Cargando…
Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes
Strenuous physical exercise causes a massive elevation in the concentration of circulating cell-free DNA (cfDNA), which correlates with effort intensity and duration. The cellular sources and physiological drivers of this phenomenon are unknown. Using methylation patterns of cfDNA and associated his...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Elsevier
2023
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10313937/ https://www.ncbi.nlm.nih.gov/pubmed/37290439 http://dx.doi.org/10.1016/j.xcrm.2023.101074 |
| _version_ | 1785067213136330752 |
|---|---|
| author | Fridlich, Ori Peretz, Ayelet Fox-Fisher, Ilana Pyanzin, Sheina Dadon, Ziv Shcolnik, Eilon Sadeh, Ronen Fialkoff, Gavriel Sharkia, Israa Moss, Joshua Arpinati, Ludovica Nice, Shachar Nogiec, Christopher D. Ahuno, Samuel Terkper Li, Rui Taborda, Eddie Dunkelbarger, Sonia Fridlender, Zvi G. Polak, Paz Kaplan, Tommy Friedman, Nir Glaser, Benjamin Shemer, Ruth Constantini, Naama Dor, Yuval |
| author_facet | Fridlich, Ori Peretz, Ayelet Fox-Fisher, Ilana Pyanzin, Sheina Dadon, Ziv Shcolnik, Eilon Sadeh, Ronen Fialkoff, Gavriel Sharkia, Israa Moss, Joshua Arpinati, Ludovica Nice, Shachar Nogiec, Christopher D. Ahuno, Samuel Terkper Li, Rui Taborda, Eddie Dunkelbarger, Sonia Fridlender, Zvi G. Polak, Paz Kaplan, Tommy Friedman, Nir Glaser, Benjamin Shemer, Ruth Constantini, Naama Dor, Yuval |
| author_sort | Fridlich, Ori |
| collection | PubMed |
| description | Strenuous physical exercise causes a massive elevation in the concentration of circulating cell-free DNA (cfDNA), which correlates with effort intensity and duration. The cellular sources and physiological drivers of this phenomenon are unknown. Using methylation patterns of cfDNA and associated histones, we show that cfDNA in exercise originates mostly in extramedullary polymorphonuclear neutrophils. Strikingly, cardiomyocyte cfDNA concentration increases after a marathon, consistent with elevated troponin levels and indicating low-level, delayed cardiac cell death. Physical impact, low oxygen levels, and elevated core body temperature contribute to neutrophil cfDNA release, while muscle contraction, increased heart rate, β-adrenergic signaling, or steroid treatment fail to cause elevation of cfDNA. Physical training reduces neutrophil cfDNA release after a standard exercise, revealing an inverse relationship between exercise-induced cfDNA release and training level. We speculate that the release of cfDNA from neutrophils in exercise relates to the activation of neutrophils in the context of exercise-induced muscle damage. |
| format | Online Article Text |
| id | pubmed-10313937 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | Elsevier |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-103139372023-07-02 Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes Fridlich, Ori Peretz, Ayelet Fox-Fisher, Ilana Pyanzin, Sheina Dadon, Ziv Shcolnik, Eilon Sadeh, Ronen Fialkoff, Gavriel Sharkia, Israa Moss, Joshua Arpinati, Ludovica Nice, Shachar Nogiec, Christopher D. Ahuno, Samuel Terkper Li, Rui Taborda, Eddie Dunkelbarger, Sonia Fridlender, Zvi G. Polak, Paz Kaplan, Tommy Friedman, Nir Glaser, Benjamin Shemer, Ruth Constantini, Naama Dor, Yuval Cell Rep Med Article Strenuous physical exercise causes a massive elevation in the concentration of circulating cell-free DNA (cfDNA), which correlates with effort intensity and duration. The cellular sources and physiological drivers of this phenomenon are unknown. Using methylation patterns of cfDNA and associated histones, we show that cfDNA in exercise originates mostly in extramedullary polymorphonuclear neutrophils. Strikingly, cardiomyocyte cfDNA concentration increases after a marathon, consistent with elevated troponin levels and indicating low-level, delayed cardiac cell death. Physical impact, low oxygen levels, and elevated core body temperature contribute to neutrophil cfDNA release, while muscle contraction, increased heart rate, β-adrenergic signaling, or steroid treatment fail to cause elevation of cfDNA. Physical training reduces neutrophil cfDNA release after a standard exercise, revealing an inverse relationship between exercise-induced cfDNA release and training level. We speculate that the release of cfDNA from neutrophils in exercise relates to the activation of neutrophils in the context of exercise-induced muscle damage. Elsevier 2023-06-07 /pmc/articles/PMC10313937/ /pubmed/37290439 http://dx.doi.org/10.1016/j.xcrm.2023.101074 Text en © 2023 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
| spellingShingle | Article Fridlich, Ori Peretz, Ayelet Fox-Fisher, Ilana Pyanzin, Sheina Dadon, Ziv Shcolnik, Eilon Sadeh, Ronen Fialkoff, Gavriel Sharkia, Israa Moss, Joshua Arpinati, Ludovica Nice, Shachar Nogiec, Christopher D. Ahuno, Samuel Terkper Li, Rui Taborda, Eddie Dunkelbarger, Sonia Fridlender, Zvi G. Polak, Paz Kaplan, Tommy Friedman, Nir Glaser, Benjamin Shemer, Ruth Constantini, Naama Dor, Yuval Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title | Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title_full | Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title_fullStr | Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title_full_unstemmed | Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title_short | Elevated cfDNA after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| title_sort | elevated cfdna after exercise is derived primarily from mature polymorphonuclear neutrophils, with a minor contribution of cardiomyocytes |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10313937/ https://www.ncbi.nlm.nih.gov/pubmed/37290439 http://dx.doi.org/10.1016/j.xcrm.2023.101074 |
| work_keys_str_mv | AT fridlichori elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT peretzayelet elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT foxfisherilana elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT pyanzinsheina elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT dadonziv elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT shcolnikeilon elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT sadehronen elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT fialkoffgavriel elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT sharkiaisraa elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT mossjoshua elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT arpinatiludovica elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT niceshachar elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT nogiecchristopherd elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT ahunosamuelterkper elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT lirui elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT tabordaeddie elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT dunkelbargersonia elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT fridlenderzvig elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT polakpaz elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT kaplantommy elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT friedmannir elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT glaserbenjamin elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT shemerruth elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT constantininaama elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes AT doryuval elevatedcfdnaafterexerciseisderivedprimarilyfrommaturepolymorphonuclearneutrophilswithaminorcontributionofcardiomyocytes |