GFAP mRNA fluctuates in synchrony with chronic relapsing EAE symptoms in SJL/J mice
Activation of astrocytes and hypertrophy of their processes is a result of a number of pathological conditions in the central nervous system. Astrocytic gliosis is especially prominent in multiple sclerosis (MS), where astrocytic fibers form a dense matrix around demyelinated axons. Experimental all...
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Veröffentlicht in: | Glia 1995-07, Vol.14 (3), p.216-224 |
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Zusammenfassung: | Activation of astrocytes and hypertrophy of their processes is a result of a number of pathological conditions in the central nervous system. Astrocytic gliosis is especially prominent in multiple sclerosis (MS), where astrocytic fibers form a dense matrix around demyelinated axons. Experimental allergic encephalomyelitis (EAE), a laboratory model for MS, is also accompanied by astrocytic hyperactivity. We have previously shown the formation of plaque‐like structures which stain heavily for glial fibrillary acidic protein (GFAP) in the brains and spinal cords of SJL/J mice after several episodes of chronic relapsing EAE (Smith and Eng: J Neurosci Res 18:203, 1987). To further investigate the mechanisms of this phenomenon, we have measured the levels of mRNA for GFAP throughout the course of three episodes and recoveries of EAE in the SJL/J mouse. Mice were immunized with spinal cord homogenate and subsequently developed EAE. After recovery they were again immunized at appropriate intervals, resulting in successive episodes of EAE, with partial or complete recovery between the paralytic stages. At appropriate times in the course of the different stages of EAE, spinal cords were dissected and RNA was prepared from each spinal cord. RNA Was analyzed by Northern blots to determine the levels of mRNA for GFAP and, as a control, for the 70 kDa neurofilament (NF‐L). With the onset of the first EAE episode GFAP mRNA in spinal cords from animals with mild symptoms increased to sixfold the control level (P < 0.02) and to 20‐fold in those with paralysis (P < 0.01). With recovery, the GFAP mRNA level decreased to twice the control. With each subsequent episodes, a chronic but stable neurological deficit was established, with GFAP mRNA at about eightfold the control levels (P < 0.01). Over the course of several episodes, the GFAP rose to about 2.8 times the control, while vimentin increased by a factor of 3.6. Thus multiple episodes of EAE resulted in upregulation of GFAP mRNA and accumulation of GFAP, which are associated with astrocyte activation and hypertrophy. Similar events may occur in the human demyelinative disease MS, where multiple episodes of inflammatory cell invasion occur, resulting in a neurological deficit. © 1995 Wiley‐Liss, Inc. |
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ISSN: | 0894-1491 1098-1136 |
DOI: | 10.1002/glia.440140307 |