Exosomes derived from platelet-rich plasma administration in site mediate cartilage protection in subtalar osteoarthritis

Zhang, Yu; Wang, Xiaowei; Chen, Jian; Qian, Dingfei; Gao, Peng; Qin, Tao; Jiang, Tao; Jiang, Y.; Xu, Tao; Huang, Yifan; Wang, Qian; Zhou, Zheng; Bao, Tianyi; Zhao, Xuan; Líu, Hao; Zheng, Ziyang; Fan, Jin; Zhao, Shujie; Li, Qingqing; Yin, Guoyong

doi:10.1186/s12951-022-01245-8

Cited by 63 publications

(49 citation statements)

References 81 publications

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“…Moreover, the long-time controlled-release of pExos also could facilitate the chondrogenic differentiation of bMSCs and suppress inflammationinduced chondrocyte degeneration. (Zhang et al, 2022) 5 Advantages and challenges of exosomes in bone/cartilage tissue engineering…”

Section: Cartilage Regenerationmentioning

confidence: 99%

“…Enhancing cartilage tissue regeneration by activating Yes-associated protein (YAP) with the Wnt signaling pathwayTao et al (2017) MSCsPromoting cartilage repair by increasing proliferation, suppressing apoptosis, and modulating immuneZhang et al (2018) Attenuating inflammation and restoring matrix homeostasis, which could relieve TMJ osteoarthritisZhang et al (2019b) Combining with AD/CS/RSF hydrogel, promoting the cell migration, proliferation, and differentiation of bMSCs, and helping the repair of cartilage defectsZhang et al (2021) Combining with Gelatin methacrylate (Gelma)/nanoclay hydrogel, containing abundant miRNA-23a-3p and promoting cartilage regenerationHu et al (2020) Platelets Incorporating the pExos into thermosensitive hydrogel for prolonging the retention time of pExos in the joint, promotong the cell proliferation and migration of bMSCs and chondrocyteZhang et al (2022) …”

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confidence: 99%

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The biological applications of exosomal-based materials in bone/cartilage tissue engineering

Chen

Cheng²,

Zhang³

et al. 2023

Front. Mater.

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Exosomes are secreted by various cells including stem cells, dendritic cells, and tumor cells, also known as the cell-derived extracellular vesicles. Exosomes, can carry informative cargos from host cells, thus have been employed as potential nanomaterials for their multifarious biological functions in biomedical fields, such as drug and genes delivery, tumor targeting, and disease treatment. Recently, the biological applications of exosomes in bone tissue engineering have gained increasing attention. Some important progress has been made while the tissue regeneration and functional recovery of boneremain as the key challenges to be addressed. In this article, we first made a summary of exosomes and their applications in the regeneration of bone and cartilage tissue. Then, modification approaches used for exosomes to equip them with excellent capacities are summarized. Finally, current concerns and future outlooks of exosomes in bone/cartilage tissue engineering and regeneration are discussed.

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Section: Cartilage Regenerationmentioning

confidence: 99%

mentioning

confidence: 99%

The biological applications of exosomal-based materials in bone/cartilage tissue engineering

Chen

Cheng²,

Zhang³

et al. 2023

Front. Mater.

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“…The main reason for loading the secretome into a hydrogel, similar to what was discussed for GFs, is to prevent the immediate washout of the active molecules and prolong therapeutic exposure seeking better effectiveness on cartilage regeneration. Many hydrogels are composed of synthetic materials which are easily handled and adjusted, present more stable biochemical properties, and are less susceptible to batch-to-batch differences [ 136 , 137 ]. A recent study has demonstrated that a mixture of Poloxamer-407 and 188 is a functional injectable carrier to deliver platelet-rich plasma-derived exosomes (PRP-Exo) in an OA model.…”

Section: Hydrogel and Cartilage Regenerationmentioning

confidence: 99%

“…The hydrogel could sustain the release of EXOs for about a month in vitro, and by using an imaging system, the authors confirmed the increase of PRP-Exo retention in the mice’s injured joint when the gel was applied. PRP-EXOs released from the hydrogel-PRP-EXOs complex remained functional, demonstrating positive effects on BM-MSC and chondrocytes in vitro and protective activity against inflammation-mediated apoptosis and degeneration of chondrocytes in vivo [ 136 ]. Another synthetic hydrogel potentially applied as a sustained-release delivery system was investigated by Tao and colleagues (2021) in OA models.…”

Section: Hydrogel and Cartilage Regenerationmentioning

confidence: 99%

Functionalized Hydrogels for Cartilage Repair: The Value of Secretome-Instructive Signaling

Barisón

Nogoceke

Josino

et al. 2022

IJMS

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Cartilage repair has been a challenge in the medical field for many years. Although treatments that alleviate pain and injury are available, none can effectively regenerate the cartilage. Currently, regenerative medicine and tissue engineering are among the developed strategies to treat cartilage injury. The use of stem cells, associated or not with scaffolds, has shown potential in cartilage regeneration. However, it is currently known that the effect of stem cells occurs mainly through the secretion of paracrine factors that act on local cells. In this review, we will address the use of the secretome—a set of bioactive factors (soluble factors and extracellular vesicles) secreted by the cells—of mesenchymal stem cells as a treatment for cartilage regeneration. We will also discuss methodologies for priming the secretome to enhance the chondroregenerative potential. In addition, considering the difficulty of delivering therapies to the injured cartilage site, we will address works that use hydrogels functionalized with growth factors and secretome components. We aim to show that secretome-functionalized hydrogels can be an exciting approach to cell-free cartilage repair therapy.

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“… 9 It has been reported that PRP exosomes also have protective effects on articular cartilage recently. 10 The main advantages of PRP for treatment of articular cartilage injury are simple production, high safety, minimal adverse reactions, and no foreign body rejection. 11 …”

Section: Introductionmentioning

confidence: 99%

Platelet Rich Plasma in the Repair of Articular Cartilage Injury: A Narrative Review

Liang

Wang

et al. 2022

CARTILAGE

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Objective This paper reviews the research of platelet-rich plasma (PRP) in articular cartilage injury repair, to assess the mechanism, utilization, and efficacy of PRP in the treatment of articular cartilage injury, hoping to provide a theoretical basis for the clinical application of PRP in the future. Materials and Methods A comprehensive database search on PRP applications in cartilage repair was performed. Among them, the retrieval time range of PRP in clinical trials of repairing knee cartilage injury was from January 1, 2021 to January 1, 2022. Non-clinical trials and studies unrelated to cartilage injury were excluded. Result PRP can affect inflammation, angiogenesis, cartilage protection, and cellular proliferation and differentiation after articular cartilage injury through different pathways. In all, 13 clinical trials were included in the analysis. Conclusion PRP is an emergent therapeutic approach in tissue engineering. Most studies reported that PRP has a positive effect on cartilage injury, improving the joint function, meanwhile there is a lack of standardized standards. The technology of PRP in the repair and treatment of articular cartilage injury is worthy of further research.

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Exosomes derived from platelet-rich plasma administration in site mediate cartilage protection in subtalar osteoarthritis

Cited by 63 publications

References 81 publications

The biological applications of exosomal-based materials in bone/cartilage tissue engineering

The biological applications of exosomal-based materials in bone/cartilage tissue engineering

Functionalized Hydrogels for Cartilage Repair: The Value of Secretome-Instructive Signaling

Platelet Rich Plasma in the Repair of Articular Cartilage Injury: A Narrative Review

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