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  1. Article ; Online: Postnatal Dynamic Ciliary ARL13B and ADCY3 Localization in the Mouse Brain.

    Brewer, Katlyn K / Brewer, Kathryn M / Terry, Tiffany T / Caspary, Tamara / Vaisse, Christian / Berbari, Nicolas F

    Cells

    2024  Volume 13, Issue 3

    Abstract: Primary cilia are hair-like structures found on nearly all mammalian cell types, including cells in the developing and adult brain. A diverse set of receptors and signaling proteins localize within cilia to regulate many physiological and developmental ... ...

    Abstract Primary cilia are hair-like structures found on nearly all mammalian cell types, including cells in the developing and adult brain. A diverse set of receptors and signaling proteins localize within cilia to regulate many physiological and developmental pathways, including the Hedgehog (Hh) pathway. Defects in cilia structure, protein localization, and function lead to genetic disorders called ciliopathies, which present with various clinical features that include several neurodevelopmental phenotypes and hyperphagia-associated obesity. Despite their dysfunction being implicated in several disease states, understanding their roles in central nervous system (CNS) development and signaling has proven challenging. We hypothesize that dynamic changes to ciliary protein composition contribute to this challenge and may reflect unrecognized diversity of CNS cilia. The proteins ARL13B and ADCY3 are established markers of cilia in the brain. ARL13B is a regulatory GTPase important for regulating cilia structure, protein trafficking, and Hh signaling, and ADCY3 is a ciliary adenylyl cyclase. Here, we examine the ciliary localization of ARL13B and ADCY3 in the perinatal and adult mouse brain. We define changes in the proportion of cilia enriched for ARL13B and ADCY3 depending on brain region and age. Furthermore, we identify distinct lengths of cilia within specific brain regions of male and female mice. ARL13B+ cilia become relatively rare with age in many brain regions, including the hypothalamic feeding centers, while ADCY3 becomes a prominent cilia marker in the mature adult brain. 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 developmental-associated cilia protein composition signatures and physiological condition cilia dynamic changes in the CNS may reveal the molecular mechanisms associated with the features commonly observed in ciliopathy models and ciliopathies, like obesity and diabetes.
    MeSH term(s) Animals ; Female ; Male ; Mice ; ADP-Ribosylation Factors/metabolism ; Brain/metabolism ; Ciliopathies ; Hedgehog Proteins/metabolism ; Mammals/metabolism ; Obesity
    Chemical Substances ADP-Ribosylation Factors (EC 3.6.5.2) ; Hedgehog Proteins ; adenylate cyclase 3 (EC 4.6.1.1) ; Arl13b protein, mouse
    Language English
    Publishing date 2024-01-30
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2661518-6
    ISSN 2073-4409 ; 2073-4409
    ISSN (online) 2073-4409
    ISSN 2073-4409
    DOI 10.3390/cells13030259
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Mosaic Analysis with Double Markers reveals IGF1R function in granule cell progenitors during cerebellar development.

    Terry, Tiffany T / Cheng, Tao / Mahjoub, Moe / Zong, Hui

    Developmental biology

    2020  Volume 465, Issue 2, Page(s) 130–143

    Abstract: During cerebellar development, granule cell progenitors (GCPs) proliferate exponentially for a fixed period, promoted by paracrine mitogenic factor Sonic Hedgehog (Shh) secreted from Purkinje cells (PCs). Dysregulation of Shh signaling leads to ... ...

    Abstract During cerebellar development, granule cell progenitors (GCPs) proliferate exponentially for a fixed period, promoted by paracrine mitogenic factor Sonic Hedgehog (Shh) secreted from Purkinje cells (PCs). Dysregulation of Shh signaling leads to uncontrolled GCP proliferation and medulloblastoma. Serendipitously our previous work discovered insulin-like growth factor 1 (IGF1) as another key driver for medulloblastoma, which led to the current investigation into the role of IGF1 in GCPs during normal development. While the IGF1R conditional knockout model revealed GCP defects in anterior cerebellum, the posterior cerebellum was mostly intact, likely owing to incomplete excision of floxed alleles. To circumvent this hurdle, we enlisted a mouse genetic system called Mosaic Analysis of Double Markers (MADM), which sporadically generates homozygous null cells unequivocally labeled with GFP and their wildtype sibling cells labeled with RFP, enabling phenotypic analysis at single-cell resolution. Using MADM, we found that loss of IGF1R resulted in a 10-fold reduction of GCs in both anterior and posterior cerebellum; and that hindered S phase entry and increased cell cycle exit collectively led to this phenotype. Genetic interaction studies showed that IGF1 signaling prevents GCP cell cycle exit at least partially through suppressing the level of p27kip1, a negative regulator of cell cycle. Finally, we found that IGF1 is produced by PCs in a temporally regulated fashion: it is highly expressed early in development when GCPs proliferate exponentially, then gradually decline as GCPs commit to cell cycle exit. Taken together, our studies reveal IGF1 as a paracrine factor that positively regulates GCP cell cycle in cooperation with Shh, through dampening the level of p27 to prevent precocious cell cycle exit. Our work not only showcases the power of phenotypic analysis by the MADM system but also provides an excellent example of multi-factorial regulation of robust developmental programs.
    MeSH term(s) Animals ; Cell Cycle ; Cyclin-Dependent Kinase Inhibitor p27/genetics ; Cyclin-Dependent Kinase Inhibitor p27/metabolism ; Hedgehog Proteins/genetics ; Hedgehog Proteins/metabolism ; Mice ; Mice, Knockout ; Paracrine Communication ; Purkinje Cells/cytology ; Purkinje Cells/metabolism ; Receptor, IGF Type 1/genetics ; Receptor, IGF Type 1/metabolism ; Signal Transduction
    Chemical Substances Cdkn1b protein, mouse ; Hedgehog Proteins ; Igf1r protein, mouse ; Shh protein, mouse ; Cyclin-Dependent Kinase Inhibitor p27 (147604-94-2) ; Receptor, IGF Type 1 (EC 2.7.10.1)
    Language English
    Publishing date 2020-07-19
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural
    ZDB-ID 1114-9
    ISSN 1095-564X ; 0012-1606
    ISSN (online) 1095-564X
    ISSN 0012-1606
    DOI 10.1016/j.ydbio.2020.07.008
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    In stock of ZB MED Cologne/Königswinter

    Zs.B 508: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 2021: Bestellungen von Artikeln über das Online-Bestellformular
    ab Jg. 2022: Lesesaal (EG)

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  3. Article: Mosaic Analysis with Double Markers reveals IGF1R function in granule cell progenitors during cerebellar development

    Terry, Tiffany T / Cheng, Tao / Mahjoub, Moe / Zong, Hui

    Developmental biology. 2020 Sept. 15, v. 465, no. 2

    2020  

    Abstract: During cerebellar development, granule cell progenitors (GCPs) proliferate exponentially for a fixed period, promoted by paracrine mitogenic factor Sonic Hedgehog (Shh) secreted from Purkinje cells (PCs). Dysregulation of Shh signaling leads to ... ...

    Abstract During cerebellar development, granule cell progenitors (GCPs) proliferate exponentially for a fixed period, promoted by paracrine mitogenic factor Sonic Hedgehog (Shh) secreted from Purkinje cells (PCs). Dysregulation of Shh signaling leads to uncontrolled GCP proliferation and medulloblastoma. Serendipitously our previous work discovered insulin-like growth factor 1 (IGF1) as another key driver for medulloblastoma, which led to the current investigation into the role of IGF1 in GCPs during normal development. While the IGF1R conditional knockout model revealed GCP defects in anterior cerebellum, the posterior cerebellum was mostly intact, likely owing to incomplete excision of floxed alleles. To circumvent this hurdle, we enlisted a mouse genetic system called Mosaic Analysis of Double Markers (MADM), which sporadically generates homozygous null cells unequivocally labeled with GFP and their wildtype sibling cells labeled with RFP, enabling phenotypic analysis at single-cell resolution. Using MADM, we found that loss of IGF1R resulted in a 10-fold reduction of GCs in both anterior and posterior cerebellum; and that hindered S phase entry and increased cell cycle exit collectively led to this phenotype. Genetic interaction studies showed that IGF1 signaling prevents GCP cell cycle exit at least partially through suppressing the level of p27kip1, a negative regulator of cell cycle. Finally, we found that IGF1 is produced by PCs in a temporally regulated fashion: it is highly expressed early in development when GCPs proliferate exponentially, then gradually decline as GCPs commit to cell cycle exit. Taken together, our studies reveal IGF1 as a paracrine factor that positively regulates GCP cell cycle in cooperation with Shh, through dampening the level of p27 to prevent precocious cell cycle exit. Our work not only showcases the power of phenotypic analysis by the MADM system but also provides an excellent example of multi-factorial regulation of robust developmental programs.
    Keywords alleles ; cerebellum ; homozygosity ; insulin-like growth factor I ; interphase ; mice ; models ; phenotype
    Language English
    Dates of publication 2020-0915
    Size p. 130-143.
    Publishing place Elsevier Inc.
    Document type Article
    ZDB-ID 1114-9
    ISSN 1095-564X ; 0012-1606
    ISSN (online) 1095-564X
    ISSN 0012-1606
    DOI 10.1016/j.ydbio.2020.07.008
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 76/715: Show issues

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  4. Article: Ciliary ARL13B prevents obesity in mice.

    Terry, Tiffany T / Gigante, Eduardo D / Alexandre, Coralie M / Brewer, Kathryn M / Engle, Staci E / Yue, Xinyu / Berbari, Nicolas F / Vaisse, Christian / Caspary, Tamara

    bioRxiv : the preprint server for biology

    2023  

    Abstract: Cilia are near ubiquitous small, cellular appendages critical for cell-to-cell communication. As such, they are involved in diverse developmental and homeostatic processes, including energy homeostasis. ARL13B is a regulatory GTPase highly enriched in ... ...

    Abstract Cilia are near ubiquitous small, cellular appendages critical for cell-to-cell communication. As such, they are involved in diverse developmental and homeostatic processes, including energy homeostasis. ARL13B is a regulatory GTPase highly enriched in cilia. Mice expressing an engineered ARL13B variant, ARL13B
    Language English
    Publishing date 2023-08-04
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2023.08.02.551695
    Database MEDical Literature Analysis and Retrieval System OnLINE

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