Your search keyword '"Chao TI"' showing total 7 results

1. The Long Noncoding RNA HEAL Regulates HIV-1 Replication through Epigenetic Regulation of the HIV-1 Promoter.

Author

Chao, Ti-Chun, Chao, Ti-Chun, Zhang, Qiong, Li, Zhonghan, Tiwari, Shashi Kant, Qin, Yue, Yau, Edwin, Sanchez, Ana, Singh, Gatikrushna, Chang, Kungyen, Kaul, Marcus, Karris, Maile Ann Young, Rana, Tariq M, Chao, Ti-Chun, Chao, Ti-Chun, Zhang, Qiong, Li, Zhonghan, Tiwari, Shashi Kant, Qin, Yue, Yau, Edwin, Sanchez, Ana, Singh, Gatikrushna, Chang, Kungyen, Kaul, Marcus, Karris, Maile Ann Young, and Rana, Tariq M

Abstract

A major challenge in finding a cure for HIV-1/AIDS is the difficulty in identifying and eradicating persistent reservoirs of replication-competent provirus. Long noncoding RNAs (lncRNAs, >200 nucleotides) are increasingly recognized to play important roles in pathophysiology. Here, we report the first genome-wide expression analysis of lncRNAs in HIV-1-infected primary monocyte-derived macrophages (MDMs). We identified an lncRNA, which we named HIV-1-enhanced lncRNA (HEAL), that is upregulated by HIV-1 infection of MDMs, microglia, and T lymphocytes. Peripheral blood mononuclear cells of HIV-1-infected individuals show elevated levels of HEAL Importantly, HEAL is a broad enhancer of multiple HIV-1 strains because depletion of HEAL inhibited X4, R5, and dual-tropic HIV replications and the inhibition was rescued by HEAL overexpression. HEAL forms a complex with the RNA-binding protein FUS, which facilitates HIV replication through at least two mechanisms: (i) HEAL-FUS complex binds the HIV promoter and enhances recruitment of the histone acetyltransferase p300, which positively regulates HIV transcription by increasing histone H3K27 acetylation and P-TEFb enrichment on the HIV promoter, and (ii) HEAL-FUS complex is enriched at the promoter of the cyclin-dependent kinase 2 gene, CDK2, to enhance CDK2 expression. Notably, HEAL knockdown and knockout mediated by RNA interference (RNAi) and CRISPR-Cas9, respectively, prevent HIV-1 recrudescence in T cells and microglia upon cessation of azidothymidine treatment in vitro Our results suggest that silencing of HEAL or perturbation of the HEAL-FUS ribonucleoprotein complex could provide a new epigenetic silencing strategy to eradicate viral reservoirs and effect a cure for HIV-1/AIDS.IMPORTANCE Despite our increased understanding of the functions of lncRNAs, their potential to develop HIV/AIDS cure strategies remains unexplored. A genome-wide analysis of lncRNAs in HIV-1-infected primary monocyte-derived macrophages (MDMs

Published

2019

2. The Long Noncoding RNA HEAL Regulates HIV-1 Replication through Epigenetic Regulation of the HIV-1 Promoter.

Author

Chao, Ti-Chun, Valente, Susana T1, Goff, Stephen P, Chao, Ti-Chun, Zhang, Qiong, Li, Zhonghan, Tiwari, Shashi Kant, Qin, Yue, Yau, Edwin, Sanchez, Ana, Singh, Gatikrushna, Chang, Kungyen, Kaul, Marcus, Karris, Maile Ann Young, Rana, Tariq M, Chao, Ti-Chun, Valente, Susana T1, Goff, Stephen P, Chao, Ti-Chun, Zhang, Qiong, Li, Zhonghan, Tiwari, Shashi Kant, Qin, Yue, Yau, Edwin, Sanchez, Ana, Singh, Gatikrushna, Chang, Kungyen, Kaul, Marcus, Karris, Maile Ann Young, and Rana, Tariq M

Abstract

A major challenge in finding a cure for HIV-1/AIDS is the difficulty in identifying and eradicating persistent reservoirs of replication-competent provirus. Long noncoding RNAs (lncRNAs, >200 nucleotides) are increasingly recognized to play important roles in pathophysiology. Here, we report the first genome-wide expression analysis of lncRNAs in HIV-1-infected primary monocyte-derived macrophages (MDMs). We identified an lncRNA, which we named HIV-1-enhanced lncRNA (HEAL), that is upregulated by HIV-1 infection of MDMs, microglia, and T lymphocytes. Peripheral blood mononuclear cells of HIV-1-infected individuals show elevated levels of HEAL Importantly, HEAL is a broad enhancer of multiple HIV-1 strains because depletion of HEAL inhibited X4, R5, and dual-tropic HIV replications and the inhibition was rescued by HEAL overexpression. HEAL forms a complex with the RNA-binding protein FUS, which facilitates HIV replication through at least two mechanisms: (i) HEAL-FUS complex binds the HIV promoter and enhances recruitment of the histone acetyltransferase p300, which positively regulates HIV transcription by increasing histone H3K27 acetylation and P-TEFb enrichment on the HIV promoter, and (ii) HEAL-FUS complex is enriched at the promoter of the cyclin-dependent kinase 2 gene, CDK2, to enhance CDK2 expression. Notably, HEAL knockdown and knockout mediated by RNA interference (RNAi) and CRISPR-Cas9, respectively, prevent HIV-1 recrudescence in T cells and microglia upon cessation of azidothymidine treatment in vitro Our results suggest that silencing of HEAL or perturbation of the HEAL-FUS ribonucleoprotein complex could provide a new epigenetic silencing strategy to eradicate viral reservoirs and effect a cure for HIV-1/AIDS.IMPORTANCE Despite our increased understanding of the functions of lncRNAs, their potential to develop HIV/AIDS cure strategies remains unexplored. A genome-wide analysis of lncRNAs in HIV-1-infected primary monocyte-derived macrophages (MDMs

Published

2019

3. Structure and noncanonical Cdk8 activation mechanism within an Argonaute-containing Mediator kinase module.

Author

Li, Yi-Chuan, Li, Yi-Chuan, Chao, Ti-Chun, Kim, Hee Jong, Cholko, Timothy, Chen, Shin-Fu, Li, Guojie, Snyder, Laura, Nakanishi, Kotaro, Chang, Chia-En, Murakami, Kenji, Garcia, Benjamin A, Boyer, Thomas G, Tsai, Kuang-Lei, Li, Yi-Chuan, Li, Yi-Chuan, Chao, Ti-Chun, Kim, Hee Jong, Cholko, Timothy, Chen, Shin-Fu, Li, Guojie, Snyder, Laura, Nakanishi, Kotaro, Chang, Chia-En, Murakami, Kenji, Garcia, Benjamin A, Boyer, Thomas G, and Tsai, Kuang-Lei

Abstract

The Cdk8 kinase module (CKM) in Mediator, comprising Med13, Med12, CycC, and Cdk8, regulates RNA polymerase II transcription through kinase-dependent and -independent functions. Numerous pathogenic mutations causative for neurodevelopmental disorders and cancer congregate in CKM subunits. However, the structure of the intact CKM and the mechanism by which Cdk8 is non-canonically activated and functionally affected by oncogenic CKM alterations are poorly understood. Here, we report a cryo-electron microscopy structure of Saccharomyces cerevisiae CKM that redefines prior CKM structural models and explains the mechanism of Med12-dependent Cdk8 activation. Med12 interacts extensively with CycC and activates Cdk8 by stabilizing its activation (T-)loop through conserved Med12 residues recurrently mutated in human tumors. Unexpectedly, Med13 has a characteristic Argonaute-like bi-lobal architecture. These findings not only provide a structural basis for understanding CKM function and pathological dysfunction, but also further impute a previously unknown regulatory mechanism of Mediator in transcriptional modulation through its Med13 Argonaute-like features.

Published

2021

4. Structure and noncanonical Cdk8 activation mechanism within an Argonaute-containing Mediator kinase module.

Author

Li, Yi-Chuan, Li, Yi-Chuan, Chao, Ti-Chun, Kim, Hee Jong, Cholko, Timothy, Chen, Shin-Fu, Li, Guojie, Snyder, Laura, Nakanishi, Kotaro, Chang, Chia-En, Murakami, Kenji, Garcia, Benjamin A, Boyer, Thomas G, Tsai, Kuang-Lei, Li, Yi-Chuan, Li, Yi-Chuan, Chao, Ti-Chun, Kim, Hee Jong, Cholko, Timothy, Chen, Shin-Fu, Li, Guojie, Snyder, Laura, Nakanishi, Kotaro, Chang, Chia-En, Murakami, Kenji, Garcia, Benjamin A, Boyer, Thomas G, and Tsai, Kuang-Lei

Abstract

The Cdk8 kinase module (CKM) in Mediator, comprising Med13, Med12, CycC, and Cdk8, regulates RNA polymerase II transcription through kinase-dependent and -independent functions. Numerous pathogenic mutations causative for neurodevelopmental disorders and cancer congregate in CKM subunits. However, the structure of the intact CKM and the mechanism by which Cdk8 is non-canonically activated and functionally affected by oncogenic CKM alterations are poorly understood. Here, we report a cryo-electron microscopy structure of Saccharomyces cerevisiae CKM that redefines prior CKM structural models and explains the mechanism of Med12-dependent Cdk8 activation. Med12 interacts extensively with CycC and activates Cdk8 by stabilizing its activation (T-)loop through conserved Med12 residues recurrently mutated in human tumors. Unexpectedly, Med13 has a characteristic Argonaute-like bi-lobal architecture. These findings not only provide a structural basis for understanding CKM function and pathological dysfunction, but also further impute a previously unknown regulatory mechanism of Mediator in transcriptional modulation through its Med13 Argonaute-like features.

Published

2021

5. The long noncoding RNA ROCKI regulates inflammatory gene expression.

Author

Zhang, Qiong, Zhang, Qiong, Chao, Ti-Chun, Patil, Veena S, Qin, Yue, Tiwari, Shashi Kant, Chiou, Joshua, Dobin, Alexander, Tsai, Chih-Ming, Li, Zhonghan, Dang, Jason, Gupta, Shagun, Urdahl, Kevin, Nizet, Victor, Gingeras, Thomas R, Gaulton, Kyle J, Rana, Tariq M, Zhang, Qiong, Zhang, Qiong, Chao, Ti-Chun, Patil, Veena S, Qin, Yue, Tiwari, Shashi Kant, Chiou, Joshua, Dobin, Alexander, Tsai, Chih-Ming, Li, Zhonghan, Dang, Jason, Gupta, Shagun, Urdahl, Kevin, Nizet, Victor, Gingeras, Thomas R, Gaulton, Kyle J, and Rana, Tariq M

Abstract

Long noncoding RNAs (lncRNAs) can regulate target gene expression by acting in cis (locally) or in trans (non-locally). Here, we performed genome-wide expression analysis of Toll-like receptor (TLR)-stimulated human macrophages to identify pairs of cis-acting lncRNAs and protein-coding genes involved in innate immunity. A total of 229 gene pairs were identified, many of which were commonly regulated by signaling through multiple TLRs and were involved in the cytokine responses to infection by group B Streptococcus We focused on elucidating the function of one lncRNA, named lnc-MARCKS or ROCKI (Regulator of Cytokines and Inflammation), which was induced by multiple TLR stimuli and acted as a master regulator of inflammatory responses. ROCKI interacted with APEX1 (apurinic/apyrimidinic endodeoxyribonuclease 1) to form a ribonucleoprotein complex at the MARCKS promoter. In turn, ROCKI-APEX1 recruited the histone deacetylase HDAC1, which removed the H3K27ac modification from the promoter, thus reducing MARCKS transcription and subsequent Ca2+ signaling and inflammatory gene expression. Finally, genetic variants affecting ROCKI expression were linked to a reduced risk of certain inflammatory and infectious disease in humans, including inflammatory bowel disease and tuberculosis. Collectively, these data highlight the importance of cis-acting lncRNAs in TLR signaling, innate immunity, and pathophysiological inflammation.

Published

2019

6. The long noncoding RNA ROCKI regulates inflammatory gene expression.

Author

Zhang, Qiong, Zhang, Qiong, Chao, Ti-Chun, Patil, Veena S, Qin, Yue, Tiwari, Shashi Kant, Chiou, Joshua, Dobin, Alexander, Tsai, Chih-Ming, Li, Zhonghan, Dang, Jason, Gupta, Shagun, Urdahl, Kevin, Nizet, Victor, Gingeras, Thomas R, Gaulton, Kyle J, Rana, Tariq M, Zhang, Qiong, Zhang, Qiong, Chao, Ti-Chun, Patil, Veena S, Qin, Yue, Tiwari, Shashi Kant, Chiou, Joshua, Dobin, Alexander, Tsai, Chih-Ming, Li, Zhonghan, Dang, Jason, Gupta, Shagun, Urdahl, Kevin, Nizet, Victor, Gingeras, Thomas R, Gaulton, Kyle J, and Rana, Tariq M

Abstract

Long noncoding RNAs (lncRNAs) can regulate target gene expression by acting in cis (locally) or in trans (non-locally). Here, we performed genome-wide expression analysis of Toll-like receptor (TLR)-stimulated human macrophages to identify pairs of cis-acting lncRNAs and protein-coding genes involved in innate immunity. A total of 229 gene pairs were identified, many of which were commonly regulated by signaling through multiple TLRs and were involved in the cytokine responses to infection by group B Streptococcus We focused on elucidating the function of one lncRNA, named lnc-MARCKS or ROCKI (Regulator of Cytokines and Inflammation), which was induced by multiple TLR stimuli and acted as a master regulator of inflammatory responses. ROCKI interacted with APEX1 (apurinic/apyrimidinic endodeoxyribonuclease 1) to form a ribonucleoprotein complex at the MARCKS promoter. In turn, ROCKI-APEX1 recruited the histone deacetylase HDAC1, which removed the H3K27ac modification from the promoter, thus reducing MARCKS transcription and subsequent Ca2+ signaling and inflammatory gene expression. Finally, genetic variants affecting ROCKI expression were linked to a reduced risk of certain inflammatory and infectious disease in humans, including inflammatory bowel disease and tuberculosis. Collectively, these data highlight the importance of cis-acting lncRNAs in TLR signaling, innate immunity, and pathophysiological inflammation.

Published

2019

7. Reasoning through representations

Author

Tytler, Russell, Murcia, Karen, Hsiung, Chao-Ti, Ramseger, Jorg, Tytler, Russell, Murcia, Karen, Hsiung, Chao-Ti, and Ramseger, Jorg

Abstract

Tytler, R., Murcia, K., Hsiung, C.-T., & Ramseger, J. (2017). Reasoning through expectations. In M. W. Hackling, J. Ramseger, & H.-L. S. Chen (Eds.), Quality teaching in primary science education: Cross cultural perspectives (pp. 149-179). Switzerland: Springer International Publishing. Available here