Detection of Functional Overreaching in Endurance Athletes Using Proteomics

Detection of Functional Overreaching in Endurance Athletes Using Proteomics

No reliable biomarkers exist to identify athletes in various training states including functional overreaching (FOR), non-functional overreaching (NFOR), and overtraining syndrome (OTS). Participants (N = 10, age 38.3 ± 3.4 years) served as their own controls and in random, counterbalance...

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Main Authors: David C. Nieman, Arnoud J. Groen, Artyom Pugachev, Gianmarco Vacca
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Proteomes
Subjects:
blood proteins
exercise
acute phase response
complement
granulocytes
Online Access:http://www.mdpi.com/2227-7382/6/3/33
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spelling doaj-104860080e3d4680ae4cb6861706440d2020-11-25T02:17:26ZengMDPI AGProteomes2227-73822018-09-01633310.3390/proteomes6030033proteomes6030033Detection of Functional Overreaching in Endurance Athletes Using ProteomicsDavid C. Nieman0Arnoud J. Groen1Artyom Pugachev2Gianmarco Vacca3North Carolina Research Campus, Appalachian State University, Kannapolis, NC 28081, USAProteiQ Biosciences GmbH, 10967 Berlin, GermanyProteiQ Biosciences GmbH, 10967 Berlin, GermanyDepartment of Statistics and Quantitative Methods, Università degli Studi di Milano-Bicocca, 20126 Milan, ItalyNo reliable biomarkers exist to identify athletes in various training states including functional overreaching (FOR), non-functional overreaching (NFOR), and overtraining syndrome (OTS). Participants (N = 10, age 38.3 ± 3.4 years) served as their own controls and in random, counterbalanced order either ran/cycled 2.5 h (70.0 ± 3.7% VO2max) three days in a row (FOR) or sat in the lab (rest) (separated by three weeks; 7:00–9:30 am, overnight fasted state). Participants provided fingerprick samples for dried blood spot samples (DBS) pre- and post-exercise/rest, and then during two recovery days. DBS proteins were measured with nanoLC-MS in data-independent acquisition (DIA) mode, and 593 proteins were identified and quantified. Proteins were considered for the FOR cluster if they were elevated during one of the two recovery days but not more than one of the exercise days (compared to rest). The generalized estimating equation (GEE) was used to identify proteins linked to FOR. A total of 13 proteins was linked to FOR and most were associated with the acute phase response and innate immune system activation. This study used a system-wide proteomics approach to define a targeted panel of blood proteins related to FOR that could form the basis of future NFOR- and OTS-based studies.http://www.mdpi.com/2227-7382/6/3/33blood proteinsexerciseacute phase responsecomplementgranulocytes
collection DOAJ
language English
format Article
sources DOAJ
author David C. Nieman
Arnoud J. Groen
Artyom Pugachev
Gianmarco Vacca
spellingShingle David C. Nieman
Arnoud J. Groen
Artyom Pugachev
Gianmarco Vacca
Detection of Functional Overreaching in Endurance Athletes Using Proteomics
Proteomes
blood proteins
exercise
acute phase response
complement
granulocytes
author_facet David C. Nieman
Arnoud J. Groen
Artyom Pugachev
Gianmarco Vacca
author_sort David C. Nieman
title Detection of Functional Overreaching in Endurance Athletes Using Proteomics
title_short Detection of Functional Overreaching in Endurance Athletes Using Proteomics
title_full Detection of Functional Overreaching in Endurance Athletes Using Proteomics
title_fullStr Detection of Functional Overreaching in Endurance Athletes Using Proteomics
title_full_unstemmed Detection of Functional Overreaching in Endurance Athletes Using Proteomics
title_sort detection of functional overreaching in endurance athletes using proteomics
publisher MDPI AG
series Proteomes
issn 2227-7382
publishDate 2018-09-01
description No reliable biomarkers exist to identify athletes in various training states including functional overreaching (FOR), non-functional overreaching (NFOR), and overtraining syndrome (OTS). Participants (N = 10, age 38.3 ± 3.4 years) served as their own controls and in random, counterbalanced order either ran/cycled 2.5 h (70.0 ± 3.7% VO2max) three days in a row (FOR) or sat in the lab (rest) (separated by three weeks; 7:00–9:30 am, overnight fasted state). Participants provided fingerprick samples for dried blood spot samples (DBS) pre- and post-exercise/rest, and then during two recovery days. DBS proteins were measured with nanoLC-MS in data-independent acquisition (DIA) mode, and 593 proteins were identified and quantified. Proteins were considered for the FOR cluster if they were elevated during one of the two recovery days but not more than one of the exercise days (compared to rest). The generalized estimating equation (GEE) was used to identify proteins linked to FOR. A total of 13 proteins was linked to FOR and most were associated with the acute phase response and innate immune system activation. This study used a system-wide proteomics approach to define a targeted panel of blood proteins related to FOR that could form the basis of future NFOR- and OTS-based studies.
topic blood proteins
exercise
acute phase response
complement
granulocytes
url http://www.mdpi.com/2227-7382/6/3/33
work_keys_str_mv AT davidcnieman detectionoffunctionaloverreachinginenduranceathletesusingproteomics
AT arnoudjgroen detectionoffunctionaloverreachinginenduranceathletesusingproteomics
AT artyompugachev detectionoffunctionaloverreachinginenduranceathletesusingproteomics
AT gianmarcovacca detectionoffunctionaloverreachinginenduranceathletesusingproteomics
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