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1. Integrative analysis of non-small cell lung cancer patient-derived xenografts identifies distinct proteotypes associated with patient outcomes

Author

Shideh Mirhadi, Shirley Tam, Quan Li, Nadeem Moghal, Nhu-An Pham, Jiefei Tong, Brian J. Golbourn, Jonathan R. Krieger, Paul Taylor, Ming Li, Jessica Weiss, Sebastiao N. Martins-Filho, Vibha Raghavan, Yasin Mamatjan, Aafaque A. Khan, Michael Cabanero, Shingo Sakashita, Kugeng Huo, Sameer Agnihotri, Kota Ishizawa, Thomas K. Waddell, Gelareh Zadeh, Kazuhiro Yasufuku, Geoffrey Liu, Frances A. Shepherd, Michael F. Moran, and Ming-Sound Tsao

Subjects
Science
Abstract

With non-small cell lung cancer (NSCLC) being the leading cause of cancer deaths worldwide, the development of targeted therapies remains crucial. Here, the generation and multi-omics characterization of 137 NSCLC patient-derived xenografts provides a resource for potential classifications and targets.

Published
2022
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2. Tankyrase represses autoinflammation through the attenuation of TLR2 signaling

Author

Yoshinori Matsumoto, Ioannis D. Dimitriou, Jose La Rose, Melissa Lim, Susan Camilleri, Napoleon Law, Hibret A. Adissu, Jiefei Tong, Michael F. Moran, Andrzej Chruscinski, Fang He, Yosuke Asano, Takayuki Katsuyama, Ken-ei Sada, Jun Wada, and Robert Rottapel

Subjects
Autoimmunity, Inflammation, Medicine
Abstract

Dysregulation of Toll-like receptor (TLR) signaling contributes to the pathogenesis of autoimmune diseases. Here, we provide genetic evidence that tankyrase, a member of the poly(ADP-ribose) polymerase (PARP) family, negatively regulates TLR2 signaling. We show that mice lacking tankyrase in myeloid cells developed severe systemic inflammation with high serum inflammatory cytokine levels. We provide mechanistic evidence that tankyrase deficiency resulted in tyrosine phosphorylation and activation of TLR2 and show that phosphorylation of tyrosine 647 within the TIR domain by SRC and SYK kinases was critical for TLR2 stabilization and signaling. Last, we show that the elevated cytokine production and inflammation observed in mice lacking tankyrase in myeloid cells were dependent on the adaptor protein 3BP2, which is required for SRC and SYK activation. These data demonstrate that tankyrase provides a checkpoint on the TLR-mediated innate immune response.

Published
2022
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3. A feed forward loop enforces YAP/TAZ signaling during tumorigenesis

Author

Mandeep K. Gill, Tania Christova, Ying Y. Zhang, Alex Gregorieff, Liang Zhang, Masahiro Narimatsu, Siyuan Song, Shawn Xiong, Amber L. Couzens, Jiefei Tong, Jonathan R. Krieger, Michael F. Moran, Alexandre R. Zlotta, Theodorus H. van der Kwast, Anne-Claude Gingras, Frank Sicheri, Jeffrey L. Wrana, and Liliana Attisano

Subjects
Science
Abstract

The Hippo pathway is frequently dysregulated in cancer. Here, the authors identify NUAK2 as negative regulator of the Hippo pathway from a siRNA kinome screen and show that NUAK2 promotes YAP/TAZ nuclear localisation while NUAK2 is a transcriptional target of YAP/TAZ, thus providing a feed forward loop to promote tumorigenesis.

Published
2018
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4. The Candida albicans transcription factor Cas5 couples stress responses, drug resistance and cell cycle regulation

Author

Jinglin L. Xie, Longguang Qin, Zhengqiang Miao, Ben T. Grys, Jacinto De La Cruz Diaz, Kenneth Ting, Jonathan R. Krieger, Jiefei Tong, Kaeling Tan, Michelle D. Leach, Troy Ketela, Michael F. Moran, Damian J. Krysan, Charles Boone, Brenda J. Andrews, Anna Selmecki, Koon Ho Wong, Nicole Robbins, and Leah E. Cowen

Subjects
Science
Abstract

Cas5 is a transcriptional regulator of responses to cell wall stress in the fungal pathogen Candida albicans. Here, Xie et al. show that Cas5 also modulates cell cycle dynamics and responses to antifungal drugs.

Published
2017
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5. The ubiquitin-conjugating enzyme UBE2O modulates c-Maf stability and induces myeloma cell apoptosis

Author

Yujia Xu, Zubin Zhang, Jie Li, Jiefei Tong, Biyin Cao, Paul Taylor, Xiaowen Tang, Depei Wu, Michael F. Moran, Yuanying Zeng, and Xinliang Mao

Subjects
c-Maf, UBE2O, Ubiquitin proteasome pathway, Multiple myeloma, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background UBE2O is proposed as a ubiquitin-conjugating enzyme, but its function was largely unknown. Methods Mass spectrometry was applied to identify c-Maf ubiquitination-associated proteins. Immunoprecipitation was applied for c-Maf and UBE2O interaction. Immunoblotting was used for Maf protein stability. Luciferase assay was used for c-Maf transcriptional activity. Lentiviral infections were applied for UBE2O function in multiple myeloma (MM) cells. Flow cytometry and nude mice xenografts were applied for MM cell apoptosis and tumor growth assay, respectively. Results UBE2O was found to interact with c-Maf, a critical transcription factor in MM, by the affinity purification/tandem mass spectrometry assay and co-immunoprecipitation assays. Subsequent studies showed that UBE2O mediated c-Maf polyubiquitination and degradation. Moreover, UBE2O downregulated the transcriptional activity of c-Maf and the expression of cyclin D2, a typical gene modulated by c-Maf. DNA microarray revealed that UBE2O was expressed in normal bone marrow cells but downregulated in MGUS, smoldering MM and MM cells, which was confirmed by RT-PCR in primary MM cells, suggesting its potential role in myeloma pathophysiology. When UBE2O was restored, c-Maf protein in MM cells was significantly decreased and MM cells underwent apoptosis. Furthermore, the human MM xenograft in nude mice showed that re-expression of UBE2O delayed the growth of myeloma xenografts in nude mice in association with c-Maf downregulation and activation of the apoptotic pathway. Conclusions UBE2O mediates c-Maf polyubiquitination and degradation, induces MM cell apoptosis, and suppresses myeloma tumor growth, which provides a novel insight in understanding myelomagenesis and UBE2O biology.

Published
2017
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6. Cancer proteome and metabolite changes linked to SHMT2

Author

Jiefei Tong, Jonathan R. Krieger, Paul Taylor, Rick Bagshaw, Jae Kang, Swathi Jeedigunta, Leanne E. Wybenga-Groot, Wen Zhang, Heba Badr, Shideh Mirhadi, Nhu-An Pham, Étienne Coyaud, Man Yu, Ming Li, Michael Cabanero, Brian Raught, Jason T. Maynes, Cynthia Hawkins, Ming Sound Tsao, Michael F. Moran, and Irina V. Lebedeva

Subjects
Medicine, Science
Abstract

Serine hydroxymethyltransferase 2 (SHMT2) converts serine plus tetrahydrofolate (THF) into glycine plus methylene-THF and is upregulated at the protein level in lung and other cancers. In order to better understand the role of SHMT2 in cancer a model system of HeLa cells engineered for inducible over-expression or knock-down of SHMT2 was characterized for cell proliferation and changes in metabolites and proteome as a function of SHMT2. Ectopic over-expression of SHMT2 increased cell proliferation in vitro and tumor growth in vivo. Knockdown of SHMT2 expression in vitro caused a state of glycine auxotrophy and accumulation of phosphoribosylaminoimidazolecarboxamide (AICAR), an intermediate of folate/1-carbon-pathway-dependent de novo purine nucleotide synthesis. Decreased glycine in the HeLa cell-based xenograft tumors with knocked down SHMT2 was potentiated by administration of the anti-hyperglycinemia agent benzoate. However, tumor growth was not affected by SHMT2 knockdown with or without benzoate treatment. Benzoate inhibited cell proliferation in vitro, but this was independent of SHMT2 modulation. The abundance of proteins of mitochondrial respiration complexes 1 and 3 was inversely correlated with SHMT2 levels. Proximity biotinylation in vivo (BioID) identified 48 mostly mitochondrial proteins associated with SHMT2 including the mitochondrial enzymes Acyl-CoA thioesterase (ACOT2) and glutamate dehydrogenase (GLUD1) along with more than 20 proteins from mitochondrial respiration complexes 1 and 3. These data provide insights into possible mechanisms through which elevated SHMT2 in cancers may be linked to changes in metabolism and mitochondrial function.

Published
2020

7. Oncohistone interactome profiling uncovers contrasting oncogenic mechanisms and identifies potential therapeutic targets in high grade glioma

Author

Robert Siddaway, Laura Canty, Sanja Pajovic, Scott Milos, Etienne Coyaud, Stefanie-Grace Sbergio, Arun Kumaran Vadivel Anguraj, Evan Lubanszky, Hwa Young Yun, Alessia Portante, Sheyenne Carette, Cunjie Zhang, Michael F. Moran, Brian Raught, Eric I. Campos, and Cynthia Hawkins

Subjects
Histones, Cellular and Molecular Neuroscience, Mutation, Humans, DNA, Glioma, Neurology (clinical), Amino Acids, Child, Nucleosomes, Transcription Factors, Pathology and Forensic Medicine
Abstract

Histone H3 mutations at amino acids 27 (H3K27M) and 34 (H3G34R) are recurrent drivers of pediatric-type high-grade glioma (pHGG). H3K27M mutations lead to global disruption of H3K27me3 through dominant negative PRC2 inhibition, while H3G34R mutations lead to local losses of H3K36me3 through inhibition of SETD2. However, their broader oncogenic mechanisms remain unclear. We characterized the H3.1K27M, H3.3K27M and H3.3G34R interactomes, finding that H3K27M is associated with epigenetic and transcription factor changes; in contrast H3G34R removes a break on cryptic transcription, limits DNA methyltransferase access, and alters mitochondrial metabolism. All 3 mutants had altered interactions with DNA repair proteins and H3K9 methyltransferases. H3K9me3 was reduced in H3K27M-containing nucleosomes, and cis-H3K9 methylation was required for H3K27M to exert its effect on global H3K27me3. H3K9 methyltransferase inhibition was lethal to H3.1K27M, H3.3K27M and H3.3G34R pHGG cells, underscoring the importance of H3K9 methylation for oncohistone-mutant gliomas and suggesting it as an attractive therapeutic target.

Published
2022
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8. Engineered SH2 Domains for Targeted Phosphoproteomics

Author

Gregory D. Martyn, Gianluca Veggiani, Ulrike Kusebauch, Seamus R. Morrone, Bradley P. Yates, Alex U. Singer, Jiefei Tong, Noah Manczyk, Gerald Gish, Zhi Sun, Igor Kurinov, Frank Sicheri, Michael F. Moran, Robert L. Moritz, and Sachdev S. Sidhu

Subjects
src Homology Domains, Proteome, Humans, Molecular Medicine, General Medicine, Phosphotyrosine, Biochemistry, Article, Mass Spectrometry, Protein Binding
Abstract

A comprehensive analysis of the phosphoproteome is essential for understanding molecular mechanisms of human diseases. However, current tools used to enrich phosphotyrosine (pTyr) are limited in their applicability and scope. Here, we engineered new superbinder Src-Homology 2 (SH2) domains that enrich diverse sets of pTyr-peptides. We used phage display to select a Fes-SH2 domain variant (superFes; sFes(1)) with high affinity for pTyr and solved its structure bound to a pTyr-peptide. We performed systematic structure–function analyses of the superbinding mechanisms of sFes(1) and superSrc-SH2 (sSrc(1)), another SH2 superbinder. We grafted the superbinder motifs from sFes(1) and sSrc(1) into 17 additional SH2 domains and confirmed increased binding affinity for specific pTyr-peptides. Using mass spectrometry (MS), we demonstrated that SH2 superbinders have distinct specificity profiles and superior capabilities to enrich pTyr-peptides. Finally, using combinations of SH2 superbinders as affinity purification (AP) tools we showed that unique subsets of pTyr-peptides can be enriched with unparalleled depth and coverage.

Published
2022
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9. The deubiquitinase USP7 stabilizes Maf proteins to promote myeloma cell survival

Author

Yuanming He, Yuanying Zeng, Jiefei Tong, Biyin Cao, Michael F. Moran, Zubin Zhang, Siyu Wang, Ye Yang, Shuoyi Jiang, Yujia Xu, and Xinliang Mao

Subjects
Male, 0301 basic medicine, Maf Transcription Factors, Large, Genomics and Proteomics, Carcinogenesis, Cell Survival, MafB Transcription Factor, Apoptosis, Thiophenes, Protein degradation, Biochemistry, Interactome, Deubiquitinating enzyme, Ubiquitin-Specific Peptidase 7, 03 medical and health sciences, Ubiquitin, Maf Transcription Factors, Humans, Polyubiquitin, Molecular Biology, Transcription factor, Cell Proliferation, Gene knockdown, 030102 biochemistry & molecular biology, biology, Chemistry, Ubiquitination, Cell Biology, Progression-Free Survival, Cell biology, Gene Expression Regulation, Neoplastic, HEK293 Cells, 030104 developmental biology, MAFB, Proto-Oncogene Proteins c-maf, Proteolysis, biology.protein, Female, Multiple Myeloma
Abstract

The Maf proteins, including c-Maf, MafA, and MafB, are critical transcription factors in myelomagenesis. Previous studies demonstrated that Maf proteins are processed by the ubiquitin-proteasome pathway, but the mechanisms remain elusive. This study applied MS to identify MafB ubiquitination-associated proteins and found that the ubiquitin-specific protease USP7 was present in the MafB interactome. Moreover, USP7 also interacted with c-Maf and MafA and blocked their polyubiquitination and degradation. Consistently, knockdown of USP7 resulted in Maf protein degradation along with increased polyubiquitination levels. The action of USP7 thus promoted Maf transcriptional activity as evidenced by luciferase assays and by the up-regulation of the expression of Maf-modulated genes. Furthermore, USP7 was up-regulated in myeloma cells, and it was negatively associated with the survival of myeloma patients. USP7 promoted myeloma cell survival, and when it was inhibited by its specific inhibitor P5091, myeloma cell lines underwent apoptosis. These results therefore demonstrated that USP7 is a deubiquitinase of Maf proteins and promotes MM cell survival in association with Maf stability. Given the significance of USP7 and Maf proteins in myeloma genesis, targeting the USP7/Maf axle is a potential strategy to the precision therapy of MM.

Published
2020
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10. 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
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11. Extracellular phosphorylation drives the formation of neuronal circuitry

Author

Jean-François Cloutier, Jason Charish, Liliana Attisano, Shuzo Sugita, Rod Bremner, Philippe P. Monnier, Hidekiyo Harada, Nahal Farhani, Xue Fan Wang, Michael Reber, and Michael F. Moran

Subjects
Nervous system, 0303 health sciences, Chemistry, 030302 biochemistry & molecular biology, Repulsive guidance molecule, Cell Biology, Retinal ganglion, Cell biology, 03 medical and health sciences, medicine.anatomical_structure, Extracellular, medicine, Phosphorylation, Axon guidance, Kinase activity, Axon, Molecular Biology, 030304 developmental biology
Abstract

Until recently, the existence of extracellular kinase activity was questioned. Many proteins of the central nervous system are targeted, but it remains unknown whether, or how, extracellular phosphorylation influences brain development. Here we show that the tyrosine kinase vertebrate lonesome kinase (VLK), which is secreted by projecting retinal ganglion cells, phosphorylates the extracellular protein repulsive guidance molecule b (RGMb) in a dorsal-ventral descending gradient. Silencing of VLK or RGMb causes aberrant axonal branching and severe axon misguidance in the chick optic tectum. Mice harboring RGMb with a point mutation in the phosphorylation site also display aberrant axonal pathfinding. Mechanistic analyses show that VLK-mediated RGMb phosphorylation modulates Wnt3a activity by regulating LRP5 protein gradients. Thus, the secretion of VLK by projecting neurons provides crucial signals for the accurate formation of nervous system circuitry. The dramatic effect of VLK on RGMb and Wnt3a signaling implies that extracellular phosphorylation likely has broad and profound effects on brain development, function and disease.

Published
2019
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12. A feed forward loop enforces YAP/TAZ signaling during tumorigenesis

Author

Michael F. Moran, Anne-Claude Gingras, Alexandre R. Zlotta, Jeffrey L. Wrana, Liliana Attisano, Jiefei Tong, Liang Zhang, Jonathan R. Krieger, Siyuan Song, Masahiro Narimatsu, Theodorus van der Kwast, Mandeep Gill, Tania Christova, Shawn Xiong, Frank Sicheri, Ying Y. Zhang, Amber L. Couzens, and Alex Gregorieff

Subjects
0301 basic medicine, animal structures, Carcinogenesis, Science, Immunoblotting, General Physics and Astronomy, Biology, Protein Serine-Threonine Kinases, medicine.disease_cause, Real-Time Polymerase Chain Reaction, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Cell Line, Tumor, medicine, Humans, Immunoprecipitation, Phosphorylation, lcsh:Science, Adaptor Proteins, Signal Transducing, Hippo signaling pathway, Multidisciplinary, Activator (genetics), Tumor Suppressor Proteins, HEK 293 cells, Signal transducing adaptor protein, YAP-Signaling Proteins, General Chemistry, Gene signature, Phosphoproteins, Cell biology, Transcription Factor AP-1, 030104 developmental biology, Cell Transformation, Neoplastic, HEK293 Cells, Microscopy, Fluorescence, Cancer cell, lcsh:Q, Female, Acyltransferases, Signal Transduction, Transcription Factors
Abstract

In most solid tumors, the Hippo pathway is inactivated through poorly understood mechanisms that result in the activation of the transcriptional regulators, YAP and TAZ. Here, we identify NUAK2 as a YAP/TAZ activator that directly inhibits LATS-mediated phosphorylation of YAP/TAZ and show that NUAK2 induction by YAP/TAZ and AP-1 is required for robust YAP/TAZ signaling. Pharmacological inhibition or loss of NUAK2 reduces the growth of cultured cancer cells and mammary tumors in mice. Moreover, in human patient samples, we show that NUAK2 expression is elevated in aggressive, high-grade bladder cancer and strongly correlates with a YAP/TAZ gene signature. These findings identify a positive feed forward loop in the Hippo pathway that establishes a key role for NUAK2 in enforcing the tumor-promoting activities of YAP/TAZ. Our results thus introduce a new opportunity for cancer therapeutics by delineating NUAK2 as a potential target for re-engaging the Hippo pathway., The Hippo pathway is frequently dysregulated in cancer. Here, the authors identify NUAK2 as negative regulator of the Hippo pathway from a siRNA kinome screen and show that NUAK2 promotes YAP/TAZ nuclear localisation while NUAK2 is a transcriptional target of YAP/TAZ, thus providing a feed forward loop to promote tumorigenesis.

Published
2018

13. A neuroprotective agent that inactivates prodegenerative TrkA and preserves mitochondria

Author

Chen Wu, Adelaida Kolaj, Lee L. Rubin, Freda D. Miller, Michael F. Moran, Natalie Grinshtein, Konstantin Feinberg, David L. Kaplan, and Jonathan R. Krieger

Subjects
0301 basic medicine, Wallerian degeneration, Time Factors, Transcription, Genetic, Apoptosis, Tropomyosin receptor kinase A, Rats, Sprague-Dawley, chemistry.chemical_compound, Superoxide Dismutase-1, Puma, Anilides, Phosphorylation, Axon, Cells, Cultured, Research Articles, Motor Neurons, Neurons, Anatomy, Sciatic Nerve, Mitochondria, 3. Good health, Neuroprotective Agents, Phenotype, medicine.anatomical_structure, Quinolines, Signal transduction, Signal Transduction, Genotype, Sensory Receptor Cells, SOD1, Mice, Transgenic, Biology, Neuroprotection, Article, Crush Injuries, 03 medical and health sciences, medicine, Animals, Receptor, trkA, Protein Kinase Inhibitors, Dose-Response Relationship, Drug, Foretinib, Cell Biology, medicine.disease, biology.organism_classification, Axons, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, nervous system, chemistry, Cytoprotection, Mutation, Sciatic Neuropathy, Adrenergic Fibers, Apoptosis Regulatory Proteins, Wallerian Degeneration, Neuroscience
Abstract

The pan-kinase inhibitor foretinib is identified as a potent suppressor of sympathetic, sensory, and motor neuron axon degeneration, acting in part by inhibiting the activity of the unliganded TrkA/nerve growth factor receptor and by preserving mitochondria in die-back and Wallerian degeneration models., Axon degeneration is an early event and pathological in neurodegenerative conditions and nerve injuries. To discover agents that suppress neuronal death and axonal degeneration, we performed drug screens on primary rodent neurons and identified the pan-kinase inhibitor foretinib, which potently rescued sympathetic, sensory, and motor wt and SOD1 mutant neurons from trophic factor withdrawal-induced degeneration. By using primary sympathetic neurons grown in mass cultures and Campenot chambers, we show that foretinib protected neurons by suppressing both known degenerative pathways and a new pathway involving unliganded TrkA and transcriptional regulation of the proapoptotic BH3 family members BimEL, Harakiri,and Puma, culminating in preservation of mitochondria in the degenerative setting. Foretinib delayed chemotherapy-induced and Wallerian axonal degeneration in culture by preventing axotomy-induced local energy deficit and preserving mitochondria, and peripheral Wallerian degeneration in vivo. These findings identify a new axon degeneration pathway and a potentially clinically useful therapeutic drug.

Published
2017
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14. The ubiquitin ligase HERC4 mediates c-Maf ubiquitination and delays the growth of multiple myeloma xenografts in nude mice

Author

Guanghui Wang, Jian Hou, Zubin Zhang, Chang Xin Shi, Michael F. Moran, A. Keith Stewart, Xiaowen Tang, Jiaxiang Juan, Jiefei Tong, Biyin Cao, Paul Taylor, Xin Xu, Xinliang Mao, Aaron D. Schimmer, Juan Du, Depei Wu, Rose Hurren, and Guodong Chen

Subjects
0301 basic medicine, Ubiquitin-Protein Ligases, Immunology, Mice, Nude, Mice, SCID, Biology, Biochemistry, Mice, 03 medical and health sciences, Ubiquitin, Animals, Humans, Transcription factor, Cells, Cultured, Cell Proliferation, chemistry.chemical_classification, DNA ligase, Cell growth, HEK 293 cells, Ubiquitination, Cell Biology, Hematology, Ubiquitin ligase, HEK293 Cells, 030104 developmental biology, chemistry, Cell culture, Proto-Oncogene Proteins c-maf, NIH 3T3 Cells, biology.protein, Cancer research, Heterografts, Multiple Myeloma, Neoplasm Transplantation, HeLa Cells
Abstract

The transcription factor c-Maf is extensively involved in the pathophysiology of multiple myeloma (MM), a fatal malignancy of plasma cells. In the present study, affinity chromatography and mass spectrometry were used to identify c-Maf ubiquitination-associated proteins, from which the E3 ligase HERC4 was found to interact with c-Maf and catalyzed its polyubiquitination and subsequent proteasome-mediated degradation. HERC4 mediated polyubiquitination at K85 and K297 in c-Maf, and this polyubiquitination could be prevented by the isopeptidase USP5. Further analysis on the NCI-60 cell line collection revealed that RPMI 8226, a MM-derived cell line, expressed the lowest level of HERC4. Primary bone marrow analysis revealed HERC4 expression was high in normal bone marrow, but was steadily decreased during myelomagenesis. These findings suggested HERC4 played an important role in MM progression. Moreover, ectopic HERC4 expression decreased MM proliferation in vitro, and delayed xenograft tumor growth in vivo. Therefore, modulation of c-Maf ubiquitination by targeting HERC4 may represent a new therapeutic modality for MM.

Published
2016
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15. Comprehensive identification of phosphorylation sites on the Numb endocytic adaptor protein

Author

C. Jane McGlade, Paul J. Taylor, Michael F. Moran, and Jonathan R. Krieger

Subjects
animal structures, Molecular Sequence Data, Endocytic cycle, Nerve Tissue Proteins, macromolecular substances, Biology, Biochemistry, Tyrosine Phosphorylation Site, 03 medical and health sciences, 0302 clinical medicine, Tandem Mass Spectrometry, Cell surface receptor, Humans, Protein Isoforms, Amino Acid Sequence, Phosphorylation, Molecular Biology, 030304 developmental biology, 0303 health sciences, Kinase, Cyclin-dependent kinase 5, Membrane Proteins, Signal transducing adaptor protein, Cyclin-Dependent Kinase 5, Cell biology, HEK293 Cells, nervous system, NUMB, Tyrosine, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, HeLa Cells
Abstract

Numb is an adaptor protein that functions in the endocytosis and intracellular trafficking of membrane receptors and adhesion molecules. Previous studies have indicated that Numb localization and function are regulated through phosphorylation by atypical protein kinase C at several key sites. Here, using LC-MS/MS, we report the identification of 25 serine/threonine Numb phosphorylation sites, and a single tyrosine phosphorylation site. Amino acid sequences flanking several of the sites identified conform to consensus motifs for cyclin-dependent kinase 5 (CDK5). In vitro kinase assays and immunoblotting confirmed that CDK5 phosphorylates Numb. LC-MS/MS analysis identified specific CDK5-directed phosphorylation of Numb at position S288 and at two additional regions. Therefore, Numb is likely to exist in multiple phospho-isoforms, and may be subject to phosphorylation-mediated regulation downstream of CDK5. These findings provide a basis for further investigations into the complex role of Numb phosphorylation in regulating its subcellular localization, protein interactions, and function. All MS data have been deposited in the ProteomeXchange with identifier PXD000997 (http://proteomecentral.proteomexchange.org/dataset/PXD000997).

Published
2015
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16. Differential regulation of FGFR3 by PTPN1 and PTPN2

Author

Zhihua Li, Benjamin G. Neel, Troy Ketela, Michael F. Moran, Wen Zhang, Paul J. Taylor, Jason Moffat, Suzanne Trudel, and Jonathan St-Germain

Subjects
musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, Glycosylation, Molecular Sequence Data, Phosphatase, Biology, Biochemistry, Article, RNA interference, Cell Line, Tumor, Humans, Receptor, Fibroblast Growth Factor, Type 3, Amino Acid Sequence, Phosphorylation, Receptor, Molecular Biology, Protein Tyrosine Phosphatase, Non-Receptor Type 1, Protein Tyrosine Phosphatase, Non-Receptor Type 2, Gene knockdown, musculoskeletal system, Molecular biology, Endocytosis, Gene Expression Regulation, Neoplastic, stomatognathic diseases, Protein kinase domain, RNA Interference, PTPN1, Multiple Myeloma, Tyrosine kinase
Abstract

Aberrant expression and activation of FGFR3 is associated with disease states including bone dysplasia and malignancies of bladder, cervix, and bone marrow. MS analysis of protein-phosphotyrosine in multiple myeloma cells revealed a prevalent phosphorylated motif, D/EYYR/K, derived from the kinase domain activation loops of tyrosine kinases including FGFR3 corresponding to a recognition sequence of protein-tyrosine phosphatase PTPN1. Knockdown of PTPN1 or the related enzyme PTPN2 by RNAi resulted in ligand-independent activation of FGFR3. Modulation of FGFR3 activation loop phosphorylation by both PTPN1 and PTPN2 was a function of receptor trafficking and phosphotyrosine phosphatase (PTP) compartmentalization. The FGFR3 activation loop motif DYYKK(650) is altered to DYYKE(650) in the oncogenic variant FGFR3(K650E) , and consequently it is constitutively fully activated and unaffected by activation loop phosphorylation. FGFR3(K650E) was nevertheless remarkably sensitive to negative regulation by PTPN1 and PTPN2. This suggests that in addition to modulating FGFR3 phosphorylation, PTPN1 and PTPN2 constrain the kinase domain by fostering an inactive-state. Loss of this constraint in response to ligand or impaired PTPN1/N2 may initiate FGFR3 activation. These results suggest a model wherein PTP expression levels may define conditions that select for ectopic FGFR3 expression and activation during tumorigenesis.

Published
2014
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17. Ubiquitination of the transcription factor c-MAF is mediated by multiple lysine residues

Author

Jiefei Tong, Chuanqi Yang, Haixia Zhou, Siyue Li, Jie Li, Juan Tang, Depei Wu, Michael F. Moran, Xinliang Mao, Biyin Cao, Zubin Zhang, Guodong Chen, Xin Xu, and Kunkun Han

Subjects
Proteasome Endopeptidase Complex, Molecular Sequence Data, Mutant, Lysine, Ubiquitin-conjugating enzyme, Transfection, complex mixtures, Biochemistry, Cyclin D2, Ubiquitin, Cell Line, Tumor, Humans, Luciferase, Amino Acid Sequence, Transcription factor, biology, Ubiquitination, Cell Biology, HEK293 Cells, Proteasome, Proto-Oncogene Proteins c-maf, Mutation, biology.protein, bacteria, Lysosomes, Multiple Myeloma, HeLa Cells
Abstract

The transcription factor c-MAF could be polyubiquitinated and subsequently degraded in the proteasomes. Theoretically, any lysine residues in c-MAF could be ubiquitinated. In the present study, we tried to find out the specific lysine residue(s) mediating c-MAF ubiquitination. Through a series of mutational screens from lysine (K) to arginine (R), we found that any single lysine mutation (K to R) failed to prevent c-MAF ubiquitination, and any single lysine residue alone could not mediate c-MAF ubiquitination, which indicated that multiple lysine residues were required for c-MAF ubiquitination. Bioinformatics and computing analyses revealed that K85 and K350 could mediate c-MAF ubiquitination, which was confirmed by the cell-based assays. However, this duo was not the only pair because the K85R/K350R mutant could also be ubiquitinated. Functionally, both M12 (K85/K350) and W12 (K85R/K350R) mutants increased cyclin D2 promoter-driven luciferase activity, but they were less potent than the lysine-free counterpart (M14). In addition, M14 induced a higher level of expression of cyclin D2 at both mRNA and protein levels. Therefore, we demonstrated that c-MAF ubiquitination is mediated by multiple lysine residues, of which K85 and K350 were sufficient but not the only residues in mediating c-MAF ubiquitination. Moreover, c-MAF was found to be degraded by lysosomes. This study added a novel insight for c-MAF ubiquitination and degradation, suggesting that c-MAF stability is strictly regulated.

Published
2014
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18. MTE01.02 Lung Patient Derived Xenograft and Organoid

Author

Jiefei Tong, R. Shi, Nadeem Moghal, M. Tsao, Melania Pintilie, Dennis Wang, Frances A. Shepherd, S. Martins-Filho, L. Li, Jessica Weiss, Nhu-An Pham, Nikolina Radulovich, Erin L. Stewart, Michael F. Moran, Madeline Li, Quan Li, Natasha B. Leighl, Laura Tamblyn, Vibha Raghavan, G. Liu, D. Ravi, and Chang-Qi Zhu

Subjects
0301 basic medicine, Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Lung, business.industry, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, medicine, Organoid, business, Tumor xenograft
Published
2018
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19. Structural and Functional Characterization of Ubiquitin Variant Inhibitors of USP15

Author

Jason Moffat, Frank W. Schmitges, Bradley B. Brasher, Carsten Schwerdtfeger, Patrick Jaynes, Michael F. Moran, Pieter Johan Adam Eichhorn, Alex U. Singer, Joan Teyra, G. Boehmelt, M.J. Polyak, Philippe Gros, J. Tong, Derek F. Ceccarelli, Nassima Fodil, Jonathan R. Krieger, S. Kit Leng Lui, M. Lenter, Frank Sicheri, and Sachdev S. Sidhu

Subjects
Models, Molecular, Protein Conformation, alpha-Helical, TRIM25, Ubiquitin-Protein Ligases, Dimer, Genetic Vectors, Gene Expression, Crystallography, X-Ray, Substrate Specificity, Deubiquitinating enzyme, Transforming Growth Factor beta1, Tripartite Motif Proteins, 03 medical and health sciences, chemistry.chemical_compound, Ubiquitin, Structural Biology, Catalytic Domain, Escherichia coli, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, 030304 developmental biology, 0303 health sciences, Sequence Homology, Amino Acid, biology, Chemistry, 030302 biochemistry & molecular biology, Ubiquitination, Active site, Recombinant Proteins, Cell biology, HEK293 Cells, biology.protein, Phosphorylation, Protein Conformation, beta-Strand, Ubiquitin-Specific Proteases, Protein Multimerization, Sequence Alignment, Function (biology), Protein Binding, Transcription Factors, Deubiquitination
Abstract

Summary The multi-domain deubiquitinase USP15 regulates diverse eukaryotic processes and has been implicated in numerous diseases. We developed ubiquitin variants (UbVs) that targeted either the catalytic domain or each of three adaptor domains in USP15, including the N-terminal DUSP domain. We also designed a linear dimer (diUbV), which targeted the DUSP and catalytic domains, and exhibited enhanced specificity and more potent inhibition of catalytic activity than either UbV alone. In cells, the UbVs inhibited the deubiquitination of two USP15 substrates, SMURF2 and TRIM25, and the diUbV inhibited the effects of USP15 on the transforming growth factor β pathway. Structural analyses revealed that three distinct UbVs bound to the catalytic domain and locked the active site in a closed, inactive conformation, and one UbV formed an unusual strand-swapped dimer and bound two DUSP domains simultaneously. These inhibitors will enable the study of USP15 function in oncology, neurology, immunology, and inflammation.

Published
2019
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20. Primary Tumor Xenografts of Human Lung Adeno and Squamous Cell Carcinoma Express Distinct Proteomic Signatures

Author

Jiefei Tong, Paul J. Taylor, Thomas Kislinger, Nhu-An Pham, Igor Jurisica, Frances A. Shepherd, Geoffrey Liu, Naoki Yanagawa, Ming-Sound Tsao, Michael F. Moran, Yuhong Wei, Vladimir Ignatchenko, and Dan Strumpf

Subjects
Proteome, Blotting, Western, Transplantation, Heterologous, Adenocarcinoma, Biochemistry, Statistics, Nonparametric, Mice, Mice, Inbred NOD, Tandem Mass Spectrometry, Carcinoma, Non-Small-Cell Lung, Carcinoma, medicine, Animals, Cluster Analysis, Humans, Epidermal growth factor receptor, Lung cancer, biology, Keratin-7, Reproducibility of Results, General Chemistry, medicine.disease, Immunohistochemistry, Primary tumor, Virology, ErbB Receptors, Transplantation, Keratin 7, Carcinoma, Squamous Cell, Cancer research, biology.protein, Keratins, Neoplasm Transplantation, Chromatography, Liquid
Abstract

Nonsmall cell lung carcinoma (NSCLC) accounts for 80% of lung cancers. The most prevalent subtypes of NSCLC are adenocarcinoma (ADC) and squamous cell carcinoma (SCC), which combined account for approximately 90%. Ten resected NSCLC patient tumors (5 ADC and 5 SCC) were directly introduced into severely immune deficient (NOD-SCID) mice, and the resulting xenograft tumors were analyzed by standard histology and immunohistochemistry (IHC) and by proteomics profiling. Mass spectrometry (MS) methods involving 1- and 2-dimensional LC-MS/MS, and multiplexed selective reaction monitoring (SRM, or MRM), were applied to identify and quantify the xenograft proteomes. Hierarchical clustering of protein profiles distinguished between the ADC and SCC subtypes. The differential expression of 178 proteins, including a comprehensive panel of intermediate filament keratin proteins, was found to constitute a distinctive proteomic signature associated with the NSCLC subtypes. Epidermal growth factor receptor (EGFR) was expressed in ADC and SCC xenografts, and EGFR network activation was assessed by phosphotyrosine profiling by Western blot analysis and SRM measurement of EGFR levels, and mutation analysis. A multiplexed SRM/MRM method provided relative quantification of several keratin proteins, EGFR and plakophilin-1 in single LC-MS/MS runs. The protein quantifications by SRM and MS/MS spectral counting were associated with superior dynamic range and reproducibility but were otherwise consistent with orthogonal methods including IHC and Western immuno blotting. These findings illustrate the potential to develop a comprehensive MS-based platform in oncologic pathology for better classification and potentially treatment of NSCLC patients.

Published
2011
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21. Measurement of Protein Phosphorylation Stoichiometry by Selected Reaction Monitoring Mass Spectrometry

Author

Jiefei Tong, Michael F. Moran, Amol Prakash, Lily L. Jin, Scott Peterman, Jonathan St-Germain, Suzanne Trudel, and Paul J. Taylor

Subjects
Proteomics, Peptide, Mice, SCID, Mass spectrometry, Biochemistry, Mass Spectrometry, Cell Line, Mice, Mice, Inbred NOD, LYN, Animals, Humans, Protein phosphorylation, Phosphorylation, chemistry.chemical_classification, Chromatography, Fourier Analysis, Chemistry, Phosphopeptide, Selected reaction monitoring, Proteins, General Chemistry, Phosphoproteins, Label-free quantification, src-Family Kinases, Tyrosine, Multiple Myeloma, Neoplasm Transplantation
Abstract

The stoichiometry of protein phosphorylation at specific amino acid sites may be used to infer on the significance of the modification, and its biological function in the cell. However, detection and quantification of phosphorylation stoichiometry in tissue remain a significant challenge. Here we describe a strategy for highly sensitive, label-free quantification of protein phosphorylation stoichiometry. Method development included the analysis of synthetic peptides in order to determine constants to relate the mass spectrometry signals of cognate peptide/phosphopeptide pairs, and the detection of the cognate peptides by using high resolution Fourier Transform mass spectrometry (FTMS) and selected reaction monitoring mass spectrometry (SRM). By analyzing extracted ion currents by FTMS, the phosphorylation stoichiometries of two tyrosine residues (tyrosine-194 and tyrosine-397) in the protein tyrosine kinase Lyn were determined in transfected human HEK293T cells and two cultured human multiple myeloma strains. To achieve high sensitivity to measure phosphorylation stoichiometry in tissue, SRM methods were developed and applied for the analysis of phosphorylation stoichiometries of Lyn phospho-sites in multiple myeloma xenograft tumors. Western immuno-blotting was used to verify mass spectrometry findings. The SRM method has potential applications in analyzing clinical samples wherein protein phosphorylation stoichiometries may represent important pharmacodynamic biomarkers.

Published
2010
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22. Tandem Immunoprecipitation of Phosphotyrosine-Mass Spectrometry (TIPY-MS) Indicates C19ORF19 Becomes Tyrosine-Phosphorylated and Associated with Activated Epidermal Growth Factor Receptor

Author

Ana Nikolic, Michael F. Moran, Eleonora Jovceva, Jiefei Tong, Lily L. Jin, Xiaoping Gu, Suzanne Trudel, Paul Taylor, Jonathan St-Germain, and Zhihua Li

Subjects
Regulation of gene expression, Immunoprecipitation, Molecular Sequence Data, General Chemistry, Biology, Biochemistry, Molecular biology, Mass Spectrometry, Cell Line, ErbB Receptors, Gene product, Open Reading Frames, Epidermal growth factor, biology.protein, Humans, Phosphorylation, ERBB3, Amino Acid Sequence, Epidermal growth factor receptor, Tyrosine, Phosphotyrosine
Abstract

To identify phosphotyrosine (pY) sites in the epidermal growth factor receptor (EGFR) network, a tandem immunoprecipitation-mass spectrometry method (TIPY-MS) was applied wherein protease-digested EGFR immune complexes were extracted with anti-pY after Rush et al. ( Nat. Biotech. 2005, 23, 94 ) and analyzed by LC-MS/MS. New pY sites in the pathway were found, including SOS1 Y1065, SOS2 Y1275, CBL-B Y889, and in the EGFR regulatory protein Mig-6 Y458. The novel human C19orf19 gene product was found EGFR-associated and phosphorylated at 5 tyrosines in response to EGFR activation and, therefore, represents a new component of the EGFR signaling network.

Published
2008
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23. A mass spectrometry based method for distinguishing between symmetrically and asymmetrically dimethylated arginine residues

Author

Linda McBroom-Cerajewski, Michael F. Moran, and Cynthia J. Brame

Subjects
chemistry.chemical_classification, Spectrometry, Mass, Electrospray Ionization, Arginine, Stereochemistry, Electrospray ionization, Molecular Sequence Data, Organic Chemistry, Peptide, Methylation, Tandem mass spectrometry, Mass spectrometry, Peptide Fragments, Analytical Chemistry, chemistry.chemical_compound, Isomerism, Biochemistry, chemistry, Amino Acid Sequence, Peptides, Peptide sequence, Dimethylamine, Spectroscopy
Abstract

The arginine methylation of proteins is involved in several important cellular activities, most notably transcriptional control. Arginine dimethylation can take two distinct forms, symmetric and asymmetric, catalyzed by different classes of enzymes. To establish a method for the mass spectrometric identification and characterization of this post-translational modification, we analyzed synthetic peptides with symmetrically or asymmetrically methylated arginine residues by electrospray ionization tandem mass spectrometry. We observed abundant characteristic ions at [M+nH-31](n+) and [M+nH-70](n+) in spectra of symmetrically methylated peptides and at [M+nH-45](n+) in spectra of asymmetrically methylated peptides. We speculate these ions arise from neutral loss of monomethylamine, dimethylcarbodiimide, and dimethylamine, respectively. These characteristic ions allowed the rapid identification of a symmetrically arginine-dimethylated peptide from myelin basic protein and a symmetrically arginine-dimethylated peptide from SmD3 co-immunoprecipitated with the methyltransferase-associated protein pICln, suggesting that this method may provide a rapid means to screen for and characterize dimethylarginine sites.

Published
2004
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24. Differential phosphoprofiles of EGF and EGFR kinase inhibitor-treated human tumor cells and mouse xenografts

Author

Chris Orsi, David R. Stover, Jennifer Caldwell, Doriano Fabbro, Michael F. Moran, Nina Radosevic, Jarrod A. Marto, Linda Liao, Olga Ornatsky, Juergan Mestan, Karen E. Root, and Michael Stumm

Subjects
biology, Kinase, medicine.drug_class, Growth factor, medicine.medical_treatment, Clinical Biochemistry, General Medicine, Protein kinase inhibitor, Proteomics, Molecular biology, Cell culture, medicine, biology.protein, Molecular Medicine, Phosphorylation, Epidermal growth factor receptor, Molecular Biology, A431 cells
Abstract

The purpose of this phospho-proteomics study was to demonstrate the broad analysis of cellular protein phosphorylation in cells and tissue as a means to monitor changes in cellular states. As a cancer model, human tumor-derived A431 cells known to express the epidermal growth factor receptor (EGFR) were grown as cell cultures or xenograft tumors in mice. The cells and tumor-bearing animals were subjected to treatments including the EGFR-directed protein kinase inhibitor PK166 and/or EGF stimulation. Whole cell/tissue protein extracts were converted to peptides by using trypsin, and phosphorylated peptides were purified by an affinity capture method. Peptides and phosphorylation sites were characterized and quantified by using a combination of tandem mass spectroscopy (MS) and Fourier transform MS instrumentation (FTMS). By analyzing roughly 106 cell equivalents, 780 unique phosphopeptides from approx 450 different proteins were characterized. Only a small number of these phosphorylation sites have been described previously in literature. Although a targeted analysis of the EGFR pathway was not a specific aim of this study, 22 proteins known to be associated with EGFR signaling were identified. Fifty phosphopeptides were found changed in abundance as a function of growth factor or drug treatment including novel sites of phosphorylation on the EGFR itself. These findings demonstrate the feasibility of using phospho-proteomics to determine drug and disease mechanisms, and as a measure of drug target modulation in tissue.

Published
2004
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25. PUB052 Proteome Signatures and New Cancer Drivers

Author

Melania Pintilie, Jiefei Tong, Shingo Sakashita, Bethany Pitcher, Tao Wang, Wen Zhang, Ming Tsao, Nhu-An Pham, Paul Taylor, Ming Li, Michael F. Moran, and Michael Cabanero

Subjects
Pulmonary and Respiratory Medicine, Oncology, business.industry, Proteome, medicine, Cancer, Computational biology, medicine.disease, business
Published
2017
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31. DNA repair pathway in alkylated human cells: apurinic/apyrimidinic intermediate resolved by Escherichia coli endonuclease IV-coupled alkaline elution

Author

Michael F. Moran and Kaney Ebisuzaki

Subjects
Cancer Research, Nuclease, Endodeoxyribonucleases, Alkylation, DNA Repair, biology, DNA repair, Escherichia coli Proteins, General Medicine, DNA Repair Pathway, Hydrogen-Ion Concentration, Sulfuric Acid Esters, Molecular biology, DNA-(apurinic or apyrimidinic site) lyase, Deoxyribonuclease IV (Phage T4-Induced), AP endonuclease, Endonuclease, Biochemistry, DNA glycosylase, DNA-(Apurinic or Apyrimidinic Site) Lyase, Escherichia coli, biology.protein, Humans, AP site, HeLa Cells
Abstract

Apurinic/apyrimidinic (AP) sites were measured in HeLa cells by digestion of cellular DNA with Escherichia coli endonuclease IV, an AP-specific endonuclease, prior to alkaline elution. The absence of non-specific endonuclease activity allowed endonuclease IV-sensitive AP sites to be detected with the sensitivity of conventional alkaline elution. Cells that were alkylated with dimethyl sulfate contained AP sites that were repaired along with DNA single-strand breaks during a post-alkylation recovery period. These results show that DNA alkylation products are repaired, at least in part, via an AP intermediate suggesting a repair pathway initiated by DNA glycosylases followed by DNA incision by AP endonuclease.

Published
1986
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32. Purification and identification of cell surface antigens using lamprey monoclonal antibodies

Author

Michael F. Moran, Yanling Liu, David L. Jaye, Shabab Ali, Max D. Cooper, Götz R. A. Ehrhardt, Xuecong Yu, Cuiling Yu, and Jonathan St-Germain

Subjects
Antigen identification, medicine.drug_class, Evolution, T-Lymphocytes, Immunology, Antibody Affinity, Plasma protein binding, Monoclonal antibody, Sensitivity and Specificity, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Variable lymphocyte receptor, Antigen, law, Monoclonal, medicine, Animals, Humans, Immunology and Allergy, Immunosorbent Techniques, 030304 developmental biology, 0303 health sciences, biology, Mass spectrometry, Lamprey, Antibodies, Monoclonal, Lampreys, biology.organism_classification, Molecular biology, VLR antibody, Larva, Antigens, Surface, biology.protein, Recombinant DNA, Immunization, Antibody, Protein Binding, 030215 immunology
Abstract

Variable lymphocyte receptor (VLR) B antibodies of the evolutionary distant sea lamprey are structurally distinct from conventional mammalian antibodies. The different protein architecture and large evolutionary distance of jawless vertebrates suggest that VLR antibodies may represent promising tools for biomarker discovery. Here we report the generation of panels of monoclonal VLR antibodies from lamprey larvae immunized with human T cells and the use of a recombinant monoclonal VLR antibody for antigen purification and mass spectrometric identification. We demonstrate that despite predicted low affinity of individual VLR antigen binding units to the antigen, the high avidity resulting from decameric assembly of secreted VLR antibodies allows for efficient antigen capture and subsequent identification by mass spectometry. We show that VLR antibodies detect their antigens with high specificity and can be used in various standard laboratory application techniques. The lamprey antibodies are novel reagents that can complement conventional monoclonal antibodies in multiple scientific research disciplines.

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33. New Targets for an Old Drug: A Chemical Proteomics Approach to Unraveling the Molecular Mechanism of Action of Methotrexate

Author

Shane Climie, Christopher M. Hosfield, Leticia Toledo-Sherman, Michael F. Moran, Paul J. Taylor, Kelly Boutillier, Leroi V. DeSouza, Linda Liao, and Linda McBroom-Cerajewski

Subjects
Drug, Chemistry, media_common.quotation_subject, Clinical Biochemistry, General Medicine, Pharmacology, Proteomics, Action (philosophy), Molecular mechanism, medicine, Molecular Medicine, Methotrexate, Molecular Biology, medicine.drug, media_common
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34. Base excision repair of DNA in γ-irradiated human cells

Author

Kaney Ebisuzaki and Michael F. Moran

Subjects
Cancer Research, DNA Repair, biology, DNA, General Medicine, Base excision repair, Hydrogen-Ion Concentration, medicine.disease_cause, Molecular biology, chemistry.chemical_compound, Endonuclease, chemistry, Gamma Rays, DNA glycosylase, Cell culture, biology.protein, medicine, Humans, AP site, Escherichia coli, HeLa Cells, Nucleotide excision repair
Abstract

Escherichia coli endonuclease IV was used to incise cellular DNA specifically at apurinic/apyrimidinic (AP) sites prior to alkaline elution to measure the resulting DNA strand breaks. gamma-Irradiated HeLa cells initially contained DNA strand breaks and no AP sites. Upon incubation at 37 degrees C the strand breaks were rapidly repaired and AP sites were generated and subsequently repaired. The transient nature of the AP sites indicates the in vivo operation of a base excision repair pathway whereby damaged bases are removed from DNA by DNA glycosylases to produce AP intermediates that are then substrates for AP endonucleases.

Published
1987
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35. Activation of mitogen-activated protein kinase signaling and development of papillary thyroid carcinoma in thyroid-stimulating hormone receptor D633H knockin mice

Author

Markus Eszlinger, Alexandra Stephenson, Shideh Mirhadi, Konrad Patyra, Michael F Moran, Moosa Khalil, Jukka Kero, and Ralf Paschke

Subjects
thyroid, cancer, hot thyroid nodules, mouse model, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Objective: Nonautoimmune hyperthyroidism (NAH) is rare and occurs due to a constitutively activating thyroid stimulating hormone receptor (TSHR) mutation. In contrast to other thyroid nodules, no further evaluation for malignancy is recommended for hot thyroid nodules. In the first model for NAH in mice nearly all homozygous mice had developed papillary thyroid cancer by 12 months of age. Methods: To further evaluate these mice, whole exome sequencing and phosphoproteome analysis were employed in a further generation of mice to identify any other mutations potentially responsible and to identify the pathways involved in thyroid carcinoma development. Results: Only three genes (Nrg1, Rrs1, Rasal2) were mutated in all mice examined, none of which were known primary drivers of papillary thyroid cancer development. Wild-type and homozygous TSHR D633H knockin mice showed distinct phosphoproteome profiles with an enrichment of altered phosphosites found in ERK/mitogen-activated protein kinase (MAPK) signaling. Most importantly, phosphosites with known downstream effects included BRAF p.S766, which forms an inhibitory site: a decrease of phosphorylation at this site suggests an increase in MEK/ERK pathway activation. The decreased phosphorylation at BRAF p.S766 would suggest decreased AMP-activated protein kinase (AMPK) signaling, which is supported by the decreased phosphorylation of STIM1 p.S257, a downstream AMPK target. Conclusion: The modified phosphoproteome profile of the homozygous mice in combination with human literature suggests a potential signaling pathway from constitutive TSHR signaling and cAMP activation to the activation of ERK/MAPK signaling. This is the first time that a specific mechanism has been identified for a possible involvement of TSH signaling in thyroid carcinoma development.

Published
2023
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36. Refined RIP-seq protocol for epitranscriptome analysis with low input materials.

Author

Yong Zeng, Shiyan Wang, Shanshan Gao, Fraser Soares, Musadeqque Ahmed, Haiyang Guo, Miranda Wang, Junjie Tony Hua, Jiansheng Guan, Michael F Moran, Ming Sound Tsao, and Housheng Hansen He

Subjects
Biology (General), QH301-705.5
Abstract

N6-Methyladenosine (m6A) accounts for approximately 0.2% to 0.6% of all adenosine in mammalian mRNA, representing the most abundant internal mRNA modifications. m6A RNA immunoprecipitation followed by high-throughput sequencing (MeRIP-seq) is a powerful technique to map the m6A location transcriptome-wide. However, this method typically requires 300 μg of total RNA, which limits its application to patient tumors. In this study, we present a refined m6A MeRIP-seq protocol and analysis pipeline that can be applied to profile low-input RNA samples from patient tumors. We optimized the key parameters of m6A MeRIP-seq, including the starting amount of RNA, RNA fragmentation, antibody selection, MeRIP washing/elution conditions, methods for RNA library construction, and the bioinformatics analysis pipeline. With the optimized immunoprecipitation (IP) conditions and a postamplification rRNA depletion strategy, we were able to profile the m6A epitranscriptome using 500 ng of total RNA. We identified approximately 12,000 m6A peaks with a high signal-to-noise (S/N) ratio from 2 lung adenocarcinoma (ADC) patient tumors. Through integrative analysis of the transcriptome, m6A epitranscriptome, and proteome data in the same patient tumors, we identified dynamics at the m6A level that account for the discordance between mRNA and protein levels in these tumors. The refined m6A MeRIP-seq method is suitable for m6A epitranscriptome profiling in a limited amount of patient tumors, setting the ground for unraveling the dynamics of the m6A epitranscriptome and the underlying mechanisms in clinical settings.

Published
2018
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37. Distinct Regulation of Transmitter Release at the Drosophila NMJ by Different Isoforms of nemy.

Author

David Knight, Konstantin G Iliadi, Natalia Iliadi, Ronit Wilk, Jack Hu, Henry M Krause, Paul Taylor, Michael F Moran, and Gabrielle L Boulianne

Subjects
Medicine, Science
Abstract

Synaptic transmission is highly plastic and subject to regulation by a wide variety of neuromodulators and neuropeptides. In the present study, we have examined the role of isoforms of the cytochrome b561 homologue called no extended memory (nemy) in regulation of synaptic strength and plasticity at the neuromuscular junction (NMJ) of third instar larvae in Drosophila. Specifically, we generated two independent excisions of nemy that differentially affect the expression of nemy isoforms. We show that the nemy45 excision, which specifically reduces the expression of the longest splice form of nemy, leads to an increase in stimulus evoked transmitter release and altered synaptic plasticity at the NMJ. Conversely, the nemy26.2 excision, which appears to reduce the expression of all splice forms except the longest splice isoform, shows a reduction in stimulus evoked transmitter release, and enhanced synaptic plasticity. We further show that nemy45 mutants have reduced levels of amidated peptides similar to that observed in peptidyl-glycine hydryoxylating mono-oxygenase (PHM) mutants. In contrast, nemy26.2 mutants show no defects in peptide amidation but rather display a decrease in Tyramine β hydroxylase activity (TβH). Taken together, these results show non-redundant roles for the different nemy isoforms and shed light on the complex regulation of neuromodulators.

Published
2015
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38. Odin (ANKS1A) modulates EGF receptor recycling and stability.

Author

Jiefei Tong, Yaroslav Sydorskyy, Jonathan R St-Germain, Paul Taylor, Ming S Tsao, and Michael F Moran

Subjects
Medicine, Science
Abstract

The ANKS1A gene product, also known as Odin, was first identified as a tyrosine-phosphorylated component of the epidermal growth factor receptor network. Here we show that Odin functions as an effector of EGFR recycling. In EGF-stimulated HEK293 cells tyrosine phosphorylation of Odin was induced prior to EGFR internalization and independent of EGFR-to-ERK signaling. Over-expression of Odin increased EGF-induced EGFR trafficking to recycling endosomes and recycling back to the cell surface, and decreased trafficking to lysosomes and degradation. Conversely, Odin knockdown in both HEK293 and the non-small cell lung carcinoma line RVH6849, which expresses roughly 10-fold more EGF receptors than HEK293, caused decreased EGFR recycling and accelerated trafficking to the lysosome and degradation. By governing the endocytic fate of internalized receptors, Odin may provide a layer of regulation that enables cells to contend with receptor cell densities and ligand concentration gradients that are physiologically and pathologically highly variable.

Published
2013
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