The Immunomodulatory Role of Cell-Free Approaches in SARS-CoV-2-Induced Cytokine Storm—A Powerful Therapeutic Tool for COVID-19 Patients

Csöbönyeiová, Mária; Smolinská, Veronika; Harsanyi, Stefan; Ivantysyn, Michal; Klein, Martin

doi:10.3390/biomedicines11061736

Cited by 7 publications

(8 citation statements)

References 174 publications

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“…These miRNAs can decrease the production of inflammatory cytokines and minimize cell death by targeting the corresponding 3′-UTRs of multiple mRNAs and TLR pathways such as TLR7/NF-kB signaling. In general, the mechanism of exosomal miRNAs effect on cytokine storm in COVID-19 take place in different ways, the most important of which is to reduce the level of chemokines and pro-inflammatory cytokines through the release of IL-1 receptor agonist, secreting the anti-inflammatory protein TNF-α–stimulated gene 6 protein (TSG-6), and finally, downregulating NF-kB signaling in a TLRs-dependent signaling pathway ( Kiaie et al., 2021 ; Csobonyeiova et al., 2023 ). On the other hand, it has also been shown that the use of miRNA can be effective in controlling HIV infections.…”

Section: Exosomes-tlrs Intraction and Infection Controlmentioning

confidence: 99%

Regulation of immune responses to infection through interaction between stem cell-derived exosomes and toll-like receptors mediated by microRNA cargoes

Moghaddam,

Behzadi,

Sedighian

et al. 2024

Front. Cell. Infect. Microbiol.

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Infectious diseases are among the factors that account for a significant proportion of disease-related deaths worldwide. The primary treatment approach to combat microbial infections is the use of antibiotics. However, the widespread use of these drugs over the past two decades has led to the emergence of resistant microbial species, making the control of microbial infections a serious challenge. One of the most important solutions in the field of combating infectious diseases is the regulation of the host’s defense system. Toll-like receptors (TLRs) play a crucial role in the first primary defense against pathogens by identifying harmful endogenous molecules released from dying cells and damaged tissues as well as invading microbial agents. Therefore, they play an important role in communicating and regulating innate and adaptive immunity. Of course, excessive activation of TLRs can lead to disruption of immune homeostasis and increase the risk of inflammatory reactions. Targeting TLR signaling pathways has emerged as a new therapeutic approach for infectious diseases based on host-directed therapy (HDT). In recent years, stem cell-derived exosomes have received significant attention as factors regulating the immune system. The regulation effects of exosomes on the immune system are based on the HDT strategy, which is due to their cargoes. In general, the mechanism of action of stem cell-derived exosomes in HDT is by regulating and modulating immunity, promoting tissue regeneration, and reducing host toxicity. One of their most important cargoes is microRNAs, which have been shown to play a significant role in regulating immunity through TLRs. This review investigates the therapeutic properties of stem cell-derived exosomes in combating infections through the interaction between exosomal microRNAs and Toll-like receptors.

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Section: Exosomes-tlrs Intraction and Infection Controlmentioning

confidence: 99%

Regulation of immune responses to infection through interaction between stem cell-derived exosomes and toll-like receptors mediated by microRNA cargoes

Moghaddam,

Behzadi,

Sedighian

et al. 2024

Front. Cell. Infect. Microbiol.

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“…This enables them to cross the blood-brain barrier, thereby preventing the occurrence of pulmonary embolism following transplantation of MSCs [ 109 ]. Interestingly, MSC-exosomes can be used as nanocarriers to deliver antiviral drugs and anti-inflammatory agents [ 110 ]. Hence, they are regarded as a nanoscale delivery platform for microRNAs, which by nature may target and modify genes associated with the cytokine storm, a severe immune response found in COVID-19 patients [ 111 ].…”

Section: Nano-based Delivery Systems For Mscs/msc-exosomes In Covid-19mentioning

confidence: 99%

Potential therapeutic effects and nano-based delivery systems of mesenchymal stem cells and their isolated exosomes to alleviate acute respiratory distress syndrome caused by COVID-19

Ghiasi,

Kheirandish Zarandi,

Dayani

et al. 2024

Regenerative Therapy

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“…Specifically, when infection occurs in the body, they are recruited to the damaged site via interactions between chemokines and chemokine receptors [17]. Subsequently, Toll-like receptors (TLRs) on the macrophage surface can recognize pathogens via pathogen-associated molecular patterns (PAMPs), leading to macrophage activation [18,19]. Activated macrophages serve in removing pathogens and cell debris and present antigens to T cells to drive the adaptive immune response [18].…”

Section: Introductionmentioning

confidence: 99%

“…Subsequently, Toll-like receptors (TLRs) on the macrophage surface can recognize pathogens via pathogen-associated molecular patterns (PAMPs), leading to macrophage activation [18,19]. Activated macrophages serve in removing pathogens and cell debris and present antigens to T cells to drive the adaptive immune response [18]. In addition, macrophages are regulated via interactions between multiple cytokines and cytokine receptors on their membranes, resulting in phenotypic changes [20].…”

Section: Introductionmentioning

confidence: 99%

Macrophage membrane-coated nanoparticles for the treatment of infectious diseases

Wang,

Li,

Zhang

et al. 2024

Biomed. Mater.

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Infectious diseases threaten human health severely, and traditional treatment techniques face multiple limitations. Macrophages as the important component of immune cells, display the unique biological properties, such as biocompatibility, immunocompatibility, targeting specificity, and immunoregulatory activity, and play a critical role in protecting the body against infections. The macrophage membrane-coated nanoparticles not only maintain the functions of the inner nanoparticles, but also inherit the characteristics of macrophages, making them excellent tools for improvement of drug delivery and therapeutic implications in infectious diseases (IDs). In this review, we describe the characteristics and functions of macrophage membrane-coated nanoparticles and their advantages and challenges in ID therapy. We first summarize the pathological features of IDs, providing enlightenment on how to fight against them. Next, we focus on the classification, characteristics, and preparation of macrophage membrane-coated nanoparticles. Finally, we comprehensively describe the progress of macrophage membrane-coated nanoparticles in combating IDs, including drug delivery, inhibition and killing of pathogens, and immune modulation. In the end of this review, a look forward to the challenges of this aspect is presented.

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The Immunomodulatory Role of Cell-Free Approaches in SARS-CoV-2-Induced Cytokine Storm—A Powerful Therapeutic Tool for COVID-19 Patients

Cited by 7 publications

References 174 publications

Regulation of immune responses to infection through interaction between stem cell-derived exosomes and toll-like receptors mediated by microRNA cargoes

Regulation of immune responses to infection through interaction between stem cell-derived exosomes and toll-like receptors mediated by microRNA cargoes

Potential therapeutic effects and nano-based delivery systems of mesenchymal stem cells and their isolated exosomes to alleviate acute respiratory distress syndrome caused by COVID-19

Macrophage membrane-coated nanoparticles for the treatment of infectious diseases

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