Aging and putative frailty biomarkers are altered by spaceflight

Andrea Camera; Marshall Tabetah; Veronica Castañeda; Jang Keun Kim; Aman Singh Galsinh; Alissen Haro-Vinueza; Ivonne Salinas; Allen Seylani; Shehbeel Arif; Saswati Das; Marcelo A. Mori; Anthony Carano; Lorraine Christine de Oliveira; Masafumi Muratani; Richard Barker; Victoria Zaksas; Chirag Goel; Eleni Dimokidis; Deanne M. Taylor; Jisu Jeong; Eliah Overbey; Cem Meydan; D. Marshall Porterfield; Juan Esteban Díaz; Andrés Caicedo; Jonathan C. Schisler; Evagelia C. Laiakis; Christopher E. Mason; Man S. Kim; Fathi Karouia; Nathaniel J. Szewczyk; Afshin Beheshti

doi:10.1038/s41598-024-57948-5

Aging and putative frailty biomarkers are altered by spaceflight

Andrea Camera, Marshall Tabetah, Veronica Castañeda, Jang Keun Kim, Aman Singh Galsinh, Alissen Haro-Vinueza, Ivonne Salinas, Allen Seylani, Shehbeel Arif, Saswati Das, Marcelo A. Mori, Anthony Carano, Lorraine Christine de Oliveira, Masafumi Muratani, Richard Barker, Victoria Zaksas, Chirag Goel, Eleni Dimokidis, Deanne M. Taylor, Jisu JeongEliah Overbey, Cem Meydan, D. Marshall Porterfield, Juan Esteban Díaz, Andrés Caicedo, Jonathan C. Schisler, Evagelia C. Laiakis, Christopher E. Mason, Man S. Kim, Fathi Karouia, Nathaniel J. Szewczyk, Afshin Beheshti

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Resumen

Human space exploration poses inherent risks to astronauts’ health, leading to molecular changes that can significantly impact their well-being. These alterations encompass genomic instability, mitochondrial dysfunction, increased inflammation, homeostatic dysregulation, and various epigenomic changes. Remarkably, these changes bear similarities to those observed during the aging process on Earth. However, our understanding of the connection between these molecular shifts and disease development in space remains limited. Frailty syndrome, a clinical syndrome associated with biological aging, has not been comprehensively investigated during spaceflight. To bridge this knowledge gap, we leveraged murine data obtained from NASA’s GeneLab, along with astronaut data gathered from the JAXA and Inspiration4 missions. Our objective was to assess the presence of biological markers and pathways related to frailty, aging, and sarcopenia within the spaceflight context. Through our analysis, we identified notable changes in gene expression patterns that may be indicative of the development of a frailty-like condition during space missions. These findings suggest that the parallels between spaceflight and the aging process may extend to encompass frailty as well. Consequently, further investigations exploring the utility of a frailty index in monitoring astronaut health appear to be warranted.

Idioma original	Inglés
Número de artículo	13098
Publicación	Scientific Reports
Volumen	14
N.º	1
DOI	https://doi.org/10.1038/s41598-024-57948-5
Estado	Publicada - dic. 2024

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Camera, A., Tabetah, M., Castañeda, V., Kim, J. K., Galsinh, A. S., Haro-Vinueza, A., Salinas, I., Seylani, A., Arif, S., Das, S., Mori, M. A., Carano, A., de Oliveira, L. C., Muratani, M., Barker, R., Zaksas, V., Goel, C., Dimokidis, E., Taylor, D. M., ... Beheshti, A. (2024). Aging and putative frailty biomarkers are altered by spaceflight. Scientific Reports, 14(1), Artículo 13098. https://doi.org/10.1038/s41598-024-57948-5

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title = "Aging and putative frailty biomarkers are altered by spaceflight",

abstract = "Human space exploration poses inherent risks to astronauts{\textquoteright} health, leading to molecular changes that can significantly impact their well-being. These alterations encompass genomic instability, mitochondrial dysfunction, increased inflammation, homeostatic dysregulation, and various epigenomic changes. Remarkably, these changes bear similarities to those observed during the aging process on Earth. However, our understanding of the connection between these molecular shifts and disease development in space remains limited. Frailty syndrome, a clinical syndrome associated with biological aging, has not been comprehensively investigated during spaceflight. To bridge this knowledge gap, we leveraged murine data obtained from NASA{\textquoteright}s GeneLab, along with astronaut data gathered from the JAXA and Inspiration4 missions. Our objective was to assess the presence of biological markers and pathways related to frailty, aging, and sarcopenia within the spaceflight context. Through our analysis, we identified notable changes in gene expression patterns that may be indicative of the development of a frailty-like condition during space missions. These findings suggest that the parallels between spaceflight and the aging process may extend to encompass frailty as well. Consequently, further investigations exploring the utility of a frailty index in monitoring astronaut health appear to be warranted.",

author = "Andrea Camera and Marshall Tabetah and Veronica Casta{\~n}eda and Kim, {Jang Keun} and Galsinh, {Aman Singh} and Alissen Haro-Vinueza and Ivonne Salinas and Allen Seylani and Shehbeel Arif and Saswati Das and Mori, {Marcelo A.} and Anthony Carano and {de Oliveira}, {Lorraine Christine} and Masafumi Muratani and Richard Barker and Victoria Zaksas and Chirag Goel and Eleni Dimokidis and Taylor, {Deanne M.} and Jisu Jeong and Eliah Overbey and Cem Meydan and Porterfield, {D. Marshall} and D{\'i}az, {Juan Esteban} and Andr{\'e}s Caicedo and Schisler, {Jonathan C.} and Laiakis, {Evagelia C.} and Mason, {Christopher E.} and Kim, {Man S.} and Fathi Karouia and Szewczyk, {Nathaniel J.} and Afshin Beheshti",

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Camera, A, Tabetah, M, Castañeda, V, Kim, JK, Galsinh, AS, Haro-Vinueza, A, Salinas, I, Seylani, A, Arif, S, Das, S, Mori, MA, Carano, A, de Oliveira, LC, Muratani, M, Barker, R, Zaksas, V, Goel, C, Dimokidis, E, Taylor, DM, Jeong, J, Overbey, E, Meydan, C, Porterfield, DM, Díaz, JE, Caicedo, A, Schisler, JC, Laiakis, EC, Mason, CE, Kim, MS, Karouia, F, Szewczyk, NJ & Beheshti, A 2024, 'Aging and putative frailty biomarkers are altered by spaceflight', Scientific Reports, vol. 14, n.º 1, 13098. https://doi.org/10.1038/s41598-024-57948-5

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AU - Camera, Andrea

AU - Tabetah, Marshall

AU - Castañeda, Veronica

AU - Kim, Jang Keun

AU - Galsinh, Aman Singh

AU - Haro-Vinueza, Alissen

AU - Salinas, Ivonne

AU - Seylani, Allen

AU - Arif, Shehbeel

AU - Das, Saswati

AU - Mori, Marcelo A.

AU - Carano, Anthony

AU - de Oliveira, Lorraine Christine

AU - Muratani, Masafumi

AU - Barker, Richard

AU - Zaksas, Victoria

AU - Goel, Chirag

AU - Dimokidis, Eleni

AU - Taylor, Deanne M.

AU - Jeong, Jisu

AU - Overbey, Eliah

AU - Meydan, Cem

AU - Porterfield, D. Marshall

AU - Díaz, Juan Esteban

AU - Caicedo, Andrés

AU - Schisler, Jonathan C.

AU - Laiakis, Evagelia C.

AU - Mason, Christopher E.

AU - Kim, Man S.

AU - Karouia, Fathi

AU - Szewczyk, Nathaniel J.

AU - Beheshti, Afshin

PY - 2024/12

Y1 - 2024/12

N2 - Human space exploration poses inherent risks to astronauts’ health, leading to molecular changes that can significantly impact their well-being. These alterations encompass genomic instability, mitochondrial dysfunction, increased inflammation, homeostatic dysregulation, and various epigenomic changes. Remarkably, these changes bear similarities to those observed during the aging process on Earth. However, our understanding of the connection between these molecular shifts and disease development in space remains limited. Frailty syndrome, a clinical syndrome associated with biological aging, has not been comprehensively investigated during spaceflight. To bridge this knowledge gap, we leveraged murine data obtained from NASA’s GeneLab, along with astronaut data gathered from the JAXA and Inspiration4 missions. Our objective was to assess the presence of biological markers and pathways related to frailty, aging, and sarcopenia within the spaceflight context. Through our analysis, we identified notable changes in gene expression patterns that may be indicative of the development of a frailty-like condition during space missions. These findings suggest that the parallels between spaceflight and the aging process may extend to encompass frailty as well. Consequently, further investigations exploring the utility of a frailty index in monitoring astronaut health appear to be warranted.

AB - Human space exploration poses inherent risks to astronauts’ health, leading to molecular changes that can significantly impact their well-being. These alterations encompass genomic instability, mitochondrial dysfunction, increased inflammation, homeostatic dysregulation, and various epigenomic changes. Remarkably, these changes bear similarities to those observed during the aging process on Earth. However, our understanding of the connection between these molecular shifts and disease development in space remains limited. Frailty syndrome, a clinical syndrome associated with biological aging, has not been comprehensively investigated during spaceflight. To bridge this knowledge gap, we leveraged murine data obtained from NASA’s GeneLab, along with astronaut data gathered from the JAXA and Inspiration4 missions. Our objective was to assess the presence of biological markers and pathways related to frailty, aging, and sarcopenia within the spaceflight context. Through our analysis, we identified notable changes in gene expression patterns that may be indicative of the development of a frailty-like condition during space missions. These findings suggest that the parallels between spaceflight and the aging process may extend to encompass frailty as well. Consequently, further investigations exploring the utility of a frailty index in monitoring astronaut health appear to be warranted.

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U2 - 10.1038/s41598-024-57948-5

DO - 10.1038/s41598-024-57948-5

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SN - 2045-2322

VL - 14

JO - Scientific Reports

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ER -

Aging and putative frailty biomarkers are altered by spaceflight

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