Developmental and tissue‐specific roles of mammalian centrosomes

Meyer‐Gerards, Charlotte; Bazzi, Hisham

doi:10.1111/febs.17212

Cited by 2 publications

References 158 publications

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Roles of Cep215/Cdk5rap2 in establishing testicular architecture for mouse male germ cell development

Kang,

Shin,

Kim

et al. 2024

The FASEB Journal

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Cep215/Cdk5rap2 is a centrosome protein crucial for directing microtubule organization during cell division and morphology. Cep215 is a causal gene of autosomal recessive primary microcephaly type 3, characterized by a small brain size and a thin cerebral cortex. Despite previous attempts with Cep215 knockout (KO) mice to elucidate its developmental roles, interpreting their phenotypes remained challenging due to potential interference from alternative variants. Here, we generated KO mice completely lacking the Cep215 gene and investigated its specific contributions to male germ cell development. In the absence of Cep215, testis size decreased significantly, accompanied by a reduction in male germ cell numbers. Histological analyses unveiled the arrested development of male germ cells around the zygotene stage of meiosis. Concurrently, the formation of the blood‐testis barrier (BTB) was impaired in Cep215 KO testes. These findings suggest that BTB failure contributes, at least partially, to male germ cell defects observed in Cep215 KO mice. We propose that the deletion of Cep215 may disrupt microtubule organization in Sertoli cells with a delay in spermatogonial stem cell mitosis, thereby impeding proper BTB formation.

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Roles of Cep215/Cdk5rap2 in establishing testicular architecture for mouse male germ cell development

Kang,

Shin,

Kim

et al. 2024

The FASEB Journal

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Multiple clustered centrosomes in antigen-presenting cells foster T cell activation without MTOC polarization

Stötzel,

Weier,

Sarkar

et al. 2024

Preprint

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Cellular polarization plays a pivotal role in regulating immunological processes and is often associated with centrosome reorientation. During immune synapse (IS) formation centrosome repositioning in lymphocytes assists in T cell activation. While a single centrosome, consisting of two centrioles, is present in T cells, antigen-presenting cells (APCs) such as dendritic cells (DCs) amplify centrioles during maturation leading to increased centrosome numbers upon immune activation. How centrosome amplification in DCs affects IS formation and T cell activation is unclear. In this study, we combine experimental data with mathematical and computational modelling to provide evidence that centrosome amplification in DCs enhances antigen-specific T cell activation. Extra centrioles in DCs form active centrosomes, which cluster during DC-T cell interactions and unlike in T cells, localize close to the cell center. Perturbing either centriole numbers or centrosome configuration in DCs results in impaired T cell activation. Collectively, our results highlight a crucial role for centrosome amplification and optimal centrosome positioning in APCs for controlling T cell responses.

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Developmental and tissue‐specific roles of mammalian centrosomes

Cited by 2 publications

References 158 publications

Roles of Cep215/Cdk5rap2 in establishing testicular architecture for mouse male germ cell development

Roles of Cep215/Cdk5rap2 in establishing testicular architecture for mouse male germ cell development

Multiple clustered centrosomes in antigen-presenting cells foster T cell activation without MTOC polarization

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