC20). In contrast, P-Thr696-MYPT1 690-701 (10-500 µM) slowed down the dephosphorylation of P-MLC20 (t 1/2 = 1.69 min) significantly (t 1/2 = 2.49-10.06 min). These data are compatible with an unfair competition mechanism between the inhibitory phosphopeptide and the phosphosubstrate. Docking simulations of the PP1c-P-MYPT1 690-701 complexes with phosphothreonine (PP1c-P-Thr696-MYPT1 690-701 ) or phosphoserine (PP1c-P-Ser696-MYPT1 690-701 ) suggested their distinct poses on the surface of PP1c. In addition, the arrangements and distances of the surrounding coordinating residues of PP1c around the phosphothreonine or phosphoserine at the active site were distinct, which may account for their different hydrolysis rate. It is presumed that P-Thr696-MYPT1 690-701 binds tightly at the active center but the phosphoester hydrolysis is less preferable compared to P-Ser696-MYPT1 690-701 or phosphoserine substrates. Moreover, the inhibitory phosphopeptide may serve as a template to synthesize cell permeable PP1-specific peptide inhibitors., Competing Interests: The authors declare no conflicts of interest.

Published

2023

32. Reply to the 'Comment on "Deciphering calcium-binding behaviors of casein phosphopeptides by experimental approaches and molecular simulation"' by D. Horne, Food Funct. , 2022, 13 , https://doi.org/D2FO00808D.

Author

Luo M, Liu G, and Cao Y

Subjects

Calcium metabolism, Calcium Phosphates chemistry, Phosphates, Phosphopeptides chemistry, Caseins chemistry

Abstract

The comment regarding a method we used to calculate the binding capacity of casein phosphopeptides (CPPs) with calcium. Dr. Horne stated that we overestimated the concentration of Ca 2+ . Indeed, peptides would bind with more calcium ions with the help of phosphate ions. However, in our statement, the binding capacity of CPPs with calcium we used included the binding with calcium in the presence of phosphate. In our solution, peptides sequester calcium phosphate to form soluble core-shell nanoclusters, preventing calcium phosphate precipitating. Even if the binding capacity of CPPs with calcium are overestimated as stated by Dr. Horne, these could not be a problem in deciphering calcium-binding behaviors. Phosphate was applied only in the optimizing and screening process presented in Fig. 1 and Table 1, other experiments (Fig. 2-5 in the commented article) did not include phosphate in the reaction system. Phosphate could not be a factor of these experiments.

Published

2023

33. Chemoselective Labeling and Immobilization of Phosphopeptides with Phosphorimidazolide Reagents.

Author

Brown NW, Schlomach SK, Marmelstein AM, and Fiedler D

Subjects

Phosphorylation, Mass Spectrometry, Signal Transduction, Phosphopeptides analysis, Phosphopeptides chemistry, Phosphopeptides metabolism, Protein Processing, Post-Translational

Abstract

Protein phosphorylation is one of the most ubiquitous post-translational modifications, regulating numerous essential processes in cells. Accordingly, the large-scale annotation of phosphorylation sites continues to provide central insight into the regulation of signaling networks. The global analysis of the phosphoproteome typically relies on mass spectrometry analysis of phosphopeptides, with an enrichment step necessary due to the sub-stoichiometric nature of phosphorylation. Several affinity-based methods and chemical modification strategies have been developed to date, but the choice of enrichment method can have a considerable impact on the results. Here, we show that a biotinylated, photo-cleavable phosphorimidazolide reagent permits the immobilization and subsequent cleavage of phosphopeptides. The method is capable of the capture and release of phosphopeptides of varying characteristics, and this mild and selective strategy expands the current repertoire for phosphopeptide chemical modification with the potential to enrich and identify new phosphorylation sites in the future., (© 2022 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2023

34. Three-Dimensional MAX-Ti 3 AlC 2 Nanomaterials for Dual-Selective and Highly Efficient Enrichment of Phosphorylated and Glycosylated Peptides.

Author

Yang SS, Wang C, Jiang YF, and Zhang H

Subjects

Animals, Mice, Humans, Titanium chemistry, Glycopeptides analysis, Glycopeptides chemistry, Protein Processing, Post-Translational, Phosphopeptides chemistry, Nanostructures

Abstract

Dual-selective enrichment of phosphopeptides and glycopeptides of post-translational modifications (PTMs) in the complex biological samples are challenging. In this work, considering the versatile properties including surface abundant metal sites and electrostatic attraction between Ti 3 C 2 -layers and Al-layers, layered ternary carbides Ti 3 AlC 2 nanomaterials was successfully applied for the first time as an affinity adsorbent for the dual-selective capture of phosphopeptides and glycopeptides. Especially, the Ti 3 AlC 2 nanomaterials had an excellent detection sensitivity for phosphopeptides (1×10 -11  M) and a good selectivity for glycopeptides with a low molar ratio of 1 : 500 of HRP (horseradish peroxidase) to BSA (bovine serum albumin). Furthermore, Ti 3 AlC 2 nanomaterials was also applied for dual-selective enrichment of phosphopeptides and glycopeptides from mouse brain neocortex lysate and human serum lysate respectively before mass spectrometry (MS) analysis, yielding twenty-two unique phosphopeptides from thirteen phosphoproteins and fifty-three unique glycopeptides from thirty-seven glycoproteins, respectively. This work will open a new avenue and will greatly promote sample preparation for mass spectrometric analysis in phosphoproteomics and glycoproteomics research., (© 2022 Wiley-VCH GmbH.)

Published

2023

35. Fabrication of hydrophilic titanium (IV)-immobilized polydispersed microspheres via inverse suspension polymerization for enrichment of phosphopeptides in milk.

Author

Wu W, Tang R, Li Z, Shen Y, Ma S, and Ou J

Subjects

Animals, Chromatography, Affinity methods, Microspheres, Milk chemistry, Polymerization, Suspensions, Phosphopeptides chemistry, Titanium chemistry

Abstract

It is prerequisite to efficient extraction of phosphopeptides in bottom-up strategy for protein phosphorylation research. A kind of Ti 4+ -immobilized polydispersed phosphate-rich microsphere was fabricated via inverse suspension polymerization by employing vinylphosphonic acid (VPA) and N,N-methylenebisacrylamide (MBA) as functional monomer and crosslinker, respectively. The resulting microsphere demonstrated excellent sensitivity (as low as 10 fmol), selectivity (the mass ratio of β-casein to BSA digests is 1/500), and adsorption capacity (up to 200 mg g -1 ). What's more, 113 unique phosphopeptides assigned to 25 unique phosphoproteins were indiscriminately identified from 5 μL of pasteurized milk digest, exhibiting great performance in capturing phosphopeptides. In this approach, only two steps were required to synthesize Ti 4+ -IMAC (Ti 4+ -Immobilized metal affinity chromatography). Compared with other methods required multistep modifying process, this strategy is simple and time-saving, offering a prospect of pilot production and commercialization. It is expected that the application of IMAC in milk and other food samples will still make it possible to unravel the huge complexity of the Foodome in the near future., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

36. Two-dimensional magnetic bimetallic organic framework nanosheets for highly efficient enrichment of phosphopeptides.

Author

Yan S, Luo B, Cheng J, Yu L, Lan F, and Wu Y

Subjects

Humans, Magnetics, Titanium chemistry, Magnetic Phenomena, Phosphopeptides chemistry, Nanoparticles chemistry

Abstract

Highly selective enrichment and sensitive detection of phosphopeptides is pivotal for comprehensive phosphoproteomics analysis; however, it also poses a long-standing challenge. Here, a novel two-dimensional (2D) magnetic bimetallic organic framework (MOF) nanosheet with Zr-O clusters and Ti-O clusters (denoted as the Fe 3 O 4 @Zr-Ti BPDC nanosheet) is prepared via a solvothermal method and in situ deposition of Fe 3 O 4 nanoparticles for the first time. Taking advantage of the abundant dual affinities of Zr-O and Ti-O clusters for phosphopeptides, large surface area and high chemical stability, the Fe 3 O 4 @Zr-Ti BPDC nanosheets exhibit excellent enrichment performance for phosphopeptides. Within the framework of density functional theory, the interaction between Zr-O clusters, Ti-O clusters and phosphorylated molecules was studied to find the possible reason behind the superior adsorption performance of the bimetallic MOF nanosheets. We found that electrons would migrate from Ti to Zr spontaneously after doping Ti element and enhance the electrostatic traction between Zr species and phosphorylated molecules, demonstrating that the synergistic effect of Zr-Ti was helpful to improve the enrichment efficiency for phosphopeptides. Furthermore, the Fe 3 O 4 @Zr-Ti BPDC nanosheets showed good enrichment performance in complex bio-samples, including nonfat milk, human saliva, and a breast cancer cell lysate, indicating their tremendous potential in the analysis of trace phosphorylated biomolecules in complex bio-samples.

Published

2022

37. [Advances in the methods of phosphopeptide enrichment and separation in phosphoproteomic research].

Author

Li J, Chen X, and Yang F

Subjects

Titanium chemistry, Chromatography, Affinity, Proteome, Phosphorylation, Phosphopeptides analysis, Phosphopeptides chemistry, Phosphopeptides metabolism, Proteomics methods

Abstract

The systematic and in-depth study of phosphoproteome rely on highly reproducible and specific phosphopeptide enrichment methods. At present, a variety of enrichment methods have been developed based on different principles, and these methods often display different selectivity and specificity. It is therefore very important to select the most suitable enrichment method according to different research purposes. This review summarized the phosphopeptide enrichment based on affinity chromatography, immunoprecipitation, chemical derivatization, chromatography and other newly developed methods. The advantages and disadvantages of these methods, as well as the related optimization and improvement strategies, were discussed in detail. In addition, we also briefly summarized the progress of the combination of phosphopeptide enrichment and fractionation methods developed in recent years.

Published

2022

38. Phosphoproteome profiling of hippocampal synaptic plasticity.

Author

Lim SH, Lee NY, Ryu JY, An JH, Lee GS, Min SS, Moon J, and Lee JR

Subjects

Chromatography, Liquid, Hippocampus metabolism, Long-Term Synaptic Depression physiology, Neuronal Plasticity physiology, Proteome metabolism, Tandem Mass Spectrometry methods, Phosphopeptides chemistry, Proteomics methods

Abstract

The balance between the actions of protein kinases and phosphatases is crucial for neuronal functions, including synaptic plasticity. Although the phosphorylation and dephosphorylation of neuronal proteins are regulated by synaptic plasticity, no systematic analyses of this have yet been conducted. We performed a phosphoproteomic analysis of hippocampal synaptic plasticity using a nano-Acquity/Synapt LC-MS/MS system. Neuronal proteins were extracted from hippocampal tissues and cultured neurons exposed to long-term potentiation (LTP) or long-term depression (LTD). Filter-aided sample preparation (FASP) was performed to remove residual anionic detergents for complete tryptic digestion. Phosphopeptides were then enriched using TiO 2 chromatography, followed by immunoaffinity chromatography with an anti-phosphotyrosine antibody. Among the 1500 phosphopeptides identified by LC-MS/MS, 374 phosphopeptides were detected simultaneously in both hippocampal tissues and cultured neurons. Semi-quantification counting the number of spectra of each phosphopeptide showed that 42 of 374 phosphopeptides changed significantly depending on synaptic plasticity. In conclusion, a new proteomic method using sequential enrichment of phosphopeptides and semi-quantification enabled the phosphoproteomic analysis of hippocampal synaptic plasticity., Competing Interests: Declaration of competing interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

39. Simultaneous enrichment and sequential separation of O-linked glycopeptides and phosphopeptides with immobilized titanium (IV) ion affinity chromatography materials.

Author

Li J, Dong X, Cui Y, Li S, Chen C, Zhang X, Li X, Liang X, and Zhu Y

Subjects

Amino Acids, Chromatography, Affinity methods, Titanium chemistry, Glycopeptides chemistry, Phosphopeptides chemistry

Abstract

Protein phosphorylation and O-linked glycosylation are two critical posttranslational modifications (PTMs) and they both target identical amino acid residues, generating "crosstalk". Analysis of the crosstalk between these PTMs is crucial for deciphering their biological functions. Although several strategies have been established to enrich N-linked glycopeptides and phosphopeptides simultaneously, they are not appropriate for O-linked glycopeptides and phosphopeptides. In this study, we established a method for the simultaneous enrichment and sequential elution of O-linked glycopeptides and phosphopeptides into two fractions using commercially available immobilized titanium (IV) ion affinity chromatography (Ti 4+ -IMAC) materials. The established method exhibited high selectivity, repeatability, and recovery of the targeted peptides. Particularly, the overlap between the O-linked glycopeptide and phosphopeptide fractions was very low (∼3%). The application of this method to cell lysates of the colon cancer HT29 cell line resulted in a comparable number of enriched phosphopeptides as the coeluted method. However, the number of identified O-linked glycopeptides with our established method was 9.7-fold higher than that with the coelution method. Our study demonstrated that the established strategy was beneficial for the simultaneous analysis of O-linked glycopeptides and phosphopeptides, which might facilitate the study of the biological function of PTM crosstalk., Competing Interests: Declaration of Competing Interest We declare that we have no financial and personal relationships with other people or organizations that can inappropriately influence our work, there is no professional or other personal interest of any nature or kind in any product, service or company that could be construed as influencing the position presented the manuscript entitled., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

40. Metal-organic framework-mediated synthesis of hierarchical layered double hydroxide for high-efficiency enrichment of phosphopeptides.

Author

Qi H, Chen G, and Jia Q

Subjects

Chromatography, Affinity methods, Humans, Hydroxides, Magnetics, Metal-Organic Frameworks chemistry, Phosphopeptides chemistry

Abstract

When applied as adsorbents for phosphopeptides enrichment, two-dimensional (2D) layered double hydroxides (LDHs) are usually limited by the disadvantages of buried affinity sites and reduced specific surface area. Multifarious exfoliation strategies have been implemented to compensate for these deficiencies, but tedious exfoliation process cannot meet the requirements of LDHs as high-efficiency adsorbents. Incorporating LDHs with three-dimensional (3D) template can avoid tedious exfoliation and produce hierarchical LDHs with large specific surface area and massive affinity sites. Herein, a hierarchical LDH (denoted as Fe 3 O 4 @ZIF-8@Zn-Ga LDH) was prepared by metal-organic framework (MOF)-mediated synthesis strategy, and a magnetic solid-phase extraction (MSPE) platform was constructed and employed for phosphopeptides enrichment with high efficiency. The unique 3D structure and abundant metal nodes of MOF provide 3D template and metal sources for in-situ nucleation and generation of LDH. Large specific surface area and massive exposed Zn and Ga endow Fe 3 O 4 @ZIF-8@Zn-Ga LDH with high enrichment efficiency toward phosphopeptides from complicated biological samples. With the aid of mass spectrometry (MS) techniques, we profiled endogenous or global phosphopeptides from human saliva and serum, which proved the practical application value of this material., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

41. Serum phosphopeptide profiling for colorectal cancer diagnosis using liquid chromatography-mass spectrometry.

Author

Zhai G, Yang L, Luo Q, Wu K, Zhao Y, and Wang F

Subjects

Chromatography, Liquid methods, Double-Blind Method, Humans, Mass Spectrometry methods, Silicon Dioxide, Colorectal Neoplasms diagnosis, Phosphopeptides chemistry

Abstract

Rationale: The identification and evaluation of novel biomarkers are essential to clinical diagnosis and prognosis of colorectal cancer (CRC). Serum phosphopeptides have been recognized as a potential signature pool for cancers; therefore, we aim to profile the expression of serum phosphopeptides and to evaluate their feasibility in CRC diagnosis., Methods: We conducted the characterization and absolute quantification of endogenous phosphopeptides in sera using liquid chromatography-mass spectrometry analysis in combination with enrichment of phosphopeptides by ZrAs-Fe 3 O 4 @SiO 2 nanoparticles and use of deuterium-labeled standards. Differentially expressed analysis of four phosphopeptides was performed, generating a two-phosphopeptide-based biomarker, L F3-4 , by logistic regression analysis, where L F3-4 is equal to (5.85 - 5.13 × [F3] - 3.57 × [F4]), and [F3] and [F4] are the concentration of phosphopeptides DpSGEGDFLAEGGGVR and ADpSGEGDFLAEGGGVR in sera, respectively., Results: The L F3-4 values showed significant difference in CRC cases compared with controls, and yielded a specificity of 100%, leading to correct classification of 56 (93%) out of 60 CRC patients, including 12 (92.3%) of 13 CRC cases in stage I. Double-blind validation showed that 97.5% of CRC cases were discriminated accurately., Conclusions: The L F3-4 value was firstly verified to be a potential biomarker for CRC diagnosis, and may expand our view in underlying mechanisms for CRC., (© 2022 John Wiley & Sons Ltd.)

Published

2022

42. Multimodal Tandem Mass Spectrometry Techniques for the Analysis of Phosphopeptides.

Author

Paris J, Theisen A, Marzullo BP, Haris A, Morgan TE, Barrow MP, O'Hara J, and O'Connor PB

Subjects

Cyclotrons, Electrons, Fourier Analysis, Phosphopeptides chemistry, Tandem Mass Spectrometry methods

Abstract

Collisionally activated dissociation (CAD), infrared multiphoton dissociation (IRMPD), ultraviolet photodissociation (UVPD), electron capture dissociation and electron detachment dissociation (EDD) experiments were conducted on a set of phosphopeptides, in a Fourier transform ion cyclotron resonance mass spectrometer. The fragmentation patterns were compared and varied according to the fragmentation mechanisms and the composition of the peptides. CAD and IRMPD produced similar fragmentation profiles of the phosphopeptides, while UVPD produced a large number of complementary fragments. Electron-based dissociation techniques displayed lower fragmentation efficiencies, despite retaining the labile phosphate group, and drastically different fragmentation profiles. EDD produced complex spectra whose interpretation proved challenging.

Published

2022

43. Identification, production and bioactivity of casein phosphopeptides - A review.

Author

Tenenbaum M, Deracinois B, Dugardin C, Matéos A, Romelard A, Auger J, Boulier A, Ravallec R, Flahaut C, and Cudennec B

Subjects

Animals, Biological Availability, Humans, Milk chemistry, Minerals analysis, Caseins chemistry, Phosphopeptides chemistry

Abstract

Milk and dairy products are significant sources of proteins and peptides impacting human health. In this way, the interest in CPPs, bioactive phosphorylated peptides resulting from the hydrolysis of caseins, has grown in the past years. CPPs were mainly studied for their capacity to chelate and increase the bioavailability of essential minerals involved in multiple physiological processes. Moreover, CPPs harbour interesting antioxidant and anti-inflammatory properties. Recent in vivo and in vitro studies demonstrated that these different roles are strongly linked to the intrinsic properties of CPPs and CPP concentrate preparations. This review first comments on the different methods of CPP analytical characterization, focusing on recent techniques. Then, the CPP release occurring during the gastrointestinal digestion was reviewed, followed by the different CPP obtention processes and their impact on their physicochemical characteristics. Finally, the different bioactive roles attributed to CPPs, including mineral chelating properties, are discussed. We show that CPPs have a promising role in treating various pathologies, notably to compensate for deficiencies in certain nutrients and an anti-oxidant and anti-inflammatory role. Nevertheless, the mechanisms by which CPPs exert their role remain to be elucidated, and this requires precise characterization of CPPs. This work highlights the key parameters to be considered to study and produce CPPs and the different ways to be investigated in the future to elucidate their roles in vivo and characterize their potential for human health., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2022

44. Access to the Phospho-proteome via the Mitigation of Peptide-Metal Interactions.

Author

Hughes CJ, Gethings LA, Wilson ID, and Plumb RS

Subjects

Chromatography, Liquid methods, Mass Spectrometry methods, Metals, Proteomics methods, Phosphopeptides chemistry, Proteome

Abstract

Liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) has become the default platform for proteomics due to its specificity, sensitivity and sample compatibility. However, interactions between transition metals in LC systems and analytes containing phosphate groups result in poor chromatographic performance or even analyte loss. The use of systems where the metal surfaces had been treated with a hybrid inorganic/organic surface material to form an effective surface barrier mitigated these undesired interactions. When employed for the analysis of tryptic digests of Alpha and Beta Casein, along with synthetic "PhosphoMix" standards, the use of such a system showed significant improvements in chromatographic peak shape and analyte response together with superior spectral quality and sequence coverage. These improvements resulted in the detection of phosphorylated peptides ADEPSSESDLEIDK and ELSNSPLRENSFGSPLEFR from the PhosphoMix which went undetected with a standard, untreated LC system. The hybrid surface system thus offered significant advantages for the analysis of phosphopeptides compared to conventional LC/MS., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Christopher J. Hughes, Lee A. Gethings, and Robert S. Plumb are employees of Waters Corporation., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

45. Robust Dual-Biomimetic Titanium Dioxide-Cellulose Monolith for Enrichment of Phosphopeptides.

Author

Zhang L, Wang Y, Zhang W, Hsu YI, Asoh TA, Qi B, and Uyama H

Subjects

Biomimetics, HeLa Cells, Humans, Titanium, Cellulose, Phosphopeptides analysis, Phosphopeptides chemistry

Abstract

Metal oxide affinity chromatography (MOAC) is considered to be one of the most effective methods for phosphopeptide enrichment. However, most of the materials used in the method are powder; frequent centrifugation is necessitated during the enrichment process, and potential risks of loss of peptides and materials and clogging of the column employed for liquid chromatography-mass spectrometry (LC-MS) arise. Moreover, the reusability of these materials to achieve sustainability was hardly investigated. To overcome these limitations, herein, inorganic titanium dioxide (TiO 2 ) was coated onto the skeletal surface of the organic cellulose monolith (CM) material with a coral-like structure via a sol-gel method. This produced an organic-inorganic hybrid TiO 2 -CM material, which contained a combination of organic and inorganic substances, making it mimic the mollusk shell in terms of composition. The prepared TiO 2 -CM material as monolith exhibited excellent mechanical strength and did not break during the enrichment process; thus, the tedious implementation of multiple centrifugation cycles was prevented, thereby streamlining the experimental procedure and avoiding the loss of peptides and materials. Moreover, a large amount of TiO 2 was introduced onto the surface of the CM material, and thus, the resultant TiO 2 -CM material exhibited a large surface area. As a result, the fabricated TiO 2 -CM material was successfully applied to the enrichment of phosphopeptides obtained from the tryptic digests of a BSA/β-casein (mass ratio, 500/1) mixture. The results were superior to those achieved for commercial TiO 2 beads, confirming that TiO 2 -CM has excellent selectivity for phosphopeptides and reusability. Furthermore, 9287 unique phosphopeptides derived from the 2661 phosphoproteins were successfully identified from two milligrams of tryptic digests of Hela cell exosomes obtained through five independent replications after enriching using the TiO 2 -CM material. The results indicated that the material has good application prospects in the analysis of protein phosphorylation. Furthermore, TiO 2 -CM consists of green and cheap cellulose as the skeleton, and its synthesis process is environment-friendly, simple, and inexpensive.

Published

2022

46. Phosphopeptide enrichment using Phos-tag technology reveals functional phosphorylation of the nucleocapsid protein of SARS-CoV-2.

Author

Ino Y, Nishi M, Yamaoka Y, Miyakawa K, Jeremiah SS, Osada M, Kimura Y, and Ryo A

Subjects

Chromatography, Liquid, Coronavirus Nucleocapsid Proteins, Humans, NIMA-Interacting Peptidylprolyl Isomerase metabolism, Phosphoproteins, Phosphorylation, Phylogeny, Pyridines, Reproducibility of Results, SARS-CoV-2, Tandem Mass Spectrometry, Nucleocapsid Proteins chemistry, Phosphopeptides chemistry

Abstract

Phosphorylation of viral proteins serves as a regulatory mechanism during the intracellular life cycle of infected viruses. There is therefore a pressing need to develop a method to efficiently purify and enrich phosphopeptides derived from viral particles in biological samples. In this study, we utilized Phos-tag technology to analyze the functional phosphorylation of the nucleocapsid protein (N protein; NP) of severe respiratory syndrome coronavirus 2 (SARS-CoV-2). Viral particles were collected from culture supernatants of SARS-CoV-2-infected VeroE6/TMPRSS2 cells by ultracentrifugation, and phosphopeptides were purified by Phos-tag magnetic beads for LC-MS/MS analysis. Analysis revealed that NP was reproducibly phosphorylated at serine 79 (Ser79). Multiple sequence alignment and phylogenetic analysis showed that the Ser79 was a distinct phospho-acceptor site in SARS-CoV-2 but not in other beta-coronaviruses. We also found that the prolyl-isomerase Pin1 bound to the phosphorylated Ser79 in NP and positively regulated the production of viral particles. These results suggest that SARS-CoV-2 may have acquired the potent virus-host interaction during its evolution mediated by viral protein phosphorylation. Moreover, Phos-tag technology can provide a useful means for analyzing the functional phosphorylation of viral proteins. SIGNIFICANCE: In this study, we aimed to investigate the functional phosphorylation of SARS-CoV-2 NP. For this purpose, we used Phos-tag technology to purify and enrich virus-derived phosphopeptides with high selectivity and reproducibility. This method can be particularly useful in analyzing viral phosphopeptides from cell culture supernatants that often contain high concentrations of fetal bovine serum and supplements. We newly identified an NP phosphorylation site at Ser79, which is important for Pin1 binding. Furthermore, we showed that the interaction between Pin1 and phosphorylated NP could enhance viral replication in a cell culture model., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

47. Evaluation of Differential Peptide Loading on Tandem Mass Tag-Based Proteomic and Phosphoproteomic Data Quality.

Author

Sanford JA, Wang Y, Hansen JR, Gritsenko MA, Weitz KK, Sagendorf TJ, Tognon CE, Petyuk VA, Qian WJ, Liu T, Druker BJ, Rodland KD, and Piehowski PD

Subjects

Cells, Cultured, Chromatography, Affinity, Data Accuracy, Humans, Isotope Labeling, Leukocytes, Mononuclear chemistry, Phosphopeptides analysis, Phosphopeptides chemistry, Phosphopeptides isolation & purification, Proteomics methods, Proteomics standards, Tandem Mass Spectrometry methods, Tandem Mass Spectrometry standards

Abstract

Global and phosphoproteome profiling has demonstrated great utility for the analysis of clinical specimens. One barrier to the broad clinical application of proteomic profiling is the large amount of biological material required, particularly for phosphoproteomics─currently on the order of 25 mg wet tissue weight. For hematopoietic cancers such as acute myeloid leukemia (AML), the sample requirement is ≥10 million peripheral blood mononuclear cells (PBMCs). Across large study cohorts, this requirement will exceed what is obtainable for many individual patients/time points. For this reason, we were interested in the impact of differential peptide loading across multiplex channels on proteomic data quality. To achieve this, we tested a range of channel loading amounts (approximately the material obtainable from 5E5, 1E6, 2.5E6, 5E6, and 1E7 AML patient cells) to assess proteome coverage, quantification precision, and peptide/phosphopeptide detection in experiments utilizing isobaric tandem mass tag (TMT) labeling. As expected, fewer missing values were observed in TMT channels with higher peptide loading amounts compared to lower loadings. Moreover, channels with a lower loading have greater quantitative variability than channels with higher loadings. A statistical analysis showed that decreased loading amounts result in an increase in the type I error rate. We then examined the impact of differential loading on the detection of known differences between distinct AML cell lines. Similar patterns of increased data missingness and higher quantitative variability were observed as loading was decreased resulting in fewer statistical differences; however, we found good agreement in features identified as differential, demonstrating the value of this approach.

Published

2022

48. Bimetallic Ordered Large-Pore MesoMOFs for Simultaneous Enrichment and Dephosphorylation of Phosphopeptides.

Author

Chen J, Li K, Yang J, and Gu J

Subjects

Humans, Materials Testing, Particle Size, Phosphopeptides blood, Phosphopeptides chemistry, Phosphorylation, Porosity, Surface Properties, Cerium chemistry, Metal-Organic Frameworks chemistry, Phosphopeptides chemical synthesis, Zirconium chemistry

Abstract

Despite the fact that bimetallic metal-organic frameworks (MOFs) could afford multiple functionalities by a synergistic effect of individual metallic centers, their intrinsic microporous structure frequently restricts their wide applications with bulky molecules involved. An urgent need is consequently triggered to design bimetallic hierarchical mesoporous MOFs (mesoMOFs). Herein, Zr/Ce mesoMOFs with a uniform pore size of up to 8 nm was successfully synthesized by a copolymer template strategy with the aid of a Hoffmeister ion. The obtained Zr/Ce mesoMOFs feature high porosity, good chemical and thermal stabilities, and tunable element components, and up to 70% Zr could be incorporated into the mesoporous Ce-based framework without deteriorating its crystallinity. Thanks to the synergistic effect of inherent Ce and Zr as well as the large and open pore channels, a broad range of phosphopeptides with different molecule sizes could be effectively checked out, thanks to their simultaneous enrichment and dephosphorylation capabilities. Such an ability to efficiently concentrate phosphopeptides remained intact even in the presence of abundant non-phosphorylated species. The practical detection of phosphopeptides from human serum was also verified, prefiguring the great potentials of bimetallic large-pore mesoMOFs for the proteome applications.

Published

2021

49. Design of a Spiropyran-Based Smart Adsorbent with Dual Response: Focusing on Highly Efficient Enrichment of Phosphopeptides.

Author

Zhao Y, Li Z, Ma J, and Jia Q

Subjects

Adsorption, Animals, Benzopyrans chemical synthesis, Cattle, Humans, Hydrogen-Ion Concentration, Indoles chemical synthesis, Magnetite Nanoparticles chemistry, Milk chemistry, Molecular Structure, Nitro Compounds chemical synthesis, Particle Size, Surface Properties, Benzopyrans chemistry, Indoles chemistry, Nitro Compounds chemistry, Phosphopeptides chemistry

Abstract

Smart responsive materials have attractive application prospects due to their tunable behaviors. In this work, we design novel spiropyran (SP)-based magnetic nanoparticles (MNP-SP) with dual response to ultraviolet light and pH and apply them to the enrichment of phosphopeptides. SP is modified on the surface of magnetic nanoparticles through a simple esterification reaction, based on which an MNP-SP-MS phosphopeptide identification platform is established. The capture and release of phosphopeptides are facilely adjusted by changing external light and the pH of the solution. The smart responsive MNP-SP has fast magnetic response performance, high sensitivity (detection limit of 0.4 fmol), and good reusability (6 cycles). In addition, MNP-SP is used for the enrichment of phosphopeptides in skimmed milk, human saliva, and human serum samples, indicating that it is an ideal adsorbent for enriching low-abundance phosphopeptides in complex biological environments.

Published

2021

50. One-pot synthesis and multiple MS/MS fragmentation studies of phospholysine peptides.

Author

Zhao X, Fu S, Zhao Y, and Ni F

Subjects

Amino Acid Sequence, Phosphorylation, Tandem Mass Spectrometry, Chemistry Techniques, Synthetic methods, Lysine chemistry, Phosphopeptides chemical synthesis, Phosphopeptides chemistry

Abstract

Rationale: Compared with phosphorylation of arginine and histidine, the study of phosphorylation of lysine lags far behind. The major challenges toward the current study of phosphorylation of lysine include synthesis and unambiguous phosphosite identification. This study provided a simple chemical synthesis method to construct phospholysine peptides (pLys peptides) and investigated their fragmentation under multiple activation types., Methods: Herein, we developed a synthetic method for pLys peptides in aqueous solution within one pot. Two peptides were lysine-phosphorylated using this method. The purified pLys peptides were first characterized using NMR, then were subjected to nano-liquid chromatography-tandem mass spectrometry (nanoLC-MS/MS) analysis under multiple fragmentation method including collision-induced dissociation (CID), higher energy collisional dissociation (HCD), electron transfer dissociation (ETD), electron transfer/higher energy collisional dissociation (EThcD), and ultraviolet photodissociation (UVPD) fragmentation to investigate the relevant diagnostic ions., Results: Two pLys peptides were synthesized with a moderate yield following an easily handled experimental protocol. NMR spectra showed the phosphorylation occurred on ε-NH 2 of lysine but not other groups. As for the fragmentation, in general, pLys immonium ions and phosphate-related neutral losses were ubiquitous among spectra derived from these activation types except for ETD. Using these ions as diagnostic ions, the misassigned phosphosites by algorithm could be recorrected. UVPD-generated spectra owned good sequence-coverage and abundant fragment ions, with pLys immonium ions and neutral losses of weak intensity., Conclusions: A synthetic method was developed for pLys peptides in aqueous solution within one pot. The characteristic pLys immonium ions and phosphate-related neutral loss could serve as the diagnostic ions for unambiguous phosphosite identification of pLys peptides. In addition, UVPD was promising for the identification of pLys peptides., (© 2021 John Wiley & Sons Ltd.)

Published

2021