2019
DOI: 10.1007/s11064-019-02841-1
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Identification of Key Genes and Pathways Involved in the Heterogeneity of Intrinsic Growth Ability Between Neurons After Spinal Cord Injury in Adult Zebrafish

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Cited by 8 publications
(3 citation statements)
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“…Zebrafish studies have already yielded valuable information on potential candidate proteins involved in neuroregeneration following SCIs, such as CTGFa [ 132 ], Cav1 [ 51 ], ANP32a [ 133 ], matrix metalloproteinase-9 [ 158 ], and sonic hedgehog [ 159 , 160 ]. Furthermore, in the current zebrafish study, differentially expressed genes were sorted and analyzed in-depth using bioinformatics methods, such as the Notch signaling pathway [ 161 , 162 ], Wnt signaling pathway [ 163 ], and Hippo-Yap/Taz signaling pathway [ 164 ]. These results suggest that, after an SCI in adult zebrafish, our understanding of the molecular mechanisms underlying axon regeneration can be facilitated, and these candidate genes and pathways can serve as therapeutic targets for the treatment of CNS injuries.…”
Section: Future Directions: Zebrafish Neuron Regeneration Research In...mentioning
confidence: 99%
“…Zebrafish studies have already yielded valuable information on potential candidate proteins involved in neuroregeneration following SCIs, such as CTGFa [ 132 ], Cav1 [ 51 ], ANP32a [ 133 ], matrix metalloproteinase-9 [ 158 ], and sonic hedgehog [ 159 , 160 ]. Furthermore, in the current zebrafish study, differentially expressed genes were sorted and analyzed in-depth using bioinformatics methods, such as the Notch signaling pathway [ 161 , 162 ], Wnt signaling pathway [ 163 ], and Hippo-Yap/Taz signaling pathway [ 164 ]. These results suggest that, after an SCI in adult zebrafish, our understanding of the molecular mechanisms underlying axon regeneration can be facilitated, and these candidate genes and pathways can serve as therapeutic targets for the treatment of CNS injuries.…”
Section: Future Directions: Zebrafish Neuron Regeneration Research In...mentioning
confidence: 99%
“…This scarring creates an unfavorable environment for tissue renewal [ 8 ]. Experiments in non-mammalian species, particularly fishes and amphibians, have shown some peculiarities that may account for the increased regenerative potential of these species [ 9 , 10 , 11 , 12 , 13 ]. Thus, investigators have probed the gene expression profiles of species that can regenerate their spinal cord following transection, as a source of insight (and future therapies) to understand the limits of CNS regeneration in mammals.…”
Section: Introductionmentioning
confidence: 99%
“…This scarring creates a milieu unfavorable for tissue renewal [8]. Experiments in non-mammalian species, particularly fishes and amphibians, have shown some peculiarities that may account for the increased regenerative potential of these species [9][10] [11][12] [13]. Thus, investigators have probed the gene expression profiles of species that can regenerate their spinal cord, following transection, as a source of insights (and future therapies) to understand the limits of CNS regeneration in mammals.…”
Section: Introductionmentioning
confidence: 99%