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3. Mitochondrial-derived vesicles in skeletal muscle remodeling and adaptation

Author

Anna Picca, Flora Guerra, Riccardo Calvani, Roberta Romano, Hélio José Coelho-Junior, Cecilia Bucci, Christiaan Leeuwenburgh, Emanuele Marzetti, Picca, A., Guerra, F., Calvani, R., Romano, R., Coelho-Junior, H. J., Bucci, C., Leeuwenburgh, C., and Marzetti, E.

Subjects
Mitochondrial quality control, Mitochondrial biogenesis, Settore MED/09 - MEDICINA INTERNA, Mitophagy, Mitochondrial DNA damage, Skeletal muscle, Cell Biology, Extracellular vesicles, Extracellular vesicles, Mitochondrial biogenesis, Mitochondrial DNA damage, Mitochondrial quality control, Mitophagy, Skeletal muscle, Developmental Biology
Abstract

Mitochondrial remodeling is crucial to meet the bioenergetic demand to support muscle contractile activity during daily tasks and muscle regeneration following injury. A set of mitochondrial quality control (MQC) processes, including mitochondrial biogenesis, dynamics, and mitophagy, are in place to maintain a well-functioning mitochondrial network and support muscle regeneration. Alterations in any of these pathways compromises mitochondrial quality and may potentially lead to impaired myogenesis, defective muscle regeneration, and ultimately loss of muscle function. Among MQC processes, mitophagy has gained special attention for its implication in the clearance of dysfunctional mitochondria via crosstalk with the endo-lysosomal system, a major cell degradative route. Along this pathway, additional opportunities for mitochondrial disposal have been identified that may also signal at the systemic level. This communication occurs via inclusion of mitochondrial components within membranous shuttles named mitochondrial-derived vesicles (MDVs). Here, we discuss MDV generation and release as a mitophagy-complementing route for the maintenance of mitochondrial homeostasis in skeletal myocytes. We also illustrate the possible role of muscle-derived MDVs in immune signaling during muscle remodeling and adaptation.

Published
2021

4. Extracellular Vesicles and Damage-Associated Molecular Patterns: A Pandora’s Box in Health and Disease

Author

Anna Picca, Flora Guerra, Riccardo Calvani, Hélio José Coelho-Júnior, Francesco Landi, Roberto Bernabei, Roberta Romano, Cecilia Bucci, Emanuele Marzetti, Picca, A., Guerra, F., Calvani, R., Coelho-Junior, H. J., Landi, F., Bernabei, R., Romano, R., Bucci, C., and Marzetti, E.

Subjects
0301 basic medicine, lcsh:Immunologic diseases. Allergy, Quality control system, Immunology, Endocytic cycle, Inflammation, Review, Endosomes, Mitochondrion, Biology, damage-associated molecular pattern, mitochondrial-derived vesicle, Extracellular Vesicles, 03 medical and health sciences, 0302 clinical medicine, mitochondrial-derived vesicles, medicine, Extracellular, Alarmins, Animals, Humans, Immunology and Allergy, damage-associated molecular patterns, innate immunity, Tissue homeostasis, Innate immune system, Neurodegeneration, Settore MED/09 - MEDICINA INTERNA, quality control system, medicine.disease, Immunity, Innate, Mitochondria, Cell biology, Protein Transport, 030104 developmental biology, inflammation, Parkinson’s disease, medicine.symptom, Lysosomes, lcsh:RC581-607, Alzheimer’s disease, endo-lysosomal system, Intracellular, Signal Transduction, 030215 immunology
Abstract

Sterile inflammation develops as part of an innate immunity response to molecules released upon tissue injury and collectively indicated as damage-associated molecular patterns (DAMPs). While coordinating the clearance of potential harmful stimuli, promotion of tissue repair, and restoration of tissue homeostasis, a hyper-activation of such an inflammatory response may be detrimental. The complex regulatory pathways modulating DAMPs generation and trafficking are actively investigated for their potential to provide relevant insights into physiological and pathological conditions. Abnormal circulating extracellular vesicles (EVs) stemming from altered endosomal-lysosomal system have also been reported in several age-related conditions, including cancer and neurodegeneration, and indicated as a promising route for therapeutic purposes. Along this pathway, mitochondria may dispose altered components to preserve organelle homeostasis. However, whether a common thread exists between DAMPs and EVs generation is yet to be clarified. A deeper understanding of the highly complex, dynamic, and variable intracellular and extracellular trafficking of DAMPs and EVs, including those of mitochondrial origin, is needed to unveil relevant pathogenic pathways and novel targets for drug development. Herein, we describe the mechanisms of generation of EVs and mitochondrial-derived vesicles along the endocytic pathway and discuss the involvement of the endosomal-lysosomal in cancer and neurodegeneration (i.e., Alzheimer's and Parkinson's disease).

Published
2020

5. Older Adults with Physical Frailty and Sarcopenia Show Increased Levels of Circulating Small Extracellular Vesicles with a Specific Mitochondrial Signature

Author

Francesco Landi, Emanuele Marzetti, Cecilia Bucci, Flora Guerra, Riccardo Calvani, Hélio José Coelho-Júnior, Roberto Bernabei, Raffaella Beli, Anna Picca, Picca, A., Beli, R., Calvani, R., Coelho-Junior, H. J., Landi, F., Bernabei, R., Bucci, C., Guerra, F., and Marzetti, E.

Subjects
Male, mitochondrial-lysosomal axi, Sarcopenia, medicine.medical_specialty, SDHB, Protein subunit, exosomes, Nicotinamide adenine dinucleotide, Article, Electron Transport, Extracellular Vesicles, chemistry.chemical_compound, Cytosol, mitochondrial-derived vesicles (MDVs), Oxidoreductase, mitochondrial-lysosomal axis, mitochondrial dynamic, Internal medicine, medicine, exosome, aging, biomarkers, mitochondrial dynamics, mitochondrial quality control, mitophagy, Humans, lcsh:QH301-705.5, Aged, chemistry.chemical_classification, Oxidase test, Frailty, Chemistry, Settore MED/09 - MEDICINA INTERNA, General Medicine, Extracellular vesicle, medicine.disease, musculoskeletal system, Mitochondria, Endocrinology, Electron Transport Chain Complex Proteins, lcsh:Biology (General), biomarker, Female, Adenosine triphosphate, human activities
Abstract

Mitochondrial dysfunction and systemic inflammation are major factors in the development of sarcopenia, but the molecular determinants linking the two mechanisms are only partially understood. The study of extracellular vesicle (EV) trafficking may provide insights into this relationship. Circulating small EVs (sEVs) from serum of 11 older adults with physical frailty and sarcopenia (PF&amp, S) and 10 controls were purified and characterized. Protein levels of three tetraspanins (CD9, CD63, and CD81) and selected mitochondrial markers, including adenosine triphosphate 5A (ATP5A), mitochondrial cytochrome C oxidase subunit I (MTCOI), nicotinamide adenine dinucleotide reduced form (NADH):ubiquinone oxidoreductase subunit B8 (NDUFB8), NADH:ubiquinone oxidoreductase subunit S3 (NDUFS3), succinate dehydrogenase complex iron sulfur subunit B (SDHB), and ubiquinol-cytochrome C reductase core protein 2 (UQCRC2) were quantified by Western immunoblotting. Participants with PF&amp, S showed higher levels of circulating sEVs relative to controls. Protein levels of CD9 and CD63 were lower in the sEV fraction of PF&amp, S older adults, while CD81 was unvaried between groups. In addition, circulating sEVs from PF&amp, S participants had lower amounts of ATP5A, NDUFS3, and SDHB. No signal was detected for MTCOI, NDUFB8, or UQCRC2 in either participant group. Our findings indicate that, in spite of increased sEV secretion, lower amounts of mitochondrial components are discarded through EV in older adults with PF&amp, S. In-depth analysis of EV trafficking might open new venues for biomarker discovery and treatment development for PF&amp, S.

Published
2020

6. Mitochondrial Dysfunction and Aging: Insights from the Analysis of Extracellular Vesicles

Author

Cecilia Bucci, Flora Guerra, Riccardo Calvani, Francesco Landi, Emanuele Marzetti, Anna Rita Bentivoglio, Anna Picca, Maria Rita Lo Monaco, Hélio José Coelho-Júnior, Roberto Bernabei, Picca, A., Guerra, F., Calvani, R., Bucci, C., Monaco, M. R. L., Bentivoglio, A. R., Coelho-Junior, H. J., Landi, F., Bernabei, R., and Marzetti, E.

Subjects
Genome instability, Aging, mitochondrial biogenesis, Mitochondrial-lysosomal axi, Review, lcsh:Chemistry, Mitophagy, lcsh:QH301-705.5, Spectroscopy, mitochondrial quality control, General Medicine, Mitochondrial biogenesi, Lysosome, Mitochondria, Computer Science Applications, Cell biology, mitochondrial–lysosomal axis, Mitochondrial-derived vesicles (MDVs), Human, Mitochondrial quality control, Extracellular Vesicle, exosomes, Nutrient sensing, Biology, Models, Biological, Catalysis, Inorganic Chemistry, Extracellular Vesicles, mitochondrial-derived vesicles (MDVs), Mitochondrial dynamic, Animals, Humans, Secretion, Epigenetics, Physical and Theoretical Chemistry, Molecular Biology, Animal, Organic Chemistry, biomarkers, Biological Transport, Biomarker, mitochondrial dynamics, Microvesicles, Exosome, mitophagy, Proteostasis, lcsh:Biology (General), lcsh:QD1-999, Mitochondrial biogenesis, Lysosomes
Abstract

The progressive decline of cell function and integrity, manifesting clinically as increased vulnerability to adverse outcomes and death, is core to biological aging. Mitochondrial dysfunction, oxidative stress, altered intercellular communication (including chronic low-grade inflammation), genomic instability, telomere attrition, loss of proteostasis, altered nutrient sensing, epigenetic alterations, and stem cell exhaustion have been proposed as hallmarks of aging. These “aging pillars„ are not mutually exclusive, making the matter intricate and leaving numerous unanswered questions. The characterization of circulating extracellular vesicles (EVs) has recently allowed specific secretory phenotypes associated with aging to be identified. As such, EVs may serve as novel biomarkers for capturing the complexity of aging. Besides the mitochondrial⁻lysosomal axis, EV trafficking has been proposed as an additional layer in mitochondrial quality control. Indeed, disruption of the mitochondrial⁻lysosomal axis coupled with abnormal EV secretion may play a role in the pathogenesis of aging and several disease conditions. Here, we discuss (1) the mechanisms of EV generation; (2) the relationship between the mitochondrial⁻lysosomal axis and EV trafficking in the setting of mitochondrial quality control; and (3) the prospect of using EVs as aging biomarkers and as delivery systems for therapeutics against age-related conditions.

Published
2019

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