[HTML][HTML] Application and prospects of somatic cell reprogramming technology for spinal cord injury treatment
R Yang, J Pan, Y Wang, P Xia, M Tai… - Frontiers in Cellular …, 2022 - frontiersin.org
Spinal cord injury (SCI) is a serious neurological trauma that is challenging to treat. After
SCI, many neurons in the injured area die due to necrosis or apoptosis, and astrocytes …
SCI, many neurons in the injured area die due to necrosis or apoptosis, and astrocytes …
Stem cells in central nervous system diseases: Promising therapeutic strategies
C Ying, J Zhang, H Zhang, S Gao, X Guo, J Lin… - Experimental …, 2023 - Elsevier
Central nervous system (CNS) diseases are a leading cause of death and disability. Due to
CNS neurons have no self-renewal and regenerative ability as they mature, their loss after …
CNS neurons have no self-renewal and regenerative ability as they mature, their loss after …
[HTML][HTML] UCHL1 facilitates protein aggregates clearance to enhance neural stem cell activation in spinal cord injury
L Ding, W Chu, Y Xia, M Shi, T Li, FQ Zhou… - Cell Death & …, 2023 - nature.com
Activation of endogenous neural stem cells (NSCs) is greatly significant for the adult
neurogenesis; however, it is extremely limited in the spinal cord after injury. Recent …
neurogenesis; however, it is extremely limited in the spinal cord after injury. Recent …
[HTML][HTML] Neural stem cells overexpressing arginine decarboxylase improve functional recovery from spinal cord injury in a mouse model
YM Park, JH Kim, JE Lee - International journal of molecular sciences, 2022 - mdpi.com
Current therapeutic strategies for spinal cord injury (SCI) cannot fully facilitate neural
regeneration or improve function. Arginine decarboxylase (ADC) synthesizes agmatine, an …
regeneration or improve function. Arginine decarboxylase (ADC) synthesizes agmatine, an …
[HTML][HTML] Extracellular vesicles released by transforming growth factor-beta 1-preconditional mesenchymal stem cells promote recovery in mice with spinal cord injury
G Chen, K Tong, S Li, Z Huang, S Liu, H Zhu, Y Zhong… - Bioactive Materials, 2024 - Elsevier
Spinal cord injury (SCI) causes neuroinflammation, neuronal death, and severe axonal
connections. Alleviating neuroinflammation, protecting residual cells and promoting …
connections. Alleviating neuroinflammation, protecting residual cells and promoting …
[HTML][HTML] Salidroside promotes the repair of spinal cord injury by inhibiting astrocyte polarization, promoting neural stem cell proliferation and neuronal differentiation
D Qian, Y Dong, X Liu, H Yu, Z Song, C Jia… - Cell Death …, 2024 - nature.com
Spinal cord injury (SCI) remains a formidable challenge, lacking effective treatments.
Following SCI, neural stem cells (NSCs) migrate to SCI sites, offering a potential avenue for …
Following SCI, neural stem cells (NSCs) migrate to SCI sites, offering a potential avenue for …
Decellularised spinal cord matrix manipulates glial niche into repairing phase via serglycin‐mediated signalling pathway
S Zhang, M Zhai, Y Xu, J Han, J Chen, Y Xiong… - Cell …, 2023 - Wiley Online Library
Astrocytes are the most abundant and widespread glial cells in the central nervous system.
The heterogeneity of astrocytes plays an essential role in spinal cord injury (SCI) repair …
The heterogeneity of astrocytes plays an essential role in spinal cord injury (SCI) repair …
[HTML][HTML] Extracellular vesicles from UTX-knockout endothelial cells boost neural stem cell differentiation in spinal cord injury
Y Liu, Z Luo, Y Xie, Y Sun, F Yuan, L Jiang… - Cell Communication and …, 2024 - Springer
Background Vascular endothelial cells are pivotal in the pathophysiological progression
following spinal cord injury (SCI). The UTX (Ubiquitously Transcribed Tetratripeptide Repeat …
following spinal cord injury (SCI). The UTX (Ubiquitously Transcribed Tetratripeptide Repeat …
Neural regeneration in the human central nervous system—from understanding the underlying mechanisms to developing treatments. Where do we stand today?
CE Kvistad, T Kråkenes, S Gavasso, L Bø - Frontiers in Neurology, 2024 - frontiersin.org
Mature neurons in the human central nervous system (CNS) fail to regenerate after injuries.
This is a common denominator across different aetiologies, including multiple sclerosis …
This is a common denominator across different aetiologies, including multiple sclerosis …
[HTML][HTML] Persistence of FoxJ1+ Pax6+ Sox2+ ependymal cells throughout life in the human spinal cord
C Ripoll, G Poulen, R Chevreau, N Lonjon… - Cellular and Molecular …, 2023 - Springer
Ependymal cells lining the central canal of the spinal cord play a crucial role in providing a
physical barrier and in the circulation of cerebrospinal fluid. These cells express the FOXJ1 …
physical barrier and in the circulation of cerebrospinal fluid. These cells express the FOXJ1 …