Hilda T.H. Tsang scite author profile

SummaryTo understand the functions of SPG6, mutated in the neurodegenerative disease hereditary spastic paraplegia, and of ichthyin, mutated in autosomal recessive congenital ichthyosis, we have studied their Drosophila ortholog, spichthyin (Spict). Spict is found on early endosomes. Loss of Spict leads to upregulation of BMP signaling and expansion of the neuromuscular junction. BMP signaling is also necessary for a normal microtubule cytoskeleton and axonal transport; analysis of loss and gain-of-function phenotypes suggests that Spict antagonizes this function of BMP signaling. Spict interacts with BMP receptors and promotes their internalization from the plasma membrane, suggesting that it inhibits BMP signaling by regulating BMP receptor traffic. This is the first demonstration of a role for an SPG protein or ichthyin family member in a specific signaling pathway, and suggests disease mechanisms for hereditary spastic paraplegia that involve dependence of the microtubule cytoskeleton on BMP signaling.

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A systematic analysis of human CHMP protein interactions: Additional MIT domain-containing proteins bind to multiple components of the human ESCRT III complex

Tsang

et al. 2006

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In Saccharomyces cerevisiae 6 closely related proteins (Did2p, Vps2p, Vps24p, Vps32p, Vps60p, Vps20p) form part of the extended ESCRT III complex. This complex is required for the formation of multivesicular bodies and the degradation of internalized transmembrane receptor proteins. In contrast the human genome encodes 10 homologous proteins (CHMP1A (approved gene symbol PCOLN3), 1B, 2A, 2B, 3 (approved gene symbol VPS24), 4A, 4B, 4C, 5, and 6). In this study we have performed a series of protein interaction experiments to generate a more comprehensive picture of the human CHMP protein-interaction network. Our results describe novel interactions between known components of the human ESCRT III complex and identify a range of putative binding partners, which may indicate new ways in which the function of human CHMP proteins may be regulated. In particular, we show that two further MIT domain-containing proteins (AMSH/STAMBP and LOC129531) interact with multiple components of the human ESCRT III complex.

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The hereditary spastic paraplegia proteins NIPA1, spastin and spartin are inhibitors of mammalian BMP signalling

Tsang¹,

Edwards²,

Wang³

et al. 2009

133

129

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The hereditary spastic paraplegias (HSPs) are genetic conditions characterized by distal axonopathy of the longest corticospinal tract axons, and so their study provides an important opportunity to understand mechanisms involved in axonal maintenance and degeneration. A group of HSP genes encode proteins that localize to endosomes. One of these is NIPA1 (non-imprinted in Prader-Willi/Angelman syndrome 1) and we have shown recently that its Drosophila homologue spichthyin inhibits bone morphogenic protein (BMP) signalling, although the relevance of this finding to the mammalian protein was not known. We show here that mammalian NIPA1 is also an inhibitor of BMP signalling. NIPA1 physically interacts with the type II BMP receptor (BMPRII) and we demonstrate that this interaction does not require the cytoplasmic tail of BMPRII. We show that the mechanism by which NIPA1 inhibits BMP signalling involves downregulation of BMP receptors by promoting their endocytosis and lysosomal degradation. Disease-associated mutant versions of NIPA1 alter the trafficking of BMPRII and are less efficient at promoting BMPRII degradation than wild-type NIPA1. In addition, we demonstrate that two other members of the endosomal group of HSP proteins, spastin and spartin, are inhibitors of BMP signalling. Since BMP signalling is important for distal axonal function, we propose that dysregulation of BMP signalling could be a unifying pathological component in this endosomal group of HSPs, and perhaps of importance in other conditions in which distal axonal degeneration is found.

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Endogenous spartin (SPG20) is recruited to endosomes and lipid droplets and interacts with the ubiquitin E3 ligases AIP4 and AIP5

Edwards

Clowes

Tsang

et al. 2009

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The HSPs (hereditary spastic paraplegias) are genetic conditions in which there is distal degeneration of the longest axons of the corticospinal tract, resulting in spastic paralysis of the legs. The gene encoding spartin is mutated in Troyer syndrome, an HSP in which paralysis is accompanied by additional clinical features. There has been controversy over the subcellular distribution of spartin. We show here that, at steady state, endogenous spartin exists in a cytosolic pool that can be recruited to endosomes and to lipid droplets. Cytosolic endogenous spartin is mono-ubiquitinated and we demonstrate that it interacts via a PPXY motif with the ubiquitin E3 ligases AIP4 [atrophin-interacting protein 4; WWP2 (WW domain-containing E3 ubiquitin protein ligase 2] and AIP5 (WWP1). Surprisingly, the PPXY motif, AIP4 and AIP5 are not required for spartin's ubiquitination, and so we propose that spartin acts as an adaptor for these proteins. Our results suggest that spartin is involved in diverse cellular functions, which may be of relevance to the complex phenotype seen in Troyer syndrome.

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Hilda T.H. Tsang

Drosophila spichthyin inhibits BMP signaling and regulates synaptic growth and axonal microtubules

A systematic analysis of human CHMP protein interactions: Additional MIT domain-containing proteins bind to multiple components of the human ESCRT III complex

The hereditary spastic paraplegia proteins NIPA1, spastin and spartin are inhibitors of mammalian BMP signalling

Endogenous spartin (SPG20) is recruited to endosomes and lipid droplets and interacts with the ubiquitin E3 ligases AIP4 and AIP5

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