Studies on the mechanism of ciliary protein localization and the molecular basis of ciliopathies / 繊毛タンパク質の局在機構および繊毛病の分子基盤の解析

QIU, HANTIAN

24 September 2021

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第23474号 / 薬科博第144号 / 新制||薬科||16(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 中山 和久, 教授 井垣 達吏, 教授 土居 雅夫 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

cilia

INPP5E

ARL13B

DYNC2LI1

ciliopathy

499.3

DYNAMIC CILIARY LOCALIZATION IN THE MOUSE BRAIN

Katlyn M Brewer (18308818)

03 June 2024

<p dir="ltr">Primary cilia are hair-like structures found on nearly all mammalian cell types, including cells in the developing and adult brain. Cilia establish a unique signaling compartment for cells. For example, a diverse set of receptors and signaling proteins localize within cilia to regulate many physiological and developmental pathways including the Hh pathway. Defects in cilia structure, protein localization, or cilia function lead to genetic disorders called ciliopathies, which present with various clinical features including several neurodevelopmental phenotypes and hyperphagia associated obesity. Despite their dysfunction being implicated in several disease states, understanding their roles in CNS development and signaling has proven challenging. I hypothesize that dynamic changes to ciliary protein composition contributes to this challenge and may reflect unrecognized diversity of CNS cilia. The proteins ARL13B and ADCY3 are established ciliary proteins in the brain and assessing their localization is often used in the field to visualize cilia. ARL13B is a regulatory GTPase important for regulating cilia structure, protein trafficking, and Hh signaling, while ADCY3 is a ciliary adenylyl cyclase thought to be involved in ciliary GPCR singaling. Here, I examine the ciliary localization of ARL13B and ADCY3 in the perinatal and adult mouse brain by defining changes in the proportion of cilia enriched for ARL13B and ADCY3 depending on brain region and age. Furthermore, I identify distinct lengths of cilia within specific brain regions of male and female mice. As mice age, ARL13B cilia become relatively rare in many brain regions, including the hypothalamic feeding centers, while ADCY3 becomes a prominent cilia marker. It is important to understand the endogenous localization patterns of these proteins throughout development and under different physiological conditions as these common cilia markers may be more dynamic than initially expected. Understanding regional and development associated cilia signatures and physiological condition cilia dynamic changes in the CNS may reveal molecular mechanisms associated with ciliopathy clinical features such as obesity.</p>

Cell metabolism

Neurogenetics

Vertebrate biology

ARL13B

Primary cilia

ADCY3

Hypothalamus

Energy Homeostasis

Nucleus Accumbens

Primary Cilia

Ciliary Protein Localization

Postnatal Development

CNS