Characterization and potential treatment for retinal degeneration in mouse models of four emblematic ciliopathies / Caractérisation et traitement potentiel de la dégénérescence rétinienne dans quatre modèles de souris de ciliopathies emblématiques

Yu, Xianxiang

15 September 2016

Les ciliopathies rétiniennes sont un groupe de maladies rares causés par des mutations de gènes ciliaires. Les défauts des gènes ciliaires peuvent causer des défauts de trafic de protéines et induit l'apoptose des cellules photoréceptrices causés par le stress du réticulum endoplasmique (RE). On a étudié ciliopathies rétiniennes par modèle mourin, amaurose congénitale de Leber, rétinopathie pigmentaire liée à l’X, syndrome de Bardet-Biedl, syndrome d’Alström. Les souris Bbs1-/- , Bbs10-/- et CEP290-/- ont monté une diminution de la fonction rétinienne et sont causée par ER stress. Les souris Rd9/y et Alms1foz/foz présentent une apparition tardive et avec un faible taux de dégénérescence rétinienne et ils pourrait être causée par d'autres mécanismes. Le traitement GV-Ret basé sur le stress du RE pourrait sauver à la fois la fonction de et la morphologie de la rétine dans souris BBS. / Retinal ciliopathies are a group of rare diseases caused by mutations of ciliary genes. Defects in ciliary genes can cause defects in proteins traffics and induces apoptosis of photoreceptor cells caused by stress of the endoplasmic reticulum (ER) .We studied retinal ciliopathies by mice models, Leber congenital amaurosis, Xlinked retinitis pigmentosa, Bardet-Biedl syndrome and Alström Syndrome. The Bbs1-/-, Bbs10-/- and CEP290-/- mice exhibited a decrease in retinal function caused by ER stress. Rd9/y and Alms1foz/foz mice showed a late onset and a low rate of retinal degeneration and they could be caused by other mechanisms. The GV-Ret treatment based on ER stress could save both the function and morphology of the retina in BBS mice .

Amaurose congénitale de Leber

Rétinopathie pigmentaire liée à l'X

Syndrome de Bardet-Biedl

Syndrome Alstrom

Stress du RE

Traitement GV-Ret

Ciliopathies rétiniennes

Retinal ciliopathies

ER stress

Treatment GV-Ret

Hereditary retinal degenerations(HRD)

Leber Congenital Amaurosis

X-linked retinitis Pigmentosa

Bardet-Biedl Syndrome

Alstrom syndrome

572.8

616.9

Cilia Associated Signaling In Adult Energy Homeostasis

Ruchi Bansal (12476844)

28 April 2022

<p>  </p> <p>Cilia are cell appendages that sense our environment and are critical in cell-to-cell communication. Dysfunction of cilia can result in several disease states including obesity. While cilia in the brain are known to be important for feeding behavior, it is unclear how they regulate energy homeostasis. Classically, cilia coordinate signaling through surface receptors called G-protein coupled receptors (GPCRs). For example, cilia mediated GPCR signaling is critical for both our senses of vision and smell. How cilia regulate the signaling of GPCRs in other areas of the body including the brain is only now emerging. To answer cell biology questions around cilia mediated GPCR signaling in neurons, we developed a system for primary neuronal cultures. We discovered that the cilia mediated hedgehog pathway influences the ability of neurons to respond to GPCR ligands. For the first time, this result highlights the role of the hedgehog pathway in neurons. We continue to explore how cilia integrate the hedgehog pathway and GPCR signaling in the central nervous system, and the potential connections to energy homeostasis. We discovered that hedgehog pathway activity in feeding centers of the brain changes based upon feeding conditions like fasting. We also learned that activating the hedgehog pathway in these brain regions is sufficient to cause obesity in mice. These novel results highlight an unrecognized role for the hedgehog pathway in the regulation of feeding behavior. Overall, this work provides a better understanding of ciliopathy associated obesity and may reveal more common mechanisms of obesity in the general population. In addition, this work implicates the hedgehog pathway in regulating behaviors and new modes of cell-cell communication within the central nervous system.</p>

Animal behaviour

Animal cell and molecular biology

Animal neurobiology

Neurosciences not elsewhere classified

energy homeostasis

Hypothalamus

Hedgehog pathway

neuronal signaling

Bardet Biedl Syndrome

Primary Cilia

ciliopathies

Obesity

leptin signaling

MCHR1

smoothened signaling pathway

Animal Behaviour

Animal Neurobiology

Animal Cell and Molecular Biology

Cell Biology

Neuroscience