Aquaporins and Their Regulation after Spinal Cord Injury

被引:29
|
作者
Halsey, Andrea M. [1 ]
Conner, Alex C. [2 ]
Bill, Roslyn M. [3 ]
Logan, Ann [1 ]
Ahmed, Zubair [1 ]
机构
[1] Univ Birmingham, Neurosci & Ophthalmol, Inst Inflammat & Ageing, Birmingham B15 2TT, W Midlands, England
[2] Univ Birmingham, Inst Clin Sci, Birmingham B15 2TT, W Midlands, England
[3] Aston Univ, Sch Life & Hlth Sci, Birmingham B4 7ET, W Midlands, England
来源
CELLS | 2018年 / 7卷 / 10期
关键词
spinal cord injury; edema; aquaporin; water channel; X-RAY-STRUCTURE; CELL-VOLUME REGULATION; HEALTH-CARE COSTS; WATER CHANNEL; CHOROID-PLEXUS; STRUCTURAL DETERMINANTS; INTRACRANIAL-PRESSURE; MOLECULAR-MECHANISMS; CEREBROSPINAL-FLUID; PLASMA-MEMBRANES;
D O I
10.3390/cells7100174
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
After injury to the spinal cord, edema contributes to the underlying detrimental pathophysiological outcomes that lead to worsening of function. Several related membrane proteins called aquaporins (AQPs) regulate water movement in fluid transporting tissues including the spinal cord. Within the cord, AQP1, 4 and 9 contribute to spinal cord injury (SCI)-induced edema. AQP1, 4 and 9 are expressed in a variety of cells including astrocytes, neurons, ependymal cells, and endothelial cells. This review discusses some of the recent findings of the involvement of AQP in SCI and highlights the need for further study of these proteins to develop effective therapies to counteract the negative effects of SCI-induced edema.
引用
收藏
页数:22
相关论文
共 50 条
  • [41] Timing of Surgery After Spinal Cord Injury
    Piazza, Matthew
    Schuster, James
    NEUROSURGERY CLINICS OF NORTH AMERICA, 2017, 28 (01) : 31 - +
  • [42] Management of Pain After Spinal Cord Injury
    Bryce T.N.
    Gomez J.
    Current Physical Medicine and Rehabilitation Reports, 2015, 3 (3) : 189 - 196
  • [43] Neural plasticity after spinal cord injury
    Liu, Jian
    Yang, Xiaoyu
    Jiang, Lianying
    Wang, Chunxin
    Yang, Maoguang
    NEURAL REGENERATION RESEARCH, 2012, 7 (05) : 386 - 391
  • [44] Neural plasticity after spinal cord injury
    Jian Liu
    NeuralRegenerationResearch, 2012, 7 (05) : 386 - 391
  • [45] Serotonergic transmission after spinal cord injury
    Raffaele Nardone
    Yvonne Höller
    Aljoscha Thomschewski
    Peter Höller
    Piergiorgio Lochner
    Stefan Golaszewski
    Francesco Brigo
    Eugen Trinka
    Journal of Neural Transmission, 2015, 122 : 279 - 295
  • [46] Regulation of inflammatory cytokines for spinal cord injury recovery
    Lin, Sen
    Xu, Chang
    Lin, Jiaquan
    Hu, Hengshuo
    Zhang, Chuanjie
    Mei, Xifan
    HISTOLOGY AND HISTOPATHOLOGY, 2021, 36 (02) : 137 - 142
  • [47] Sexual Dysfunction After Spinal Cord Injury
    Aleena Ali
    Emad Ibrahim
    Current Sexual Health Reports, 2020, 12 : 244 - 250
  • [48] Spasticity Management After Spinal Cord Injury
    Alice J. Hon
    Perri Kraus
    Current Physical Medicine and Rehabilitation Reports, 2020, 8 : 159 - 171
  • [49] Return to work after spinal cord injury
    Tomassen, PCD
    Post, MWM
    van Asbeck, FWA
    SPINAL CORD, 2000, 38 (01) : 51 - 55
  • [50] Predicting Outcomes After Spinal Cord Injury
    Chay, Wesley
    Kirshblum, Steven
    PHYSICAL MEDICINE AND REHABILITATION CLINICS OF NORTH AMERICA, 2020, 31 (03) : 331 - 343
12345