Expressions of Some Neurotrophins and Neurotrophic Cytokines at Site of Spinal Cord Injury in Mice after Vaccination with Dendritic Cells Pulsed with Homogenate Proteins

Wang, Ke; Chao, Rui; Guo, Qiao‐Nan; Liu, Mingyong; Liang, Huaping; Liu, Peng; Zhao, Jianhua

doi:10.1159/000345522

Cited by 10 publications

(13 citation statements)

References 77 publications

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“…Also, it was reported that the vaccination with spinal cord homogenate‐pulsed dendritic cells 89,90 and in particular with A91‐pulsed dendritic cells 91 enhanced the expression level of BDNF and NT‐3 and exerted neuroprotective effect in a SCI mice model.…”

Section: Harnessing “Pa” For Neuro‐regeneration and Cns Injury Recovery With Cns‐related Peptidesmentioning

confidence: 99%

“…87 However, they recently observed that combined therapy of monocyte locomotion inhibitor factor, A91 peptide, and glutathione monoethyl ester (GSH-MEE) preserved spinal cord tissue integrity and promoted functional motor recovery in rats following chronicstage SCI. 88 Also, it was reported that the vaccination with spinal cord homogenate-pulsed dendritic cells 89,90 and in particular with A91pulsed dendritic cells 91 enhanced the expression level of BDNF and NT-3 and exerted neuroprotective effect in a SCI mice model.…”

Section: A91mentioning

confidence: 99%

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Immunomodulation induced by central nervous system‐related peptides as a therapeutic strategy for neurodegenerative disorders

Palumbo

Moroni

Quiroga

et al. 2021

Pharmacology Res & Perspec

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Section: Harnessing “Pa” For Neuro‐regeneration and Cns Injury Recovery With Cns‐related Peptidesmentioning

confidence: 99%

Section: A91mentioning

confidence: 99%

Immunomodulation induced by central nervous system‐related peptides as a therapeutic strategy for neurodegenerative disorders

Palumbo

Moroni

Quiroga

et al. 2021

Pharmacology Res & Perspec

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show abstract

“…Additionally, cell-based vaccination also possesses the potential to activate innate immune responses against peptides in MBP (myelin-based protein), which is likely to enhance the innate immunity (mediated by neutrophils, microglia, or macrophages) by promoting the body’s self-repair capability against antigens located at the site of injury ( Hauben and Schwartz, 2003 ). Since spinal cord injury itself could trigger self-destructive processes that result in significant damage to its function, however, immune-mediated repair and maintenance can protect against self-destructive compounds that form after a spinal cord injury ( Hauben and Schwartz, 2003 ; Wang et al, 2013 ). Accordingly, a recent study has reported that antigen-presenting cells (APCs) such as dendritic cells can mediate neuroprotection by inducing a T-cell-dependent immune response.…”

Section: Cross-talk Between Neuronal Recovery and Capacity Of Neuroin...mentioning

confidence: 99%

“…It thus opens up the possibility of applying antigen-specific DCs as an efficient therapeutic strategy that can modulate neuroinflammation by transiently inducing autoimmune responses. Further studies have provided evidence that DCs primed cells can potentially trigger local adaptive immunity (mediated by B- and T-cell) by systemic immunization against antigens located at the lesion site ( Wang et al, 2013 ). Thus indicating dendritic cell (DC)-based vaccines as promising treatments for SCI due to their ability to combat the effects of immune cells (pivotal mediators of secondary damage) ( Wang et al, 2013 ).…”

Section: Cross-talk Between Neuronal Recovery and Capacity Of Neuroin...mentioning

confidence: 99%

Title: Immunotherapy; a ground-breaking remedy for spinal cord injury with stumbling blocks: An overview

Saeed¹

2023

Front. Pharmacol.

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Spinal cord injury (SCI) is a debilitating disorder with no known standard and effective treatment. Despite its ability to exacerbate SCI sequel by accelerating auto-reactive immune cells, an immune response is also considered essential to the healing process. Therefore, immunotherapeutic strategies targeting spinal cord injuries may benefit from the dual nature of immune responses. An increasing body of research suggests that immunization against myelin inhibitors can promote axon remyelination after SCI. However, despite advancements in our understanding of neuroimmune responses, immunoregulation-based therapeutic strategies have yet to receive widespread acceptance. Therefore, it is a prerequisite to enhance the understanding of immune regulation to ensure the safety and efficacy of immunotherapeutic treatments. The objective of the present study was to provide an overview of previous studies regarding the advantages and limitations of immunotherapeutic strategies for functional recovery after spinal cord injury, especially in light of limiting factors related to DNA and cell-based vaccination strategies by providing a novel prospect to lay the foundation for future studies that will help devise a safe and effective treatment for spinal cord injury.

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“…Perhaps, APC must be primed first with NMP or SC homogenate (SHC), because, even mature DCs can evoke antigen-specific T lymphocyte response, it is not efficient enough to promote motor recovery [112]. Studies support the idea that only pulsed DCs can influence the secretion of neurotrophic factors like BDNF and neurotrophin-3 (NT3) in culture supernatants and at the SC lesion site via CD4 + T lymphocyte, motoneuron survival, NSCs proliferation and functional recovery [113][114][115]. Also, A91 has been used to pulse DCs, proving that motor recovery increase since the eleven days in comparison with control rats and an autoimmune response is not developed when Lewis strain is used but apparently a T lymphocyte response is involved, because when neonatally thymectomized rats are injected DCs treatment has no effect on recovery [116].…”

Section: Pulsed Dendritic Cells In Spinal Cord Injurymentioning

confidence: 99%

Transplantation or Transference of Cultured Cells as a Treatment for Spinal Cord Injury

Rodríguez-Barrera¹,

Soria-Zavala²,

García–Sánchez³

et al. 2019

Spinal Cord Injury Therapy [Working Title]

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Spinal cord injury (SCI) involves damage to the spinal cord causing both structural and functional changes, which can lead to temporary or permanent alterations. Even though there have been many advances in its treatment, the results of clinical trials suggest that the current therapies are not sufficiently effective.Recently, there has been a lot of interest in regulating this harmful environment by transplanting cultured cells and boosting their antiinflammatory cytokines and growth factors production. Several types of cells have been studied for SCI therapy including, Schwann cells (SC's), olfactory ensheathing cells (OECs), choroid plexus epithelial cells (CPECs), and immune cells (ICs) (lymphocytes, dendritic cells and alternative macrophage and microglia phenotypes). These treatments have shown to be promising and in this chapter, we will review the general aspects of transplanting these cells for SCI therapy as well as the neuroprotective and regenerative responses that different types of cells have reached in different SCI models. The mesenchymal stem cells (MSC) are one of the most well studied cell types; however, they were not included in this section because they will be reviewed in another chapter of this book.

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Expressions of Some Neurotrophins and Neurotrophic Cytokines at Site of Spinal Cord Injury in Mice after Vaccination with Dendritic Cells Pulsed with Homogenate Proteins

Cited by 10 publications

References 77 publications

Immunomodulation induced by central nervous system‐related peptides as a therapeutic strategy for neurodegenerative disorders

Immunomodulation induced by central nervous system‐related peptides as a therapeutic strategy for neurodegenerative disorders

Title: Immunotherapy; a ground-breaking remedy for spinal cord injury with stumbling blocks: An overview

Transplantation or Transference of Cultured Cells as a Treatment for Spinal Cord Injury

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