The mitochondrial side of frailty

Emanuele Marzetti; Rosa Di Lorenzo; Anna Picca

doi:10.1097/mco.0000000000001175

The mitochondrial side of frailty

Emanuele Marzetti, Rosa Di Lorenzo, Anna Picca

Risultato della ricerca: Contributo in rivista › Articolo › peer review

Abstract

Purpose of review. Frailty, a prevalent geriatric condition marked by reduced physiological reserve and greater vulnerability to stressors, is increasingly linked to mitochondrial dysfunction. This review summarizes current evidence on mitochondrial quality control, bioenergetics, and signaling in frailty, with emphasis on biomarker discovery and translational potential.\r\nRecent findings. Preclinical and human studies have shown that impaired mitochondrial biogenesis, altered dynamics, and defective mitophagy contribute to frailty, sarcopenia, and immune dysregulation. Frail older adults exhibit reduced mitochondrial DNA content, diminished mitochondrial respiratory capacity, elevated reactive oxygen species generation, and distinctive metabolomic changes. Potential biomarkers include mitochondria-derived vesicles, circulating metabolites, and measures of peripheral blood mononuclear cell respiration, which may enable early detection of functional decline. Multivariate profiling approaches have identified sex-specific and shared molecular signatures converging on mitochondrial pathways. Interventions promoting mitochondrial health, including resistance training and targeted immunomodulation, hold promise in slowing frailty progression.\r\nSummary. Mitochondrial dysfunction lies at the intersection of musculoskeletal, metabolic, and immune changes underpinning frailty. While integrative biomarker panels have defined metabolic signatures, early diagnosis and personalized therapies remain unmet needs. Longitudinal studies are required to establish causality, refine biomarker utility, and guide precision medicine strategies to preserve mitochondrial function, extend healthspan, and improve quality of life in aging populations.

Lingua originale	Inglese
pagine (da-a)	1-7
Numero di pagine	7
Rivista	Current Opinion in Clinical Nutrition and Metabolic Care
Volume	2025
Numero di pubblicazione	N/A
DOI	https://doi.org/10.1097/mco.0000000000001175
Stato di pubblicazione	Pubblicato - 2025

Keywords

inflammaging
metabolic dysregulation
mitochondrial quality control
oxidative capacity
physical frailty

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title = "The mitochondrial side of frailty",

abstract = "Purpose of review. Frailty, a prevalent geriatric condition marked by reduced physiological reserve and greater vulnerability to stressors, is increasingly linked to mitochondrial dysfunction. This review summarizes current evidence on mitochondrial quality control, bioenergetics, and signaling in frailty, with emphasis on biomarker discovery and translational potential.\textbackslash{}r\textbackslash{}nRecent findings. Preclinical and human studies have shown that impaired mitochondrial biogenesis, altered dynamics, and defective mitophagy contribute to frailty, sarcopenia, and immune dysregulation. Frail older adults exhibit reduced mitochondrial DNA content, diminished mitochondrial respiratory capacity, elevated reactive oxygen species generation, and distinctive metabolomic changes. Potential biomarkers include mitochondria-derived vesicles, circulating metabolites, and measures of peripheral blood mononuclear cell respiration, which may enable early detection of functional decline. Multivariate profiling approaches have identified sex-specific and shared molecular signatures converging on mitochondrial pathways. Interventions promoting mitochondrial health, including resistance training and targeted immunomodulation, hold promise in slowing frailty progression.\textbackslash{}r\textbackslash{}nSummary. Mitochondrial dysfunction lies at the intersection of musculoskeletal, metabolic, and immune changes underpinning frailty. While integrative biomarker panels have defined metabolic signatures, early diagnosis and personalized therapies remain unmet needs. Longitudinal studies are required to establish causality, refine biomarker utility, and guide precision medicine strategies to preserve mitochondrial function, extend healthspan, and improve quality of life in aging populations.",

keywords = "inflammaging, metabolic dysregulation, mitochondrial quality control, oxidative capacity, physical frailty, inflammaging, metabolic dysregulation, mitochondrial quality control, oxidative capacity, physical frailty",

author = "Emanuele Marzetti and \{Di Lorenzo\}, Rosa and Anna Picca",

year = "2025",

doi = "10.1097/mco.0000000000001175",

language = "English",

volume = "2025",

pages = "1--7",

journal = "Current Opinion in Clinical Nutrition and Metabolic Care",

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T1 - The mitochondrial side of frailty

AU - Marzetti, Emanuele

AU - Di Lorenzo, Rosa

AU - Picca, Anna

PY - 2025

Y1 - 2025

N2 - Purpose of review. Frailty, a prevalent geriatric condition marked by reduced physiological reserve and greater vulnerability to stressors, is increasingly linked to mitochondrial dysfunction. This review summarizes current evidence on mitochondrial quality control, bioenergetics, and signaling in frailty, with emphasis on biomarker discovery and translational potential.\r\nRecent findings. Preclinical and human studies have shown that impaired mitochondrial biogenesis, altered dynamics, and defective mitophagy contribute to frailty, sarcopenia, and immune dysregulation. Frail older adults exhibit reduced mitochondrial DNA content, diminished mitochondrial respiratory capacity, elevated reactive oxygen species generation, and distinctive metabolomic changes. Potential biomarkers include mitochondria-derived vesicles, circulating metabolites, and measures of peripheral blood mononuclear cell respiration, which may enable early detection of functional decline. Multivariate profiling approaches have identified sex-specific and shared molecular signatures converging on mitochondrial pathways. Interventions promoting mitochondrial health, including resistance training and targeted immunomodulation, hold promise in slowing frailty progression.\r\nSummary. Mitochondrial dysfunction lies at the intersection of musculoskeletal, metabolic, and immune changes underpinning frailty. While integrative biomarker panels have defined metabolic signatures, early diagnosis and personalized therapies remain unmet needs. Longitudinal studies are required to establish causality, refine biomarker utility, and guide precision medicine strategies to preserve mitochondrial function, extend healthspan, and improve quality of life in aging populations.

AB - Purpose of review. Frailty, a prevalent geriatric condition marked by reduced physiological reserve and greater vulnerability to stressors, is increasingly linked to mitochondrial dysfunction. This review summarizes current evidence on mitochondrial quality control, bioenergetics, and signaling in frailty, with emphasis on biomarker discovery and translational potential.\r\nRecent findings. Preclinical and human studies have shown that impaired mitochondrial biogenesis, altered dynamics, and defective mitophagy contribute to frailty, sarcopenia, and immune dysregulation. Frail older adults exhibit reduced mitochondrial DNA content, diminished mitochondrial respiratory capacity, elevated reactive oxygen species generation, and distinctive metabolomic changes. Potential biomarkers include mitochondria-derived vesicles, circulating metabolites, and measures of peripheral blood mononuclear cell respiration, which may enable early detection of functional decline. Multivariate profiling approaches have identified sex-specific and shared molecular signatures converging on mitochondrial pathways. Interventions promoting mitochondrial health, including resistance training and targeted immunomodulation, hold promise in slowing frailty progression.\r\nSummary. Mitochondrial dysfunction lies at the intersection of musculoskeletal, metabolic, and immune changes underpinning frailty. While integrative biomarker panels have defined metabolic signatures, early diagnosis and personalized therapies remain unmet needs. Longitudinal studies are required to establish causality, refine biomarker utility, and guide precision medicine strategies to preserve mitochondrial function, extend healthspan, and improve quality of life in aging populations.

KW - inflammaging

KW - metabolic dysregulation

KW - mitochondrial quality control

KW - oxidative capacity

KW - physical frailty

KW - inflammaging

KW - metabolic dysregulation

KW - mitochondrial quality control

KW - oxidative capacity

KW - physical frailty

UR - https://publicatt.unicatt.it/handle/10807/323176

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DO - 10.1097/mco.0000000000001175

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JO - Current Opinion in Clinical Nutrition and Metabolic Care

JF - Current Opinion in Clinical Nutrition and Metabolic Care

IS - N/A

ER -

The mitochondrial side of frailty

Abstract

Keywords

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