Exosomes in osteoarthritis: Updated insights on pathogenesis, diagnosis, and treatment

Fan, Wen-Jin; Liu, Di; Pan, Linyuan; Wang, Weiyang; Ding, Yilan; Zhang, Yue-Yao; Ye, Ruixi; Zhou, Yang; An, Shuai; Xiao, Wenfeng

doi:10.3389/fcell.2022.949690

Cited by 25 publications

(19 citation statements)

References 127 publications

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“…Exosomal miRNAs (such as miR-100–5p, miR-135b, miR-92a-3p, miR-140–5, miR-23b, miR-125b, miR-126–3p, miR-320) and lncRNAs like KLF3-AS1 and their interactions with diverse signaling pathways are primarily responsible for the therapeutic potential of MSCs-sEVs in the treatment of articular cartilage and OA. , The function of miRNAs in sEVs derived from synovial fluid, focusing on their impact on chondrocyte inflammation, proliferation, and survival, as well as their potential effect on cartilage degeneration in an OA model in rats was examined. Nineteen miRNAs were identified whose expression levels differed between OA patients and healthy controls.…”

Section: Applications Of Evs-loaded Hydrogels In Tissue Regenerationmentioning

confidence: 99%

Extracellular Vesicles and Hydrogels: An Innovative Approach to Tissue Regeneration

Hashemi,

Ezati,

Nasr

et al. 2024

ACS Omega

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Extracellular vesicles have emerged as promising tools in regenerative medicine due to their inherent ability to facilitate intercellular communication and modulate cellular functions. These nanosized vesicles transport bioactive molecules, such as proteins, lipids, and nucleic acids, which can affect the behavior of recipient cells and promote tissue regeneration. However, the therapeutic application of these vesicles is frequently constrained by their rapid clearance from the body and inability to maintain a sustained presence at the injury site. In order to overcome these obstacles, hydrogels have been used as extracellular vesicle delivery vehicles, providing a localized and controlled release system that improves their therapeutic efficacy. This Review will examine the role of extracellular vesicle-loaded hydrogels in tissue regeneration, discussing potential applications, current challenges, and future directions. We will investigate the origins, composition, and characterization techniques of extracellular vesicles, focusing on recent advances in exosome profiling and the role of machine learning in this field. In addition, we will investigate the properties of hydrogels that make them ideal extracellular vesicle carriers. Recent studies utilizing this combination for tissue regeneration will be highlighted, providing a comprehensive overview of the current research landscape and potential future directions.

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Section: Applications Of Evs-loaded Hydrogels In Tissue Regenerationmentioning

confidence: 99%

Extracellular Vesicles and Hydrogels: An Innovative Approach to Tissue Regeneration

Hashemi,

Ezati,

Nasr

et al. 2024

ACS Omega

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Section: Role Of Exosomes As Drug Delivery Systems In Bone-related Di...mentioning

confidence: 99%

“…Exosomes, as key vehicles for intercellular signal transmission, provide a more advantageous way to evaluate the pathological cells or tissue morphology in osteoarthritis [ 107 ]. In addition to promoting angiogenesis, bone remodeling, and chondrocyte proliferation and migration, exosomes can inhibit osteoarthritic chondrocyte apoptosis and reduce cartilage inflammation [ 107 ]. Therefore, exosomes derived from BMSCs, adipose mesenchymal stem cells (AMSCs), synovial mesenchymal stem cells (SMSCs), human embryonic stem cells (HESCs), and other types of MSCs can be used as DDS to treat osteoarthritis [ 108 ] ( Figure 5 ).…”

Section: Role Of Exosomes As Drug Delivery Systems In Bone-related Di...mentioning

confidence: 99%

Advances in the Study of Exosomes as Drug Delivery Systems for Bone-Related Diseases

Huang

Wang

et al. 2023

Pharmaceutics

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Bone-related diseases are major problems and heavy burdens faced by modern society. Current clinical approaches for the treatment of these pathological conditions often lead to complications and have limited therapeutic efficacy. In this context, the development of nanotherapeutic platforms, such as extracellular vesicles, can improve the relevant therapeutic effects. In particular, exosomes are nano-sized, lipid bilayer extracellular vesicles secreted by many cells in mammals. Due to their innate capacity to transport materials—including proteins, lipids, and genes—among cells, as well as their innate attraction to target cells, they are considered to be a crucial medium for cell communication and are involved in a number of biological processes. Exosomes have been used as drug delivery vehicles in recent bone tissue engineering studies, in order to regulate bone homeostasis. However, the precise workings of the exosome regulatory network in maintaining bone homeostasis and its potential for treating bone injury remain unclear. To provide a fresh perspective for the study of exosomes in drug delivery and bone-related diseases, in this paper, we review recent studies on the roles of exosomes for drug delivery in bone homeostasis and bone-related diseases, as well as the composition and characteristics of exosomes and their regulatory roles in bone homeostasis and bone-related diseases, aiming to provide new ideas for the therapeutic application of exosomes in the treatment of bone-related diseases.

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“…58,59 However, most studies have focused on the RNA and protein content of EVs, while little has been reported on the DNA carried within them. [60][61][62][63] Takahashi et al showed that EVs maintain cellular homeostasis and prevent aberrant activation of the innate immune response by expelling damaged DNA from cells, and when this process is impaired, the DNA they carry can activate inflammatory factors including the cGAS-STING pathway and the AIM2 inflammasome. 64 In the study of the gastrointestinal response to the chemotherapeutic agent irinotecan, Lian et al found that chemotherapy-induced the release of large amounts of double-stranded DNA from exosomes in the gastrointestinal tract, and this "auto-DNA" entered the cytoplasm of innate immune cells and activated AIM2 inflammasome.…”

Section: Extracellular Vesicles -Aim2mentioning

confidence: 99%

The Role of AIM2 Inflammasome in Knee Osteoarthritis

Yang¹,

Wang²

2022

JIR

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Knee osteoarthritis (KOA), whose prevalence keeps rising, is still unsolved pathobiological/therapeutical problem. Historically, knee osteoarthritis was thought to be a "wear and tear" disease, while recent etiology hypotheses stressed it as a chronic, low-grade inflammatory disease. Inflammasomes mediated by the innate immunity systems have an important role in inflammatory diseases including KOA. A deluge of recent studies focused on the NLRP3 inflammasome with suggestions that its pharmacologic block would hinder degeneration. However, known inflammasomes are numerous and can also trigger IL-1β/IL-18 production and cells' pyroptotic death. Among them, AIM2 inflammasome is involved in key aspects of various acute and chronic inflammatory diseases. Therefore, while presently leaving out little-studied inflammasomes in KOA, this review focuses on the AIM2 inflammasomes that participate in KOA's complex mechanisms in conjunction with the activation of AIM2 inflammasomes in other diseases combined with the current studies on KOA mechanisms. Although human-specific data about it are relatively scant, we stress that only a holistic view including several inflammasomes including AIM2 inflammasome and other potential pathogenetic drivers will lead to successful therapy for knee osteoarthritis.

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Exosomes in osteoarthritis: Updated insights on pathogenesis, diagnosis, and treatment

Cited by 25 publications

References 127 publications

Extracellular Vesicles and Hydrogels: An Innovative Approach to Tissue Regeneration

Extracellular Vesicles and Hydrogels: An Innovative Approach to Tissue Regeneration

Advances in the Study of Exosomes as Drug Delivery Systems for Bone-Related Diseases

The Role of AIM2 Inflammasome in Knee Osteoarthritis

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