Microglial Dynamics Modulate Vestibular Compensation in a Rodent Model of Vestibulopathy and Condition the Expression of Plasticity Mechanisms in the Deafferented Vestibular Nuclei

Mahmoudi, Nada El; Marouane, Emna; Rastoldo, Guillaume; Péricat, David; Watabe, Isabelle; Lapotre, Agnes; Tonetto, Alain; Chabbert, Christian; Tighilet, Brahim

doi:10.3390/cells11172693

Cited by 6 publications

(6 citation statements)

References 138 publications

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“…Moreover, recent data support the role of endogenous inflammation following vestibular damage, in regulating neurogenesis and vestibular compensation. Indeed, pharmacological blockade or reinforcement of inflammation during the acute phase of vestibular compensation is accompanied by a worsening of the vestibular syndrome and a delay in vestibular compensation correlated with impaired vestibular neurogenesis [77,78]. However, more studies are needed to confirm these results but also to validate these findings in other models of vestibular damage.…”

Section: What Conditions Are Necessary To Activate the Vestibular Niche?mentioning

confidence: 99%

The Vestibular Nuclei: A Cerebral Reservoir of Stem Cells Involved in Balance Function in Normal and Pathological Conditions

Rastoldo,

Tighilet

2024

IJMS

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In this review, we explore the intriguing realm of neurogenesis in the vestibular nuclei—a critical brainstem region governing balance and spatial orientation. We retrace almost 20 years of research into vestibular neurogenesis, from its discovery in the feline model in 2007 to the recent discovery of a vestibular neural stem cell niche. We explore the reasons why neurogenesis is important in the vestibular nuclei and the triggers for activating the vestibular neurogenic niche. We develop the symbiotic relationship between neurogenesis and gliogenesis to promote vestibular compensation. Finally, we examine the potential impact of reactive neurogenesis on vestibular compensation, highlighting its role in restoring balance through various mechanisms.

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Section: What Conditions Are Necessary To Activate the Vestibular Niche?mentioning

confidence: 99%

The Vestibular Nuclei: A Cerebral Reservoir of Stem Cells Involved in Balance Function in Normal and Pathological Conditions

Rastoldo,

Tighilet

2024

IJMS

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“…The UVN model generates central vestibular inflammation that essentially affects the vestibular nuclei disconnected from 8th nerve [ 50 , 68 , 69 , 70 , 71 , 72 , 73 ] ( Figure 4 ). This model systematically reproduces the typical behavioral phenotype of an AUPV.…”

Section: Animal Models Of Peripheral Vestibulopathiesmentioning

confidence: 99%

“…This model systematically reproduces the typical behavioral phenotype of an AUPV. It represents a model of interest for studying the role of central inflammation in vestibular physiopathology, but also the effect of pharmacological modulation of inflammation on the expression of the pathology [ 71 , 72 ]. Other vestibulopathy models are known to generate central vestibular inflammation, such as the arsanilate model [ 74 ], and the surgical labyrinth destruction model [ 50 , 75 , 76 , 77 ].…”

Section: Animal Models Of Peripheral Vestibulopathiesmentioning

confidence: 99%

What Predictability for Animal Models of Peripheral Vestibular Disorders?

et al. 2022

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The different clinical entities grouped under the term peripheral vestibulopathies (PVs) or peripheral vestibular disorders (PVDs) are distinguished mainly based on their symptoms/clinical expression. Today, there are very few commonly accepted functional and biological biomarkers that can confirm or refute whether a vestibular disorder belongs to a precise classification. Consequently, there is currently a severe lack of reliable and commonly accepted clinical endpoints, either to precisely follow the course of the vertigo syndrome of vestibular origin or to assess the benefits of therapeutic approaches, whether they are pharmacological or re-educational. Animal models of PV are a good means to identify biomarkers that could subsequently be exploited in human clinical practice. The question of their predictability is therefore crucial. Ten years ago, we had already raised this question. We revisit this concept today in order to take into account the animal models of peripheral vestibular pathology that have emerged over the last decade, and the new technological approaches available for the behavioral assessment of vestibular syndrome in animals and its progression over time. The questions we address in this review are the following: are animal models of PV predictive of the different types and stages of vestibular pathologies, and if so, to what extent? Are the benefits of the pharmacological or reeducational therapeutic approaches achieved on these different models of PV (in particular the effects of attenuation of the acute vertigo, or acceleration of central compensation) predictive of those expected in the vertiginous patient, and if so, to what extent?

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“…16 Based on these findings, we conclude that vestibular system involvement, including flocculus following minor head trauma, resulted in observed neurotological findings and that the recovery of vestibular dysfunction may be attributed to microglial regulation of AxD pathology and the 6 compensatory mechanism. 15,16 In this report, we present a first case of adult-onset AxD with late-presenting vestibulopathy.…”

mentioning

confidence: 94%

“…A recent study revealed that the compensation mechanism for vestibulopathy involves microglia-associated neuroinflammation. 15 Additionally, a mice modelstudy showed that microglia detectAxD astrocyte dysfunction, inducing alterations in morphology and Ca 2+ signaling, which can regulate the expression of various AxD pathologies. 16 Based on these findings, we conclude that vestibular system involvement, including flocculus following minor head trauma, resulted in observed neurotological findings and that the recovery of vestibular dysfunction may be attributed to microglial regulation of AxD pathology and the 6 compensatory mechanism.…”

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confidence: 99%

Adult-Onset Alexander Disease With Late-Presenting Vestibulopathy: A Case Report

Chang,

Jeong,

2024

JMD

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Alexander disease (AxD) is a progressive astrocytic leukodystrophy, primarily attributed to autosomal dominant or de novo mutations in the GFAP gene. 1 AxD presents differently across age groups, including infantile, juvenile, and adult subtypes, each with its own set of symptoms and prognoses. Adult-onset AxD accompanies bulbar symptoms, ataxia, autonomic dysfunction, and gait disturbance, while juvenile and infantile onset show cognitive

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Microglial Dynamics Modulate Vestibular Compensation in a Rodent Model of Vestibulopathy and Condition the Expression of Plasticity Mechanisms in the Deafferented Vestibular Nuclei

Cited by 6 publications

References 138 publications

The Vestibular Nuclei: A Cerebral Reservoir of Stem Cells Involved in Balance Function in Normal and Pathological Conditions

The Vestibular Nuclei: A Cerebral Reservoir of Stem Cells Involved in Balance Function in Normal and Pathological Conditions

What Predictability for Animal Models of Peripheral Vestibular Disorders?

Adult-Onset Alexander Disease With Late-Presenting Vestibulopathy: A Case Report

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