Phenotyping multiple subsets in Sjögren’s syndrome: a salivary proteomic SWATH-MS approach towards precision medicine

Cecchettini, Antonella; Finamore, Francesco; Ucciferri, Nadia; Donati, Valentina; Mattii, Letizia; Polizzi, Enza; Ferro, Francesco; Sernissi, Francesca; Mosca, Marta; Bombardieri, Stefano; Rocchiccioli, Silvia; Baldini, Chiara

doi:10.1186/s12014-019-9245-1

Cited by 23 publications

(16 citation statements)

References 39 publications

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“…Proteins commonly identified/quantified in both EVs and WS included groups of proteins previously found in saliva like cystatins family (B, D, S, SA, and SN), BPI fold-containing family A and B members, mucins 5AC and CB and mucin 7, some members of S100 proteins (A8 and A9) and prolactin-inducible protein that was previously shown as potential salivary biomarker of pSS by our group [ 9 ]. Proteins exclusively quantified in WS mainly included a class of proteins that are major components of parotid and submandibular gland tissue in humans which are the basic salivary proline-rich protein 2, small proline-rich proteins 2A, 2B, 2D, 2E, 2G, and 2F.…”

Section: Resultsmentioning

confidence: 99%

“…During the last decade, salivary proteomics has appeared as a promising tool for identifying specific biomarkers able to mirror no-invasively pSS-related salivary gland inflammation and dysfunction [ 8 ]. Indeed, existing literature has described a number of qualitative and quantitative protein abnormalities in pSS saliva composition potentially correlated with the oral inflammation and salivary rheological alterations observed during the disease course suggesting that salivary proteomic biomarkers and salivary cytokines may be able to reflect not only the local but also the systemic activity of the disease [ 9 , 10 , 11 , 12 , 13 , 14 , 15 ]. However, despite the advantages recognized in studying whole saliva (WS), several potential limitations have been gradually come to light.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Extracellular Vesicle Cargo in Sjögren’s Syndrome through a SWATH-MS Proteomics Approach

Finamore¹,

Cecchettini

Ceccherini³

et al. 2021

IJMS

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Primary Sjögren’s syndrome (pSS) is a complex heterogeneous disease characterized by a wide spectrum of glandular and extra-glandular manifestations. In this pilot study, a SWATH-MS approach was used to monitor extracellular vesicles-enriched saliva (EVs) sub-proteome in pSS patients, to compare it with whole saliva (WS) proteome, and assess differential expressed proteins between pSS and healthy control EVs samples. Comparison between EVs and WS led to the characterization of compartment-specific proteins with a moderate degree of overlap. A total of 290 proteins were identified and quantified in EVs from healthy and pSS patients. Among those, 121 proteins were found to be differentially expressed in pSS, 82% were found to be upregulated, and 18% downregulated in pSS samples. The most representative functional pathways associated to the protein networks were related to immune-innate response, including several members of S100 protein family, annexin A2, resistin, serpin peptidase inhibitors, azurocidin, and CD14 monocyte differentiation antigen. Our results highlight the usefulness of EVs for the discovery of novel salivary-omic biomarkers and open novel perspectives in pSS for the identification of proteins of clinical relevance that could be used not only for the disease diagnosis but also to improve patients’ stratification and treatment-monitoring. Data are available via ProteomeXchange with identifier PXD025649.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Characterization of Extracellular Vesicle Cargo in Sjögren’s Syndrome through a SWATH-MS Proteomics Approach

Finamore¹,

Cecchettini

Ceccherini³

et al. 2021

IJMS

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“…The ability to capture all peptide precursor ions dramatically improves reproducibility in protein identification across multiple samples. These quantitative digital proteome maps have been shown to have wide applications in medical research, such as the discovery of potential biomarkers and therapeutic targets ( Cecchettini et al, 2019 ; Gao et al, 2017 ; Miyauchi et al, 2018 ; Hou et al, 2016 ; Xu et al, 2018 ), as well as tumour proteotyping for cancer stratification and classification ( Bouchal et al, 2019 ; Zhu et al, 2019 ).…”

Section: Introductionmentioning

confidence: 99%

A mouse SWATH-MS reference spectral library enables deconvolution of species-specific proteomic alterations in human tumour xenografts

Krásný

Bland

Burns

et al. 2020

Disease Models &Amp; Mechanisms

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SWATH-mass spectrometry (MS) enables accurate and reproducible proteomic profiling in multiple model organisms including the mouse. Here, we present a comprehensive mouse reference spectral library (MouseRefSWATH) that permits quantification of up to 10,597 proteins (62.2% of the mouse proteome) by SWATH-MS. We exploit MouseRefSWATH to develop an analytical pipeline for species-specific deconvolution of proteomic alterations in human tumour xenografts (XenoSWATH). This method overcomes the challenge of high sequence similarity between mouse and human proteins, facilitating the study of host microenvironment-tumour interactions from ‘bulk tumour’ measurements. We apply the XenoSWATH pipeline to characterize an intraductal xenograft model of breast ductal carcinoma in situ and uncover complex regulation consistent with stromal reprogramming, where the modulation of cell migration pathways is not restricted to tumour cells but also operates in the mouse stroma upon progression to invasive disease. MouseRefSWATH and XenoSWATH open new opportunities for in-depth and reproducible proteomic assessment to address wide-ranging biological questions involving this important model organism.

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“…In this manner, all precursor ions generated from the sample under investigation are fragmented and their fragmentation spectra acquired for subsequent in silico analysis. These quantitative digital proteome maps have been shown to have wide applications in medical research such as the discovery of potential biomarkers and therapeutic targets [6–10] as well as tumour proteotyping for cancer stratification and classification [11, 12].…”

Section: Introductionmentioning

confidence: 99%

A mouse SWATH-MS reference spectral library enables deconvolution of species-specific proteomic alterations in human tumour xenografts

Krásný

Bland

Burns

et al. 2020

Preprint

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2 SWATH-mass spectrometry (MS) enables accurate and reproducible proteomic profiling in 3 multiple model organisms including the mouse. Here we present a comprehensive mouse 4 reference spectral library (MouseRefSWATH) that permits quantification of up to 10,597 5 proteins (62.2% of the mouse proteome) by SWATH-MS. We exploit MouseRefSWATH to 6 develop an analytical pipeline for species-specific deconvolution of proteomic alterations in 7 human tumour xenografts (XenoSWATH). This method overcomes the challenge of high 8 sequence similarity between mouse and human proteins, facilitating the study of host 9 microenvironment-tumour interactions from 'bulk tumour' measurements. We apply the 10 XenoSWATH pipeline to characterise an intraductal xenograft model of breast ductal 11 carcinoma in-situ and uncover complex regulation of cell migration pathways that are not 12 restricted to tumour cells but also operate in the mouse stroma upon progression to invasive 13 disease. MouseRefSWATH and XenoSWATH opens new opportunities for in-depth and 14 reproducible proteomic assessment to address wide-ranging biological questions involving 15 this important model organism. 16 17 18 19Key to the success of SWATH-MS is the use of retention-time calibrated spectral libraries to 20 identify and quantify peptides from the complex fragment ion mass spectra encoded within 21 digital proteome maps [13]. While most published SWATH-MS studies have utilised study-22

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Phenotyping multiple subsets in Sjögren’s syndrome: a salivary proteomic SWATH-MS approach towards precision medicine

Cited by 23 publications

References 39 publications

Characterization of Extracellular Vesicle Cargo in Sjögren’s Syndrome through a SWATH-MS Proteomics Approach

Characterization of Extracellular Vesicle Cargo in Sjögren’s Syndrome through a SWATH-MS Proteomics Approach

A mouse SWATH-MS reference spectral library enables deconvolution of species-specific proteomic alterations in human tumour xenografts

A mouse SWATH-MS reference spectral library enables deconvolution of species-specific proteomic alterations in human tumour xenografts

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