Imaging and Manipulating Astrocyte Function In Vivo in the Context of CNS Injury.

Imaging and Manipulating Astrocyte Function In Vivo in the Context of CNS Injury. Methods Mol Biol. 2019;1938:233-246 Authors: Shandra O, Robel S Abstract Astrocytes are glial cells carrying out complex homeostatic functions in the healthy and diseased central nervous system (CNS). It has so far been impossible to reliably culture adult astrocytes and the results of studies on astrocytes outside of their normal environment are challenging to interpret. Consequently, most culture studies use astrocytes isolated from postnatal rodents. Yet cultured astrocytes do not display their complex three-dimensional in vivo morphology, and transcriptomes of cultured astrocytes vary significantly from those of acutely isolated astrocytes (Cahoy et al., J Neurosci 28:264-278, 2008). Astrocyte isolation for culture experiments, and the cutting of acute brain slices, induces astrocyte reactivity similar to a severe acute injury. In response to CNS injury, such as moderate or severe focal traumatic brain injury (TBI), astrocytes can change in cell number, physiological state, gene and protein expression, secretome, and morphology, in a process termed reactive astrogliosis. This makes the use of methods that inherently induce astrogliosis (e.g., dissociation of brain tissue for culture or sectioning of brains for acute brain slices) challenging, especially when conditions are studied that present with changes in astrocyte function that are milder and/o...
Source: Mol Biol Cell - Category: Molecular Biology Authors: Tags: Methods Mol Biol Source Type: research