Your search keyword '"Young Ah Goo"' showing total 157 results

1. Enhanced Staphylococcus aureus protection by uncoupling of the α-toxin-ADAM10 interaction during murine neonatal vaccination

Author

Kelly L. Tomaszewski, Meagan Blanchard, Reuben Olaniyi, Hannah R. Brenton, Samantha Hayes, Farheen Fatma, Gaya K. Amarasinghe, Byoung-Kyu Cho, Young Ah Goo, Andrea C. DeDent, Stephanie A. Fritz, and Juliane Bubeck Wardenburg

Subjects

Science

Abstract

Abstract Staphylococcus aureus remains a leading global cause of bacterial infection-associated mortality and has eluded prior vaccine development efforts. S. aureus α-toxin (Hla) is an essential virulence factor in disease, impairing the T cell response to infection. The anti-Hla antibody response is a correlate of human protective immunity. Here we observe that this response is limited early in human life and design a vaccine strategy to elicit immune protection against Hla in a neonatal mice. By targeted disruption of the interaction of Hla with its receptor ADAM10, we identify a vaccine antigen (Hla H35L/R66C/E70C, HlaHRE) that elicits an ~100-fold increase in the neutralizing anti-Hla response. Immunization with HlaHRE enhances the T follicular helper (TFH) cell response to S. aureus infection, correlating with the magnitude of the neutralizing anti-toxin response and disease protection. Furthermore, maternal HlaHRE immunization confers protection to offspring. Together, these findings illuminate a path for S. aureus vaccine development at the maternal-infant interface.

Published

2024

2. Microglial REV-ERBα regulates inflammation and lipid droplet formation to drive tauopathy in male mice

Author

Jiyeon Lee, Julie M. Dimitry, Jong Hee Song, Minsoo Son, Patrick W. Sheehan, Melvin W. King, G. Travis Tabor, Young Ah Goo, Mitchell A. Lazar, Leonard Petrucelli, and Erik S. Musiek

Subjects

Science

Abstract

Abstract Alzheimer’s disease, the most common age-related neurodegenerative disease, is characterized by tau aggregation and associated with disrupted circadian rhythms and dampened clock gene expression. REV-ERBα is a core circadian clock protein which also serves as a nuclear receptor and transcriptional repressor involved in lipid metabolism and macrophage function. Global REV-ERBα deletion has been shown to promote microglial activation and mitigate amyloid plaque formation. However, the cell-autonomous effects of microglial REV-ERBα in healthy brain and in tauopathy are unexplored. Here, we show that microglial REV-ERBα deletion enhances inflammatory signaling, disrupts lipid metabolism, and causes lipid droplet (LD) accumulation specifically in male microglia. These events impair microglial tau phagocytosis, which can be partially rescued by blockage of LD formation. In vivo, microglial REV-ERBα deletion exacerbates tau aggregation and neuroinflammation in two mouse tauopathy models, specifically in male mice. These data demonstrate the importance of microglial lipid droplets in tau accumulation and reveal REV-ERBα as a therapeutically accessible, sex-dependent regulator of microglial inflammatory signaling, lipid metabolism, and tauopathy.

Published

2023

3. Oxytocin-induced birth causes sex-specific behavioral and brain connectivity changes in developing rat offspring

Author

Tusar Giri, Susan E. Maloney, Saswat Giri, Young Ah Goo, Jong Hee Song, Minsoo Son, Eric Tycksen, Sara B. Conyers, Annie Bice, Xia Ge, Joel R. Garbow, James D. Quirk, Adam Q. Bauer, and Arvind Palanisamy

Subjects

Endocrinology, Neuroscience, Behavioral neuroscience, Science

Abstract

Summary: Despite six decades of the use of exogenous oxytocin for management of labor, little is known about its effects on the developing brain. Motivated by controversial reports suggesting a link between oxytocin use during labor and autism spectrum disorders (ASDs), we employed our recently validated rat model for labor induction with oxytocin to address this important concern. Using a combination of molecular biological, behavioral, and neuroimaging assays, we show that induced birth with oxytocin leads to sex-specific disruption of oxytocinergic signaling in the developing brain, decreased communicative ability of pups, reduced empathy-like behaviors especially in male offspring, and widespread sex-dependent changes in functional cortical connectivity. Contrary to our hypothesis, social behavior, typically impaired in ASDs, was largely preserved. Collectively, our foundational studies provide nuanced insights into the neurodevelopmental impact of birth induction with oxytocin and set the stage for mechanistic investigations in animal models and prospective longitudinal clinical studies.

Published

2024

4. Calpain activity is negatively regulated by a KCTD7–Cullin-3 complex via non-degradative ubiquitination

Author

Jaiprakash Sharma, Shalaka Mulherkar, Uan-I Chen, Yan Xiong, Lakshya Bajaj, Byoung-Kyu Cho, Young Ah Goo, Hon-Chiu Eastwood Leung, Kimberley F. Tolias, and Marco Sardiello

Subjects

Cytology, QH573-671

Abstract

Abstract Calpains are a class of non-lysosomal cysteine proteases that exert their regulatory functions via limited proteolysis of their substrates. Similar to the lysosomal and proteasomal systems, calpain dysregulation is implicated in the pathogenesis of neurodegenerative disease and cancer. Despite intensive efforts placed on the identification of mechanisms that regulate calpains, however, calpain protein modifications that regulate calpain activity are incompletely understood. Here we show that calpains are regulated by KCTD7, a cytosolic protein of previously uncharacterized function whose pathogenic mutations result in epilepsy, progressive ataxia, and severe neurocognitive deterioration. We show that KCTD7 works in complex with Cullin-3 and Rbx1 to execute atypical, non-degradative ubiquitination of calpains at specific sites (K398 of calpain 1, and K280 and K674 of calpain 2). Experiments based on single-lysine mutants of ubiquitin determined that KCTD7 mediates ubiquitination of calpain 1 via K6-, K27-, K29-, and K63-linked chains, whereas it uses K6-mediated ubiquitination to modify calpain 2. Loss of KCTD7-mediated ubiquitination of calpains led to calpain hyperactivation, aberrant cleavage of downstream targets, and caspase-3 activation. CRISPR/Cas9-mediated knockout of Kctd7 in mice phenotypically recapitulated human KCTD7 deficiency and resulted in calpain hyperactivation, behavioral impairments, and neurodegeneration. These phenotypes were largely prevented by pharmacological inhibition of calpains, thus demonstrating a major role of calpain dysregulation in KCTD7-associated disease. Finally, we determined that Cullin-3–KCTD7 mediates ubiquitination of all ubiquitous calpains. These results unveil a novel mechanism and potential target to restrain calpain activity in human disease and shed light on the molecular pathogenesis of KCTD7-associated disease.

Published

2023

5. Author Correction: Microglial REV-ERBα regulates inflammation and lipid droplet formation to drive tauopathy in male mice

Author

Jiyeon Lee, Julie M. Dimitry, Jong Hee Song, Minsoo Son, Patrick W. Sheehan, Melvin W. King, G. Travis Tabor, Young Ah Goo, Mitchell A. Lazar, Leonard Petrucelli, and Erik S. Musiek

Subjects

Science

Published

2023

6. ASXL3 bridges BRD4 to BAP1 complex and governs enhancer activity in small cell lung cancer

Author

Aileen Patricia Szczepanski, Zibo Zhao, Tori Sosnowski, Young Ah Goo, Elizabeth Thomas Bartom, and Lu Wang

Subjects

ASXL3, BAP1 complex, BRD4, SCLC, Enhancer activity, BET inhibitors, Medicine, Genetics, QH426-470

Abstract

Abstract Background Small cell lung cancer (SCLC) is a more aggressive subtype of lung cancer that often results in rapid tumor growth, early metastasis, and acquired therapeutic resistance. Consequently, such phenotypical characteristics of SCLC set limitations on viable procedural options, making it difficult to develop both screenings and effective treatments. In this study, we examine a novel mechanistic insight in SCLC cells that could potentially provide a more sensitive therapeutic alternative for SCLC patients. Methods Biochemistry studies, including size exclusion chromatography, mass spectrometry, and western blot analysis, were conducted to determine the protein-protein interaction between additional sex combs-like protein 3 (ASXL3) and bromodomain-containing protein 4 (BRD4). Genomic studies, including chromatin immunoprecipitation sequencing (ChIP-seq), RNA sequencing, and genome-wide analysis, were performed in both human and mouse SCLC cells to determine the dynamic relationship between BRD4/ASXL3/BAP1 epigenetic axis in chromatin binding and its effects on transcriptional activity. Results We report a critical link between BAP1 complex and BRD4, which is bridged by the physical interaction between ASXL3 and BRD4 in an SCLC subtype (SCLC-A), which expresses a high level of ASCL1. We further showed that ASXL3 functions as an adaptor protein, which directly interacts with BRD4’s extra-terminal (ET) domain via a novel BRD4 binding motif (BBM), and maintains chromatin occupancy of BRD4 to active enhancers. Genetic depletion of ASXL3 results in a genome-wide reduction of histone H3K27Ac levels and BRD4-dependent gene expression in SCLC. Pharmacologically induced inhibition with BET-specific chemical degrader (dBET6) selectively inhibits cell proliferation of a subtype of SCLC that is characterized with high expression of ASXL3. Conclusions Collectively, this study provides a mechanistic insight into the oncogenic function of BRD4/ASXL3/BAP1 epigenetic axis at active chromatin enhancers in SCLC-A subtype, as well as a potential new therapeutic option that could become more effective in treating SCLC patients with a biomarker of ASXL3-highly expressed SCLC cells.

Published

2020

7. Comprehensive Analysis of Aspergillus nidulans PKA Phosphorylome Identifies a Novel Mode of CreA Regulation

Author

Liliane F. C. Ribeiro, Cynthia Chelius, Karthik R. Boppidi, Nisha S. Naik, Simin Hossain, Jessica J. J. Ramsey, Jyothi Kumar, Lucas F. Ribeiro, Marc Ostermeier, Bao Tran, Young Ah Goo, Leandro J. de Assis, Mevlut Ulas, Ozgur Bayram, Gustavo H. Goldman, Stephen Lincoln, Ranjan Srivastava, Steven D. Harris, and Mark R. Marten

Subjects

CreA, phosphoproteomic, phosphosite, signal transduction, transcriptomic, Microbiology, QR1-502

Abstract

ABSTRACT In filamentous fungi, an important kinase responsible for adaptation to changes in available nutrients is cyclic AMP (cAMP)-dependent protein kinase (protein kinase A [PKA]). This kinase has been well characterized at a molecular level, but its systemic action and direct/indirect targets are generally not well understood in filamentous fungi. In this work, we used a pkaA deletion strain (ΔpkaA) to identify Aspergillus nidulans proteins for which phosphorylation is dependent (either directly or indirectly) on PKA. A combination of phosphoproteomic and transcriptomic analyses revealed both direct and indirect targets of PKA and provided a global perspective on its function. One of these targets was the transcription factor CreA, the main repressor responsible for carbon catabolite repression (CCR). In the ΔpkaA strain, we identified a previously unreported phosphosite in CreA, S319, which (based on motif analysis) appears to be a direct target of Stk22 kinase (AN5728). Upon replacement of CreA S319 with an alanine (i.e., phosphonull mutant), the dynamics of CreA import to the nucleus are affected. Collectively, this work provides a global overview of PKA function while also providing novel insight regarding significance of a specific PKA-mediated phosphorylation event. IMPORTANCE The cyclic AMP (cAMP)-dependent protein kinase A (PKA) signaling pathway is well conserved across eukaryotes, and previous work has shown that it plays an important role in regulating development, growth, and virulence in a number of fungi. PKA is activated in response to extracellular nutrients and acts to regulate metabolism and growth. While a number of components in the PKA pathway have been defined in filamentous fungi, current understanding does not provide a global perspective on PKA function. Thus, this work is significant in that it comprehensively identifies proteins and functional pathways regulated by PKA in a model filamentous fungus. This information enhances our understanding of PKA action and may provide information on how to manipulate it for specific purposes.

Published

2019

8. Glycosylation characterization of therapeutic mAbs by top- and middle-down mass spectrometry

Author

Bao Quoc Tran, Christopher Barton, Jinhua Feng, Aimee Sandjong, Sung Hwan Yoon, Shivangi Awasthi, Tao Liang, Mohd M. Khan, David P.A. Kilgour, David R. Goodlett, and Young Ah Goo

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

A reference monoclonal antibody IgG1 and a fusion IgG protein were analyzed by top- and middle-down mass spectrometry with multiple fragmentation techniques including electron transfer dissociation (ETD) and matrix-assisted laser desorption ionization in-source decay (MALDI-ISD) to investigate heterogeneity of glycosylated protein species. Specifically, glycan structure, sites, relative abundance levels, and termini structural conformation were investigated by use of Fourier transform ion cyclotron resonance (FT-ICR) or high performance liquid chromatography electrospray ionization (HPLC-ESI) linked to an Orbitrap. Incorporating a limited enzymatic digestion by immunoglobulin G-degrading enzyme Streptococcus pyogenes (IdeS) with MALDI-ISD analysis extended sequence coverage of the internal region of the proteins without pre-fractionation. The data in this article is associated with the research article published in Journal of Proteomics (Tran et al., 2015) [1].

Published

2016

9. A broadly distributed toxin family mediates contact-dependent antagonism between gram-positive bacteria

Author

John C Whitney, S Brook Peterson, Jungyun Kim, Manuel Pazos, Adrian J Verster, Matthew C Radey, Hemantha D Kulasekara, Mary Q Ching, Nathan P Bullen, Diane Bryant, Young Ah Goo, Michael G Surette, Elhanan Borenstein, Waldemar Vollmer, and Joseph D Mougous

Subjects

Firmicute, type VII secretion, polymorphic, Medicine, Science, Biology (General), QH301-705.5

Abstract

The Firmicutes are a phylum of bacteria that dominate numerous polymicrobial habitats of importance to human health and industry. Although these communities are often densely colonized, a broadly distributed contact-dependent mechanism of interbacterial antagonism utilized by Firmicutes has not been elucidated. Here we show that proteins belonging to the LXG polymorphic toxin family present in Streptococcus intermedius mediate cell contact- and Esx secretion pathway-dependent growth inhibition of diverse Firmicute species. The structure of one such toxin revealed a previously unobserved protein fold that we demonstrate directs the degradation of a uniquely bacterial molecule required for cell wall biosynthesis, lipid II. Consistent with our functional data linking LXG toxins to interbacterial interactions in S. intermedius, we show that LXG genes are prevalent in the human gut microbiome, a polymicrobial community dominated by Firmicutes. We speculate that interbacterial antagonism mediated by LXG toxins plays a critical role in shaping Firmicute-rich bacterial communities.

Published

2017

10. Global Analysis and Comparison of the Transcriptomes and Proteomes of Group A Streptococcus Biofilms

Author

Jeffrey A. Freiberg, Yoann Le Breton, Bao Q. Tran, Alison J. Scott, Janette M. Harro, Robert K. Ernst, Young Ah Goo, Emmanuel F. Mongodin, David R. Goodlett, Kevin S. McIver, and Mark E. Shirtliff

Subjects

LC-MS/MS, RNA-seq, shotgun proteomics, Streptococcus pyogenes, transcriptomics, Microbiology, QR1-502

Abstract

ABSTRACT To gain a better understanding of the genes and proteins involved in group A Streptococcus (GAS; Streptococcus pyogenes) biofilm growth, we analyzed the transcriptome, cellular proteome, and cell wall proteome from biofilms at different stages and compared them to those of plankton-stage GAS. Using high-throughput RNA sequencing (RNA-seq) and liquid chromatography-tandem mass spectrometry (LC-MS/MS) shotgun proteomics, we found distinct expression profiles in the transcriptome and proteome. A total of 46 genes and 41 proteins showed expression across the majority of biofilm time points that was consistently higher or consistently lower than that seen across the majority of planktonic time points. However, there was little overlap between the genes and proteins on these two lists. In line with other studies comparing transcriptomic and proteomic data, the overall correlation between the two data sets was modest. Furthermore, correlation was poorest for biofilm samples. This suggests a high degree of regulation of protein expression by nontranscriptional mechanisms. This report illustrates the benefits and weaknesses of two different approaches to global expression profiling, and it also demonstrates the advantage of using proteomics in conjunction with transcriptomics to gain a more complete picture of global expression within biofilms. In addition, this report provides the fullest characterization of expression patterns in GAS biofilms currently available. IMPORTANCE Prokaryotes are thought to regulate their proteomes largely at the level of transcription. However, the results from this first set of global transcriptomic and proteomic analyses of paired microbial samples presented here show that this assumption is false for the majority of genes and their products in S. pyogenes. In addition, the tenuousness of the link between transcription and translation becomes even more pronounced when microbes exist in a biofilm or a stationary planktonic state. Since the transcriptome level does not usually equal the proteome level, the validity attributed to gene expression studies as well as proteomic studies in microbial analyses must be brought into question. Therefore, the results attained by either approach, whether RNA-seq or shotgun proteomics, must be taken in context and evaluated with particular care since they are by no means interchangeable.

Published

2016

11. Urinary proteomics evaluation in interstitial cystitis/painful bladder syndrome: a pilot study

Author

Young Ah Goo, Yihsuan S. Tsai, Alvin Y. Liu, David R. Goodlett, and Claire C. Yang

Subjects

interstitial cystitis, painful bladder syndrome, urine proteomics, Diseases of the genitourinary system. Urology, RC870-923

Abstract

PURPOSE: Interstitial cystitis/painful bladder syndrome (IC/PBS) is characterized by chronic pain, pressure and discomfort felt in the pelvis or bladder. An in-depth shotgun proteomics study was carried out to profile the urinary proteome of women with IC/PBS to identify possible specific proteins and networks associated with IC/PBS. MATERIALS AND METHODS: Urine samples from ten female IC/PBS patients and ten female asymptomatic, healthy control subjects were analyzed in quadruplicate by liquid chromatography-tandem mass spectrometry (LC-MS/MS) on a hybrid linear ion trap-orbitrap mass spectrometer. Gas-phase fractionation (GPF) was used to enhance protein identification. Differences in protein quantity were determined by peptide spectral counting. RESULTS: a-1B-glycoprotein (A1BG) and orosomucoid-1 (ORM1) were detected in all IC/PBS patients, and = 60% of these patients had elevated expression of these two proteins compared to control subjects. Transthyretin (TTR) and hemopexin (HPX) were detected in all control individuals, but = 60% of the IC/PBS patients had decreased expression levels of these two proteins. Enrichment functional analysis showed cell adhesion and response to stimuli were down-regulated whereas response to inflammation, wounding, and tissue degradation were up-regulated in IC/PBS. Activation of neurophysiological processes in synaptic inhibition, and lack of DNA damage repair may also be key components of IC/PBS. CONCLUSION: There are qualitative and quantitative differences between the urinary proteomes of women with and without IC/PBS. We identified a number of proteins as well as pathways/networks that might contribute to the pathology of IC/PBS or result from perturbations induced by this condition.

Published

2010

12. Comparison of a Label-Free Quantitative Proteomic Method Based on Peptide Ion Current Area to the Isotope Coded Affinity Tag Method

Author

Young Ah Goo, Scott A. Shaffer, Byron Gallis, Soyoung Ryu, Dragan Radulovic, and David R. Goodlett

Subjects

label-free quantification, peptide ion current area (PICA), isotope coded affinity tag (ICAT), spectral count, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Recently, several research groups have published methods for the determination of proteomic expression profiling by mass spectrometry without the use of exogenously added stable isotopes or stable isotope dilution theory. These so-called label-free, methods have the advantage of allowing data on each sample to be acquired independently from all other samples to which they can later be compared in silico for the purpose of measuring changes in protein expression between various biological states. We developed label free software based on direct measurement of peptide ion current area (PICA) and compared it to two other methods, a simpler label free method known as spectral counting and the isotope coded affinity tag (ICAT) method. Data analysis by these methods of a standard mixture containing proteins of known, but varying, concentrations showed that they performed similarly with a mean squared error of 0.09. Additionally, complex bacterial protein mixtures spiked with known concentrations of standard proteins were analyzed using the PICA label-free method. These results indicated that the PICA method detected all levels of standard spiked proteins at the 90% confidence level in this complex biological sample. This finding confirms that label-free methods, based on direct measurement of the area under a single ion current trace, performed as well as the standard ICAT method. Given the fact that the label-free methods provide ease in experimental design well beyond pair-wise comparison, label-free methods such as our PICA method are well suited for proteomic expression profiling of large numbers of samples as is needed in clinical analysis.

Published

2008

13. Kin cell lysis is a danger signal that activates antibacterial pathways of Pseudomonas aeruginosa

Author

Michele LeRoux, Robin L Kirkpatrick, Elena I Montauti, Bao Q Tran, S Brook Peterson, Brittany N Harding, John C Whitney, Alistair B Russell, Beth Traxler, Young Ah Goo, David R Goodlett, Paul A Wiggins, and Joseph D Mougous

Subjects

interbacterial, DAMP, mass spectrometry, intercellular signaling, fluorescence microscopy, Medicine, Science, Biology (General), QH301-705.5

Abstract

The perception and response to cellular death is an important aspect of multicellular eukaryotic life. For example, damage-associated molecular patterns activate an inflammatory cascade that leads to removal of cellular debris and promotion of healing. We demonstrate that lysis of Pseudomonas aeruginosa cells triggers a program in the remaining population that confers fitness in interspecies co-culture. We find that this program, termed P. aeruginosa response to antagonism (PARA), involves rapid deployment of antibacterial factors and is mediated by the Gac/Rsm global regulatory pathway. Type VI secretion, and, unexpectedly, conjugative type IV secretion within competing bacteria, induce P. aeruginosa lysis and activate PARA, thus providing a mechanism for the enhanced capacity of P. aeruginosa to target bacteria that elaborate these factors. Our finding that bacteria sense damaged kin and respond via a widely distributed pathway to mount a complex response raises the possibility that danger sensing is an evolutionarily conserved process.

Published

2015

14. Comparison of a Label-Free Quantitative Proteomic Method Based on Peptide Ion Current Area to the Isotope Coded Affinity Tag Method

Author

Soyoung Ryu, Byron Gallis, Young Ah Goo, Scott A. Shaffer, Dragan Radulovic, and David R. Goodlett Ph.D.

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Recently, several research groups have published methods for the determination of proteomic expression profiling by mass spectrometry without the use of exogenously added stable isotopes or stable isotope dilution theory. These so-called label-free, methods have the advantage of allowing data on each sample to be acquired independently from all other samples to which they can later be compared in silico for the purpose of measuring changes in protein expression between various biological states. We developed label free software based on direct measurement of peptide ion current area (PICA) and compared it to two other methods, a simpler label free method known as spectral counting and the isotope coded affinity tag (ICAT) method. Data analysis by these methods of a standard mixture containing proteins of known, but varying, concentrations showed that they performed similarly with a mean squared error of 0.09. Additionally, complex bacterial protein mixtures spiked with known concentrations of standard proteins were analyzed using the PICA label-free method. These results indicated that the PICA method detected all levels of standard spiked proteins at the 90% confidence level in this complex biological sample. This finding confirms that label-free methods, based on direct measurement of the area under a single ion current trace, performed as well as the standard ICAT method. Given the fact that the label-free methods provide ease in experimental design well beyond pair-wise comparison, label-free methods such as our PICA method are well suited for proteomic expression profiling of large numbers of samples as is needed in clinical analysis.

Published

2008

15. Revving an Engine of Human Metabolism: Activity Enhancement of Triosephosphate Isomerase via Hemi-Phosphorylation

Author

Luis F. Schachner, Benjamin Des Soye, Soo Ro, Grace E. Kenney, Ashley N. Ives, Taojunfeng Su, Young Ah Goo, Michael C. Jewett, Amy C. Rosenzweig, and Neil L. Kelleher

Subjects

Kinetics, Catalytic Domain, Humans, Molecular Medicine, General Medicine, Phosphorylation, Molecular Dynamics Simulation, Biochemistry, Triose-Phosphate Isomerase

Abstract

Triosephosphate isomerase (TPI) performs the 5th step in glycolysis, operates near the limit of diffusion, and is involved in "moonlighting" functions. Its dimer was found singly phosphorylated at Ser20 (pSer20) in human cells, with this post-translational modification (PTM) showing context-dependent stoichiometry and loss under oxidative stress. We generated synthetic pSer20 proteoforms using cell-free protein synthesis that showed enhanced TPI activity by 4-fold relative to unmodified TPI. Molecular dynamics simulations show that the phosphorylation enables a channel to form that shuttles substrate into the active site. Refolding, kinetic, and crystallographic analyses of point mutants including S20E/G/Q indicate that hetero-dimerization and subunit asymmetry are key features of TPI. Moreover, characterization of an endogenous human TPI tetramer also implicates tetramerization in enzymatic regulation. S20 is highly conserved across eukaryotic TPI, yet most prokaryotes contain E/D at this site, suggesting that phosphorylation of human TPI evolved a new switch to optionally boost an already fast enzyme. Overall, complete characterization of TPI shows how endogenous proteoform discovery can prioritize functional versus bystander PTMs.

Published

2022

16. An rRNA fragment in extracellular vesicles secreted by human airway epithelial cells increases the fluoroquinolone sensitivity of P. aeruginosa

Author

Katja Koeppen, Thomas H. Hampton, Roxanna Barnaby, Carolyn Roche, Scott A. Gerber, Young Ah Goo, Byoung-Kyu Cho, Danielle M. Vermilyea, Deborah A. Hogan, and Bruce A. Stanton

Subjects

Pulmonary and Respiratory Medicine, Physiology, Physiology (medical), Cell Biology

Abstract

Lung infections caused by antibiotic resistant strains of Pseudomonas aeruginosa are difficult to eradicate in immunocompromised hosts such as those with cystic fibrosis. We previously demonstrated that extracellular vesicles (EVs) secreted by primary human airway epithelial cells (AEC) deliver miRNA let-7b-5p to P. aeruginosa to suppress biofilm formation and increase sensitivity to beta-lactam antibiotics. In this study, we show that EVs secreted by AEC transfer multiple distinct sRNA fragments to P. aeruginosa that are predicted to target the three subunits of the fluoroquinolone efflux pump MexHI-OpmD, thus increasing antibiotic sensitivity. Exposure of P. aeruginosa to EVs resulted in a significant reduction in the protein levels of MexH (-48%), MexI (-50%) and OpmD (-35%). Moreover, EVs reduced planktonic growth of P. aeruginosa in the presence of the fluoroquinolone antibiotic ciprofloxacin by 20%. A mexGHI-opmD deletion mutant of P. aeruginosa phenocopied this increased sensitivity to ciprofloxacin. Finally, we found that a fragment of an 18S rRNA external transcribed spacer that was transferred to P. aeruginosa by EVs reduced planktonic growth of P. aeruginosa in the presence of ciprofloxacin, reduced the minimum inhibitory concentration (MIC) of P. aeruginosa for ciprofloxacin by over 50%, and significantly reduced protein levels of both MexH and OpmD. In conclusion, an rRNA fragment secreted by AEC in EVs that targets the fluoroquinolone efflux pump MexHI-OpmD down-regulated these proteins and increased the ciprofloxacin sensitivity of P. aeruginosa. A combination of rRNA fragments and ciprofloxacin packaged in nanoparticles or EVs may benefit patients with antibiotic-resistant P. aeruginosa infections.

Published

2023

17. Supplementary Table 12 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

Protein List and Enrichment Analysis of KGG-MS

Published

2023

18. Supplementary Table 6 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

Motif Analysis of Skip Exon Events in T-ALL Compared to CD3 T Cells

Published

2023

19. Supplementary Table 2 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

KEGG Pathway Enrichment Analysis of Differential Expressed Genes Between Thymus and T-ALL

Published

2023

20. Supplementary Table 3 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

KEGG Pathway Enrichment Analysis of Differential Expressed Genes Between CD4 T-Cells and T-ALL

Published

2023

21. Data from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

Splicing alterations are common in diseases such as cancer, where mutations in splicing factor genes are frequently responsible for aberrant splicing. Here we present an alternative mechanism for splicing regulation in T-cell acute lymphoblastic leukemia (T-ALL) that involves posttranslational stabilization of the splicing machinery via deubiquitination. We demonstrate there are extensive exon skipping changes in disease, affecting proteasomal subunits, cell-cycle regulators, and the RNA machinery. We present that the serine/arginine-rich splicing factors (SRSF), controlling exon skipping, are critical for leukemia cell survival. The ubiquitin-specific peptidase 7 (USP7) regulates SRSF6 protein levels via active deubiquitination, and USP7 inhibition alters the exon skipping pattern and blocks T-ALL growth. The splicing inhibitor H3B-8800 affects splicing of proteasomal transcripts and proteasome activity and acts synergistically with proteasome inhibitors in inhibiting T-ALL growth. Our study provides the proof-of-principle for regulation of splicing factors via deubiquitination and suggests new therapeutic modalities in T-ALL.Significance:Our study provides a new proof-of-principle for posttranslational regulation of splicing factors independently of mutations in aggressive T-cell leukemia. It further suggests a new drug combination of splicing and proteasomal inhibitors, a concept that might apply to other diseases with or without mutations affecting the splicing machinery.This article is highlighted in the In This Issue feature, p. 1241

Published

2023

22. Supplementary Figures S1-15 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

Supplementary Figures S1-S15 and Legends

Published

2023

23. Supplementary Table 7 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

Alternative Spliced Genes Between HR and NHR T-ALL Patients and Enrichment Analysis

Published

2023

24. Supplementary Table 8 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

SRSF Family Proteins Essentiality in Tumor Cell Lines

Published

2023

25. Supplementary Table 9 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

CRISP Screens of RNA Binding Proteins in T-ALL

Published

2023

26. Supplementary Table 4 from Posttranslational Regulation of the Exon Skipping Machinery Controls Aberrant Splicing in Leukemia

Author

Panagiotis Ntziachristos, Giuseppe Basso, Benedetta Accordi, Francoise Pflumio, Rama K. Mishra, Keng Boon Wee, Aristotelis Tsirigos, Adriana Heguy, Ernesto Guccione, Young Ah Goo, Iannis Aifantis, Tom Taghon, Pieter Van Vlierberghe, Bruno Palhais, Ping Zhu, Marc L. Mendillo, Hiam Abdala-Valencia, Yuliya Politanska, Irawati Kandela, Hu Li, Cheng Zhang, Maddalena Paganin, Silvia Bresolin, Radhika Rawat, Emily J. Rendleman, David R. Amici, Yoh-Hei Takahashi, Qi Jin, Szymon K. Filip, George Yacu, Limin Sun, Anna Kuchmiy, Christian Marier, Tommaso Tabaglio, Alireza Khodadadi-Jamayran, Celestia Fang, Julien Calvo, Blanca T. Gutierrez Diaz, Byoung-Kyu Cho, Valentina Serafin, Adam H. Lorch, Eric Wang, Cuijuan Han, and Yalu Zhou

Abstract

KEGG Enrichment Analysis of Differential Expressed Genes Between Thymus and T-ALL

Published

2023

27. Data from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Metastases largely rely on hematogenous dissemination of tumor cells via the vascular system and significantly limit prognosis of patients with solid tumors. To colonize distant sites, circulating tumor cells must destabilize the endothelial barrier and transmigrate across the vessel wall. Here we performed a high-content screen to identify drugs that block tumor cell extravasation by testing 3,520 compounds on a transendothelial invasion coculture assay. Hits were further characterized and validated using a series of in vitro assays, a zebrafish model enabling three-dimensional (3D) visualization of tumor cell extravasation, and mouse models of lung metastasis. The initial screen advanced 38 compounds as potential hits, of which, four compounds enhanced endothelial barrier stability while concurrently suppressing tumor cell motility. Two compounds niclosamide and forskolin significantly reduced tumor cell extravasation in zebrafish, and niclosamide drastically impaired metastasis in mice. Because niclosamide had not previously been linked with effects on barrier function, single-cell RNA sequencing uncovered mechanistic effects of the drug on both tumor and endothelial cells. Importantly, niclosamide affected homotypic and heterotypic signaling critical to intercellular junctions, cell–matrix interactions, and cytoskeletal regulation. Proteomic analysis indicated that niclosamide-treated mice also showed reduced levels of kininogen, the precursor to the permeability mediator bradykinin. Our findings designate niclosamide as an effective drug that restricts tumor cell extravasation through modulation of signaling pathways, chemokines, and tumor–endothelial cell interactions.Significance:A high-content screen identified niclosamide as an effective drug that restricts tumor cell extravasation by enhancing endothelial barrier stability through modulation of molecular signaling, chemokines, and tumor–endothelial cell interactions.

Published

2023

28. Supplementary Figure 3 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Effects of positive hits on endothelial barrier, cytoskeletal organization and tumor cell motility

Published

2023

29. Supplementary Table 1 from USP7 Cooperates with NOTCH1 to Drive the Oncogenic Transcriptional Program in T-Cell Leukemia

Author

Panagiotis Ntziachristos, Ali Shilatifard, John D. Crispino, Suresh Kumar, Joseph Weinstock, Neil L. Kelleher, Giuseppe Basso, Benedetta Accordi, Maddalena Paganin, Silvia Bresolin, Valentina Serafin, Beat Bornhauser, Jean-Pierre Bourquin, Irawati Kandela, Christine Mantis, Beatrix Ueberheide, Stephen Kelly, Alexandros Strikoudis, Pieter Van Vlierberghe, Clayton K. Collings, Elizabeth T. Bartom, Radhika Rawat, Lu Wang, Yoh-hei Takahashi, Emily J. Rendleman, Stacy A. Marshall, Steven Goosens, Geert Berx, Niels Vandamme, Sofie Peirs, Nobuko Hijiya, Nebiyu A. Abshiru, Young Ah Goo, Paul M. Thomas, Ivan Sokirniy, Hui Wang, Charles Grove, Jian Wu, Feng Wang, Andrew G. Volk, Megan R. Johnson, Kenneth K. Wang, Blanca T. Gutierrez-Diaz, Yixing Zhu, Kelly M. Arcipowski, Carlos A. Martinez, and Qi Jin

Abstract

Supplementary Table 1

Published

2023

30. Supplementary Table 2 from USP7 Cooperates with NOTCH1 to Drive the Oncogenic Transcriptional Program in T-Cell Leukemia

Author

Panagiotis Ntziachristos, Ali Shilatifard, John D. Crispino, Suresh Kumar, Joseph Weinstock, Neil L. Kelleher, Giuseppe Basso, Benedetta Accordi, Maddalena Paganin, Silvia Bresolin, Valentina Serafin, Beat Bornhauser, Jean-Pierre Bourquin, Irawati Kandela, Christine Mantis, Beatrix Ueberheide, Stephen Kelly, Alexandros Strikoudis, Pieter Van Vlierberghe, Clayton K. Collings, Elizabeth T. Bartom, Radhika Rawat, Lu Wang, Yoh-hei Takahashi, Emily J. Rendleman, Stacy A. Marshall, Steven Goosens, Geert Berx, Niels Vandamme, Sofie Peirs, Nobuko Hijiya, Nebiyu A. Abshiru, Young Ah Goo, Paul M. Thomas, Ivan Sokirniy, Hui Wang, Charles Grove, Jian Wu, Feng Wang, Andrew G. Volk, Megan R. Johnson, Kenneth K. Wang, Blanca T. Gutierrez-Diaz, Yixing Zhu, Kelly M. Arcipowski, Carlos A. Martinez, and Qi Jin

Abstract

Supplementary Table 2

Published

2023

31. Supplementary Figure 4 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Effect of drug hits on cortical actin and tumor cell migration and invasion

Published

2023

32. Supplementary Figure 1 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Phenotypes of the human pancreatic cell Ines and effects on endothelium

Published

2023

33. Supplementary Methods from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Methods and Reagents

Published

2023

34. Figures S1-17 plus legends from USP7 Cooperates with NOTCH1 to Drive the Oncogenic Transcriptional Program in T-Cell Leukemia

Author

Panagiotis Ntziachristos, Ali Shilatifard, John D. Crispino, Suresh Kumar, Joseph Weinstock, Neil L. Kelleher, Giuseppe Basso, Benedetta Accordi, Maddalena Paganin, Silvia Bresolin, Valentina Serafin, Beat Bornhauser, Jean-Pierre Bourquin, Irawati Kandela, Christine Mantis, Beatrix Ueberheide, Stephen Kelly, Alexandros Strikoudis, Pieter Van Vlierberghe, Clayton K. Collings, Elizabeth T. Bartom, Radhika Rawat, Lu Wang, Yoh-hei Takahashi, Emily J. Rendleman, Stacy A. Marshall, Steven Goosens, Geert Berx, Niels Vandamme, Sofie Peirs, Nobuko Hijiya, Nebiyu A. Abshiru, Young Ah Goo, Paul M. Thomas, Ivan Sokirniy, Hui Wang, Charles Grove, Jian Wu, Feng Wang, Andrew G. Volk, Megan R. Johnson, Kenneth K. Wang, Blanca T. Gutierrez-Diaz, Yixing Zhu, Kelly M. Arcipowski, Carlos A. Martinez, and Qi Jin

Abstract

Supplementary Figs. 1-17 with legends

Published

2023

35. Supplementary Figure 7 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Determination of niclosamide stability and approach for counting lung metastatic nodules

Published

2023

36. Supplementary Figure 6 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Analysis of scRNAseq findings

Published

2023

37. Supplementary Figure 5 from A High-Content Screen Identifies Drugs That Restrict Tumor Cell Extravasation across the Endothelial Barrier

Author

M. Luisa Iruela-Arispe, Robert Damoiseaux, Jau-Nian Chen, Matteo Pellegrini, Young Ah Goo, Byoung-Kyu Cho, Dana Song, Snezana Mirkov, Adam D. Langenbacher, Feiyang Ma, Vanessa M. Freitas, Gloria Hernandez, Divya P. Prajapati, Jonathan Freshman, Ana Mompeón, and Georg Hilfenhaus

Abstract

Work flow to assess effects of drug hits in vivo

Published

2023

38. Data from USP7 Cooperates with NOTCH1 to Drive the Oncogenic Transcriptional Program in T-Cell Leukemia

Author

Panagiotis Ntziachristos, Ali Shilatifard, John D. Crispino, Suresh Kumar, Joseph Weinstock, Neil L. Kelleher, Giuseppe Basso, Benedetta Accordi, Maddalena Paganin, Silvia Bresolin, Valentina Serafin, Beat Bornhauser, Jean-Pierre Bourquin, Irawati Kandela, Christine Mantis, Beatrix Ueberheide, Stephen Kelly, Alexandros Strikoudis, Pieter Van Vlierberghe, Clayton K. Collings, Elizabeth T. Bartom, Radhika Rawat, Lu Wang, Yoh-hei Takahashi, Emily J. Rendleman, Stacy A. Marshall, Steven Goosens, Geert Berx, Niels Vandamme, Sofie Peirs, Nobuko Hijiya, Nebiyu A. Abshiru, Young Ah Goo, Paul M. Thomas, Ivan Sokirniy, Hui Wang, Charles Grove, Jian Wu, Feng Wang, Andrew G. Volk, Megan R. Johnson, Kenneth K. Wang, Blanca T. Gutierrez-Diaz, Yixing Zhu, Kelly M. Arcipowski, Carlos A. Martinez, and Qi Jin

Abstract

Purpose:T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive disease, affecting children and adults. Chemotherapy treatments show high response rates but have debilitating effects and carry risk of relapse. Previous work implicated NOTCH1 and other oncogenes. However, direct inhibition of these pathways affects healthy tissues and cancer alike. Our goal in this work has been to identify enzymes active in T-ALL whose activity could be targeted for therapeutic purposes.Experimental Design:To identify and characterize new NOTCH1 druggable partners in T-ALL, we coupled studies of the NOTCH1 interactome to expression analysis and a series of functional analyses in cell lines, patient samples, and xenograft models.Results:We demonstrate that ubiquitin-specific protease 7 (USP7) interacts with NOTCH1 and controls leukemia growth by stabilizing the levels of NOTCH1 and JMJD3 histone demethylase. USP7 is highly expressed in T-ALL and is transcriptionally regulated by NOTCH1. In turn, USP7 controls NOTCH1 levels through deubiquitination. USP7 binds oncogenic targets and controls gene expression through stabilization of NOTCH1 and JMJD3 and ultimately H3K27me3 changes. We also show that USP7 and NOTCH1 bind T-ALL superenhancers, and inhibition of USP7 leads to a decrease of the transcriptional levels of NOTCH1 targets and significantly blocks T-ALL cell growth in vitro and in vivo.Conclusions:These results provide a new model for USP7 deubiquitinase activity through recruitment to oncogenic chromatin loci and regulation of both oncogenic transcription factors and chromatin marks to promote leukemia. Our studies also show that targeting USP7 inhibition could be a therapeutic strategy in aggressive leukemia.

Published

2023

39. Data from PAX9 Determines Epigenetic State Transition and Cell Fate in Cancer

Author

Lu Wang, Feng Yue, Elizabeth T. Bartom, Benjamin D. Singer, Young Ah Goo, Hiam Abdala-Valencia, Natsumi Tsuboyama, Aileen P. Szczepanski, and Zibo Zhao

Abstract

Abnormalities in genetic and epigenetic modifications can lead to drastic changes in gene expression profiles that are associated with various cancer types. Small cell lung cancer (SCLC) is an aggressive and deadly form of lung cancer with limited effective therapies currently available. By utilizing a genome-wide CRISPR-Cas9 dropout screen in SCLC cells, we identified paired box protein 9 (PAX9) as an essential factor that is overexpressed in human malignant SCLC tumor samples and is transcriptionally driven by the BAP1/ASXL3/BRD4 epigenetic axis. Genome-wide studies revealed that PAX9 occupies distal enhancer elements and represses gene expression by restricting enhancer activity. In multiple SCLC cell lines, genetic depletion of PAX9 led to significant induction of a primed-active enhancer transition, resulting in increased expression of a large number of neural differentiation and tumor-suppressive genes. Mechanistically, PAX9 interacted and cofunctioned with the nucleosome remodeling and deacetylase (NuRD) complex at enhancers to repress nearby gene expression, which was reversed by pharmacologic HDAC inhibition. Overall, this study provides mechanistic insight into the oncogenic function of the PAX9/NuRD complex epigenetic axis in human SCLC and suggests that reactivation of primed enhancers may have potential therapeutic efficacy in treating SCLC expressing high levels of PAX9.Significance:A genome-wide screen in small cell lung cancer reveals PAX9/NuRD-mediated epigenetic enhancer silencing and tumor progression, supporting the development of novel personalized therapeutic approaches targeting the PAX9-regulated network.

Published

2023

40. Supplementary Data from PAX9 Determines Epigenetic State Transition and Cell Fate in Cancer

Author

Lu Wang, Feng Yue, Elizabeth T. Bartom, Benjamin D. Singer, Young Ah Goo, Hiam Abdala-Valencia, Natsumi Tsuboyama, Aileen P. Szczepanski, and Zibo Zhao

Abstract

Supplemental Materials & Methods

Published

2023

41. Zur and zinc increase expression of E. coli ribosomal protein L31 through RNA-mediated repression of the repressor L31p

Author

Rebecca A Rasmussen, Suning Wang, Jeannie M Camarillo, Victoria Sosnowski, Byoung-Kyu Cho, Young Ah Goo, Julius B Lucks, and Thomas V O’Halloran

Subjects

Genetics

Abstract

Bacteria can adapt in response to numerous stress conditions. One such stress condition is zinc depletion. The zinc-sensing transcription factor Zur regulates the way numerous bacterial species respond to severe changes in zinc availability. Under zinc sufficient conditions, Zn-loaded Zur (Zn2-Zur) is well-known to repress transcription of genes encoding zinc uptake transporters and paralogues of a few ribosomal proteins. Here, we report the discovery and mechanistic basis for the ability of Zur to up-regulate expression of the ribosomal protein L31 in response to zinc in E. coli. Through genetic mutations and reporter gene assays, we find that Zur achieves the up-regulation of L31 through a double repression cascade by which Zur first represses the transcription of L31p, a zinc-lacking paralogue of L31, which in turn represses the translation of L31. Mutational analyses show that translational repression by L31p requires an RNA hairpin structure within the l31 mRNA and involves the N-terminus of the L31p protein. This work uncovers a new genetic network that allows bacteria to respond to host-induced nutrient limiting conditions through a sophisticated ribosomal protein switching mechanism.

Published

2022

42. C16orf72/HAPSTR1 is a molecular rheostat in an integrated network of stress response pathways

Author

David R. Amici, Daniel J. Ansel, Kyle A. Metz, Roger S. Smith, Claire M. Phoumyvong, Sitaram Gayatri, Tomasz Chamera, Stacey L. Edwards, Brendan P. O’Hara, Shashank Srivastava, Sonia Brockway, Seesha R. Takagishi, Byoung-Kyu Cho, Young Ah Goo, Neil L. Kelleher, Issam Ben-Sahra, Daniel R. Foltz, Jian Li, and Marc L. Mendillo

Subjects

Multidisciplinary, Tumor Suppressor Proteins, Ubiquitin-Protein Ligases, Amino Acid Motifs, Nuclear Proteins, Protein Domains, Stress, Physiological, Cell Line, Tumor, Animals, Humans, Genetic Fitness, Conserved Sequence, DNA Damage, Signal Transduction

Abstract

All cells contain specialized signaling pathways that enable adaptation to specific molecular stressors. Yet, whether these pathways are centrally regulated in complex physiological stress states remains unclear. Using genome-scale fitness screening data, we quantified the stress phenotype of 739 cancer cell lines, each representing a unique combination of intrinsic tumor stresses. Integrating dependency and stress perturbation transcriptomic data, we illuminated a network of genes with vital functions spanning diverse stress contexts. Analyses for central regulators of this network nominated C16orf72/HAPSTR1, an evolutionarily ancient gene critical for the fitness of cells reliant on multiple stress response pathways. We found that HAPSTR1 plays a pleiotropic role in cellular stress signaling, functioning to titrate various specialized cell-autonomous and paracrine stress response programs. This function, while dispensable to unstressed cells and nematodes, is essential for resilience in the presence of stressors ranging from DNA damage to starvation and proteotoxicity. Mechanistically, diverse stresses induce HAPSTR1, which encodes a protein expressed as two equally abundant isoforms. Perfectly conserved residues in a domain shared between HAPSTR1 isoforms mediate oligomerization and binding to the ubiquitin ligase HUWE1. We show that HUWE1 is a required cofactor for HAPSTR1 to control stress signaling and that, in turn, HUWE1 feeds back to ubiquitinate and destabilize HAPSTR1. Altogether, we propose that HAPSTR1 is a central rheostat in a network of pathways responsible for cellular adaptability, the modulation of which may have broad utility in human disease.

Published

2022

43. Abstract 5035: Preclinical development of a 89Zr-labeled human antibody as a novel immuno-PET agent for noninvasive cancer detection and monitoring response to treatment

Author

Abhay Kumar Singh, Calvin D. Lewis, Cristian AWV Boas, Philipp Diebolder, Prashant N. Jethva, Aaron Rhee, Jong Hee Song, Young Ah Goo, Shunqiang Li, Yongjian Liu, Buck Rogers, Vaishali Kapoor, and Dennis E. Hallahan

Subjects

Cancer Research, Oncology

Abstract

Lung cancer is the leading cause of cancer death worldwide. There is an unmet need for therapies to improve lung cancer outcomes without causing additional toxicities. Tax-interacting protein 1 (TIP1) is a radiation-inducible antigen that plays a role in lung cancer progression and resistance to therapy. TIP1 is a targetable cell surface protein. We developed human antibodies (Ab) that bind specifically to lung cancer. This study aimed to evaluate our lead anti-TIP1 human antibody targeting lung cancer in vitro and in vivo. Anti-TIP1 IgG1 Ab was developed by biopanning phage display human antibody library. The purified Ab was characterized by size-exclusion chromatography-HPLC (SEC-HPLC), mass spectrometry, ELISA, BIAcore and flow cytometry. Ab was labeled with 89Zr using desferrioxamine chelator. The surface binding of 89Zr-Ab was evaluated in the A549 and H460 lung cancer cells. Stability of the 89Zr-Ab was assessed in human serum. Mice bearing 3 patient-derived xenografts (PDX) lung tumors or A549 tumors were injected with 50 µCi of 89Zr-Ab. Small animal PET imaging and biodistribution were conducted over 7 days. Specific tumor uptake was evaluated in biodistribution studies on day 5 by injecting cold Ab before 89Zr-Ab. We obtained 95% pure anti-TIP1 Ab by SEC-HPLC. Mass spectrometry confirmed the intact mass and glycosylation pattern of the anti-TIP1 IgG1. The Ab is bound to recombinant TIP1 protein and cancer cell surface with high affinity. The radiochemical purity of the 89Zr-Ab was 99.9%, and the molar activity was 11.54 MBq/nmol with a radiolabeling yield of 91.4%. Both A549 and H460 cell lines demonstrated specific binding as >70% inhibition was observed when the cold Ab was added. The ratio of SUV tumor to SUV muscle increased from 5.8 at 2 days to 6.3 at 7 days in PDX. In biodistribution studies, we found significantly higher (p Citation Format: Abhay Kumar Singh, Calvin D. Lewis, Cristian AWV Boas, Philipp Diebolder, Prashant N. Jethva, Aaron Rhee, Jong Hee Song, Young Ah Goo, Shunqiang Li, Yongjian Liu, Buck Rogers, Vaishali Kapoor, Dennis E. Hallahan. Preclinical development of a 89Zr-labeled human antibody as a novel immuno-PET agent for noninvasive cancer detection and monitoring response to treatment. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 5035.

Published

2023

44. Zur and Zinc Increase Expression of E. coli Ribosomal Protein L31 Through RNA-Mediated Repression of the Repressor L31p

Author

Rebecca A. Rasmussen, Jeannie M. Camarillo, Victoria Sosnowski, Byoung-Kyu Cho, Young Ah Goo, Julius B. Lucks, and Thomas V. O’Halloran

Abstract

Bacteria can adapt in response to numerous stress conditions. One such stress condition is zinc depletion. The zinc-sensing transcription factor Zur regulates the way enteric bacteria respond to severe changes in zinc availability. Under zinc sufficient conditions, Zn-loaded Zur (Zn2-Zur) is well-known to repress transcription of genes encoding zinc uptake transporters and paralogues of a few ribosomal subunits. Here, we report the discovery and mechanistic basis for the ability of Zur to up-regulate expression of the ribosomal protein L31 in response to zinc in E. coli. Through genetic mutations and reporter gene assays, we find that Zur achieves the up-regulation of L31 through a double repression cascade by which Zur first represses the transcription of L31p, a zinc-lacking paralogue of L31, which in turn represses the translation of L31. Mutational analyses show that translational repression by L31p requires an RNA hairpin structure within the l31 mRNA and involves the N-terminus of the L31p protein. This work uncovers a new genetic network that allows bacteria to respond to host-induced nutrient limiting conditions through a sophisticated ribosomal protein switching mechanism.Graphical Abstract

Published

2022

45. An rRNA fragment in extracellular vesicles secreted by human airway epithelial cells increases the fluoroquinolone sensitivity of P. aeruginosa

Author

Katja Koeppen, Thomas H. Hampton, Scott A. Gerber, Young Ah Goo, Byoung-Kyu Cho, Danielle M. Vermilyea, Deborah A. Hogan, and Bruce A. Stanton

Abstract

Lung infection by antibiotic resistant strains of Pseudomonas aeruginosa is a well-known concern for immunocompromised hosts including people with lung diseases such as cystic fibrosis. We have previously demonstrated that extracellular vesicles (EVs) secreted by primary human airway epithelial cells (AEC) deliver miRNA let-7b-5p to P. aeruginosa where it suppresses biofilm formation and increases sensitivity to beta-lactam antibiotics. In this study we used RNA-seq to characterize the small RNA (sRNA) content of EVs secreted by AEC and demonstrate transfer of multiple distinct RNA fragments from EVs to P. aeruginosa. Bioinformatic predictions reveal that several sRNAs may target all three subunits of the fluoroquinolone efflux pump MexHI-OpmD, an effect predicted to increase antibiotic sensitivity to fluoroquinolone antibiotics. Exposure of P. aeruginosa to EVs resulted in a significant reduction in the protein levels of MexH (−48%), MexI (−50%) and OpmD (−35%). Moreover, EVs reduced planktonic growth of P. aeruginosa in the presence of the fluoroquinolone antibiotic ciprofloxacin by 20%. A mexGHI-opmD deletion mutant of P. aeruginosa phenocopied this increased sensitivity to ciprofloxacin. Finally, we found that a fragment of an 18S rRNA external transcribed spacer that was transferred to P. aeruginosa by EVs was sufficient to reduce planktonic growth of P. aeruginosa in the presence of ciprofloxacin, to reduce the minimum inhibitory concentration (MIC) of P. aeruginosa for ciprofloxacin by over 50%, and to significantly reduce protein levels of MexH and OpmD. In conclusion, an rRNA fragment secreted by AEC in EVs increases the ciprofloxacin sensitivity of P. aeruginosa by targeting and down-regulating the fluoroquinolone efflux pump MexHI-OpmD. A combination of rRNA fragments and ciprofloxacin packaged in nanoparticles or EVs may benefit patients with antibiotic-resistant P. aeruginosa infections.Author SummaryAccording to the World Health Organization and the U.S. Centers for Disease Control and Prevention the development of antibiotic resistant strains of bacteria, including Pseudomonas aeruginosa, are a significant global threat to human health. Thus, development of new approaches to eliminate antibiotic resistant infections is required. In this study, we report that lung epithelial cells secrete extracellular vesicles (EVs) that fuse with and deliver small rRNAs to P. aeruginosa, and that the rRNAs increase the sensitivity of P. aeruginosa to the antibiotic ciprofloxacin by reducing protein levels of the drug efflux pump MexHI-OpmD. We identified one rRNA fragment that by itself significantly reduced the protein levels of MexH and OpmD and increased the ability of ciprofloxacin to kill P. aeruginosa. We propose that developing synthetic vesicles containing a combination of the rRNA that inhibits antibiotic efflux pumps and ciprofloxacin would benefit patients with antibiotic resistant P. aeruginosa infections.

Published

2022

46. Bulk IgG glycosylation predicts COVID-19 severity and vaccine antibody response

Author

Michelle K. Ash, Pavan P. Bhimalli, Byoung-Kyu Cho, Basil Baby Mattamana, Stéphanie Gambut, Imad Tarhoni, Cristina L. Fhied, Anjelica F. Reyes, Samantha J. Welninski, Jaison Arivalagan, Fernanda Negrão, Renu Goel, Todd L. Beck, Thomas J. Hope, Beverly E. Sha, Young Ah Goo, Lena Al-Harthi, João I. Mamede, Jeffrey A. Borgia, Neil L. Kelleher, and Jeffrey R. Schneider

Subjects

General Biochemistry, Genetics and Molecular Biology

Abstract

Although vaccination efforts have expanded, there are still gaps in our understanding surrounding the immune response to SARS-CoV-2. Measuring IgG Fc glycosylation provides insight into an infected individual's inflammatory state, among other functions. We set out to interrogate bulk IgG glycosylation changes from SARS-CoV-2 infection and vaccination, using plasma from mild or hospitalized COVID-19 patients, and from vaccinated individuals. Inflammatory glycans are elevated in hospitalized COVID-19 patients and increase over time, while mild patients have anti-inflammatory glycans that increase over time, including increased sialic acid correlating with RBD antibody levels. Vaccinated individuals with low RBD antibody levels and low neutralization have the same IgG glycan traits as hospitalized COVID-19 patients. In addition, a small vaccinated cohort reveals a decrease in inflammatory glycans associated with peak IgG concentrations and neutralization. This report characterizes the bulk IgG glycome associated with COVID-19 severity and vaccine responsiveness and can help guide future studies into SARS-CoV-2 protective immunity.

Published

2022

47. ASXL3 bridges BRD4 to BAP1 complex and governs enhancer activity in small cell lung cancer

Author

Zibo Zhao, Young Ah Goo, Elizabeth T. Bartom, Tori Sosnowski, Lu Wang, and Aileen Patricia Szczepanski

Subjects

Transcriptional Activation, BRD4, Lung Neoplasms, lcsh:QH426-470, lcsh:Medicine, Cell Cycle Proteins, Models, Biological, ASXL3, Drug Discovery, Basic Helix-Loop-Helix Transcription Factors, Genetics, Humans, Gene Regulatory Networks, Epigenetics, BET inhibitors, Promoter Regions, Genetic, Enhancer, Molecular Biology, Genetics (clinical), BAP1, biology, Chemistry, Gene Expression Profiling, Tumor Suppressor Proteins, Research, Chromatin binding, lcsh:R, SCLC, Small Cell Lung Carcinoma, Chromatin, respiratory tract diseases, Gene Expression Regulation, Neoplastic, ASCL1, lcsh:Genetics, Enhancer Elements, Genetic, Histone, BAP1 complex, Multiprotein Complexes, biology.protein, Cancer research, Molecular Medicine, Enhancer activity, Ubiquitin Thiolesterase, Protein Binding, Transcription Factors

Abstract

BackgroundSmall cell lung cancer (SCLC) is a more aggressive subtype of lung cancer that often results in rapid tumor growth, early metastasis, and acquired therapeutic resistance. Consequently, such phenotypical characteristics of SCLC set limitations on viable procedural options, making it difficult to develop both screenings and effective treatments. In this study, we examine a novel mechanistic insight in SCLC cells that could potentially provide a more sensitive therapeutic alternative for SCLC patients.MethodsBiochemistry studies, including size exclusion chromatography, mass spectrometry, and western blot analysis, were conducted to determine the protein-protein interaction between additional sex combs-like protein 3 (ASXL3) and bromodomain-containing protein 4 (BRD4). Genomic studies, including chromatin immunoprecipitation sequencing (ChIP-seq), RNA sequencing, and genome-wide analysis, were performed in both human and mouse SCLC cells to determine the dynamic relationship between BRD4/ASXL3/BAP1 epigenetic axis in chromatin binding and its effects on transcriptional activity.ResultsWe report a critical link between BAP1 complex and BRD4, which is bridged by the physical interaction between ASXL3 and BRD4 in an SCLC subtype (SCLC-A), which expresses a high level ofASCL1. We further showed that ASXL3 functions as an adaptor protein, which directly interacts with BRD4’s extra-terminal (ET) domain via a novel BRD4 binding motif (BBM), and maintains chromatin occupancy of BRD4 to active enhancers. Genetic depletion of ASXL3 results in a genome-wide reduction of histone H3K27Ac levels and BRD4-dependent gene expression in SCLC. Pharmacologically induced inhibition with BET-specific chemical degrader (dBET6) selectively inhibits cell proliferation of a subtype of SCLC that is characterized with high expression of ASXL3.ConclusionsCollectively, this study provides a mechanistic insight into the oncogenic function of BRD4/ASXL3/BAP1 epigenetic axis at active chromatin enhancers in SCLC-A subtype, as well as a potential new therapeutic option that could become more effective in treating SCLC patients with a biomarker of ASXL3-highly expressed SCLC cells.

Published

2020

48. SF3B1 homeostasis is critical for survival and therapeutic response in T cell leukemia

Author

Cuijuan Han, Alireza Khodadadi-Jamayran, Adam H. Lorch, Qi Jin, Valentina Serafin, Ping Zhu, Yuliya Politanska, Limin Sun, Blanca T. Gutierrez-Diaz, Marina V. Pryzhkova, Hiam Abdala-Valencia, Elizabeth Thomas Bartom, Barbara Buldini, Giuseppe Basso, Sadanandan E. Velu, Kavitha Sarma, Basil B. Mattamana, Byoung-Kyu Cho, Rebecca C. Obeng, Young Ah Goo, Philip W. Jordan, Aristotelis Tsirigos, Yalu Zhou, and Panagiotis Ntziachristos

Subjects

Leukemia, T-Cell, Multidisciplinary, SciAdv r-articles, Phosphoproteins, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma, Mutation, Medicine and Health Sciences, Homeostasis, Humans, RNA Splicing Factors, Biomedicine and Life Sciences, Molecular Biology, Research Article, Cancer

Abstract

The production of noncanonical mRNA transcripts is associated with cell transformation. Driven by our previous findings on the sensitivity of T cell acute lymphoblastic leukemia (T-ALL) cells to SF3B1 inhibitors, we identified that SF3B1 inhibition blocks T-ALL growth in vivo with no notable associated toxicity. We also revealed protein stabilization of the U2 complex component SF3B1 via deubiquitination. Our studies showed that SF3B1 inhibition perturbs exon skipping, leading to nonsense-mediated decay and diminished levels of DNA damage response–related transcripts, such as the serine/threonine kinase CHEK2, and impaired DNA damage response. We also identified that SF3B1 inhibition leads to a general decrease in R-loop formation. We further demonstrate that clinically used SF3B1 inhibitors synergize with CHEK2 inhibitors and chemotherapeutic drugs to block leukemia growth. Our study provides the proof of principle for posttranslational regulation of splicing components and associated roles and therapeutic implications for the U2 complex in T cell leukemia., Description, The splicing factor SF3B1 is regulated at the protein level and is a therapeutic target in T cell leukemia.

Published

2022

49. Reinspection of a Clinical Proteomics Tumor Analysis Consortium (CPTAC) Dataset with Cloud Computing Reveals Abundant Post-Translational Modifications and Protein Sequence Variants

Author

Michael F. Moran, Keira E. Mahoney, Yuting Yuan, Shashwati Parihari, Jeffrey Shabanowitz, Manu Varkey, O. John Semmes, Trevor Glaros, Abhay Moghekar, Joseph J. Otto, Akhilesh Pandey, Satya Saxena, Young Ah Goo, Joel R. Steele, Yassene Mohammed, Dong Gi Mun, Amol Prakash, Benjamin C. Orsburn, Lorne Taylor, Anil K. Madugundu, Sanjeeva Srivastava, Nate Hoxie, Scott Peterman, Julius O. Nyalwidhe, and Pouya Faridi

Subjects

Cancer Research, CPTAC, Proteomic Profiling, business.industry, cloud computing, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, tumor proteomics, Cloud computing, Computational biology, Biology, Proteogenomics, Proteomics, Phenotype, Article, Exon, Protein sequencing, proteomics, Oncology, proteogenomics, post-translational modifications, cancer, 1112 Oncology and Carcinogenesis, business, RC254-282, Sequence (medicine)

Abstract

Simple Summary:& nbsp;We reanalyzed a publicly available breast cancer proteomics dataset consisting of 122 human tumor samples using a scalable cloud computing workflow. By doing so, we were able to search these files against millions of known human sequence variants and hundreds of common post-translational protein modifications, thereby demonstrating the power of cloud computing to address proteomic data in a true biological context. We identified thousands of relevant sequence variants and PTMs, indicating that the original studies may have only scratched the surface of the true value of the CPTAC studies completed to date. We present the results of this reanalysis in a searchable web interface for community analysis and validation.The Clinical Proteomic Tumor Analysis Consortium (CPTAC) has provided some of the most in-depth analyses of the phenotypes of human tumors ever constructed. Today, the majority of proteomic data analysis is still performed using software housed on desktop computers which limits the number of sequence variants and post-translational modifications that can be considered. The original CPTAC studies limited the search for PTMs to only samples that were chemically enriched for those modified peptides. Similarly, the only sequence variants considered were those with strong evidence at the exon or transcript level. In this multi-institutional collaborative reanalysis, we utilized unbiased protein databases containing millions of human sequence variants in conjunction with hundreds of common post-translational modifications. Using these tools, we identified tens of thousands of high-confidence PTMs and sequence variants. We identified 4132 phosphorylated peptides in nonenriched samples, 93% of which were confirmed in the samples which were chemically enriched for phosphopeptides. In addition, our results also cover 90% of the high-confidence variants reported by the original proteogenomics study, without the need for sample specific next-generation sequencing. Finally, we report fivefold more somatic and germline variants that have an independent evidence at the peptide level, including mutations in ERRB2 and BCAS1. In this reanalysis of CPTAC proteomic data with cloud computing, we present an openly available and searchable web resource of the highest-coverage proteomic profiling of human tumors described to date.

Published

2021

50. SPT5 stabilization of promoter-proximal RNA polymerase II

Author

Sheetal Ganesan, Marta Iwanaszko, Neil L. Kelleher, Ali Shilatifard, Yuki Aoi, Nabiha H. Khan, Young Ah Goo, Yoh Hei Takahashi, Emily J. Rendleman, Avani P. Shah, and Byoung-Kyu Cho

Subjects

Proteomics, Proteasome Endopeptidase Complex, Proteome, Cell Survival, Chromosomal Proteins, Non-Histone, Nedd4 Ubiquitin Protein Ligases, Ubiquitin-Protein Ligases, RNA polymerase II, Article, Mice, Transcription (biology), Valosin Containing Protein, Gene expression, Animals, Humans, Promoter Regions, Genetic, Molecular Biology, Gene, DSIF complex, biology, Indoleacetic Acids, Nuclear Proteins, Promoter, Cell Biology, Fibroblasts, Cullin Proteins, Cell biology, biology.protein, Cyclin-dependent kinase 9, RNA Polymerase II, Transcriptional Elongation Factors, Cullin

Abstract

Summary Based on in vitro studies, it has been demonstrated that the DSIF complex, composed of SPT4 and SPT5, regulates the elongation stage of transcription catalyzed by RNA polymerase II (RNA Pol II). The precise cellular function of SPT5 is not clear, because conventional gene depletion strategies for SPT5 result in loss of cellular viability. Using an acute inducible protein depletion strategy to circumvent this issue, we report that SPT5 loss triggers the ubiquitination and proteasomal degradation of the core RNA Pol II subunit RPB1, a process that we show to be evolutionarily conserved from yeast to human cells. RPB1 degradation requires the E3 ligase Cullin 3, the unfoldase VCP/p97, and a novel form of CDK9 kinase complex. Our study demonstrates that SPT5 stabilizes RNA Pol II specifically at promoter-proximal regions, permitting RNA Pol II release from promoters into gene bodies and providing mechanistic insight into the cellular function of SPT5 in safeguarding accurate gene expression.

Published

2021