scholarly journals Regulator of calcineurin-2 is a centriolar protein with a role in cilia length control

2017 ◽  
Author(s):  
Nicola L. Stevenson ◽  
Dylan J.M. Bergen ◽  
Amadeus Xu ◽  
Emily Wyatt ◽  
Freya Henry ◽  
...  
Keyword(s):  
Basal Body ◽  
Human Body ◽  
Primary Cilium ◽  
Primary Cilia ◽  
Gene Editing ◽  
Matrix Protein ◽  
Developmental Defects ◽  
Serum Withdrawal ◽  
Golgi Matrix

AbstractAlmost every cell in the human body extends a primary cilium. Defective cilia function leads to a set of disorders known as ciliopathies characterised by debilitating developmental defects affecting many tissues. Here we report a new role for regulator of calcineurin 2, RCAN2, in primary cilia function. It localises to centrioles and the basal body and is required to maintain normal cilia length. RCAN2 was identified as the most strongly upregulated gene from a comparative RNAseq analysis of cells in which expression of the Golgi matrix protein giantin had been abolished by gene editing. In contrast to previous work where we showed that depletion of giantin by RNAi results in defects in ciliogenesis and in cilia length control, giantin knockout cells generate normal cilia on serum withdrawal. Furthermore, giantin knockout zebrafish show increased expression of RCAN2. Importantly, suppression of RCAN2 expression in giantin knockout cells results in the same defects in cilia length control seen on RNAi of giantin itself. Together these data define RCAN2 as a regulator of cilia function that can compensate for loss of giantin function.

scholarly journals The PCP effector Fuzzy controls cilial assembly and signaling by recruiting Rab8 and Dishevelled to the primary cilium

2013 ◽  
Vol 24 (5) ◽  
pp. 555-565 ◽  
Author(s):  
Yulia Zilber ◽  
Sima Babayeva ◽  
Jung Hwa Seo ◽  
Jia Jia Liu ◽  
Steven Mootin ◽  
...  
Keyword(s):  
Basal Body ◽  
Primary Cilium ◽  
Planar Cell Polarity ◽  
Primary Cilia ◽  
Wnt Pathway ◽  
Vertebrate Development ◽  
Cellular Processes ◽  
Ciliary Function ◽  
Pcp Signaling ◽  
Canonical Wnt

The planar cell polarity (PCP) pathway controls multiple cellular processes during vertebrate development. Recently the PCP pathway was implicated in ciliogenesis and in ciliary function. The primary cilium is an apically projecting solitary organelle that is generated via polarized intracellular trafficking. Because it acts as a signaling nexus, defects in ciliogenesis or cilial function cause multiple congenital anomalies in vertebrates. Loss of the PCP effector Fuzzy affects PCP signaling and formation of primary cilia; however, the mechanisms underlying these processes are largely unknown. Here we report that Fuzzy localizes to the basal body and ciliary axoneme and is essential for ciliogenesis by delivering Rab8 to the basal body and primary cilium. Fuzzy appears to control subcellular localization of the core PCP protein Dishevelled, recruiting it to Rab8-positive vesicles and to the basal body and cilium. We show that loss of Fuzzy results in inhibition of PCP signaling and hyperactivation of the canonical WNT pathway. We propose a mechanism by which Fuzzy participates in ciliogenesis and affects both canonical WNT and PCP signaling.

scholarly journals Role of Primary Cilia in Odontogenesis

2017 ◽  
Vol 96 (9) ◽  
pp. 965-974 ◽  
Author(s):  
M. Hampl ◽  
P. Cela ◽  
H.L. Szabo-Rogers ◽  
M. Kunova Bosakova ◽  
H. Dosedelova ◽  
...  
Keyword(s):  
Signaling Pathways ◽  
Primary Cilium ◽  
Mammalian Cells ◽  
Primary Cilia ◽  
Tooth Development ◽  
Critical Role ◽  
Current Evidence ◽  
Developmental Defects ◽  
Dental Tissues ◽  
The Impact

Primary cilium is a solitary organelle that emanates from the surface of most postmitotic mammalian cells and serves as a sensory organelle, transmitting the mechanical and chemical cues to the cell. Primary cilia are key coordinators of various signaling pathways during development and maintenance of tissue homeostasis. The emerging evidence implicates primary cilia function in tooth development. Primary cilia are located in the dental epithelium and mesenchyme at early stages of tooth development and later during cell differentiation and production of hard tissues. The cilia are present when interactions between both the epithelium and mesenchyme are required for normal morphogenesis. As the primary cilium coordinates several signaling pathways essential for odontogenesis, ciliary defects can interrupt the latter process. Genetic or experimental alterations of cilia function lead to various developmental defects, including supernumerary or missing teeth, enamel and dentin hypoplasia, or teeth crowding. Moreover, dental phenotypes are observed in ciliopathies, including Bardet-Biedl syndrome, Ellis-van Creveld syndrome, Weyers acrofacial dysostosis, cranioectodermal dysplasia, and oral-facial-digital syndrome, altogether demonstrating that primary cilia play a critical role in regulation of both the early odontogenesis and later differentiation of hard tissue–producing cells. Here, we summarize the current evidence for the localization of primary cilia in dental tissues and the impact of disrupted cilia signaling on tooth development in ciliopathies.

scholarly journals The Golgi matrix protein GM130: a specific interacting partner of the small GTPase rab1b

EMBO Reports ◽  
2001 ◽  
Vol 2 (4) ◽  
pp. 336-341 ◽  
Author(s):  
Thomas Weide ◽  
Michael Bayer ◽  
Miriam Köster ◽  
Jan‐Peter Siebrasse ◽  
Reiner Peters ◽  
...  
Keyword(s):  
Matrix Protein ◽  
Small Gtpase ◽  
Golgi Matrix

scholarly journals The retromer complex regulates C. elegans development and mammalian ciliogenesis

2021 ◽  
Author(s):  
Shuwei Xie ◽  
Ellie Smith ◽  
Carter Dierlam ◽  
Danita Mathew ◽  
Angelina Davis ◽  
...  
Keyword(s):  
Potential Function ◽  
Primary Cilium ◽  
Mammalian Cells ◽  
Primary Cilia ◽  
Vulval Development ◽  
Sorting Nexin ◽  
Capping Protein ◽  
C Elegans ◽  
Retromer Complex ◽  
Mother Centriole

The mammalian retromer is comprised of subunits VPS26, VPS29 and VPS35, and a more loosely-associated sorting nexin (SNX) heterodimer. Despite known roles for the retromer in multiple trafficking events in yeast and mammalian cells, its role in development is poorly understood, and its potential function in primary ciliogenesis remains unknown. Using CRISPR-Cas9 editing, we demonstrated that vps-26 homozygous knockout C. elegans have reduced brood sizes and impaired vulval development, as well as decreased body length which has been linked to defects in primary ciliogenesis. Since many endocytic proteins are implicated in the generation of primary cilia, we addressed whether the retromer regulates ciliogenesis in mammalian cells. We observed VPS35 localized to the primary cilium, and depletion of VPS26, VPS35 or SNX1/SNX5 led to decreased ciliogenesis. Retromer also coimmunoprecipitated with the capping protein, CP110, and was required for its removal from the mother centriole. Herein, we characterize new roles for the retromer in C. elegans development and in the regulation of ciliogenesis in mammalian cells, and suggest a novel role for the retromer in CP110 removal from the mother centriole.

scholarly journals A Model for Primary Cilium Biogenesis by Polarized Epithelial Cells: Role of the Midbody Remnant and Associated Specialized Membranes

2021 ◽  
Vol 8 ◽  
Author(s):  
Leticia Labat-de-Hoz ◽  
Armando Rubio-Ramos ◽  
Javier Casares-Arias ◽  
Miguel Bernabé-Rubio ◽  
Isabel Correas ◽  
...  
Keyword(s):  
Cell Surface ◽  
Primary Cilium ◽  
Primary Cilia ◽  
Control Cell ◽  
Future Research ◽  
Alternative Route ◽  
Ciliary Membrane ◽  
Cilium Formation ◽  
Membrane Compartmentalization

Primary cilia are solitary, microtubule-based protrusions surrounded by a ciliary membrane equipped with selected receptors that orchestrate important signaling pathways that control cell growth, differentiation, development and homeostasis. Depending on the cell type, primary cilium assembly takes place intracellularly or at the cell surface. The intracellular route has been the focus of research on primary cilium biogenesis, whereas the route that occurs at the cell surface, which we call the “alternative” route, has been much less thoroughly characterized. In this review, based on recent experimental evidence, we present a model of primary ciliogenesis by the alternative route in which the remnant of the midbody generated upon cytokinesis acquires compact membranes, that are involved in compartmentalization of biological membranes. The midbody remnant delivers part of those membranes to the centrosome in order to assemble the ciliary membrane, thereby licensing primary cilium formation. The midbody remnant's involvement in primary cilium formation, the regulation of its inheritance by the ESCRT machinery, and the assembly of the ciliary membrane from the membranes originally associated with the remnant are discussed in the context of the literature concerning the ciliary membrane, the emerging roles of the midbody remnant, the regulation of cytokinesis, and the role of membrane compartmentalization. We also present a model of cilium emergence during evolution, and summarize the directions for future research.

Reduction of oxidative stress during recovery accelerates normalization of primary cilia length that is altered after ischemic injury in murine kidneys

2013 ◽  
Vol 304 (10) ◽  
pp. F1283-F1294 ◽  
Author(s):  
Jee In Kim ◽  
Jinu Kim ◽  
Hee-Seong Jang ◽  
Mi Ra Noh ◽  
Joshua H. Lipschutz ◽  
...  
Keyword(s):  
Oxidative Stress ◽  
Reactive Oxygen Species ◽  
Primary Cilium ◽  
Primary Cilia ◽  
Mdck Cells ◽  
Reactive Oxygen ◽  
Renal Tubular Cell ◽  
Oxygen Species ◽  
Renal Tubular ◽  
Cilium Length

The primary cilium is a microtubule-based nonmotile organelle that extends from the surface of cells, including renal tubular cells. Here, we investigated the alteration of primary cilium length during epithelial cell injury and repair, following ischemia/reperfusion (I/R) insult, and the role of reactive oxygen species in this alteration. Thirty minutes of bilateral renal ischemia induced severe renal tubular cell damage and an increase of plasma creatinine (PCr) concentration. Between 8 and 16 days following the ischemia, the increased PCr returned to normal range, although without complete histological restoration. Compared with the primary cilium length in normal kidney tubule cells, the length was shortened 4 h and 1 day following ischemia, increased over normal 8 days after ischemia, and then returned to near normal 16 days following ischemia. In the urine of I/R-subjected mice, acetylated tubulin was detected. The cilium length of proliferating cells was shorter than that in nonproliferating cells. Mature cells had shorter cilia than differentiating cells. Treatment with Mn(III) tetrakis(1-methyl-4-pyridyl) porphyrin (MnTMPyP), an antioxidant, during the recovery of damaged kidneys accelerated normalization of cilia length concomitant with a decrease of oxidative stress and morphological recovery in the kidney. In the Madin-Darby canine kidney (MDCK) cells, H2O2 treatment caused released ciliary fragment into medium, and MnTMPyP inhibited the deciliation. The ERK inhibitor U0126 inhibited elongation of cilia in normal and MDCK cells recovering from H2O2 stress. Taken together, our results suggest that primary cilia length reflects cell proliferation and the length of primary cilium is regulated, at least, in part, by reactive oxygen species through ERK.

scholarly journals Primary cilium and glioblastoma

2018 ◽  
Vol 10 ◽  
pp. 175883591880116 ◽  
Author(s):  
María Álvarez-Satta ◽  
Ander Matheu
Keyword(s):  
Cancer Progression ◽  
Primary Cilium ◽  
Primary Cilia ◽  
Apical Surface ◽  
New Approach ◽  
Primary Brain Tumour ◽  
Tumorigenesis And Progression ◽  
Signalling Transduction ◽  
Abnormal Cilia

Glioblastoma (GBM) represents the most common, malignant and lethal primary brain tumour in adults. The primary cilium is a highly conserved and dynamic organelle that protrudes from the apical surface of virtually every type of mammalian cell. There is increasing evidence that abnormal cilia are involved in cancer progression, since primary cilia regulate cell cycle and signalling transduction. In this review, we summarize the role of primary cilium specifically with regard to GBM, where there is evidence postulating it as a critical mediator of GBM tumorigenesis and progression. This opens the way to the application of cilia-targeted therapies (‘ciliotherapy’) as a new approach in the fight against this devastating tumour.

scholarly journals Centrosome and ciliary abnormalities in fetal akinesia deformation sequence human fibroblasts

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Ramona Jühlen ◽  
Valérie Martinelli ◽  
Chiara Vinci ◽  
Jeroen Breckpot ◽  
Birthe Fahrenkrog
Keyword(s):  
Primary Cilium ◽  
Broad Spectrum ◽  
Genetic Heterogeneity ◽  
Primary Cilia ◽  
Neuromuscular Disorders ◽  
Human Fibroblasts ◽  
Post Translational Modifications ◽  
Proximity Ligation ◽  
Clinical Disorders ◽  
Foetal Movement

Abstract Ciliopathies are clinical disorders of the primary cilium with widely recognised phenotypic and genetic heterogeneity. Here, we found impaired ciliogenesis in fibroblasts derived from individuals with fetal akinesia deformation sequence (FADS), a broad spectrum of neuromuscular disorders arising from compromised foetal movement. We show that cells derived from FADS individuals have shorter and less primary cilia (PC), in association with alterations in post-translational modifications in α-tubulin. Similarly, siRNA-mediated depletion of two known FADS proteins, the scaffold protein rapsyn and the nucleoporin NUP88, resulted in defective PC formation. Consistent with a role in ciliogenesis, rapsyn and NUP88 localised to centrosomes and PC. Furthermore, proximity-ligation assays confirm the respective vicinity of rapsyn and NUP88 to γ-tubulin. Proximity-ligation assays moreover show that rapsyn and NUP88 are adjacent to each other and that the rapsyn-NUP88 interface is perturbed in the examined FADS cells. We suggest that the perturbed rapsyn-NUP88 interface leads to defects in PC formation and that defective ciliogenesis contributes to the pleiotropic defects seen in FADS.

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