Novel guanidine compounds inhibit platelet‐derived growth factor receptor alpha transcription and oligodendrocyte precursor cell proliferation

Medved, Jelena; Wood, William M.; Heyst, Michael D. Van; Sherafat, Amin; Song, Jong Tae; Sakya, Sagune; Wright, Dennis L.; Nishiyama, Akiko

doi:10.1002/glia.23930

Cited by 5 publications

(3 citation statements)

References 70 publications

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“…Specific miRNAs downregulate PDGFRα (Budde et al, 2010 ; Dugas et al, 2010 ; Zhao et al, 2010 ), but PDGFRα downregulation and cessation of OPC proliferation are not necessarily coupled with OL differentiation. For example, guanidine compounds that repress Pdgfra transcription and OPC proliferation do not stimulate OL differentiation (Medved et al, 2021 ). Activation of Akt (Protein kinase B) and mammalian target of rapamycin (mTOR) is critical for OL differentiation (Bercury et al, 2014 ; Ishii et al, 2019 ), and the effect is mediated by FoxO1 (Wang et al, 2021 ; Figure 1C , NFOL).…”

Section: Dynamic Regulation From Npcs To Myelinationmentioning

confidence: 99%

Presentation and integration of multiple signals that modulate oligodendrocyte lineage progression and myelination

Fekete

Nishiyama

2022

Front. Cell. Neurosci.

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Myelination is critical for fast saltatory conduction of action potentials. Recent studies have revealed that myelin is not a static structure as previously considered but continues to be made and remodeled throughout adulthood in tune with the network requirement. Synthesis of new myelin requires turning on the switch in oligodendrocytes (OL) to initiate the myelination program that includes synthesis and transport of macromolecules needed for myelin production as well as the metabolic and other cellular functions needed to support this process. A significant amount of information is available regarding the individual intrinsic and extrinsic signals that promote OL commitment, expansion, terminal differentiation, and myelination. However, it is less clear how these signals are made available to OL lineage cells when needed, and how multiple signals are integrated to generate the correct amount of myelin that is needed in a given neural network state. Here we review the pleiotropic effects of some of the extracellular signals that affect myelination and discuss the cellular processes used by the source cells that contribute to the variation in the temporal and spatial availability of the signals, and how the recipient OL lineage cells might integrate the multiple signals presented to them in a manner dialed to the strength of the input.

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Section: Dynamic Regulation From Npcs To Myelinationmentioning

confidence: 99%

Presentation and integration of multiple signals that modulate oligodendrocyte lineage progression and myelination

Fekete

Nishiyama

2022

Front. Cell. Neurosci.

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“…OLs populations can be replenished from various stem cell sources, such as neural, embryonic, and induced pluripotent stem cells (Czepiel et al 2015). These stem cell sources must reach an oligodendrocyte precursor cells (OPCs) state during differentiation into oligodendrocytes (Sim et al 2006), which have greater proliferation and migration ability than OLs (Medved et al 2020); therefore, OPCs are more suitable for post-transplant survival than OLs, which would also increase the extent of myelination.…”

Section: Introductionmentioning

confidence: 99%

“…Stem cells have nerve regeneration, neuroprotection, and neurotrophic properties [ 3 , 4 ]; therefore, stem cell transplantation is considered one of the most promising treatment methods. Studies have shown that OLs can be differentiated from oligodendrocyte precursor cells (OPCs), and OPCs have greater proliferation and migration ability than OLs [ 5 ]; therefore, OPCs are more suitable for post-transplant survival, which also increases the extent of myelination.…”

Section: Introductionmentioning

confidence: 99%

Study on the Safety of Human Oligodendrocyte Precursor Cell Transplantation in Young Animals and Its Efficacy on Myelination

Zhou

et al. 2021

Stem Cells and Development

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Oligodendrocyte precursor cells (OPCs), which can differentiate into myelinating oligodendrocytes during embryonic development, are an important potential source for myelin repair or regeneration. To date, OPCs from human sources (hOPCs) remain limited. In this study, we aimed to evaluate the safety and remyelination capacity of hOPCs developed in our laboratory by transplanting them into the lateral ventricles of Sprague-Dawley rats of different ages. The toxicity, biodistribution, and tumor formation abilities of the injected hOPCs were examined by evaluating rats' vital signs, developmental indicators, neural re exes, along with hematological, immunological, and pathological assessments. In addition, the hOPCs were transplanted into the corpus callosum of shiverer mice to verify cell myelination e cacy.Overall, our results showed that transplanted hOPCs into young mice showed no toxicity against their organ function or immune system, engrafted only in the brain, and caused no tissue proliferation or tumor formation. In terms of e cacy, the transplanted hOPCs formed myelin in the corpus callosum, alleviated the trembling phenotype of shiverer mice, and promoted normal development. The transplantation of hOPCs is safe and can effectively form myelin in the brain, thereby providing a theoretical basis for the future clinical transplantation of hOPCs.

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Chronic oligodendrocyte injury in central nervous system pathologies

2022

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Myelin, the membrane surrounding neuronal axons, is critical for central nervous system (CNS) function. Injury to myelin-forming oligodendrocytes (OL) in chronic neurological diseases (e.g. multiple sclerosis) ranges from sublethal to lethal, leading to OL dysfunction and myelin pathology, and consequent deleterious impacts on axonal health that drive clinical impairments. This is regulated by intrinsic factors such as heterogeneity and age, and extrinsic cellular and molecular interactions. Here, we discuss the responses of OLs to injury, and perspectives for therapeutic targeting. We put forward that targeting mature OL health in neurological disease is a promising therapeutic strategy to support CNS function.

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Novel guanidine compounds inhibit platelet‐derived growth factor receptor alpha transcription and oligodendrocyte precursor cell proliferation

Cited by 5 publications

References 70 publications

Presentation and integration of multiple signals that modulate oligodendrocyte lineage progression and myelination

Presentation and integration of multiple signals that modulate oligodendrocyte lineage progression and myelination

Study on the Safety of Human Oligodendrocyte Precursor Cell Transplantation in Young Animals and Its Efficacy on Myelination

Chronic oligodendrocyte injury in central nervous system pathologies

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