Unknown

Dataset Information

0

C-NAP1 and rootletin restrain DNA damage-induced centriole splitting and facilitate ciliogenesis.

ABSTRACT: Cilia are found on most human cells and exist as motile cilia or non-motile primary cilia. Primary cilia play sensory roles in transducing various extracellular signals, and defective ciliary functions are involved in a wide range of human diseases. Centrosomes are the principal microtubule-organizing centers of animal cells and contain two centrioles. We observed that DNA damage causes centriole splitting in non-transformed human cells, with isolated centrioles carrying the mother centriole markers CEP170 and ninein but not kizuna or cenexin. Loss of centriole cohesion through siRNA depletion of C-NAP1 or rootletin increased radiation-induced centriole splitting, with C-NAP1-depleted isolated centrioles losing mother markers. As the mother centriole forms the basal body in primary cilia, we tested whether centriole splitting affected ciliogenesis. While irradiated cells formed apparently normal primary cilia, most cilia arose from centriolar clusters, not from isolated centrioles. Furthermore, C-NAP1 or rootletin knockdown reduced primary cilium formation. Therefore, the centriole cohesion apparatus at the proximal end of centrioles may provide a target that can affect primary cilium formation as part of the DNA damage response.

SUBMITTER: Conroy PC 

PROVIDER: S-EPMC3495820 | biostudies-other | 2012 Oct

REPOSITORIES: biostudies-other

Json Xml
altmetric image

Publications

C-NAP1 and rootletin restrain DNA damage-induced centriole splitting and facilitate ciliogenesis.

Conroy Pauline C PC   Saladino Chiara C   Dantas Tiago J TJ   Lalor Pierce P   Dockery Peter P   Morrison Ciaran G CG  

Cell cycle (Georgetown, Tex.) 20121001 20

Cilia are found on most human cells and exist as motile cilia or non-motile primary cilia. Primary cilia play sensory roles in transducing various extracellular signals, and defective ciliary functions are involved in a wide range of human diseases. Centrosomes are the principal microtubule-organizing centers of animal cells and contain two centrioles. We observed that DNA damage causes centriole splitting in non-transformed human cells, with isolated centrioles carrying the mother centriole mar  ...[more]

Similar Datasets

Unknown Centriole splitting caused by loss of the centrosomal linker protein C-NAP1 reduces centriolar satellite density and impedes centrosome amplification.
| S-EPMC5349781 | biostudies-literature
Transcriptomics Multicilin promotes centriole assembly and ciliogenesis during multiciliate cell differentiation.
2012-03-01 | E-GEOD-32452 | biostudies-arrayexpress
Transcriptomics Multicilin promotes centriole assembly and ciliogenesis during multiciliate cell differentiation.
2012-03-01 | GSE32452 | GEO
Unknown Proteins in the nutrient-sensing and DNA damage checkpoint pathways cooperate to restrain mitotic progression following DNA damage.
| S-EPMC3136438 | biostudies-other
Unknown Multicilin promotes centriole assembly and ciliogenesis during multiciliate cell differentiation.
| S-EPMC3329891 | biostudies-literature
Unknown p53 deficiency induces MTHFD2 transcription to promote cell proliferation and restrain DNA damage.
| S-EPMC8285905 | biostudies-literature
Unknown Tissue specific requirement of Drosophila Rcd4 for centriole duplication and ciliogenesis.
| S-EPMC7401805 | biostudies-literature
Unknown LUBAC regulates ciliogenesis by promoting CP110 removal from the mother centriole.
| S-EPMC8614155 | biostudies-literature
Unknown SCFFbxw5 targets kinesin-13 proteins to facilitate ciliogenesis
| S-SCDT-EMBOJ-2021-107735 | biostudies-other
Unknown Centriole translocation and degeneration during ciliogenesis in <i>Caenorhabditis elegans</i> neurons.
| S-EPMC5579362 | biostudies-literature