David A. Brown and Gayle M. Passmore; Some new insights into the molecular mechanisms of pain perception; Department of Neuroscience, Physiology, and Pharmacology, University College London, United Kingdom; 2010; 120(5):1380–1383.
Elmore P. R. M., et al. (2015). CSF1 receptor signaling is necessary for microglia viability, which unmasks a cell that rapidly repopulates the microgliadepleted adult brain. Neuron 82, 380–397.
Bennett M. L. et al. (2016). New tools for studying microglia in the mouse and human CNS. Proc. Natl. Acad. Sci. USA 113, E1738–E1746.
Buttgereit A. et al. (2016). Sall1 is a transcriptional regulator defining microglia identity and function. Nat. Immunol. 17, 1397–1406.
Wang KK, Larner SF, Robinson G, Hayes RL. Neuroprotection targets after traumatic brain injury. Curr Opin Neurol 2006; 19:514–519.
Carrillo-Mora P, Alcantar-Shramm JM. Pharmacological Stimulation of Neuronal Plasticity in Acquired Brain Injury. Clin Neuropharmacol. 2017 May/Jun;40(3):131-139.
Khan F, Amatya B. Neurorehabilitation: applied neuroplasticity. J Neurol. 2017 Mar;264(3):603-615.
Sheng Yang, Chuan Qin, Dai-Shi Tian. Microglia reprogram metabolic profiles for phenotype and function changes in central nervous system; Neurobiology of Disease 152 (2021) 105290; 5 February 2021
Gwak Y.S., Hulsebosch C.E. and Leem J.W. Neuronal-glial interactions maintain chronic neuropathic pain after spinal cord injury. Neural Plast. 2017, 2480689.
Inoue K., Tsuda M. Microglia in neuropathic pain: Cellular and molecular mechanisms and therapeutic potential. Nat. Neurosci. Rev.2018, 19,138–152.
Lively S. and Schlichter L.C. Microglia responses to pro-inflammatory stimuli (LPS, IFNγ+TNFα) and reprogramming by resolving cytokines(IL-4,IL-10). Front. Cell. Neurosci. 12:215. (2018)
Vilalta A. and Brown G.C. Neurophagy, the phagocytosis of live neurons and synapses by glia, contributes to brain development and disease. FEBS J. 285, 3566–3575. 2018.
Butovsky O, Weiner HL. Microglial signatures and their role in health and disease. Nat Rev Neurosci 2018; 19:622–35.
Holland R., et al. Inflammatory microglia are glycolytic and iron retentive and typify the microglia in APP/PS1 mice. Brain. Behav. Immun. 68, 183–196. (2018)
Agostinho P., Madeira D., Dias L.,(2020). Purinergic signaling orchestrating neuron-glia communication. Pharmacol. Res. 162, 105253.
Liddelow S.A. and Barres B.A. Reactive astrocytes: production, function and therapeutic potential. Immunity 46, 957–967. (2017)
Aby F, et al. Inflammatoryinduced spinal dorsal horn neurons hyperexcitability is mediated by P2X4 receptors. Pain Rep 2018;3:e660.
Anderson S.R., Vetter M.L. Developmental roles of microglia: A window into mechanisms of disease. Dev. Dyn. 2019, 248, 98–117.
Herzog C., et al. Rapid clearance of cellular debris by microglia limits secondary neuronal cell death after brain injury in vivo. Development 146:dev174698. (2019)
Inoue K. Role of the P2X4 receptor in neuropathic pain. Curr. Opin. Pharmacol. 47, 33–39. (2019)
K.R. Paap, R. Anders-Jefferson, L. Mason, K. Alvarado and B. Zimiga Frontiers in Psychology, 9 (2018), p. 1409
Kara Rogers. Microglia, Encyclopaedia Britannica, Inc. Date Published: 03 April 2019 URL: https://www.britannica.com/science/microglia, Access Date: April 14, 2021
Trettel F. et al. Chemokines: Key molecules that orchestrate communication among neurons, microglia and astrocytes to preserve brain function. Neuroscience 2019.
Yeh H. and Ikezu T. Transcriptional and epigenetic regulation of microglia in health and disease. Trends Mol. Med. 25, 96–111. (2019).
Lanneau D, de Thonel A, Maurel S, Didelot C, Garrido C. “Apoptosis versus cell differentiation: role of heat shock proteins HSP90, HSP70 and HSP27.” Prion. 2007 Jan;1(1):53-60. Epub 2007 Jan 24
Tsuda M. Microglia-mediated regulation of neuropathic pain: Molecular and cellular mechanisms. Biol. Pharm. Bull. 2019, 42, 1959–1968.
Zhou X.; Wahane S.; Friedl M. Microglia and macrophages promote corralling, wound compaction and recovery after spinal cord injury via Plexin-B2. Nat. Neurosci. 2020, 23, 337–350.
Harry Ward and Steven J. West; Microglia: sculptors of neuropathic pain? royalsocietypublishing.org/journal/rsos; 1 June 2020
Pannell M. et al. (2020). Imaging of translocator protein upregulation is selective for pro-inflammatory polarized astrocytes and microglia. Glia 68, 280–297.
Lirong Zhu, Yangliang Huang. Toll-like receptor 4/nuclear factor-kappa B pathway is involved in radicular pain by encouraging spinal microglia activation and inflammatory response in a rat model of lumbar disc herniation; 2020;
Bernier L. et al. Immunometabolism in the brain: how metabolism shapes microglial function. Trends Neurosci. 43, 854–869. 2020.
Hyungjun Kim. et al; Reduced tactile acuity in chronic low back pain is linked with structural neuroplasticity in primary somatosensory cortex and is modulated by acupuncture therapy; 2020
Psychopharmacology (Berl). 2014 May;231(9):1935-48. doi: 10.1007/s00213-013-3336-x. Epub 2013 Nov 8
Ця робота ліцензується відповідно до Creative Commons Attribution 4.0 International License.
| Переглядів: 2 | Завантажень: 15 |