Your search keyword '"Malovannaya A"' showing total 19 results

1. BRG1/BRM inhibitor targets AML stem cells and exerts superior preclinical efficacy combined with BET or menin inhibitor

Author

Fiskus, Warren, Piel, Jessica, Collins, Mike, Hentemann, Murphy, Cuglievan, Branko, Mill, Christopher P., Birdwell, Christine E., Das, Kaberi, Davis, John A., Hou, Hanxi, Jain, Antrix, Malovannaya, Anna, Kadia, Tapan M., Daver, Naval, Sasaki, Koji, Takahashi, Koichi, Hammond, Danielle, Reville, Patrick K., Wang, Jian, Loghavi, Sanam, Sen, Rwik, Ruan, Xinjia, Su, Xiaoping, Flores, Lauren B., DiNardo, Courtney D., and Bhalla, Kapil N.

Abstract

•FHD-286 reduced chromatin accessibility, repressed c-Myc and PU.1, and diminished leukemia-initiating potential in AML stem/progenitor cells.•FHD-286 combined with BET or menin inhibitor reduced AML burden and improved survival in xenograft models of AML with MLL1r or mtNPM1.

Published

2024

2. CRISPR–Cas9-based functional interrogation of unconventional translatome reveals human cancer dependency on cryptic non-canonical open reading frames

Author

Zheng, Caishang, Wei, Yanjun, Zhang, Peng, Lin, Kangyu, He, Dandan, Teng, Hongqi, Manyam, Ganiraju, Zhang, Zhao, Liu, Wen, Lee, Hye Rin Lindsay, Tang, Ximing, He, Wei, Islam, Nelufa, Jain, Antrix, Chiu, Yulun, Cao, Shaolong, Diao, Yarui, Meyer-Gauen, Sherita, Höök, Magnus, Malovannaya, Anna, Li, Wenbo, Hu, Ming, Wang, Wenyi, Xu, Han, Kopetz, Scott, and Chen, Yiwen

Abstract

Emerging evidence suggests that cryptic translation beyond the annotated translatome produces proteins with developmental or physiological functions. However, functions of cryptic non-canonical open reading frames (ORFs) in cancer remain largely unknown. To fill this gap and systematically identify colorectal cancer (CRC) dependency on non-canonical ORFs, we apply an integrative multiomic strategy, combining ribosome profiling and a CRISPR–Cas9 knockout screen with large-scale analysis of molecular and clinical data. Many such ORFs are upregulated in CRC compared to normal tissues and are associated with clinically relevant molecular subtypes. We confirm the in vivo tumor-promoting function of the microprotein SMIMP, encoded by a primate-specific, long noncoding RNA, the expression of which is associated with poor prognosis in CRC, is low in normal tissues and is specifically elevated in CRC and several other cancer types. Mechanistically, SMIMP interacts with the ATPase-forming domains of SMC1A, the core subunit of the cohesin complex, and facilitates SMC1A binding to cis-regulatory elements to promote epigenetic repression of the tumor-suppressive cell cycle regulators encoded by CDKN1Aand CDKN2B. Thus, our study reveals a cryptic microprotein as an important component of cohesin-mediated gene regulation and suggests that the ‘dark’ proteome, encoded by cryptic non-canonical ORFs, may contain potential therapeutic or diagnostic targets.

Published

2023

3. Intestinal Deletion of 3-Hydroxy-3-Methylglutaryl-Coenzyme A Reductase Promotes Expansion of the Resident Stem Cell Compartment

Author

Doerfler, Alexandria M., Han, Jun, Jarrett, Kelsey E., Tang, Li, Jain, Antrix, Saltzman, Alexander, De Giorgi, Marco, Chuecos, Marcel, Hurley, Ayrea E., Li, Ang, Morand, Pauline, Ayala, Claudia, Goodlett, David R., Malovannaya, Anna, Martin, James F., de Aguiar Vallim, Thomas Q., Shroyer, Noah, and Lagor, William R.

Published

2022

4. The Structure-Function Relationship of Angular Estrogens and Estrogen Receptor Alpha to Initiate Estrogen-Induced Apoptosis in Breast Cancer Cells

Author

Maximov, Philipp Y., Abderrahman, Balkees, Hawsawi, Yousef M., Chen, Yue, Foulds, Charles E., Jain, Antrix, Malovannaya, Anna, Fan, Ping, Curpan, Ramona F., Han, Ross, Fanning, Sean W., Broom, Bradley M., Quintana Rincon, Daniela M., Greenland, Jeffery A., Greene, Geoffrey L., and Jordan, V. Craig

Abstract

High-dose synthetic estrogen therapy was the standard treatment of advanced breast cancer for three decades until the discovery of tamoxifen. A range of substituted triphenylethylene synthetic estrogens and diethylstilbestrol were used. It is now known that low doses of estrogens can cause apoptosis in long-term estrogen deprived (LTED) breast cancer cells resistant to antiestrogens. This action of estrogen can explain the reduced breast cancer incidence in postmenopausal women over 60 who are taking conjugated equine estrogens and the beneficial effect of low-dose estrogen treatment of patients with acquired aromatase inhibitor resistance in clinical trials. To decipher the molecular mechanism of estrogens at the estrogen receptor (ER) complex by different types of estrogens—planar [17β-estradiol (E2)] and angular triphenylethylene (TPE) derivatives—we have synthesized a small series of compounds with either no substitutions on the TPE phenyl ring containing the antiestrogenic side chain of endoxifen or a free hydroxyl. In the first week of treatment with E2the LTED cells undergo apoptosis completely. By contrast, the test TPE derivatives act as antiestrogens with a free para-hydroxyl on the phenyl ring that contains an antiestrogenic side chain in endoxifen. This inhibits early E2-induced apoptosis if a free hydroxyl is present. No substitution at the site occupied by the antiestrogenic side chain of endoxifen results in early apoptosis similar to planar E2. The TPE compounds recruit coregulators to the ER differentially and predictably, leading to delayed apoptosis in these cells.SIGNIFICANCE STATEMENTIn this paper we investigate the role of the structure-function relationship of a panel of synthetic triphenylethylene (TPE) derivatives and a novel mechanism of estrogen-induced cell death in breast cancer, which is now clinically relevant. Our study indicates that these TPE derivatives, depending on the positioning of the hydroxyl groups, induce various conformations of the estrogen receptor’s ligand-binding domain, which in turn produces differential recruitment of coregulators and subsequently different apoptotic effects on the antiestrogen-resistant breast cancer cells.

Published

2020

5. A Cross-Linking-Aided Immunoprecipitation/Mass Spectrometry Workflow Reveals Extensive Intracellular Trafficking in Time-Resolved, Signal-Dependent Epidermal Growth Factor Receptor Proteome

Author

Chen, Yue, Leng, Mei, Gao, Yankun, Zhan, Dongdong, Choi, Jong Min, Song, Lei, Li, Kai, Xia, Xia, Zhang, Chunchao, Liu, Mingwei, Ji, Shuhui, Jain, Antrix, Saltzman, Alexander B., Malovannaya, Anna, Qin, Jun, Jung, Sung Yun, and Wang, Yi

Abstract

Ligand binding to the cell surface receptors initiates signaling cascades that are commonly transduced through a protein–protein interaction (PPI) network to activate a plethora of response pathways. However, tools to capture the membrane PPI network are lacking. Here, we describe a cross-linking-aided mass spectrometry workflow for isolation and identification of signal-dependent epidermal growth factor receptor (EGFR) proteome. We performed protein cross-linking in cell culture at various time points following EGF treatment, followed by immunoprecipitation of endogenous EGFR and analysis of the associated proteins by quantitative mass spectrometry. We identified 140 proteins with high confidence during a 2 h time course by data-dependent acquisition and further validated the results by parallel reaction monitoring. A large proportion of proteins in the EGFR proteome function in endocytosis and intracellular protein transport. The EGFR proteome was highly dynamic with distinct temporal behavior; 10 proteins that appeared in all time points constitute the core proteome. Functional characterization showed that loss of the FYVE domain-containing proteins altered the EGFR intracellular distribution but had a minor effect on EGFR proteome or signaling. Thus, our results suggest that the EGFR proteome include functional regulators that influence EGFR signaling and bystanders that are captured as the components of endocytic vesicles. The high-resolution spatiotemporal information of these molecules facilitates the delineation of many pathways that could determine the strength and duration of the signaling, as well as the location and destination of the receptor.

Published

2019

6. gpGrouper: A Peptide Grouping Algorithm for Gene-Centric Inference and Quantitation of Bottom-Up Proteomics Data*

Author

Saltzman, Alexander B., Leng, Mei, Bhatt, Bhoomi, Singh, Purba, Chan, Doug W., Dobrolecki, Lacey, Chandrasekaran, Hamssika, Choi, Jong M., Jain, Antrix, Jung, Sung Y., Lewis, Michael T., Ellis, Matthew J., and Malovannaya, Anna

Abstract

gpGrouper is a gene-centric peptide inference and quantitation algorithm that prevents gene origin mixing and isoform omission in parsimonious protein-centric approaches. A simple classification schema indicates distinguishable gene products, with shared peptide quantities distributed by ratios of corresponding unique peptides. This approach accurately determines tumor content and deconvolution of proteomes from mixed species patient derived xenografts without elimination of species-shared peptides. iBAQ quantities are calculated from label-free, isotopic, or isobaric data, allowing comparisons within and across samples and methodologies.

Published

2018

7. Proteomic profiling identifies key coactivators utilized by mutant ERα proteins as potential new therapeutic targets

Author

Gates, Leah, Gu, Guowei, Chen, Yue, Rohira, Aarti, Lei, Jonathan, Hamilton, Ross, Yu, Yang, Lonard, David, Wang, Jin, Wang, Shu-Ping, Edwards, David, Lavere, Philip, Shao, Jiangyong, Yi, Ping, Jain, Antrix, Jung, Sung, Malovannaya, Anna, Li, Shunqiang, Shao, Jieya, Roeder, Robert, Ellis, Matthew, Qin, Jun, Fuqua, Suzanne, O’Malley, Bert, and Foulds, Charles

Abstract

Approximately 75% of breast cancers are estrogen receptor alpha (ERα)-positive and are treatable with endocrine therapies, but often patients develop lethal resistant disease. Frequent mutations (10–40%) in the ligand-binding domain (LBD) codons in the gene encoding ERα (ESR1) have been identified, resulting in ligand-independent, constitutively active receptors. In addition, ESR1chromosomal translocations can occur, resulting in fusion proteins that lack the LBD and are entirely unresponsive to all endocrine treatments. Thus, identifying coactivators that bind to these mutant ERα proteins may offer new therapeutic targets for endocrine-resistant cancer. To define coactivator candidate targets, a proteomics approach was performed profiling proteins recruited to the two most common ERα LBD mutants, Y537S and D538G, and an ESR1-YAP1 fusion protein. These mutants displayed enhanced coactivator interactions as compared to unliganded wild-type ERα. Inhibition of these coactivators decreased the ability of ESR1mutants to activate transcription and promote breast cancer growth in vitro and in vivo. Thus, we have identified specific coactivators that may be useful as targets for endocrine-resistant breast cancers.

Published

2018

8. Unexplored therapeutic opportunities in the human genome

Author

Oprea, Tudor I., Bologa, Cristian G., Brunak, Søren, Campbell, Allen, Gan, Gregory N., Gaulton, Anna, Gomez, Shawn M., Guha, Rajarshi, Hersey, Anne, Holmes, Jayme, Jadhav, Ajit, Jensen, Lars Juhl, Johnson, Gary L., Karlson, Anneli, Leach, Andrew R., Ma'ayan, Avi, Malovannaya, Anna, Mani, Subramani, Mathias, Stephen L., McManus, Michael T., Meehan, Terrence F., von Mering, Christian, Muthas, Daniel, Nguyen, Dac-Trung, Overington, John P., Papadatos, George, Qin, Jun, Reich, Christian, Roth, Bryan L., Schürer, Stephan C., Simeonov, Anton, Sklar, Larry A., Southall, Noel, Tomita, Susumu, Tudose, Ilinca, Ursu, Oleg, Vidovic´, Dušica, Waller, Anna, Westergaard, David, Yang, Jeremy J., and Zahoránszky-Köhalmi, Gergely

Abstract

A large proportion of biomedical research and the development of therapeutics is focused on a small fraction of the human genome. In a strategic effort to map the knowledge gaps around proteins encoded by the human genome and to promote the exploration of currently understudied, but potentially druggable, proteins, the US National Institutes of Health launched the Illuminating the Druggable Genome (IDG) initiative in 2014. In this article, we discuss how the systematic collection and processing of a wide array of genomic, proteomic, chemical and disease-related resource data by the IDG Knowledge Management Center have enabled the development of evidence-based criteria for tracking the target development level (TDL) of human proteins, which indicates a substantial knowledge deficit for approximately one out of three proteins in the human proteome. We then present spotlights on the TDL categories as well as key drug target classes, including G protein-coupled receptors, protein kinases and ion channels, which illustrate the nature of the unexplored opportunities for biomedical research and therapeutic development.

Published

2018

9. BATF2 Promotes HSC Myeloid Differentiation Via Amplification of the Pro-Inflammatory Response during Chronic Infection

Author

Le, Duy, Florez, Marcus A., Kus, Pawel, Tran, Brandon, Kain, Bailee N., Jain, Antrix, Malovannaya, Anna, and King, Katherine Y.

Published

2022

10. BATF2 Promotes HSC Myeloid Differentiation Via Amplification of the Pro-Inflammatory Response during Chronic Infection

Author

Le, Duy, Florez, Marcus A., Kus, Pawel, Tran, Brandon, Kain, Bailee N., Jain, Antrix, Malovannaya, Anna, and King, Katherine Y.

Published

2022

11. An Anatomically Resolved Mouse Brain Proteome Reveals Parkinson Disease-relevant Pathways*

Author

Jung, Sung Yun, Choi, Jong Min, Rousseaux, Maxime W.C., Malovannaya, Anna, Kim, Jean J., Kutzera, Joachim, Wang, Yi, Huang, Yin, Zhu, Weimin, Maity, Suman, Zoghbi, Huda Yahya, and Qin, Jun

Abstract

Here, we present a mouse brain protein atlas that covers 17 surgically distinct neuroanatomical regions of the adult mouse brain, each less than 1 mm3in size. The protein expression levels are determined for 6,500 to 7,500 gene protein products from each region and over 12,000 gene protein products for the entire brain, documenting the physiological repertoire of mouse brain proteins in an anatomically resolved and comprehensive manner. We explored the utility of our spatially defined protein profiling methods in a mouse model of Parkinson's disease. We compared the proteome from a vulnerable region (substantia nigra pars compacta) of wild type and parkinsonian mice with that of an adjacent, less vulnerable, region (ventral tegmental area) and identified several proteins that exhibited both spatiotemporal- and genotype-restricted changes. We validated the most robustly altered proteins using an alternative profiling method and found that these modifications may highlight potential new pathways for future studies. This proteomic atlas is a valuable resource that offers a practical framework for investigating the molecular intricacies of normal brain function as well as regional vulnerability in neurological diseases. All of the mouse regional proteome profiling data are published on line at http://mbpa.bprc.ac.cn/.

Published

2017

12. Magel2 truncation alters select behavioral and physiological outcomes in a rat model of Schaaf-Yang syndrome

Author

Reznik, Derek L., Yang, Mingxiao V., Albelda de la Haza, Pedro, Jain, Antrix, Spanjaard, Melanie, Theiss, Susanne, Schaaf, Christian P., Malovannaya, Anna, Strong, Theresa V., Veeraragavan, Surabi, and Samaco, Rodney C.

Abstract

Previous studies in mice have utilized Magel2 gene deletion models to examine the consequences of its absence. We report the generation, molecular validation and phenotypic characterization of a novel rat model with a truncating Magel2 mutation modeling variants associated with Schaaf-Yang syndrome-causing mutations. Within the hypothalamus, a brain region in which human MAGEL2 is paternally expressed, we demonstrated, at the level of transcript and peptide detection, that rat Magel2 exhibits a paternal, parent-of-origin effect. In evaluations of behavioral features across several domains, juvenile Magel2 mutant rats displayed alterations in anxiety-like behavior and sociability measures. Moreover, the analysis of peripheral organ systems detected alterations in body composition, cardiac structure and function, and breathing irregularities in Magel2 mutant rats. Several of these findings are concordant with reported mouse phenotypes, indicating the conservation of MAGEL2 function across rodent species. Our comprehensive analysis revealing impairments across multiple domains demonstrates the tractability of this model system for the study of truncating MAGEL2 mutations.

Published

2023

13. The Dual Estrogen Receptor αInhibitory Effects of the Tissue-Selective Estrogen Complex for Endometrial and Breast Safety

Author

Han, Sang Jun, Begum, Khurshida, Foulds, Charles E., Hamilton, Ross A., Bailey, Suzanna, Malovannaya, Anna, Chan, Doug, Qin, Jun, and O’Malley, Bert W.

Abstract

The conjugated estrogen/bazedoxifene tissue-selective estrogen complex (TSEC) is designed to minimize the undesirable effects of estrogen in the uterus and breast tissues and to allow the beneficial effects of estrogen in other estrogen-target tissues, such as the bone and brain. However, the molecular mechanism underlying endometrial and breast safety during TSEC use is not fully understood. Estrogen receptor α(ERα)–estrogen response element (ERE)–DNA pull-down assays using HeLa nuclear extracts followed by mass spectrometry–immunoblotting analyses revealed that, upon TSEC treatment, ERαinteracted with transcriptional repressors rather than coactivators. Therefore, the TSEC-mediated recruitment of transcriptional repressors suppresses ERα-mediated transcription in the breast and uterus. In addition, TSEC treatment also degraded ERαprotein in uterine tissue and breast cancer cells, but not in bone cells. Interestingly, ERα-ERE-DNA pull-down assays also revealed that, upon TSEC treatment, ERαinteracted with the F-box protein 45 (FBXO45) E3 ubiquitin ligase. The loss-of- and gain-of-FBXO45 function analyses indicated that FBXO45 is involved in TSEC-mediated degradation of the ERαprotein in endometrial and breast cells. In preclinical studies, these synergistic effects of TSEC on ERαinhibition also suppressed the estrogen-dependent progression of endometriosis. Therefore, the endometrial and breast safety effects of TSEC are associated with synergy between the selective recruitment of transcriptional repressors to ERαand FBXO45-mediated degradation of the ERαprotein.

Published

2015

14. A Fast Workflow for Identification and Quantification of Proteomes*

Author

Ding, Chen, Jiang, Jing, Wei, Junying, Liu, Wanlin, Zhang, Wei, Liu, Mingwei, Fu, Tianyi, Lu, Tianyuan, Song, Lei, Ying, Wantao, Chang, Cheng, Zhang, Yangjun, Ma, Jie, Wei, Lai, Malovannaya, Anna, Jia, Lijun, Zhen, Bei, Wang, Yi, He, Fuchu, Qian, Xiaohong, and Qin, Jun

Abstract

The current in-depth proteomics makes use of long chromatography gradient to get access to more peptides for protein identification, resulting in covering of as many as 8000 mammalian gene products in 3 days of mass spectrometer running time. Here we report a fast sequencing (Fast-seq) workflow of the use of dual reverse phase high performance liquid chromatography - mass spectrometry (HPLC-MS) with a short gradient to achieve the same proteome coverage in 0.5 day. We adapted this workflow to a quantitative version (Fast quantification, Fast-quan) that was compatible to large-scale protein quantification. We subjected two identical samples to the Fast-quan workflow, which allowed us to systematically evaluate different parameters that impact the sensitivity and accuracy of the workflow. Using the statistics of significant test, we unraveled the existence of substantial falsely quantified differential proteins and estimated correlation of false quantification rate and parameters that are applied in label-free quantification. We optimized the setting of parameters that may substantially minimize the rate of falsely quantified differential proteins, and further applied them on a real biological process. With improved efficiency and throughput, we expect that the Fast-seq/Fast-quan workflow, allowing pair wise comparison of two proteomes in 1 day may make MS available to the masses and impact biomedical research in a positive way.

Published

2013

15. In-depth Proteomic Characterization of Endogenous Nuclear Receptors in Mouse Liver*

Author

Liu, Qiongming, Ding, Chen, Liu, Wanlin, Song, Lei, Liu, Mingwei, Qi, Liang, Fu, Tianyi, Malovannaya, Anna, Wang, Yi, Qin, Jun, and Zhen, Bei

Abstract

Nuclear receptors (NRs) are a superfamily of transcription factors that, upon binding to ligands, bind specific DNA sequences and regulate a transcriptional program governing cell proliferation, differentiation, and metabolism. In the liver, by sensing lipid-soluble hormones and dietary lipids and governing the expression of key liver metabolic genes, NR proteins direct a large array of key hepatic functions that include lipid and glucose metabolism, bile secretion, and bile acid homeostasis. Although much has been learned about the physiology of NRs, little is known about their protein expression and DNA binding activity in the liver because of their low abundance and the lack of high-throughput methods for detection at the protein level. Here we report a method for profiling the DNA binding activity of the NR transcription factor superfamily in mouse liver. We use DNA constructs of hormone response elements (HREs) as affinity reagents to enrich NR proteins from nuclear extracts of mouse liver and then identify them using mass spectrometry. We evaluated 20 DNA constructs containing various combinations of HREs for their ability to enrich endogenous NR proteins and found that two different HREs are sufficient to achieve isolation and identification of nearly all endogenous NR proteins from one mouse liver. We have detected proteins for 35 members of the NR family out of 41 that are expressed in mouse liver at mRNA level. Thus, this method allows coverage of most of the whole NR proteome and establishes a practical assay for the investigation of NR actions in mouse liver. We anticipate that this method will find widespread use in future investigations of NR actions in liver biology and pathology. Furthermore, this workflow is a useful tool for NR biologists interested in measuring NR expression, DNA binding, post-translational modifications, cellular localization, and other functional aspects of NRs in organs under normal physiological and pathological conditions, as well as during pharmacological intervention.

Published

2013

16. Multiplexed drug-based selection and counterselection genetic manipulations in Drosophila

Author

Matinyan, Nick, Karkhanis, Mansi S., Gonzalez, Yezabel, Jain, Antrix, Saltzman, Alexander, Malovannaya, Anna, Sarrion-Perdigones, Alejandro, Dierick, Herman A., and Venken, Koen J.T.

Abstract

The power of Drosophila melanogasteras a model system relies on tractable germline genetic manipulations. Despite Drosophila’s expansive genetics toolbox, such manipulations are still accomplished one change at a time and depend predominantly on phenotypic screening. We describe a drug-based genetic platform consisting of four selection and two counterselection markers, eliminating the need to screen for modified progeny. These markers work reliably individually or in combination to produce specific genetic outcomes. We demonstrate three example applications of multiplexed drug-based genetics by generating (1) transgenic animals, expressing both components of binary overexpression systems in a single transgenesis step; (2) dual selectable and counterselectable balancer chromosomes; and (3) selectable, fluorescently tagged P[acman]bacterial artificial chromosome (BAC) strains. We perform immunoprecipitation followed by proteomic analysis on one tagged BAC line, demonstrating our platform’s applicability to biological discovery. Lastly, we provide a plasmid library resource to facilitate custom transgene design and technology transfer to other model systems.

Published

2021

17. Unexplored therapeutic opportunities in the human genome

Author

Oprea, Tudor I., Bologa, Cristian G., Brunak, Søren, Campbell, Allen, Gan, Gregory N., Gaulton, Anna, Gomez, Shawn M., Guha, Rajarshi, Hersey, Anne, Holmes, Jayme, Jadhav, Ajit, Jensen, Lars Juhl, Johnson, Gary L., Karlson, Anneli, Leach, Andrew R., Ma'ayan, Avi, Malovannaya, Anna, Mani, Subramani, Mathias, Steven L., McManus, Michael T., Meehan, Terrence F., von Mering, Christian, Muthas, Daniel, Nguyen, Dac-Trung, Overington, John P., Papadatos, George, Qin, Jun, Reich, Christian, Roth, Bryan L., Schürer, Stephan C., Simeonov, Anton, Sklar, Larry A., Southall, Noel, Tomita, Susumu, Tudose, Ilinca, Ursu, Oleg, Vidovic´, Dušica, Waller, Anna, Westergaard, David, Yang, Jeremy J., and Zahoránszky-Köhalmi, Gergely

Abstract

This corrects the article DOI: 10.1038/nrd.2018.14

Published

2018

18. A Data Set of Human Endogenous Protein Ubiquitination Sites

Author

Shi, Yi, Chan, Doug W., Jung, Sung Yun, Malovannaya, Anna, Wang, Yi, and Qin, Jun

Abstract

Lysine ubiquitination is an important and versatile protein post-translational modification. Numerous cellular functions are regulated by ubiquitination, suggesting that extensive numbers of proteins, if not all, are modified with ubiquitin at certain times. However, proteome-wide profiling of ubiquitination sites in the mammalian system is technically challenging. We report the design and characterization of an engineered protein affinity reagent for the isolation of ubiquitinated proteins and the identification of ubiquitination sites with mass spectrometry. This recombinant protein consists of four tandem repeats of ubiquitin-associated domain from UBQLN1 fused to a GST tag. We used this GST-qUBA reagent to isolate polyubiquitinated proteins and identified 294 endogenous ubiquitination sites on 223 proteins from human 293T cells without proteasome inhibitors or overexpression of ubiquitin. Mitochondrial proteins constitute 14.7% of this data set, implicating ubiquitination in a wide range of mitochondrial functions.

Published

2011

19. A Data Set of Human Endogenous Protein Ubiquitination Sites*

Author

Shi, Yi, Chan, Doug W., Jung, Sung Yun, Malovannaya, Anna, Wang, Yi, and Qin, Jun

Abstract

Lysine ubiquitination is an important and versatile protein post-translational modification. Numerous cellular functions are regulated by ubiquitination, suggesting that extensive numbers of proteins, if not all, are modified with ubiquitin at certain times. However, proteome-wide profiling of ubiquitination sites in the mammalian system is technically challenging. We report the design and characterization of an engineered protein affinity reagent for the isolation of ubiquitinated proteins and the identification of ubiquitination sites with mass spectrometry. This recombinant protein consists of four tandem repeats of ubiquitin-associated domain from UBQLN1 fused to a GST tag. We used this GST-qUBA reagent to isolate polyubiquitinated proteins and identified 294 endogenous ubiquitination sites on 223 proteins from human 293T cells without proteasome inhibitors or overexpression of ubiquitin. Mitochondrial proteins constitute 14.7% of this data set, implicating ubiquitination in a wide range of mitochondrial functions.

Published

2011