Literature DB >> 29925925

Promises and limitations of immune cell-based therapies in neurological disorders.

Xiaoming Hu1, Rehana K Leak2, Angus W Thomson3, Fang Yu1, Yuguo Xia1, Lawrence R Wechsler1, Jun Chen4.   

Abstract

The healthy immune system has natural checkpoints that temper pernicious inflammation. Cells mediating these checkpoints include regulatory T cells, regulatory B cells, regulatory dendritic cells, microglia, macrophages and monocytes. Here, we highlight discoveries on the beneficial functions of regulatory immune cells and their mechanisms of action and evaluate their potential use as novel cell-based therapies for brain disorders. Regulatory immune cell therapies have the potential not only to mitigate the exacerbation of brain injury by inflammation but also to promote an active post-injury brain repair programme. By harnessing the reparative properties of these cells, we can reduce over-reliance on medications that mask clinical symptoms but fail to impede or reverse the progression of brain disorders. Although these discoveries encourage further testing and genetic engineering of regulatory immune cells for the clinical management of neurological disorders, a number of challenges must be surmounted to improve their safety and efficacy in humans.

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Year:  2018        PMID: 29925925      PMCID: PMC6237550          DOI: 10.1038/s41582-018-0028-5

Source DB:  PubMed          Journal:  Nat Rev Neurol        ISSN: 1759-4758            Impact factor:   42.937


  106 in total

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Journal:  Blood       Date:  2006-09-26       Impact factor: 22.113

2.  Autologous bone marrow derived mononuclear cell therapy for spinal cord injury: A phase I/II clinical safety and primary efficacy data.

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3.  Regulatory T cells in CNS injury: the simple, the complex and the confused.

Authors:  James T Walsh; Jonathan Kipnis
Journal:  Trends Mol Med       Date:  2011-07-07       Impact factor: 11.951

4.  Prevention of experimental autoimmune encephalomyelitis by transfer of embryonic stem cell-derived dendritic cells expressing myelin oligodendrocyte glycoprotein peptide along with TRAIL or programmed death-1 ligand.

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Journal:  J Immunol       Date:  2005-02-15       Impact factor: 5.422

5.  Current concepts in the diagnosis and management of cytokine release syndrome.

Authors:  Daniel W Lee; Rebecca Gardner; David L Porter; Chrystal U Louis; Nabil Ahmed; Michael Jensen; Stephan A Grupp; Crystal L Mackall
Journal:  Blood       Date:  2014-05-29       Impact factor: 22.113

Review 6.  Application of IL-2 therapy to target T regulatory cell function.

Authors:  Ethan M Shevach
Journal:  Trends Immunol       Date:  2012-08-30       Impact factor: 16.687

7.  Plasticity of Foxp3(+) T cells reflects promiscuous Foxp3 expression in conventional T cells but not reprogramming of regulatory T cells.

Authors:  Takahisa Miyao; Stefan Floess; Ruka Setoguchi; Hervé Luche; Hans Joerg Fehling; Herman Waldmann; Jochen Huehn; Shohei Hori
Journal:  Immunity       Date:  2012-02-09       Impact factor: 31.745

8.  CAR/FoxP3-engineered T regulatory cells target the CNS and suppress EAE upon intranasal delivery.

Authors:  Moa Fransson; Elena Piras; Joachim Burman; Berith Nilsson; Magnus Essand; Binfeng Lu; Robert A Harris; Peetra U Magnusson; Eva Brittebo; Angelica S I Loskog
Journal:  J Neuroinflammation       Date:  2012-05-30       Impact factor: 8.322

9.  NAD+ protects against EAE by regulating CD4+ T-cell differentiation.

Authors:  Stefan G Tullius; Hector Rodriguez Cetina Biefer; Suyan Li; Alexander J Trachtenberg; Karoline Edtinger; Markus Quante; Felix Krenzien; Hirofumi Uehara; Xiaoyong Yang; Haydn T Kissick; Winston P Kuo; Ionita Ghiran; Miguel A de la Fuente; Mohamed S Arredouani; Virginia Camacho; John C Tigges; Vasilis Toxavidis; Rachid El Fatimy; Brian D Smith; Anju Vasudevan; Abdallah ElKhal
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10.  Breaking immune tolerance by targeting Foxp3(+) regulatory T cells mitigates Alzheimer's disease pathology.

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Journal:  Nat Commun       Date:  2015-08-18       Impact factor: 14.919
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  15 in total

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2.  Genome-wide transcriptomic analysis of microglia reveals impaired responses in aged mice after cerebral ischemia.

Authors:  Ligen Shi; Marcelo Rocha; Wenting Zhang; Ming Jiang; Sicheng Li; Qing Ye; Sulaiman H Hassan; Liqiang Liu; Maya N Adair; Jing Xu; Jianhua Luo; Xiaoming Hu; Lawrence R Wechsler; Jun Chen; Yejie Shi
Journal:  J Cereb Blood Flow Metab       Date:  2020-05-21       Impact factor: 6.200

Review 3.  Regenerative Role of T Cells in Nerve Repair and Functional Recovery.

Authors:  Xiaoxuan Tang; Qiaoyuan Li; Tingting Huang; Han Zhang; Xiaoli Chen; Jue Ling; Yumin Yang
Journal:  Front Immunol       Date:  2022-07-05       Impact factor: 8.786

4.  Delivery strategies for cell-based therapies in the brain: overcoming multiple barriers.

Authors:  Olivia M Turk; Ryan C Woodall; Margarita Gutova; Christine E Brown; Russell C Rockne; Jennifer M Munson
Journal:  Drug Deliv Transl Res       Date:  2021-10-30       Impact factor: 5.671

5.  Clickable Methyltetrazine-Indocarbocyanine Lipids: A Multicolor Tool Kit for Efficient Modifications of Cell Membranes.

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Journal:  Bioconjug Chem       Date:  2019-05-03       Impact factor: 4.774

6.  Cisplatin educates CD8+ T cells to prevent and resolve chemotherapy-induced peripheral neuropathy in mice.

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7.  Treg cell-derived osteopontin promotes microglia-mediated white matter repair after ischemic stroke.

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Journal:  Immunity       Date:  2021-05-19       Impact factor: 43.474

8.  Neurologic toxicity associated with immune checkpoint inhibitors: a pharmacovigilance study.

Authors:  Douglas B Johnson; Ali Manouchehri; Alexandra M Haugh; Henry T Quach; Justin M Balko; Benedicte Lebrun-Vignes; Andrew Mammen; Javid J Moslehi; Joe-Elie Salem
Journal:  J Immunother Cancer       Date:  2019-05-22       Impact factor: 13.751

Review 9.  Harnessing regulatory T cell neuroprotective activities for treatment of neurodegenerative disorders.

Authors:  Jatin Machhi; Bhavesh D Kevadiya; Ijaz Khan Muhammad; Jonathan Herskovitz; Katherine E Olson; R Lee Mosley; Howard E Gendelman
Journal:  Mol Neurodegener       Date:  2020-06-05       Impact factor: 14.195

10.  Go-sha-jinki-Gan Alleviates Inflammation in Neurological Disorders via p38-TNF Signaling in the Central Nervous System.

Authors:  Shiying Jiang; Kousuke Baba; Keisuke Hagihara; Hideki Mochizuki; Tatsusada Okuno; Makoto Kinoshita; Chi-Jing Choong; Hideki Hayakawa; Hiroshi Sakiyama; Kensuke Ikenaka; Seiichi Nagano; Tsutomu Sasaki; Munehisa Shimamura; Yoshitaka Nagai
Journal:  Neurotherapeutics       Date:  2020-10-20       Impact factor: 7.620
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