Gene-dosage- and sex-dependent differences in the prodromal-Like phase of the F344tgHD rat model for Huntington disease

Ratz-Wirsching, Veronika; Habermeyer, Johanna; Moceri, Sandra; Harrer, Julia; Schmitz, Christoph; von Hörsten, Stephan

doi:10.3389/fnins.2024.1354977

Front. Neurosci.

2024

DOI: 10.3389/fnins.2024.1354977

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Gene-dosage- and sex-dependent differences in the prodromal-Like phase of the F344tgHD rat model for Huntington disease

Veronika Ratz-Wirsching,

Johanna Habermeyer,

Sandra Moceri

et al.

Abstract: In Huntington disease (HD) the prodromal phase has been increasingly investigated and is currently in focus for early interventional treatments. Also, the influence of sex on disease progression and severity in patients is under discussion, as a sex-specific impact has been reported in transgenic rodent models for HD. To this end, we have been studying these aspects in Sprague Dawley rats transgenic for HD. Here, we took up on the congenic F344tgHD rat model, expressing a fragmented Htt construct with 51 CAG r… Show more

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Circadian Interventions in Preclinical Models of Huntington’s Disease: A Narrative Review

Dell’Angelica,

Singh,

Colwell

et al. 2024

Biomedicines

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Huntington’s Disease (HD) is a neurodegenerative disorder caused by an autosomal-dominant mutation in the huntingtin gene, which manifests with a triad of motor, cognitive and psychiatric declines. Individuals with HD often present with disturbed sleep/wake cycles, but it is still debated whether altered circadian rhythms are intrinsic to its aetiopathology or a consequence. Conversely, it is well established that sleep/wake disturbances, perhaps acting in concert with other pathophysiological mechanisms, worsen the impact of the disease on cognitive and motor functions and are a burden to the patients and their caretakers. Currently, there is no cure to stop the progression of HD, however, preclinical research is providing cementing evidence that restoring the fluctuation of the circadian rhythms can assist in delaying the onset and slowing progression of HD. Here we highlight the application of circadian-based interventions in preclinical models and provide insights into their potential translation in clinical practice. Interventions aimed at improving sleep/wake cycles’ synchronization have shown to improve motor and cognitive deficits in HD models. Therefore, a strong support for their suitability to ameliorate HD symptoms in humans emerges from the literature, albeit with gaps in our knowledge on the underlying mechanisms and possible risks associated with their implementation.

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Circadian Interventions in Preclinical Models of Huntington’s Disease: A Narrative Review

Dell’Angelica,

Singh,

Colwell

et al. 2024

Biomedicines

View full text Add to dashboard Cite

show abstract

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Gene-dosage- and sex-dependent differences in the prodromal-Like phase of the F344tgHD rat model for Huntington disease

Cited by 1 publication

References 87 publications

Circadian Interventions in Preclinical Models of Huntington’s Disease: A Narrative Review

Circadian Interventions in Preclinical Models of Huntington’s Disease: A Narrative Review

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