Anjali Teckchandani scite author profile

Downregulation of protein tyrosine kinases is a major function of the multidomain protein c-Cbl. This effect of c-Cbl is critical for both negative regulation of normal physiological stimuli and suppression of cellular transformation. In spite of the apparent importance of these effects of c-Cbl, their own regulation is poorly understood. To search for possible novel regulators of c-Cbl, we purified a number of c-Cbl-associated proteins by affinity chromatography and identified them by mass spectrometry. Among them, we identified the UBA-and SH3-containing protein T-cell Ubiquitin LigAnd (TULA), which can also bind to ubiquitin. Functional studies in a model system based on co-expression of TULA, c-Cbl, and EGF receptor in 293T cells demonstrate that TULA is capable of inhibiting c-Cbl-mediated downregulation of EGF receptor. Furthermore, modulation of TULA concentration in Jurkat T-lymphoblastoid cells demonstrates that TULA upregulates the activity of both Zap kinase and NF-AT transcription factor. Therefore, our study indicates that TULA counters the inhibitory effect of cCbl on protein tyrosine kinases and, thus, may be involved in the regulation of biological effects of c-Cbl. Finally, our results suggest that TULA-mediated inhibition of the effects of c-Cbl on protein tyrosine kinases is caused by TULA-induced ubiquitylation and degradation of c-Cbl.

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Quantitative proteomics identifies a Dab2/integrin module regulating cell migration

Teckchandani

et al. 2009

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Clathrin-associated endocytic adapters recruit cargoes to coated pits as a first step in endocytosis. We developed an unbiased quantitative proteomics approach to identify and quantify glycoprotein cargoes for an endocytic adapter, Dab2. Surface levels of integrins β1, α1, α2, and α3 but not α5 or αv chains were specifically increased on Dab2-deficient HeLa cells. Dab2 colocalizes with integrin β1 in coated pits that are dispersed over the cell surface, suggesting that it regulates bulk endocytosis of inactive integrins. Depletion of Dab2 inhibits cell migration and polarized movement of integrin β1 and vinculin to the leading edge. By manipulating intracellular and surface integrin β1 levels, we show that migration speed correlates with the intracellular integrin pool but not the surface level. Together, these results suggest that Dab2 internalizes integrins freely diffusing on the cell surface and that Dab2 regulates migration, perhaps by maintaining an internal pool of integrins that can be recycled to create new adhesions at the leading edge.

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Beyond the RING: CBL proteins as multivalent adapters

et al. 2001

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The clathrin adaptor Dab2 recruits EH domain scaffold proteins to regulate integrin β1 endocytosis

Teckchandani

Mulkearns

Randolph

et al. 2012

MBoC

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Cullin5 destabilizes Cas to inhibit Src-dependent cell transformation

Teckchandani

Laszlo

Simó

et al. 2013

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Phosphorylation-dependent protein ubiquitylation and degradation provides an irreversible mechanism to terminate protein kinase signaling. Here, we report that mammary epithelial cells require cullin-5-RING-E3-ubiquitin-ligase complexes (Cul5-CRLs) to prevent transformation by a Src-Cas signaling pathway. Removal of Cul5 stimulates growth-factor-independent growth and migration, membrane dynamics and colony dysmorphogenesis, which are all dependent on the endogenous tyrosine kinase Src. Src is activated in Cul5-deficient cells, but Src activation alone is not sufficient to cause transformation. We found that Cul5 and Src together stimulate degradation of the Src substrate p130Cas (Crkassociated substrate). Phosphorylation stimulates Cas binding to the Cul5-CRL adaptor protein SOCS6 and consequent proteasomedependent degradation. Cas is necessary for the transformation of Cul5-deficient cells. Either knockdown of SOCS6 or use of a degradation-resistant Cas mutant stimulates membrane ruffling, but not other aspects of transformation. Our results show that endogenous Cul5 suppresses epithelial cell transformation by several pathways, including inhibition of Src-Cas-induced ruffling through SOCS6.

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