| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Yao Wang, Zongliang Xiong, Qiyuan Zhang, Mengmeng Liu, Jingjing Zhang, Xinyue Qi, Xiaowen Jiang, Wenhui Y. Acetyl-11-Keto-β-Boswellic Acid Accelerates the Repair of Spinal Cord Injury in Rats by Resisting Neuronal Pyroptosis with Nrf2. International journal of molecular sciences. vol 25. issue 1. 2024-01-11. PMID:38203528. |
our study elucidates that akba can reduce spinal cord neuronal apoptosis, providing a basis for the development of akba as a clinical treatment for spinal cord injury. |
2024-01-11 |
2024-01-13 |
rat |
| Jianli Hu, Guixin Zhang, William Rodemer, Li-Qing Jin, Michael E Selze. Combined RhoA morpholino and ChABC treatment protects identified lamprey neurons from retrograde apoptosis after spinal cord injury. Frontiers in cellular neuroscience. vol 17. 2024-01-05. PMID:38179205. |
combined rhoa morpholino and chabc treatment protects identified lamprey neurons from retrograde apoptosis after spinal cord injury. |
2024-01-05 |
2024-01-07 |
Not clear |
| Jianli Hu, Guixin Zhang, William Rodemer, Li-Qing Jin, Michael E Selze. Combined RhoA morpholino and ChABC treatment protects identified lamprey neurons from retrograde apoptosis after spinal cord injury. Frontiers in cellular neuroscience. vol 17. 2024-01-05. PMID:38179205. |
previously, we reported that rhoa knockdown by morpholino antisense oligonucleotides (mos), and enzymatic digestion of chondroitin sulfate proteoglycans (cspgs) at the site of injury with chondroitinase abc (chabc), each can reduce retrograde neuronal apoptosis after spinal cord transection in the lamprey. |
2024-01-05 |
2024-01-07 |
Not clear |
| Dehui Chen, Linquan Zhou, Gang Chen, Taotao Lin, Jiemin Lin, Xin Zhao, Wenwen Li, Shengyu Guo, Rongcan Wu, Zhenyu Wang, Wenge Li. FUNDC1-induced mitophagy protects spinal cord neurons against ischemic injury. Cell death discovery. vol 10. issue 1. 2024-01-04. PMID:38177127. |
in a rat sci model, we found that fundc1 overexpression enhanced neuronal autophagy and decreased neuronal apoptosis in the early stage of injury, thereby reducing spinal cord damage. |
2024-01-04 |
2024-01-07 |
rat |
| Zhe Li, Yanlong Rong, Yuanshi Zhan. MiR-335 Improves Functional Recovery in Rats After Spinal Cord Injury and Protects PC12 Cells Against Injury Via the SPI-Bax/Caspase-3 Axis. Spine. 2024-01-03. PMID:38167229. |
animal and cellular models of spinal cord injury (sci) were used to explore the role of mir-335 in regulating cell viability and apoptosis. |
2024-01-03 |
2024-01-06 |
rat |
| Changsheng Wang, Yi Zhu, Rongsheng Chen, Xitian Zhu, Xiaobo Zhan. microRNA-143 targets SIRT2 to mediate the histone acetylation of PLAUR and modulates functions of astrocytes in spinal cord injury. Chemico-biological interactions. 2023-12-31. PMID:38161044. |
this study aimed to explore effects of microrna (mir)-143 on the proliferation, apoptosis, and cytokine secretion in astrocytes after spinal cord injury (sci). |
2023-12-31 |
2024-01-05 |
rat |
| Wei He, Zhi-Qiang Li, Hou-Yun Gu, Qi-Lin Pan, Fei-Xiang Li. Targeted Therapy of Spinal Cord Injury: Inhibition of Apoptosis Is a Promising Therapeutic Strategy. Molecular neurobiology. 2023-12-08. PMID:38066400. |
targeted therapy of spinal cord injury: inhibition of apoptosis is a promising therapeutic strategy. |
2023-12-08 |
2023-12-17 |
Not clear |
| Chaoyang Cai, Hong Li, Zhenming Tian, Qian Liang, Ruoqi Shen, Zizhao Wu, Bin Liu, Yang Yan. HGF secreted by hUC-MSCs mitigates neuronal apoptosis to repair the injured spinal cord via phosphorylation of Akt/FoxO3a pathway. Biochemical and biophysical research communications. vol 692. 2023-12-06. PMID:38056156. |
hgf secreted by huc-mscs mitigates neuronal apoptosis to repair the injured spinal cord via phosphorylation of akt/foxo3a pathway. |
2023-12-06 |
2023-12-10 |
human |
| Chaoyang Cai, Hong Li, Zhenming Tian, Qian Liang, Ruoqi Shen, Zizhao Wu, Bin Liu, Yang Yan. HGF secreted by hUC-MSCs mitigates neuronal apoptosis to repair the injured spinal cord via phosphorylation of Akt/FoxO3a pathway. Biochemical and biophysical research communications. vol 692. 2023-12-06. PMID:38056156. |
spinal cord injury (sci) can cause severe and permanent neurological damage, and neuronal apoptosis could inhibit functional recovery of damaged spinal cord greatly. |
2023-12-06 |
2023-12-10 |
human |
| Chaoyang Cai, Hong Li, Zhenming Tian, Qian Liang, Ruoqi Shen, Zizhao Wu, Bin Liu, Yang Yan. HGF secreted by hUC-MSCs mitigates neuronal apoptosis to repair the injured spinal cord via phosphorylation of Akt/FoxO3a pathway. Biochemical and biophysical research communications. vol 692. 2023-12-06. PMID:38056156. |
furthermore, overexpression of hgf derived from huc-mscs could decrease reactive oxygen species to prevent neuron apoptosis to the maximum, and thus lead to significant recovery of spinal cord dysfunction. |
2023-12-06 |
2023-12-10 |
human |
| Xiaochen Su, Menghao Teng, Yingang Zhang, Wenchen J. Decellularized extracellular matrix scaffold seeded with adipose-derived stem cells promotes neurorestoration and functional recovery after spinal cord injury through Wnt/ Biomedical materials (Bristol, England). vol 19. issue 1. 2023-12-04. PMID:38044745. |
decellularized extracellular matrix scaffold seeded with adipose-derived stem cells promotes neurorestoration and functional recovery after spinal cord injury through wnt/ spinal cord injury (sci) causes tissue destruction and neuronal apoptosis, which impede neural function recovery. |
2023-12-04 |
2023-12-10 |
Not clear |
| Qinghua Ding, Hongbin Gao, Xianghuai Hu, Weilu Ga. HGFIN deficiency exacerbates spinal cord injury by promoting inflammation and cell apoptosis through regulation of the PI3K/AKT signaling pathway. Advances in clinical and experimental medicine : official organ Wroclaw Medical University. 2023-11-28. PMID:38014930. |
hgfin deficiency exacerbates spinal cord injury by promoting inflammation and cell apoptosis through regulation of the pi3k/akt signaling pathway. |
2023-11-28 |
2023-11-29 |
Not clear |
| Qinghua Ding, Hongbin Gao, Xianghuai Hu, Weilu Ga. HGFIN deficiency exacerbates spinal cord injury by promoting inflammation and cell apoptosis through regulation of the PI3K/AKT signaling pathway. Advances in clinical and experimental medicine : official organ Wroclaw Medical University. 2023-11-28. PMID:38014930. |
spinal cord injury (sci) is a devastating neurological disease characterized by neuroinflammation and neuronal apoptosis. |
2023-11-28 |
2023-11-29 |
Not clear |
| Jiaxian Weng, Le Wang, Kai Wang, Haitao Su, Dan Luo, Haimei Yang, Yaqian Wen, Qiduan Wu, Xing L. Tauroursodeoxycholic Acid Inhibited Apoptosis and Oxidative Stress in H Molecular neurobiology. 2023-11-28. PMID:38015303. |
tauroursodeoxycholic acid inhibited apoptosis and oxidative stress in h spinal cord injury (sci) is a prevalent and significant injury to the central nervous system, resulting in severe consequences. |
2023-11-28 |
2023-11-29 |
Not clear |
| Kewei Li, Zhong Liu, Peipei Wu, Shenyuan Chen, Min Wang, Wenhui Liu, Leilei Zhang, Song Guo, Yanbin Liu, Pengcheng Liu, Beiting Zhang, Lin Tao, Hua Ding, Hui Qian, Qiang F. Micro electrical fields induced MSC-sEVs attenuate neuronal cell apoptosis by activating autophagy via lncRNA MALAT1/miR-22-3p/SIRT1/AMPK axis in spinal cord injury. Journal of nanobiotechnology. vol 21. issue 1. 2023-11-27. PMID:38012570. |
micro electrical fields induced msc-sevs attenuate neuronal cell apoptosis by activating autophagy via lncrna malat1/mir-22-3p/sirt1/ampk axis in spinal cord injury. |
2023-11-27 |
2023-11-29 |
human |
| Jian Hao, Zhenhan Li, Li Xie, Bingbing Yu, Boyuan Ma, Yubiao Yang, Xuchen Ma, Bitao Wang, Xianhu Zho. Syringaresinol promotes the recovery of spinal cord injury by inhibiting neuron apoptosis via activating the ubiquitination factor E4B/AKT Serine/Threonine kinase signal pathway. Brain research. 2023-11-22. PMID:37992795. |
syringaresinol promotes the recovery of spinal cord injury by inhibiting neuron apoptosis via activating the ubiquitination factor e4b/akt serine/threonine kinase signal pathway. |
2023-11-22 |
2023-11-29 |
rat |
| Hongdi Zhao, Xiaoqin Zong, Long Li, Na Li, Chunlei Liu, Wanchao Zhang, Juan Li, Cheng Yang, Siqin Huan. Electroacupuncture Inhibits Neuroinflammation Induced by Astrocytic Necroptosis Through RIP1/MLKL/TLR4 Pathway in a Mouse Model of Spinal Cord Injury. Molecular neurobiology. 2023-11-20. PMID:37982922. |
electroacupuncture (ea), an effective therapeutic efficacy against spinal cord injury (sci), has been proved to reduce neuronal cell apoptosis, inhibit inflammation, and prompt neural stem cell proliferation and differentiations. |
2023-11-20 |
2023-11-29 |
mouse |
| Xiaodan Mi, Chengtao Ni, Jingting Zhao, Nashwa Amin, Dian Jiao, Marong Fang, Xiangming Y. P2Y12 receptor mediates apoptosis and demyelination to affect functional recovery in mice with spinal cord injury. Neurochemistry international. 2023-11-12. PMID:37952830. |
p2y12 receptor mediates apoptosis and demyelination to affect functional recovery in mice with spinal cord injury. |
2023-11-12 |
2023-11-20 |
mouse |
| Xiaodan Mi, Chengtao Ni, Jingting Zhao, Nashwa Amin, Dian Jiao, Marong Fang, Xiangming Y. P2Y12 receptor mediates apoptosis and demyelination to affect functional recovery in mice with spinal cord injury. Neurochemistry international. 2023-11-12. PMID:37952830. |
it has been proven that p2y g protein-coupled purinergic receptors have a neuroprotective role in apoptosis and regeneration inside the damaged spinal cord. |
2023-11-12 |
2023-11-20 |
mouse |
| R Holota, V Dečmanová, A Alexovič Matiašová, J Košuth, L Slovinská, L Pačut, Z Tomori, Z Daxnerová, J Šev. Cleaved caspase-3 is present in the majority of glial cells in the intact rat spinal cord during postnatal life. Histochemistry and cell biology. 2023-11-08. PMID:37938347. |
despite the availability of a wide range of commercially produced antibodies against various apoptotic markers, data regarding apoptosis in intact spinal cord during postnatal development and adulthood are mostly missing. |
2023-11-08 |
2023-11-20 |
rat |