Your search keyword '"Li, Mamie"' showing total 18 results

1. Gain-of-function genetic screening identifies the antiviral function of TMEM120A via STING activation.

Author

Li, Shuo, Qian, Nianchao, Jiang, Chao, Zu, Wenhong, Liang, Anthony, Li, Mamie, Elledge, Stephen J., and Tan, Xu

Subjects

GENETIC testing, ZIKA virus infections, ZIKA virus, INFECTION, MEDICAL screening, TYPE I interferons

Abstract

Zika virus (ZIKV) infection can be associated with neurological pathologies, such as microcephaly in newborns and Guillain-Barre syndrome in adults. Effective therapeutics are currently not available. As such, a comprehensive understanding of virus-host interactions may guide the development of medications for ZIKV. Here we report a human genome-wide overexpression screen to identify host factors that regulate ZIKV infection and find TMEM120A as a ZIKV restriction factor. TMEM120A overexpression significantly inhibits ZIKV replication, while TMEM120A knockdown increases ZIKV infection in cell lines. Moreover, Tmem120a knockout in mice facilitates ZIKV infection in primary mouse embryonic fibroblasts (MEF) cells. Mechanistically, the antiviral activity of TMEM120A is dependent on STING, as TMEM120A interacts with STING, promotes the translocation of STING from the endoplasmic reticulum (ER) to ER-Golgi intermediate compartment (ERGIC) and enhances the phosphorylation of downstream TBK1 and IRF3, resulting in the expression of multiple antiviral cytokines and interferon-stimulated genes. In summary, our gain-of-function screening identifies TMEM120A as a key activator of the antiviral signaling of STING. Understanding the interplay between host and viral factors during infection is essential for the interactome of infection. Here the authors perform a gain-of-function screen to identify factors involved during Zika virus infection and identify TMEM120A as a key factor in the STING mediated immune responses. [ABSTRACT FROM AUTHOR]

Published

2022

2. The adaptive immune system is a major driver of selection for tumor suppressor gene inactivation.

Author

Martin, Timothy D., Patel, Rupesh S., Cook, Danielle R., Choi, Mei Yuk, Patil, Ajinkya, Liang, Anthony C., Li, Mamie Z., Haigis, Kevin M., and Elledge, Stephen J.

Published

2021

3. A Druggable Genome Screen Identifies Modifiers of α-Synuclein Levels via a Tiered Cross-Species Validation Approach.

Author

Rousseaux, Maxime W. C., Vázquez-Vélez, Gabriel E., Al-Ramahi, Ismael, Hyun-Hwan Jeong, Bajić, Aleksandar, Revelli, Jean-Pierre, Hui Ye, Phan, Emily T., Deger, Jennifer M., Perez, Alma M., Kim, Ji-Yoen, Lavery, Laura A., Qikia Xu, Li, Mamie Z., Hyojin Kang, Kim, Jean J., Shulman, Joshua M., Westbrook, Thomas F., Elledge, Stephen J., and Zhandong Liu

Subjects

PARKINSON'S disease, SYNUCLEINS, NEURODEGENERATION, GENETIC mutation, GENE expression, PROTEINS

Abstract

Accumulation of ‘-Synuclein (‘-Syn) causes Parkinson's disease (PD) as well as other synucleopathies. ‘-Syn is the major component of Lewy bodies and Lewy neurites, the proteinaceous aggregates that are a hallmark of sporadic PD. In familial forms of PD, mutations or copy number variations in SNCA (the ‘-Syn gene) result in a net increase of its protein levels. Furthermore, common risk variants tied to PD are associated with small increases of wild-type ‘-Syn levels. These findings are further bolstered by animal studies which show that overexpression of ‘-Syn is sufficient to cause PD-like features. Thus, increased a-Syn levels are intrinsically tied to PD pathogenesis and underscore the importance of identifying the factors that regulate its levels. In this study, we establish a pooled RNAi screening approach and validation pipeline to probe the druggable genome for modifiers of a-Syn levels and identify 60 promising targets. Using a crossspecies, tiered validation approach, we validate six strong candidates that modulate ‘-Syn levels and toxicity in cell lines, Drosophila, human neurons, and mouse brain of both sexes. More broadly, this genetic strategy and validation pipeline can be applied for the identification of therapeutic targets for disorders driven by dosage-sensitive proteins. [ABSTRACT FROM AUTHOR]

Published

2018

4. A Role for Mitochondrial Translation in Promotion of Viability in K-Ras Mutant Cells.

Author

Martin, Timothy D., Cook, Danielle R., Choi, Mei Yuk, Li, Mamie Z., Haigis, Kevin M., and Elledge, Stephen J.

Abstract

Summary Activating mutations in the KRAS oncogene are highly prevalent in tumors, especially those of the colon, lung, and pancreas. To better understand the genetic dependencies that K-Ras mutant cells rely upon for their growth, we employed whole-genome CRISPR loss-of-function screens in two isogenic pairs of cell lines. Since loss of essential genes is uniformly toxic in CRISPR-based screens, we also developed a small hairpin RNA (shRNA) library targeting essential genes. These approaches uncovered a large set of proteins whose loss results in the selective reduction of K-Ras mutant cell growth. Pathway analysis revealed that many of these genes function in the mitochondria. For validation, we generated isogenic pairs of cell lines using CRISPR-based genome engineering, which confirmed the dependency of K-Ras mutant cells on these mitochondrial pathways. Finally, we found that mitochondrial inhibitors reduce the growth of K-Ras mutant tumors in vivo, aiding in the advancement of strategies to target K-Ras-driven malignancy. [ABSTRACT FROM AUTHOR]

Published

2017

5. Germline-encoded amino acid—binding motifs drive immunodominant public antibody responses.

Author

Shrock, Ellen L., Timms, Richard T., Kula, Tomasz, Mena, Elijah L., West, Anthony P. Jr., Guo, Rui, Lee, I-Hsiu, Cohen, Alexander A., McKay, Lindsay G. A., Bi, Caihong, Keerti, Leng, Yumei, Fujimura, Eric, Horns, Felix, Li, Mamie, Wesemann, Duane R., Griffiths, Anthony, Gewurz, Benjamin E., Bjorkman, Pamela J., and Elledge, Stephen J.

Published

2023

6. Systematic autoantigen analysis identifies a distinct subtype of scleroderma with coincident cancer.

Author

Xu, George J., Li, Mamie Z., Qikai Xu, Elledge, Stephen J., Shah, Ami A., Rosen, Antony, and Casciola-Rosen, Livia

Subjects

AUTOIMMUNITY, AUTOANTIGENS, SYSTEMIC scleroderma, RNA polymerase III, RNA-binding proteins

Abstract

Scleroderma is a chronic autoimmune rheumatic disease associated with widespread tissue fibrosis and vasculopathy. Approximately two-thirds of all patients with scleroderma present with three dominant autoantibody subsets. Here, we used a pair of complementary high-throughput methods for antibody epitope discovery to examine patients with scleroderma with or without known autoantibody specificities. We identified a specificity for the minor spliceosome complex containing RNA Binding Region (RNP1, RNA recognition motif) Containing 3 (RNPC3) that is found in patients with scleroderma without known specificities and is absent in unrelated autoimmune diseases. We found strong evidence for both intra- and intermolecular epitope spreading in patientswith RNA polymerase III (POLR3) and the minor spliceosome specificities. Our results demonstrate the utility of these technologies in rapidly identifying antibodies that can serve as biomarkers of disease subsets in the evolving precision medicine era. [ABSTRACT FROM AUTHOR]

Published

2016

7. SLIC: A Method for Sequence- and Ligation-Independent Cloning.

Author

Li, Mamie Z. and Elledge, Stephen J.

Published

2012

8. Tiling genomes of pathogenic viruses identifies potent antiviral shRNAs and reveals a role for secondary structure in shRNA efficacy.

Author

Xu Tan, Lu, Zhi John, Geng Gao, Qikai Xu, Long Hu, Fellmann, Christof, Li, Mamie Z., Hongjing Qu, Lowe, Scott W., Hannon, Gregory J., and Elledge, Stephen J.

Subjects

VIRAL genomes, CLINICAL trials, PATHOGENIC microorganisms, HEPATITIS C virus, INFLUENZA, HIV

Abstract

shRNAs can trigger effective silencing of gene expression in mammalian cells, thereby providing powerful tools for genetic studies, as well as potential therapeutic strategies. Specific shRNAs can interfere with the replication of pathogenic viruses and are currently being tested as antiviral therapies in clinical trials. However, this effort is hindered by our inability to systematically and accurately identify potent shRNAs for viral genomes. Here we apply a recently developed highly parallel sensor assay to identify potent shRNAs for HIV, hepatitis C virus (HCV), and influenza. We observe known and previously unknown sequence features that dictate shRNAs efficiency. Validation using HIV and HCV cell culture models demonstrates very high potency of the top-scoring shRNAs. Comparing our data with the secondary structure of HIV shows that shRNA efficacy is strongly affected by the secondary structure at the target RNA site. Artificially introducing secondary structure to the target site markedly reduces shRNA silencing. In addition, we observe that HCV has distinct sequence features that bias HCV-targeting shRNAs toward lower efficacy. Our results facilitate further development of shRNA based antiviral therapies and improve our understanding and ability to predict efficient shRNAs. [ABSTRACT FROM AUTHOR]

Published

2012

9. Autoantigen discovery with a synthetic human peptidome.

Author

Larman, H. Benjamin, Zhenming Zhao, Laserson, Uri, Li, Mamie Z., Ciccia, Alberto, Gakidis, M. Angelica Martinez, Church, George M., Kesari, Santosh, LeProust, Emily M., Solimini, Nicole L., and Elledge, Stephen J.

Subjects

IMMUNE response, PROTEINS, ANTIGENS, AUTOIMMUNE diseases, THERAPEUTICS

Abstract

Immune responses targeting self-proteins (autoantigens) can lead to a variety of autoimmune diseases. Identification of these antigens is important for both diagnostic and therapeutic reasons. However, current approaches to characterize autoantigens have, in most cases, met only with limited success. Here we present a synthetic representation of the complete human proteome, the T7 peptidome phage display library (T7-Pep), and demonstrate its application to autoantigen discovery. T7-Pep is composed of >413,000 36-residue, overlapping peptides that cover all open reading frames in the human genome, and can be analyzed using high-throughput DNA sequencing. We developed a phage immunoprecipitation sequencing (PhIP-Seq) methodology to identify known and previously unreported autoantibodies contained in the spinal fluid of three individuals with paraneoplastic neurological syndromes. We also show how T7-Pep can be used more generally to identify peptide-protein interactions, suggesting the broader utility of our approach for proteomic research. [ABSTRACT FROM AUTHOR]

Published

2011

10. The pINDUCER lentiviral toolkit for inducible RNA interference in vitro and in vivo.

Author

Meerbrey, Kristen L., Guang Hu, Kessler, Jessica D., Roarty, Kevin, Li, Mamie Z., Fang, Justin E., Herschkowitz, Jason I., Burrows, Anna E., Ciccia, Alberto, Tingting Sun, Schmitt, Earlene M., Bernardi, Ronald J., Xiaoyong Fu, Bland, Christopher S., Cooper, Thomas A., Schiff, Rachel, Rosen, Jeffrey M., Westbrook, Thomas F., and Elledge, Stephen J.

Subjects

RNA, GENE expression, CELL proliferation, MICROBIAL genetics, CELL populations, TARGETED drug delivery

Abstract

The discovery of RNAi has revolutionized loss-of-function genetic studies in mammalian systems. However, significant challenges still remain to fully exploit RNAi for mammalian genetics. For instance, genetic screens and in vivo studies could be broadly improved by methods that allow inducible and uniform gene expression control. To achieve this, we built the lentiviral pINDUCER series of expression vehicles for inducible RNAi in vivo. Using a multicistronic design, pINDUCER vehicles enable tracking of viral transduction and shRNA or cDNA induction in a broad spectrum of mammalian cell types in vivo. They achieve this uniform temporal, dose-dependent, and reversible control of gene expression across heterogenous cell populations via fluorescence-based quantification of reverse tet-transactivator expression. This feature allows isolation of cell populations that exhibit a potent, inducible target knockdown in vitro and in vivo that can be used in human xenotransplantation models to examine cancer drug targets. [ABSTRACT FROM AUTHOR]

Published

2011

11. Synthetic design of strong promoters.

Author

Schiabach, Michael R., Hu, Jimmy K., Li, Mamie, and Elledge, Stephen J.

Subjects

SYNTHETIC biology, CYTOLOGICAL research, GENETIC transcription, PROMOTERS (Genetics), EUKARYOTIC cells, OLIGONUCLEOTIDES

Abstract

We have taken a synthetic biology approach to the generation and screening of transcription factor binding sites for activity in human cells. All possible 10-mer DNA sequences were printed on microarrays as 100-mers containing 10 repeats of the same sequence in tandem, yielding an oligonucleotide library of 52,429 unique sequences. This library of potential enhancers was introduced into a retroviral vector and screened in multiple cell lines for the ability to activate GFP transcription from a minimal CMV promoter. With this method, we isolated 100 bp synthetic enhancer elements that were as potent at activating transcription as the WT CMV immediate early enhancer. The activity of the recovered elements was strongly dependent on the cell line in which they were recovered. None of the elements were capable of achieving the same levels of transcriptional enhancement across all tested cell lines as the CMV enhancer. A second screen, for enhancers capable of synergizing with the elements from the original screen, yielded compound enhancers that were capable of twofold greater enhancement. activity than the CMV enhancer, with higher levels of activity than the original synthetic enhancer across multiple cell lines. These findings suggest that the 10-mer synthetic enhancer space is sufficiently rich to allow the creation of synthetic promoters of all strengths in most, if not all, cell types. [ABSTRACT FROM AUTHOR]

Published

2010

12. Anaphase initiation is regulated by antagonistic ubiquitination and deubiquitination activities.

Author

Stegmeier, Frank, Rape, Michael, Draviam, Viji M., Nalepa, Grzegorz, Sowa, Mathew E., Ang, Xiaolu L., McDonald III, E. Robert, Li, Mamie Z., Hannon, Gregory J., Sorger, Peter K., Kirschner, Marc W., Harper, J. Wade, and Elledge, Stephen J.

Subjects

SPINDLE apparatus, UBIQUITIN, SISTER chromatid exchange, HUMAN abnormalities, KARYOKINESIS

Abstract

The spindle checkpoint prevents chromosome mis-segregation by delaying sister chromatid separation until all chromosomes have achieved bipolar attachment to the mitotic spindle. Its operation is essential for accurate chromosome segregation, whereas its dysregulation can contribute to birth defects and tumorigenesis. The target of the spindle checkpoint is the anaphase-promoting complex (APC), a ubiquitin ligase that promotes sister chromatid separation and progression to anaphase. Using a short hairpin RNA screen targeting components of the ubiquitin-proteasome pathway in human cells, we identified the deubiquitinating enzyme USP44 (ubiquitin-specific protease 44) as a critical regulator of the spindle checkpoint. USP44 is not required for the initial recognition of unattached kinetochores and the subsequent recruitment of checkpoint components. Instead, it prevents the premature activation of the APC by stabilizing the APC-inhibitory Mad2–Cdc20 complex. USP44 deubiquitinates the APC coactivator Cdc20 both in vitro and in vivo, and thereby directly counteracts the APC-driven disassembly of Mad2–Cdc20 complexes (discussed in an accompanying paper). Our findings suggest that a dynamic balance of ubiquitination by the APC and deubiquitination by USP44 contributes to the generation of the switch-like transition controlling anaphase entry, analogous to the way that phosphorylation and dephosphorylation of Cdk1 by Wee1 and Cdc25 controls entry into mitosis. [ABSTRACT FROM AUTHOR]

Published

2007

13. Harnessing homologous recombination in vitro to generate recombinant DNA via SLIC.

Author

Li, Mamie Z. and Elledge, Stephen J.

Subjects

GENETIC engineering, RECOMBINANT DNA, CLONING, DNA, GENETICS

Abstract

We describe a new cloning method, sequence and ligation–independent cloning (SLIC), which allows the assembly of multiple DNA fragments in a single reaction using in vitro homologous recombination and single-strand annealing. SLIC mimics in vivo homologous recombination by relying on exonuclease-generated ssDNA overhangs in insert and vector fragments, and the assembly of these fragments by recombination in vitro. SLIC inserts can also be prepared by incomplete PCR (iPCR) or mixed PCR. SLIC allows efficient and reproducible assembly of recombinant DNA with as many as 5 and 10 fragments simultaneously. SLIC circumvents the sequence requirements of traditional methods and functions much more efficiently at very low DNA concentrations when combined with RecA to catalyze homologous recombination. This flexibility allows much greater versatility in the generation of recombinant DNA for the purposes of synthetic biology. [ABSTRACT FROM AUTHOR]

Published

2007

14. Second-generation shRNA libraries covering the mouse and human genomes.

Author

Silva, Jose M., Li, Mamie Z., Chang, Ken, Wei Ge, Golding, Michael C., Rickles, Richard J., Siolas, Despina, Hu, Guang, Paddison, Patrick J, Schlabach, Michael R, Sheth, Nihar, Bradshaw, Jeff, Burchard, Julia, Kulkarni, Amit, Cavet, Guy, Sachidanandam, Ravi, McCombie, W. Richard, Cleary, Michele A., Elledge, Stephen J., and Hannon, Gregory J.

Subjects

PHENOTYPES, HUMAN genome, GENE expression, TRANSCRIPTION factors, ANIMAL models in research, GENETICS

Abstract

Loss-of-function phenotypes often hold the key to understanding the connections and biological functions of biochemical pathways. We and others previously constructed libraries of short hairpin RNAs that allow systematic analysis of RNA interference–induced phenotypes in mammalian cells. Here we report the construction and validation of second-generation short hairpin RNA expression libraries designed using an increased knowledge of RNA interference biochemistry. These constructs include silencing triggers designed to mimic a natural microRNA primary transcript, and each target sequence was selected on the basis of thermodynamic criteria for optimal small RNA performance. Biochemical and phenotypic assays indicate that the new libraries are substantially improved over first-generation reagents. We generated large-scale-arrayed, sequence-verified libraries comprising more than 140,000 second-generation short hairpin RNA expression plasmids, covering a substantial fraction of all predicted genes in the human and mouse genomes. These libraries are available to the scientific community. [ABSTRACT FROM AUTHOR]

Published

2005

15. MAGIC, an in vivo genetic method for the rapid construction of recombinant DNA molecules.

Author

Li, Mamie Z and Elledge, Stephen J

Subjects

DNA, CLONING, ENZYMES, PROTEINS, GENOMICS, MOLECULAR genetics

Abstract

We describe a highly engineered in vivo cloning method, mating-assisted genetically integrated cloning (MAGIC), that facilitates the rapid construction of recombinant DNA molecules. MAGIC uses bacterial mating, in vivo site-specific endonuclease cleavage and homologous recombination to catalyze the transfer of a DNA fragment between a donor vector in one bacterial strain and a recipient plasmid in a separate bacterial strain. Recombination events are genetically selected and result in placement of the gene of interest under the control of new regulatory elements with high efficiency. MAGIC eliminates the need for restriction enzymes, DNA ligases, preparation of DNA and all in vitro manipulations required for subcloning and allows the rapid construction of multiple constructs with minimal effort. We show that MAGIC can generate constructs for expression in multiple organisms. As this new method requires only the simple mixing of bacterial strains, it represents a substantial advance in high-throughput recombinant DNA production that will save time, effort and expense in functional genomics studies. [ABSTRACT FROM AUTHOR]

Published

2005

16. A resource for large-scale RNA-interference-based screens in mammals.

Author

Paddison, Patrick J., Silva, Jose M., Conklin, Douglas S., Schlabach, Mike, Li, Mamie, Aruleba, Shola, Balija, Vivekanand, O'Shaughnessy, Andy, Gnoj, Lidia, Scobie, Kim, Chang, Kenneth, Westbrook, Thomas, Cleary, Michele, Sachidanandam, Ravi, McCombie, W. Richard, Elledge, Stephen J., and Hannon, Gregory J.

Subjects

GENE silencing, RNA, CELLS, MAMMALS, GENES, RETROVIRUSES

Abstract

Gene silencing by RNA interference (RNAi) in mammalian cells using small interfering RNAs (siRNAs) and short hairpin RNAs (shRNAs) has become a valuable genetic tool. Here, we report the construction and application of a shRNA expression library targeting 9,610 human and 5,563 mouse genes. This library is presently composed of about 28,000 sequence-verified shRNA expression cassettes contained within multi-functional vectors, which permit shRNA cassettes to be packaged in retroviruses, tracked in mixed cell populations by means of DNA ‘bar codes’, and shuttled to customized vectors by bacterial mating. In order to validate the library, we used a genetic screen designed to report defects in human proteasome function. Our results suggest that our large-scale RNAi library can be used in specific, genetic applications in mammals, and will become a valuable resource for gene analysis and discovery. [ABSTRACT FROM AUTHOR]

Published

2004

17. Viral epitope profiling of COVID-19 patients reveals cross-reactivity and correlates of severity.

Author

Shrock, Ellen, Fujimura, Eric, Kula, Tomasz, Timms, Richard T., Lee, I-Hsiu, Leng, Yumei, Robinson, Matthew L., Sie, Brandon M., Li, Mamie Z., Chen, Yuezhou, Logue, Jennifer, Zuiani, Adam, McCulloch, Denise, Lelis, Felipe J. N., Henson, Stephanie, Monaco, Daniel R., Travers, Meghan, Habibi, Shaghayegh, Clarke, William A., and Caturegli, Patrizio

Published

2020

18. Dicer is essential for mouse development.

Author

Bernstein, Erno, Sang Yong Kim, Alcorn, Murchison, Carmell, Michelle A., Murchison, Elizabeth P., Li, Mamie Z., Mills, Alea A., Elledge, Stephen J., Anderson, Kathryn V., and Hannon, Gregory J.

Subjects

GENETIC research, ANIMAL experimentation, STEM cells, RNA synthesis, GENETIC mutation

Abstract

To address the biological function of RNA interference (RNAi)-related pathways in mammals, we disrupted the gene Dicer1 in mice. Loss of Dicer1 lead to lethality early in development, with Dicer1-null embryos depleted of stem cells. Coupled with our inability to generate viable Dicer1-null embryonic stem (ES) cells, this suggests a role for Dicer, and, by implication, the RNAi machinery, in maintaining the stem cell population during early mouse development. [ABSTRACT FROM AUTHOR]

Published

2003