Brunella Franco scite author profile

X-linked lymphoproliferative syndrome (XLP or Duncan disease) is characterized by extreme sensitivity to Epstein-Barr virus (EBV), resulting in a complex phenotype manifested by severe or fatal infectious mononucleosis, acquired hypogammaglobulinemia and malignant lymphoma. We have identified a gene, SH2D1A, that is mutated in XLP patients and encodes a novel protein composed of a single SH2 domain. SH2D1A is expressed in many tissues involved in the immune system. The identification of SH2D1A will allow the determination of its mechanism of action as a possible regulator of the EBV-induced immune response.

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Autophagy promotes primary ciliogenesis by removing OFD1 from centriolar satellites

Tang

Lin

Stowe

et al. 2013

Nature

349

437

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The primary cilium is a microtubule-based organelle that functions in sensory and signaling pathways. Defects in ciliogenesis can lead to a group of genetic syndromes known as ciliopathies1–3. However, the regulatory mechanisms of primary ciliogenesis in normal and cancer cells are incompletely understood. Here, we demonstrate that autophagic degradation of a ciliopathy protein OFD1 (oral-facial-digital syndrome 1) at centriolar satellites promotes primary cilium biogenesis. Autophagy is a catabolic pathway in which cytosol, damaged organelles, and protein aggregates are engulfed in autophagosomes and delivered to lysosomes for destruction4. We show that the population of OFD1 at the centriolar satellites is rapidly degraded by autophagy upon serum starvation. In autophagy-deficient Atg5 or Atg3 null mouse embryonic fibroblasts, Ofd1 accumulates at centriolar satellites, leading to fewer and shorter primary cilia and a defective recruitment of BBS4 (Bardet-Biedl syndrome 4) to cilia. These defects are fully rescued by Ofd1 partial knockdown that reduces the population of Ofd1 at the centriolar satellites. More strikingly, OFD1 depletion at centriolar satellite promotes cilia formation in both cycling cells and transformed breast cancer MCF7 cells that normally do not form cilia. This work reveals that removal of OFD1 by autophagy at centriolar satellites represents a general mechanism to promote ciliogenesis in mammalian cells. These findings define a newly recognized role of autophagy in organelle biogenesis.

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Maternal mRNA deadenylation and decay by the piRNA pathway in the early Drosophila embryo

Rouget

Papin

Boureux

et al. 2010

Nature

397

424

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Opitz G/BBB syndrome, a defect of midline development, is due to mutations in a new RING finger gene on Xp22

et al. 1997

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Opitz syndrome (OS) is an inherited disorder characterized by midline defects including hypertelorism, hypospadias, lip-palate-laryngotracheal clefts and imperforate anus. We have identified a new gene on Xp22, MiD1 (Midline 1), which is disrupted in an OS patient carrying an X-chromosome inversion and is also mutated in several OS families.MIDI encodes a member of the B-box family of proteins, which contain protein-protein interaction domains, including a RING finger, and are implicated in fundamental processes such as body axis patterning and control of cell proliferation. The association of MIDI with OS suggests an important role for this gene in midline development

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Brunella Franco

Host response to EBV infection in X-linked lymphoproliferative disease results from mutations in an SH2-domain encoding gene

Autophagy promotes primary ciliogenesis by removing OFD1 from centriolar satellites

Maternal mRNA deadenylation and decay by the piRNA pathway in the early Drosophila embryo

Opitz G/BBB syndrome, a defect of midline development, is due to mutations in a new RING finger gene on Xp22

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