Evgeniya V. Smirnova 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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T-cell Ubiquitin Ligand Affects Cell Death through a Functional Interaction with Apoptosis-inducing Factor, a Key Factor of Caspase-independent Apoptosis

Collingwood

Smirnova

Bogush

et al. 2007

Journal of Biological Chemistry

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The lymphoid protein T-cell ubiquitin ligand (TULA)/suppressor of T-cell receptor signaling (Sts)-2 is associated with c-Cbl and ubiquitylated proteins and has been implicated in the regulation of signaling mediated by protein-tyrosine kinases. The results presented in this report indicate that TULA facilitates T-cell apoptosis independent of either T-cell receptor/ CD3-mediated signaling or caspase activity. Mass spectrometry-based analysis of protein-protein interactions of TULA demonstrates that TULA binds to the apoptosis-inducing protein AIF, which has previously been shown to function as a key factor of caspase-independent apoptosis. Using RNA interference, we demonstrate that AIF is essential for the apoptotic effect of TULA. Analysis of the subcellular localization of TULA and AIF together with the functional analysis of TULA mutants is consistent with the idea that TULA enhances the apoptotic effect of AIF by facilitating the interactions of AIF with its apoptotic co-factors, which remain to be identified. Overall, our results shed new light on the biological functions of TULA, a recently discovered protein, describing its role as one of very few known functional interactors of AIF.We recently identified TULA among multiple proteins that co-purified with c-Cbl from T-lymphoblastoid cells (1). TULA contains an N-terminal UBA domain, a centrally positioned SH3 2 domain, and a region of homology to phosphoglyceromutases, which was initially termed HCD ( Fig. 1) (1, 2). TULA binds to c-Cbl through its SH3 domain and to ubiquitin and ubiquitylated proteins through its UBA domain (1, 3). Dimerization of TULA through its phosphoglyceromutase domain has also been shown (3). Analysis of cell and tissue expression of TULA demonstrates that this protein is expressed primarily in T and B lymphocytes and is localized both in the cytoplasm and nucleus (1, 4). A mouse orthologue of TULA (Sts-2) was recently identified (4), as was a second member of the family, Sts-1 (5). Unlike TULA, Sts-1 is expressed ubiquitously (4, 5). (In this report we will use the term TULA for consistency.)TULA has been implicated in the regulation of cell signaling mediated by protein-tyrosine kinases. On the one hand, TULA was reported to increase activity of receptor protein-tyrosine kinases by inhibiting c-Cbl-driven down-regulation of their activated forms. This appears to be mediated by preventing interactions between ubiquitylated forms of activated proteintyrosine kinases and proteins recruiting them to the degradation pathway and, possibly, by decreasing the level of c-Cbl (1, 3). On the other, the lack of both proteins of the TULA/Sts family resulted in hyper-reactivity of T lymphocytes correlated with an increase in the activity of Zap-70, the molecular basis of which remained unclear (4). These results implied that the effect of TULA on protein-tyrosine kinases might not be the only mechanism through which TULA exerts its biological effect. Indeed, the presence in TULA of multiple functional domains and extensive stretches of amino...

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Combinations of PCR and Isothermal Amplification Techniques Are Suitable for Fast and Sensitive Detection of SARS-CoV-2 Viral RNA

Varlamov

Blagodatskikh

Smirnova

et al. 2020

Front. Bioeng. Biotechnol.

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The newly identified coronavirus, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), causes coronavirus disease 2019 (COVID-19) and has affected over 25 million people worldwide as of August 31, 2020. To aid in the development of diagnostic kits for rapid and sensitive detection of the virus, we evaluated a combination of polymerase chain reaction (PCR) and isothermal nucleic acid amplification techniques. Here, we compared conventional PCR and loop-mediated isothermal amplification (LAMP) methods with hybrid techniques such as polymerase chain displacement reaction (PCDR) and a newly developed PCR-LAMP method. We found that the hybrid methods demonstrated higher sensitivity and assay reaction rates than those of the classic LAMP and PCR techniques and can be used to for SARS-CoV-2 detection. The proposed methods based on the modern hybrid amplification techniques markedly improve virus detection and, therefore, can be extremely useful in the development of new diagnostic kits.

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TULA proteins bind to ABCE-1, a host factor of HIV-1 assembly, and inhibit HIV-1 biogenesis in a UBA-dependent fashion

et al. 2008

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TULA, a recently identified UBA- and SH3-containing protein, has previously been shown to regulate cell signaling through protein tyrosine kinases. In order to search for novel functions of TULA, we identified, using mass spectrometry, proteins associated with TULA. ABCE-1 also known as RLI and HP68, a host factor of HIV-1 assembly, was found among TULA-associated proteins in these experiments. Considering an important role of ABCE-1 in HIV-1 assembly, we were compelled to analyze the effect of TULA on HIV-1 biogenesis. Our study provides evidence that TULA proteins substantially inhibit production of both sub-genomic and full-length HIV-1 viral particles and that the effect of TULA is dependent on UBA domain-mediated interactions. The primary role of ABCE-1 in the effect of TULA appears to be the recruitment of TULA to the sites of HIV-1 assembly where TULA interferes with the late steps of the HIV-1 life cycle, most likely by disrupting essential ubiquitylation-dependent events that remain to be identified.

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Comprehensive Atlas of the Myelin Basic Protein Interaction Landscape

et al. 2021

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Intrinsically disordered myelin basic protein (MBP) is one of the key autoantigens in autoimmune neurodegeneration and multiple sclerosis particularly. MBP is highly positively charged and lacks distinct structure in solution and therefore its intracellular partners are still mostly enigmatic. Here we used combination of formaldehyde-induced cross-linking followed by immunoprecipitation and liquid chromatography-tandem mass spectrometry (LC-MS/MS) to elucidate the interaction network of MBP in mammalian cells and provide the list of potential MBP interacting proteins. Our data suggest that the largest group of MBP-interacting proteins belongs to cellular proteins involved in the protein translation machinery, as well as in the spatial and temporal regulation of translation. MBP interacts with core ribosomal proteins, RNA helicase Ddx28 and RNA-binding proteins STAU1, TDP-43, ADAR-1 and hnRNP A0, which are involved in various stages of RNA biogenesis and processing, including specific maintaining MBP-coding mRNA. Among MBP partners we identified CTNND1, which has previously been shown to be necessary for myelinating Schwann cells for cell-cell interactions and the formation of a normal myelin sheath. MBP binds proteins MAGEB2/D2 associated with neurotrophin receptor p75NTR, involved in pathways that promote neuronal survival and neuronal death. Finally, we observed that MBP interacts with RNF40–a component of heterotetrameric Rnf40/Rnf20 E3 ligase complex, recruited by Egr2, which is the central transcriptional regulator of peripheral myelination. Concluding, our data suggest that MBP may be more actively involved in myelination not only as a main building block but also as a self-regulating element.

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