Skip to main content

Hauptrubriken

CME
Facharzt-Training
Webinare
Zeitschriften
Bücher
e.Medpedia
Podcast

Service

Jobbörse
Info & Hilfe

Fachgebiete

Anästhesiologie
Allgemeinmedizin
Arbeitsmedizin
Augenheilkunde
Chirurgie
Dermatologie
Gynäkologie und Geburtshilfe
HNO
Innere Medizin
Kardiologie
Neurologie
Onkologie und Hämatologie
Orthopädie und Unfallchirurgie
Pädiatrie
Pathologie
Psychiatrie
Radiologie
Rechtsmedizin
Umweltmedizin
Urologie
Zahnmedizin

Themen

Neues aus dem Markt
COVID-19
Praxis und Beruf
Seltene Erkrankungen
GOÄ & EBM
Panorama

Sammlungen

Kasuistiken
Algorithmen & Infografiken
Blickdiagnosen
Videos
Kongressberichte
Medizin für Apothekerinnen und Apotheker
Für Ärztinnen und Ärzte in Weiterbildung
Für Medizinstudierende
Erweiterte Suche
Login
nach oben
Zeitschrift für Gerontologie und Geriatrie

29.12.2022 | Reviews

What role do extracellular vesicles play in developing physical frailty and sarcopenia?

A systematic review

verfasst von: Ling-xiao Wang, M.D., Xia Zhang, M.D., Li-juan Guan, M.D., Yang Pen, M.D.

Erschienen in: Zeitschrift für Gerontologie und Geriatrie

Einloggen, um Zugang zu erhalten

Abstract

Background

Frailty and sarcopenia are typical geriatric conditions with a complex pathophysiology. Extracellular vesicles (EVs) are key regulators of age-related diseases, but the mechanisms underlying physical frailty, sarcopenia, and EVs are not well understood.

Methods

A systematic literature review was conducted to examine the evidence supporting an association between EVs and physical frailty and/or sarcopenia by searching the electronic databases, including the Cochrane Library, PubMed, and Embase, from January 2000 to January 2021.

Results

A total of 216 cross-sectional studies were retrieved, and after the removal of 43 duplicate records, the title and abstract of 167 articles were screened, identifying 6 relevant articles for full-text review. Of the studies five met the inclusion criteria, and heterogeneity among studies was high. There is controversy regarding whether frailty and/or sarcopenia are related to circulating EV levels; however, the cargo of EVs has been associated with frailty and sarcopenia in various ways, such as microRNAs, mitochondrial-derived vesicles (MDVs), and protein cargoes.

Conclusion

Recent studies, although limited, depicted that EVs could be one of the underlying mechanisms of frailty and/or sarcopenia. There is a possibility that physical frailty and sarcopenia may have specific EV concentrations and cargo profiles; however, further research is required to fully understand the mechanisms and identify potential biomarkers and early preventative strategies for physical frailty and sarcopenia.
Anhänge
Nur mit Berechtigung zugänglich
Literatur
1.
Hoogendijk EO, Afilalo J, Ensrud KE et al (2019) Frailty: implications for clinical practice and public health. Lancet 394:1365–1375 CrossRef
2.
Woo J (2019) Combating frailty and sarcopenia in aging populations: Switching to a more positive paradigm. Aging Med 2(1):7–10 CrossRef
3.
Cesari M, Prince M, Thiyagarajan JA et al (2016) Frailty: an emerging public health priority. J Am Med Dir Assoc 17(3):188–192 CrossRef
4.
Calvani R, Picca A, Marini F, Biancolillo A (2021) Identification of biomarkers for physical frailty and sarcopenia through a new multi-marker approach: results from the BIOSPHERE study. Geroscience 43(2):727–740 CrossRef
5.
Justice JN, Ferrucci L, Newman AB et al (2018) A framework for selection of blood-based biomarkers for geroscience-guided clinical trials: report from the TAME Biomarkers Workgroup. GeroScience 40:419–436 CrossRef
6.
Sierra F (2016) The emergence of geroscience as an interdisciplinary approach to the enhancement of health span and life span. Cold Spring Harb Perspect Med 6:a25163 CrossRef
7.
Marzetti E, Picca A, Marini F et al (2019) Inflammatory signatures in older persons with physical frailty and sarcopenia: the frailty “cytokinome” at its core. Exp Gerontol 122:129–138 CrossRef
8.
Picca A, Guerra F, Calvani R, Marini F et al (2020) Mitochondrial signatures in circulating extracellular vesicles of older adults with Parkinson’s disease: results from the EXosomes in PArkiNson’s Disease (EXPAND) study. J Clin Med 9:504 CrossRef
9.
Marzetti E, Guerra F, Calvani R, Marini F et al (2020) Circulating mitochondrial-derived vesicles, inflammatory biomarkers and amino acids in older adults with physical frailty and Sarcopenia: a preliminary BIOSPHERE multi-marker study using sequential and Orthogonalized Covariance selection-linear Discriminant analysis. Front Cell Dev Biol 22(8):564417 CrossRef
10.
Kalluri R, LeBleu VS (2020) The biology, function, and biomedical applications of exosomes. Science 367(6478):eaau6977 CrossRef
11.
Yin Y, Chen H, Wang Y, al at (2021) Roles of extracellular vesicles in the aging microenvironment and age-related diseases. J Extracell Vesicles 10(12):e12154 CrossRef
12.
Wallis R, Mizen H, Bishop CL (2020) The bright and dark side of extracellular vesicles in the senescence-associated secretory phenotype. Mech Ageing Dev 189:111263 CrossRef
13.
Saheera S, Jani VP, Witwer KW, al at (2021) Extracellular vesicle interplay in cardiovascular pathophysiology. Am J Physiol Heart Circ Physiol 320(5):H1749–H1761 CrossRef
14.
Moola S, Munn Z, Tufanaru C et al (2017) Chapter 7: Systematic reviews of etiology and risk. In: The Joanna Briggs Institute (ed) Joanna Briggs Institute Reviewer’s Manual. Lippincott Williams & Wilkins, pp 2019–2005
15.
Alberro A, Sáenz-Cuesta M, Muñoz-Culla M et al (2016) Inflammaging and frailty status do not result in an increased extracellular vesicle concentration in circulation. Int J Mol Sci 17(7):1168 CrossRef
16.
Ipson BR, Fletcher MB, Espinoza SE et al (2018) Identifying exosome-derived microRNas as candidate biomarkers of frailty. J Frailty Aging 7(2):100–103
17.
Picca A, Beli R, Calvani R et al (2020) Older adults with physical frailty and Sarcopenia show increased levels of circulating small extracellular vesicles with a specific mitochondrial signature. Cells 9(4):973 CrossRef
18.
Arauna D, Chiva-Blanch G, Padró T et al (2021) Frail older adults show a distinct plasma microvesicle profile suggesting a prothrombotic and proinflammatory phenotype. J Cell Physiol 236(3):2099–2108 CrossRef
19.
Badimon L, Suades R, Vilella-Figuerola A et al (2020) Liquid biopsies: microvesicles in cardiovascular disease. Antioxid Redox Signal 33(9):645–662 CrossRef
20.
Luo L, Wu Z, Wang Y et al (2021) Regulating the production and biological function of small extracellular vesicles: current strategies, applications and prospects. J Nanobiotechnology 19(1):422 CrossRef
21.
Zhang Y, Tan J, Miao Y et al (2021) The effect of extracellular vesicles on the regulation of mitochondria under hypoxia. Cell Death Dis 12(4):358 CrossRef
22.
Bertoldi K, Cechinel LR, Schallenberger B et al (2018) Circulating extracellular vesicles in the aging process: impact of aerobic exercise. Mol Cell Biochem 440(1–2):115–125 CrossRef
23.
Eitan E, Green J, Bodogai M et al (2017) Age-related changes in plasma extracellular vesicle characteristics and internalization by leukocytes. Sci Rep 7(1):1342 CrossRef
24.
Goetzl EJ (2016) Human plasma platelet-derived exosomes: effects of aspirin. FASEB J 30(5):2058–2063 CrossRef
25.
She Z, Xie M, Hun M et al (2021) Immunoregulatory effects of mitochondria transferred by extracellular vesicles. Front Immunol 11:628576 CrossRef
26.
Hitomi K, Okada R, Loo TM et al (2020) DNA damage regulates senescence-associated extracellular vesicle release via the ceramide pathway to prevent excessive inflammatory responses. Int J Mol Sci 21(10):3720 CrossRef
27.
Yuan Q, Li XD, Zhang SM et al (2019) Extracellular vesicles in neurodegenerative diseases: Insights and new perspectives. Genes Dis 8(2):124–132 CrossRef
28.
Davis C, Dukes A, Drewry M et al (2017) MicroRNA-183-5p increases with age in bone-derived extracellular vesicles, suppresses bone marrow stromal (stem) cell proliferation, and induces stem cell senescence. Tissue Eng Part A 23:1231–1240 CrossRef
29.
Ripa R, Dolfi L, Terrigno M et al (2017) MicroRNA MiR-29 controls a compensatory response to limit neuronal iron accumulation during adult life and aging. BMC Biol 15(1):9 CrossRef
30.
Fulzele S, Mendhe B, Khayrullin A et al (2019) Muscle-Derived miR-34a increases with age in circulating extracellular vesicles and induces senescence of bone marrow stem cells. Aging 11(6):1791–1803 CrossRef
31.
Xu F, Zhong J‑Y, Lin X et al (2020) Melatonin alleviates vascular calcification and ageing through exosomal MiR-204/MiR-211 cluster in a paracrine manner. J Pineal Res 68(3):e12631 CrossRef
32.
Mensa E et al (2020) Small extracellular vesicles deliver miR-21 and miR-217 as prosenescence effectors to endothelial cells. J Extracell Vesicles 9(1):1725285 CrossRef
33.
Rong S, Wang L, Peng Z et al (2020) The mechanisms and treatments for sarcopenia: could exosomes be a perspective research strategy in the future? J cachexia sarcopenia muscle 11(2):348–365 CrossRef
34.
Picca A, Calvani R, Bossola M et al (2018) Update on mitochondria and muscle aging: all wrong roads lead to sarcopenia. Biol Chem 399:421–436 CrossRef
35.
36.
Picca A, Guerra F, Calvani R et al (2020) Extracellular vesicles and damage-associated molecular patterns: a pandora’s box in health and disease. Front Immunol 11:601740 CrossRef
37.
Liu D, Dong Z, Wang J et al (2020) The existence and function of mitochondrial component in extracellular vesicles. Mitochondrion 54:122–127 CrossRef
38.
Desdín-Micó G, Mittelbrunn M (2017) Role of exosomes in the protection of cellular homeostasis. Cell Adhesion Migr 11(2):127–134 CrossRef
Metadaten
Titel
What role do extracellular vesicles play in developing physical frailty and sarcopenia?
A systematic review
verfasst von
Ling-xiao Wang, M.D.
Xia Zhang, M.D.
Li-juan Guan, M.D.
Yang Pen, M.D.
Publikationsdatum
29.12.2022
Verlag
Springer Medizin
Erschienen in
Zeitschrift für Gerontologie und Geriatrie
Print ISSN: 0948-6704
Elektronische ISSN: 1435-1269
DOI
https://doi.org/10.1007/s00391-022-02150-3

Neu im Fachgebiet Innere Medizin

31.03.2023 | Apoplex | Nachrichten

Erhöhtes Krebsrisiko nach Schlaganfall

31.03.2023 | Herzschrittmachertherapie | Nachrichten

Nächtliche Synkopen bei 92-Jähriger – diese Funktion ihres Herzschrittmachers war schuld

31.03.2023 | DGP 2023 | Kongressbericht | Nachrichten

Fallbericht: Lungenkontusion nach Sprung vom Zehn-Meter-Turm

31.03.2023 | SARS-CoV-2 | Nachrichten

Corona schädigt die Lunge oftmals dauerhaft
weitere anzeigen

Update Innere Medizin

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert – ganz bequem per eMail.

Newsletter bestellen
» zur Themenseite Innere Medizin rotated-square