Diverged morphology changes of astrocytic and neuronal primary cilia under reactive insults

Sterpka, Ashley; Yang, Juan; Strobel, Matthew; Zhou, Yuxin; Pauplis, Connor; Chen, Xuanmao

doi:10.1186/s13041-020-00571-y

Cited by 23 publications

(33 citation statements)

References 73 publications

(103 reference statements)

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“…These data suggest that there is a potential effect from blood proteins, when added into the media, enhances cell spread and/or cell reactivity. Astrocyte activation occurs in response to stimuli in an effort to repair the brain via proliferation and extension of astrocyte processes [37,38]. Perhaps increased concentration and type of protein adsorbed to the polydimethylsiloxane shunt surface enhances the receptor-integrin interplay and increases cell attachment, not just in cell number, but in cell affinity to the surface (Figure 5).…”

Section: Discussionmentioning

confidence: 99%

Response of Astrocytes to Blood Exposure due to Shunt Insertion in vitro

Zaranek

Arshad

Zheng

et al. 2021

Preprint

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The breakdown of the ventricular zone (VZ) with the presence of blood in cerebrospinal fluid (CSF) has been shown to increase shunt catheter obstruction in the treatment of hydrocephalus, but the mechanisms by which this occurs are generally unknown. Using a custom-built incubation chamber, we immunofluorescently assayed cell attachment and morphology on shunt catheters with and without blood after 14 days. Samples exposed to blood showed significantly increased cell attachment (average total cell count 392.0±317.1 versus control of 94.7±44.5, P<0.0001). Analysis of the glial fibrillary acidic protein (GFAP) expression showed similar trends (854.4±450.7 versus control of 174.3±116.5, P<0.0001). An in vitro model was developed to represent the exposure of astrocytes to blood following an increase in BBB permeability. Exposure of astrocytes to blood increases the number of cells and their spread on the shunt.

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Section: Discussionmentioning

confidence: 99%

Response of Astrocytes to Blood Exposure due to Shunt Insertion in vitro

Zaranek

Arshad

Zheng

et al. 2021

Preprint

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“…In the current studies, 4 of 24 mice (16.5%) developed spontaneous seizures, and the duration of these seizures as well as their frequency progressed with time. Whereas only a minority of mice developed epilepsy, this was significantly different than chance, as a robust body of work has demonstrated that spontaneous epileptic activity is not found in control C57BL/6 mice 43–47 . Furthermore, the augmented susceptibility to KA in 56% of mice suggests that pro‐epileptogenic changes were initiated by eFSE in a larger proportion of mice.…”

Section: Discussionmentioning

confidence: 91%

“…Whereas only a minority of mice developed epilepsy, this was significantly different than chance, as a robust body of work has demonstrated that spontaneous epileptic activity is not found in control C57BL/6 mice. [43][44][45][46][47] Furthermore, the augmented susceptibility to KA in 56% of mice suggests that pro-epileptogenic changes were initiated by eFSE in a larger proportion of mice. Because we employed the C57BL/6 strain, these results are not surprising: It has long been recognized that C57BL/6 mice are resistant to the development of spontaneous seizures after an initial insult such as chemoconvulsant-induced status epilepticus.…”

Section: A Minority Of C57bl/6 Mice Develop Hippocampal Epilepsy Following Efsementioning

confidence: 99%

Augmented seizure susceptibility and hippocampal epileptogenesis in a translational mouse model of febrile status epilepticus

et al. 2021

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Objective Prolonged fever‐induced seizures (febrile status epilepticus [FSE]) during early childhood increase the risk for later epilepsy, but the underlying mechanisms are incompletely understood. Experimental FSE (eFSE) in rats successfully models human FSE, recapitulating the resulting epileptogenesis in a subset of affected individuals. However, the powerful viral and genetic tools that may enhance mechanistic insights into epileptogenesis and associated comorbidities, are better‐developed for mice. Therefore, we aimed to determine if eFSE could be generated in mice and if it provoked enduring changes in hippocampal‐network excitability and the development of spontaneous seizures. Methods We employed C57BL/6J male mice, the strain used most commonly in transgenic manipulations, and examined if early life eFSE could be sustained and if it led to hyperexcitability of hippocampal networks and to epilepsy. Outcome measures included vulnerability to the subsequent administration of the limbic convulsant kainic acid (KA) and the development of spontaneous seizures. In the first mouse cohort, adult naive and eFSE‐experiencing mice were exposed to KA. A second cohort of control and eFSE‐experiencing young adult mice was implanted with bilateral hippocampal electrodes and recorded using continuous video–electroencephalography (EEG) for 2 to 3 months to examine for spontaneous seizures (epileptogenesis). Results Induction of eFSE was feasible and eFSE increased the susceptibility of adult C57BL/6J mice to KA, thereby reducing latency to seizure onset and increasing seizure severity. Of 24 chronically recorded eFSE mice, 4 (16.5%) developed hippocampal epilepsy with a latent period of ~3 months, significantly different from the expectation by chance (P = .04). The limbic epilepsy that followed eFSE was progressive. Significance eFSE promotes pro‐epileptogenic network changes in a majority of C57BL/6J male mice and frank “temporal lobe–like” epilepsy in one sixth of the cohort. Mouse eFSE may thus provide a useful tool for investigating molecular, cellular, and circuit changes during the development of temporal lobe epilepsy and its comorbidities.

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“…This indicates that the cells expressed on the sides are migrating from the cell layer along the bottom of the well up along the catheter. Astrocyte activation occurs in response to stimuli in an effort to repair the brain via proliferation and extension of astrocyte processes 37,38 . Perhaps increased concentration and type of protein adsorbed to the polydimethylsiloxane shunt surface enhances the receptor‐integrin interplay and increases cell attachment, not just in cell number, but in cell affinity to the surface (Figure 5).…”

Section: Discussionmentioning

confidence: 99%

Response of astrocytes to blood exposure due to shunt insertion in vitro

et al. 2021

View full text Add to dashboard Cite

The breakdown of the ventricular zone with the presence of blood in cerebrospinal fluid has been shown to increase shunt catheter obstruction in the treatment of hydrocephalus, but the mechanisms by which this occurs are generally unknown. Using a custom‐built incubation chamber, we immunofluorescently assayed cell attachment and morphology on shunt catheters with and without blood after 14 days. Samples exposed to blood showed significantly increased cell attachment (average total cell count 392.0 ± 317.1 vs. control of 94.7 ± 44.5, p < 0.0001). Analysis of the glial fibrillary acidic protein expression showed similar trends (854.4 ± 450.7 vs. control of 174.3 ± 116.5, p < 0.0001). An in vitro model was developed to represent the exposure of astrocytes to blood following an increase in blood–brain barrier permeability. Exposure of astrocytes to blood increases the number of cells and their spread on the shunt.

show abstract

Diverged morphology changes of astrocytic and neuronal primary cilia under reactive insults

Cited by 23 publications

References 73 publications

Response of Astrocytes to Blood Exposure due to Shunt Insertion in vitro

Response of Astrocytes to Blood Exposure due to Shunt Insertion in vitro

Augmented seizure susceptibility and hippocampal epileptogenesis in a translational mouse model of febrile status epilepticus

Response of astrocytes to blood exposure due to shunt insertion in vitro

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