Your search keyword '"Vechetti, Ivan J."' showing total 4 results

1. Editorial: Inter-organ crosstalk during exercise in health and disease: Extracellular vesicles as new kids on the block

Author

VERBOVEN, Kenneth, Vechetti, Ivan J., VERBOVEN, Kenneth, and Vechetti, Ivan J.

Subjects

exercise, Physiology, extracellular vesicle (EV), Physiology (medical), myokines, microRNA (microRNA), exosomes

Abstract

KEYWORDS extracellular vesicle (EV), exercise, myokines, exosomes, microRNA (microRNA) Editorial on the Research Topic Inter-organ crosstalk during exercise in health and disease: Extracellular vesicles as new kids on the block Within exercise physiology, the study of factors potentially mediating interorgan crosstalk during and after exercise is a fascinating field of research. As exercise activates a plethora of metabolic pathways in several tissues, organs and systems, examining the underlying biological mechanisms contributing to exercise related metabolic benefits is imperative. Since two decades, the skeletal muscle is known to secrete humoral factors into the circulation in response to exercise, originally described as "myokines" by Pedersen et al. (2003). These myokines are now well known and extensively studied in the field of exercise science (Pedersen and Febbraio, 2012). Interestingly, exercise also triggers other metabolic organs to release similar factors arising from the heart, liver, white and brown adipose tissue, and the nervous system (Chow et al., 2022). These "exerkines" (Safdar et al., 2016) have been recognized to comprise an extensive range of biologically active signalling molecules, including cytokines, lipids, metabolites and (noncoding) nucleic acids, as recently reviewed (Chow et al., 2022). Extracellular vesicles (EVs) and their role as carrier particles for molecular signals became of specific interest in the exerkine field, as EVs are considered (co-)drivers of exercise-induced interorgan crosstalk (Whitham et al., 2018; Vechetti et al., 2021). Differentiated by both their size and nature of vesicular biogenesis, EVs can be primarily classified as exosomes, microvesicles and apoptotic bodies although some overlap does exist between these classifications. EVs may enclose plenty of material, including lipids, proteins and nucleic acids (Théry et al., 2018). Indeed, pioneering EV-related exercise studies have shown an increase in the circulating number of EVs after a single bout of exercise (Brahmer et al., 2019; Frühbeis et al., 2015; Oliveira et al., 2018; Whitham et al., 2018), with recent in vivo research estimating about 5% of circulating, tetraspanin-positive EVs to be muscle-derived (Estrada et al., 2022). However, the frequent lack of rigorous characterization, purification and/or quantification of EVs (which ideally requires a combination of multiple methodologies) makes the understanding of the role of EVs in exercise physiology rather hard (Darragh et al., 2021) and argues for standard approaches and reporting on EV-related exercise science. Nevertheless, many points need to be clarified, but as the interest in EVs research from an exercise and health We sincerely thank all authors and reviewers who participated in the Research Topic.

Published

2023

2. Extracellular vesicle characteristics and microRNA content in cerebral palsy and typically developed individuals at rest and in response to aerobic exercise

Author

Vechetti, Ivan J., primary, Norrbom, Jessica, additional, Alkner, Björn, additional, Hjalmarsson, Emma, additional, Palmcrantz, Alexandra, additional, Pontén, Eva, additional, Pingel, Jessica, additional, von Walden, Ferdinand, additional, and Fernandez-Gonzalo, Rodrigo, additional

Published

2022

3. Extracellular vesicle characteristics and microRNA content in cerebral palsy and typically developed individuals at rest and in response to aerobic exercise

Author

Vechetti, Ivan J., Norrbom, Jessica, Alkner, Björn, Hjalmarsson, Emma, Palmcrantz, Alexandra, Ponten, Eva, Pingel, Jessica, von Walden, Ferdinand, Fernandez-Gonzalo, Rodrigo, Vechetti, Ivan J., Norrbom, Jessica, Alkner, Björn, Hjalmarsson, Emma, Palmcrantz, Alexandra, Ponten, Eva, Pingel, Jessica, von Walden, Ferdinand, and Fernandez-Gonzalo, Rodrigo

Abstract

In this study, the properties of circulating extracellular vesicles (EVs) were examined in cerebral palsy (CP) and typically developed (TD) individuals at rest and after aerobic exercise, focusing on the size, concentration, and microRNA cargo of EVs. Nine adult individuals with CP performed a single exercise bout consisting of 45 min of Frame Running, and TD participants completed either 45 min of cycling (n = 10; TD EX) or were enrolled as controls with no exercise (n = 10; TD CON). Blood was drawn before and 30 min after exercise and analyzed for EV concentration, size, and microRNA content. The size of EVs was similar in CP vs. TD, and exercise had no effect. Individuals with CP had an overall lower concentration (similar to 25%, p < 0.05) of EVs. At baseline, let-7a, let-7b and let-7e were downregulated in individuals with CP compared to TD (p < 0.05), while miR-100 expression was higher, and miR-877 and miR-4433 lower in CP compared to TD after exercise (p < 0.05). Interestingly, miR-486 was upregulated similar to 2-fold in the EVs of CP vs. TD both at baseline and after exercise. We then performed an in silico analysis of miR-486 targets and identified the satellite cell stemness factor Pax7 as a target of miR-486. C2C12 myoblasts were cultured with a miR-486 mimetic and RNA-sequencing was performed. Gene enrichment analysis revealed that several genes involved in sarcomerogenesis and extracellular matrix (ECM) were downregulated. Our data suggest that circulating miR-486 transported by EVs is elevated in individuals with CP and that miR-486 alters the transcriptome of myoblasts affecting both ECM- and sarcomerogenesis-related genes, providing a link to the skeletal muscle alterations observed in individuals with CP., Funding Agencies|Futurum-the Academy for Health and Care, Region Jonkoping County, Sweden; Swedish Kidney Foundation [FUTURUM-937508, 870471]; NIH [F2019-0048]; H.K.H. Kronprinsessan Lovisas foerening foer barnasjukvard [P20GM104320-07]; Swedish Society of Medical Research; Sunnerdahls handikappstiftelse; Norrbacka Eugenia Stiftelsen; career grant from the Swedish National Space Agency; [2021-00159]

Published

2022

4. Bovine Milk Extracellular Vesicles (EVs) Modification Elicits Skeletal Muscle Growth in Rats

Author

Parry, Hailey A., primary, Mobley, C. Brooks, additional, Mumford, Petey W., additional, Romero, Matthew A., additional, Haun, Cody T., additional, Zhang, Yufeng, additional, Roberson, Paul A., additional, Zempleni, Janos, additional, Ferrando, Arny A., additional, Vechetti, Ivan J., additional, McCarthy, John J., additional, Young, Kaelin C., additional, Roberts, Michael D., additional, and Kavazis, Andreas N., additional

Published

2019