| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Danyang Li, Kaihong Yang, Jinlu Li, Xiaoqian Xu, Lanlan Gong, Shouwei Yue, Hui Wei, Zhenyu Yue, Yikun Wu, Sen Yi. Single-cell sequencing reveals glial cell involvement in development of neuropathic pain via myelin sheath lesion formation in the spinal cord. Journal of neuroinflammation. vol 21. issue 1. 2024-08-31. PMID:39217340. |
single-cell sequencing reveals glial cell involvement in development of neuropathic pain via myelin sheath lesion formation in the spinal cord. |
2024-08-31 |
2024-09-04 |
Not clear |
| Catrina Reyes, Mayssa H Mokalle. Astrocyte-Neuron Interactions in Spinal Cord Injury. Advances in neurobiology. vol 39. 2024-08-27. PMID:39190077. |
a detailed molecular and phenotypic catalog of the continuum of astrocyte reactivity states is an essential first step toward the development of glial cell manipulations for spinal cord repair. |
2024-08-27 |
2024-08-30 |
Not clear |
| Robin I Brown, Heather M Barber, Sarah Kucena. Satellite glial cell manipulation prior to axotomy enhances developing dorsal root ganglion central branch regrowth into the spinal cord. Glia. vol 72. issue 10. 2024-08-14. PMID:39141572. |
satellite glial cell manipulation prior to axotomy enhances developing dorsal root ganglion central branch regrowth into the spinal cord. |
2024-08-14 |
2024-08-17 |
zebrafish |
| Akihito Takeda, Minami Teshima, Kengo Funakosh. Involvement of vimentin- and BLBP-positive glial cells and their MMP expression in axonal regeneration after spinal cord transection in goldfish. Cell and tissue research. 2024-08-09. PMID:39120736. |
in intact spinal cord, ependymo-radial glial cell bodies express blbp and their radial processes express vimentin, suggesting that vimentin-positive glial processes derive from migrating ependymo-radial glial cells. |
2024-08-09 |
2024-08-12 |
Not clear |
| Shibo Zhu, Hongpeng Ma, Mengfan Hou, Hailiang Li, Guangzhi Nin. Schwann Cell-Derived Exosomes Induced Axon Growth after Spinal Cord Injury by Decreasing PTP-σ Activation on CSPGs via the Rho/ROCK Pathway. Neurochemical research. vol 49. issue 8. 2024-07-09. PMID:38819695. |
this process leads to the upregulation of chondroitin sulfate proteoglycans (cspgs) by reactive glia, which impedes repair and regeneration in the spinal cord. |
2024-07-09 |
2024-07-12 |
mouse |
| Yi Huang, Rong Hu, Lei Wu, Kelin He, Ruijie M. Immunoregulation of Glia after spinal cord injury: a bibliometric analysis. Frontiers in immunology. vol 15. 2024-06-28. PMID:38938572. |
immunoregulation of glia after spinal cord injury: a bibliometric analysis. |
2024-06-28 |
2024-06-30 |
Not clear |
| Yali Chen, Yiyong Wei, Jin Liu, Tao Zhu, Cheng Zhou, Donghang Zhan. Spatial transcriptomics combined with single-nucleus RNA sequencing reveals glial cell heterogeneity in the human spinal cord. Neural regeneration research. 2024-06-27. PMID:38934400. |
spatial transcriptomics combined with single-nucleus rna sequencing reveals glial cell heterogeneity in the human spinal cord. |
2024-06-27 |
2024-06-29 |
mouse |
| Yali Chen, Yiyong Wei, Jin Liu, Tao Zhu, Cheng Zhou, Donghang Zhan. Spatial transcriptomics combined with single-nucleus RNA sequencing reveals glial cell heterogeneity in the human spinal cord. Neural regeneration research. 2024-06-27. PMID:38934400. |
despite the greater understanding of glial cell types and functional heterogeneity achieved through single-cell and single-nucleus rna sequencing in animal models, few studies have investigated the transcriptomic profiles of glial cells in the human spinal cord. |
2024-06-27 |
2024-06-29 |
mouse |
| Yali Chen, Yiyong Wei, Jin Liu, Tao Zhu, Cheng Zhou, Donghang Zhan. Spatial transcriptomics combined with single-nucleus RNA sequencing reveals glial cell heterogeneity in the human spinal cord. Neural regeneration research. 2024-06-27. PMID:38934400. |
in the mouse spinal cord, astrocytes, microglia, and oligodendrocytes were divided into five, four, and five distinct transcriptomic subclusters, respectively.the comparative results revealed substantial heterogeneity in all glial cell types between humans and mice. |
2024-06-27 |
2024-06-29 |
mouse |
| Jessica L Funnell, Jasper Fougere, Diana Zahn, Silvio Dutz, Ryan J Gilber. Delivery of TGFβ3 from Magnetically Responsive Coaxial Fibers Reduces Spinal Cord Astrocyte Reactivity In Vitro. Advanced biology. 2024-06-27. PMID:38935534. |
a spinal cord injury (sci) compresses the spinal cord, killing neurons and glia at the injury site and resulting in prolonged inflammation and scarring that prevents regeneration. |
2024-06-27 |
2024-06-30 |
Not clear |
| Jessica L Funnell, Jasper Fougere, Diana Zahn, Silvio Dutz, Ryan J Gilber. Delivery of TGFβ3 from Magnetically Responsive Coaxial Fibers Reduces Spinal Cord Astrocyte Reactivity In Vitro. Advanced biology. 2024-06-27. PMID:38935534. |
astrocytes, the main glia in the spinal cord, become reactive following sci and contribute to adverse outcomes. |
2024-06-27 |
2024-06-30 |
Not clear |
| Giada Amodeo, Giulia Magni, Giulia Galimberti, Benedetta Riboldi, Silvia Franchi, Paola Sacerdote, Stefania Cerut. Neuroinflammation in osteoarthritis: From pain to mood disorders. Biochemical pharmacology. 2024-03-31. PMID:38556026. |
in the present commentary article, we aim to summarize up-to-date results achieved in this experimental model of oa, focusing on glia activation and cytokine production in the sciatic nerve, dorsal root ganglia (drgs), spinal cord and brain areas. |
2024-03-31 |
2024-04-03 |
Not clear |
| Eva E Stefanova, Julian V T Dychiao, Mavis C Chinn, Matin Borhani, Angela L Scot. P2X7 regulates ependymo-radial glial cell proliferation in adult Danio rerio following spinal cord injury. Biology open. 2024-03-25. PMID:38526172. |
p2x7 regulates ependymo-radial glial cell proliferation in adult danio rerio following spinal cord injury. |
2024-03-25 |
2024-03-27 |
zebrafish |
| Eva E Stefanova, Julian V T Dychiao, Mavis C Chinn, Matin Borhani, Angela L Scot. P2X7 regulates ependymo-radial glial cell proliferation in adult Danio rerio following spinal cord injury. Biology open. 2024-03-25. PMID:38526172. |
spinal cord ependymo-radial glia (erg) undergo injury-induced proliferation and neuronal differentiation to replace damaged cells and restore motor function. |
2024-03-25 |
2024-03-27 |
zebrafish |
| Piotr Rogujski, Barbara Lukomska, Miroslaw Janowski, Luiza Stanasze. Glial-restricted progenitor cells: a cure for diseased brain? Biological research. vol 57. issue 1. 2024-03-13. PMID:38475854. |
traditionally, glia was disregarded as just the structural support across the brain and spinal cord, in striking contrast to neurons, always considered critical players in cns functioning. |
2024-03-13 |
2024-03-15 |
Not clear |
| Wenjiao Tai, Xiaolong Du, Chen Chen, Xiao-Ming Xu, Chun-Li Zhang, Wei W. NG2 glia reprogramming induces robust axonal regeneration after spinal cord injury. iScience. vol 27. issue 2. 2024-02-06. PMID:38318363. |
ng2 glia reprogramming induces robust axonal regeneration after spinal cord injury. |
2024-02-06 |
2024-02-09 |
Not clear |
| Obulapathi Ummadisetty, Akhilesh, Anagha Gadepalli, Deepak Chouhan, Utkarsh Patil, Surya Pratap Singh, Sanjay Singh, Vinod Tiwar. Dermorphin [D-Arg2, Lys4] (1-4) Amide Alleviates Frostbite-Induced Pain by Regulating TRP Channel-Mediated Microglial Activation and Neuroinflammation. Molecular neurobiology. 2024-01-26. PMID:38277118. |
further, molecular biology investigations unveiled heightened oxido-nitrosative stress, coupled with a notable upregulation in the expression of trp channels (trpa1, trpv1, and trpm8), glial cell activation, and neuroinflammation (tnf-α, il-1β) in the sciatic nerve, dorsal root ganglion (drg), and spinal cord of frostbite-injured rats. |
2024-01-26 |
2024-01-28 |
rat |
| Mousumi Ghosh, Damien D Pears. Schwann Cell-Derived Exosomal Vesicles: A Promising Therapy for the Injured Spinal Cord. International journal of molecular sciences. vol 24. issue 24. 2023-12-23. PMID:38139147. |
scs, the myelinating glia of the peripheral nervous system, have a long history of demonstrated benefit in repair of the injured spinal cord and peripheral nerves when transplanted, including their recent advancement to clinical investigations for feasibility and safety in humans. |
2023-12-23 |
2023-12-25 |
human |
| Clayton J Becker, Valentina Cigliola, Pierre Gillotay, Ashley Rich, Alessandro De Simone, Yanchao Han, Stefano Di Talia, Kenneth D Pos. In toto imaging of glial JNK signaling during larval zebrafish spinal cord regeneration. Development (Cambridge, England). 2023-11-24. PMID:37997694. |
using a chemical screen, we identify jnk signaling as a necessary regulator of glial cell cycling and tissue bridging during spinal cord regeneration in larval zebrafish. |
2023-11-24 |
2023-11-29 |
zebrafish |
| Clayton J Becker, Valentina Cigliola, Pierre Gillotay, Ashley Rich, Alessandro De Simone, Yanchao Han, Stefano Di Talia, Kenneth D Pos. In toto imaging of glial JNK signaling during larval zebrafish spinal cord regeneration. Development (Cambridge, England). 2023-11-24. PMID:37997694. |
thus, dynamic and regional regulation of jnk signaling help to direct glial cell behaviors during innate spinal cord regeneration. |
2023-11-24 |
2023-11-29 |
zebrafish |