Role of sphingolipids in the biogenesis and biological activity of extracellular vesicles

Verderio, Claudia; Gabrielli, Martina; Giussani, Paola

doi:10.1194/jlr.r083915

Cited by 182 publications

(151 citation statements)

References 156 publications

(180 reference statements)

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“…Lipids are essential biomolecules for cell survival. Their role in multiple cellular functions, such as intracellular signaling, transport, immunity, maintenance of cell structure, and metabolism, highlight the importance of lipids in the regulation of cellular homeostasis [1][2][3]. Adipocytes act as fuel tanks for the storage of lipids and triglycerides.…”

Section: Introductionmentioning

confidence: 99%

Lipotoxicity and Diabetic Nephropathy: Novel Mechanistic Insights and Therapeutic Opportunities

Opazo-Ríos

Mas

Marín-Royo

et al. 2020

IJMS

210

147

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Lipotoxicity is characterized by the ectopic accumulation of lipids in organs different from adipose tissue. Lipotoxicity is mainly associated with dysfunctional signaling and insulin resistance response in non-adipose tissue such as myocardium, pancreas, skeletal muscle, liver, and kidney. Serum lipid abnormalities and renal ectopic lipid accumulation have been associated with the development of kidney diseases, in particular diabetic nephropathy. Chronic hyperinsulinemia, often seen in type 2 diabetes, plays a crucial role in blood and liver lipid metabolism abnormalities, thus resulting in increased non-esterified fatty acids (NEFA). Excessive lipid accumulation alters cellular homeostasis and activates lipogenic and glycogenic cell-signaling pathways. Recent evidences indicate that both quantity and quality of lipids are involved in renal damage associated to lipotoxicity by activating inflammation, oxidative stress, mitochondrial dysfunction, and cell-death. The pathological effects of lipotoxicity have been observed in renal cells, thus promoting podocyte injury, tubular damage, mesangial proliferation, endothelial activation, and formation of macrophage-derived foam cells. Therefore, this review examines the recent preclinical and clinical research about the potentially harmful effects of lipids in the kidney, metabolic markers associated with these mechanisms, major signaling pathways affected, the causes of excessive lipid accumulation, and the types of lipids involved, as well as offers a comprehensive update of therapeutic strategies targeting lipotoxicity.

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Section: Introductionmentioning

confidence: 99%

Lipotoxicity and Diabetic Nephropathy: Novel Mechanistic Insights and Therapeutic Opportunities

Opazo-Ríos

Mas

Marín-Royo

et al. 2020

IJMS

210

147

View full text Add to dashboard Cite

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“…On the surface of most exosomes there is an evolutionarily conserved set of proteins such as tetraspanins CD9 or CD63, Alix, and Tsg101, but also specific proteins that reflect their cellular source. Recent studies indicate that the vesiculation process depends on three different cell features: the membrane lipid content, the transversal asymmetry and the lateral heterogeneity [5][6][7]. Exosomes have been isolated from urine, blood, cerebrospinal fluid, synovial fluid, bronchial lavage fluid and embryo spent medium [7].…”

mentioning

confidence: 99%

Embryonic extracellular vesicles as informers to the immune cells at the maternal–fetal interface

Giacomini

Alleva

Fornelli

et al. 2019

Clinical and Experimental Immunology

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Extracellular vesicle (EV) exchange is emerging as a novel method of communication at the maternal-fetal interface. The presence of the EVs has been demonstrated in the preimplantation embryo culture medium from different species, such as bovines, porcines and humans. Preimplantation embryo-derived EVs have been shown to carry molecules potentially able to modulate the local endometrial immune system. The non-classical major histocompatibility complex (MHC) class I molecule human leucocyte antigen (HLA)-G, the immunomodulatory molecule progesterone-induced blocking factor and some regulatory miRNAs species are contained in embryo-derived EV cargo. The implanted syncytiotrophoblasts are also well known to secrete EVs, with microvesicles exerting a mainly proinflammatory effect while exosomes in general mediate local immunotolerance. This review focuses on the current knowledge on the potential role of EVs released by the embryo in the first weeks of pregnancy on the maternal immune cells. Collectively, the data warrant further exploration of the dialogue between the mother and the embryo via EVs.

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“…Over the last 30 years, it has become clear that cells "shed" membrane during their everyday function. This membrane forms extracellular vesicles (EVs), which may be further subdivided into apoptotic bodies' microvesicles and exosomes, a characterisation driven by vesicle size [74].…”

Section: The Personalisation Of Precision Medi-cinementioning

confidence: 99%

The Delivery of Personalised, Precision MedicinesviaSynthetic Proteins

Richardson

2019

DDL

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Introduction: The design of advanced drug delivery systems based on synthetic and supramolecular chemistry has been very successful. Liposomal doxorubicin (Caelyx®), and liposomal daunorubicin (DaunoXome®), estradiol topical emulsion (EstrasorbTM) as well as soluble or erodible polymer systems such as pegaspargase (Oncaspar®) or goserelin acetate (Zoladex®) represent considerable achievements. Discussion: As deliverables have evolved from low molecular weight drugs to biologics (currently representing approximately 30% of the market), so too have the demands made of advanced drug delivery technology. In parallel, the field of membrane trafficking (and endocytosis) has also matured. The trafficking of specific receptors i.e. material to be recycled or destroyed, as well as the trafficking of protein toxins has been well characterized. This, in conjunction with an ability to engineer synthetic, recombinant proteins provides several possibilities. Conclusion: The first is using recombinant proteins as drugs i.e. denileukin diftitox (Ontak®) or agalsidase beta (Fabrazyme®). The second is the opportunity to use protein toxin architecture to reach targets that are not normally accessible. This may be achieved by grafting regulatory domains from multiple species to form synthetic proteins, engineered to do multiple jobs. Examples include access to the nucleocytosolic compartment. Herein, the use of synthetic proteins for drug delivery has been reviewed.

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Role of sphingolipids in the biogenesis and biological activity of extracellular vesicles

Cited by 182 publications

References 156 publications

Lipotoxicity and Diabetic Nephropathy: Novel Mechanistic Insights and Therapeutic Opportunities

Lipotoxicity and Diabetic Nephropathy: Novel Mechanistic Insights and Therapeutic Opportunities

Embryonic extracellular vesicles as informers to the immune cells at the maternal–fetal interface

The Delivery of Personalised, Precision MedicinesviaSynthetic Proteins

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