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ABSTRACT: Selective autophagy is a process whereby specific targeted cargo proteins, aggregates, or organelles are sequestered into double-membrane-bound phagophores before fusion with the lysosome for protein degradation. It has been demonstrated that the microtubule network is important for the formation and movement of autophagosomes. Nbr1 is a selective cargo receptor that through its interaction with LC3 recruits ubiquitinated proteins for autophagic degradation. This study demonstrates an interaction between the evolutionarily conserved FW domain of Nbr1 with the microtubule-associated protein MAP1B. Upon autophagy induction, MAP1B localisation is focused into discrete vesicles with Nbr1. This colocalisation is dependent upon an intact microtubule network as depolymerisation by nocodazole treatment abolishes starvation-induced MAP1B recruitment to these vesicles. MAP1B is not recruited to autophagosomes for protein degradation as blockage of lysosomal acidification does not result in significant increased MAP1B protein levels. However, the protein levels of phosphorylated MAP1B are significantly increased upon blockage of autophagic degradation. This is the first evidence that links the ubiquitin receptor Nbr1, which shuttles ubiquitinated proteins to be degraded by autophagy, to the microtubule network.
International Journal of Cell Biology 01/2012; 2012:208014.
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ABSTRACT: Skeletal remodeling is an ongoing process requiring the coordinated action of different cell types to maintain homeostatic control of bone synthesis and degradation. Mutations in p62/SQSTM1 are associated with sporadic and 5q35-linked Paget Disease of Bone (PDB), characterized by focal increased bone turnover. These mutations cluster in the ubiquitin associated (UBA) domain and are thought to lead to enhancement of NFκB pathway activation involved in osteoclastogenesis and hyper-responsiveness to receptor activator of nuclear factorκB ligand (RANKL). The structurally similar selective autophagic receptor, Nbr1, binds to LC3 and p62 and is sequestered into autophagosomes, whereas it accumulates in autophagic-deficient tissues. We have shown that truncation of Nbr1 in a murine model, where it can still interact with p62 but not LC3, leads to increased osteoblast differentiation and activity in vivo. This results in an age-dependent increase in bone mass and bone mineral density. This is a molecular consequence of loss of autophagy receptor function via deletion of its C-terminal UBA domain, and/or modulation of the p38 MAPK cellular signaling pathway.
Autophagy 10/2010; 6(7):981-3. · 7.45 Impact Factor
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Caroline A Whitehouse,
Sarah Waters, Katie Marchbank,
Alan Horner,
Neil W A McGowan,
Jelena V Jovanovic,
Guilherme M Xavier,
Takeshi G Kashima,
Martyn T Cobourne,
Gareth O Richards,
Paul T Sharpe,
Tim M Skerry,
Agamemnon E Grigoriadis,
Ellen Solomon
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ABSTRACT: The neighbor of Brca1 gene (Nbr1) functions as an autophagy receptor involved in targeting ubiquitinated proteins for degradation. It also has a dual role as a scaffold protein to regulate growth-factor receptor and downstream signaling pathways. We show that genetic truncation of murine Nbr1 leads to an age-dependent increase in bone mass and bone mineral density through increased osteoblast differentiation and activity. At 6 mo of age, despite normal body size, homozygous mutant animals (Nbr1(tr/tr)) have approximately 50% more bone than littermate controls. Truncated Nbr1 (trNbr1) co-localizes with p62, a structurally similar interacting scaffold protein, and the autophagosome marker LC3 in osteoblasts, but unlike the full-length protein, trNbr1 fails to complex with activated p38 MAPK. Nbr1(tr/tr) osteoblasts and osteoclasts show increased activation of p38 MAPK, and significantly, pharmacological inhibition of the p38 MAPK pathway in vitro abrogates the increased osteoblast differentiation of Nbr1(tr/tr) cells. Nbr1 truncation also leads to increased p62 protein expression. We show a role for Nbr1 in bone remodeling, where loss of function leads to perturbation of p62 levels and hyperactivation of p38 MAPK that favors osteoblastogenesis.
Proceedings of the National Academy of Sciences 07/2010; 107(29):12913-8. · 9.68 Impact Factor
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ABSTRACT: Nbr1, a ubiquitous kinase scaffold protein, contains a PB1, and a ubiquitin-associated (UBA) domain. We show here that the nbr1 UBA domain binds to lysine-48 and -63 linked polyubiquitin-B chains. Nbr1 also binds to the autophagic effector protein LC3-A via a novel binding site. Ubiquitin-binding, but not PB1-mediated p62/SQSTM1 interaction, is required to target nbr1 to LC3 and polyubiquitin-positive bodies. Nbr1 binds additionally to proteins implicated in ubiquitin-mediated protein turnover and vesicle trafficking: ubiquitin-specific peptidases USP8, and the endosomal transport regulator p14/Robld3. Nbr1 thus contributes to specific steps in protein turnover regulation disrupted in several hereditary human diseases.
FEBS letters 06/2009; 583(12):1846-52. · 3.54 Impact Factor
