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1. Molecular architecture and functional dynamics of the pre-incision complex in nucleotide excision repair.

Author

Yu, Jina, Yan, Chunli, Paul, Tanmoy, Brewer, Lucas, Tsutakawa, Susan, Tsai, Chi-Lin, Hamdan, Samir, Tainer, John, and Ivanov, Ivaylo

Subjects
DNA Repair, DNA-Binding Proteins, Humans, Endonucleases, Transcription Factor TFIIH, Xeroderma Pigmentosum Group D Protein, Cryoelectron Microscopy, Xeroderma Pigmentosum Group A Protein, Transcription Factors, Protein Binding, DNA, Replication Protein A, Models, Molecular, DNA, Single-Stranded, Excision Repair, Nuclear Proteins
Abstract

Nucleotide excision repair (NER) is vital for genome integrity. Yet, our understanding of the complex NER protein machinery remains incomplete. Combining cryo-EM and XL-MS data with AlphaFold2 predictions, we build an integrative model of the NER pre-incision complex(PInC). Here TFIIH serves as a molecular ruler, defining the DNA bubble size and precisely positioning the XPG and XPF nucleases for incision. Using simulations and graph theoretical analyses, we unveil PInCs assembly, global motions, and partitioning into dynamic communities. Remarkably, XPG caps XPDs DNA-binding groove and bridges both junctions of the DNA bubble, suggesting a novel coordination mechanism of PInCs dual incision. XPA rigging interlaces XPF/ERCC1 with RPA, XPD, XPB, and 5 ssDNA, exposing XPAs crucial role in licensing the XPF/ERCC1 incision. Mapping disease mutations onto our models reveals clustering into distinct mechanistic classes, elucidating xeroderma pigmentosum and Cockayne syndrome disease etiology.

Published
2024

2. Dynamic conformational switching underlies TFIIH function in transcription and DNA repair and impacts genetic diseases

Author

Yu, Jina, Yan, Chunli, Dodd, Thomas, Tsai, Chi-Lin, Tainer, John A, Tsutakawa, Susan E, and Ivanov, Ivaylo

Subjects
Biochemistry and Cell Biology, Biological Sciences, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Transcription Factor TFIIH, DNA Repair, DNA Helicases, Molecular Conformation, DNA, Transcription, Genetic
Abstract

Transcription factor IIH (TFIIH) is a protein assembly essential for transcription initiation and nucleotide excision repair (NER). Yet, understanding of the conformational switching underpinning these diverse TFIIH functions remains fragmentary. TFIIH mechanisms critically depend on two translocase subunits, XPB and XPD. To unravel their functions and regulation, we build cryo-EM based TFIIH models in transcription- and NER-competent states. Using simulations and graph-theoretical analysis methods, we reveal TFIIH's global motions, define TFIIH partitioning into dynamic communities and show how TFIIH reshapes itself and self-regulates depending on functional context. Our study uncovers an internal regulatory mechanism that switches XPB and XPD activities making them mutually exclusive between NER and transcription initiation. By sequentially coordinating the XPB and XPD DNA-unwinding activities, the switch ensures precise DNA incision in NER. Mapping TFIIH disease mutations onto network models reveals clustering into distinct mechanistic classes, affecting translocase functions, protein interactions and interface dynamics.

Published
2023

3. A scanning-to-incision switch in TFIIH-XPG induced by DNA damage licenses nucleotide excision repair

Author

Bralić, Amer, Tehseen, Muhammad, Sobhy, Mohamed A, Tsai, Chi-Lin, Alhudhali, Lubna, Yi, Gang, Yu, Jina, Yan, Chunli, Ivanov, Ivaylo, Tsutakawa, Susan E, Tainer, John A, and Hamdan, Samir M

Subjects
Biochemistry and Cell Biology, Biological Sciences, Cancer, Genetics, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, DNA, DNA Damage, DNA Repair, DNA, Single-Stranded, Endonucleases, Nucleotides, Transcription Factor TFIIH, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences
Abstract

Nucleotide excision repair (NER) is critical for removing bulky DNA base lesions and avoiding diseases. NER couples lesion recognition by XPC to strand separation by XPB and XPD ATPases, followed by lesion excision by XPF and XPG nucleases. Here, we describe key regulatory mechanisms and roles of XPG for and beyond its cleavage activity. Strikingly, by combing single-molecule imaging and bulk cleavage assays, we found that XPG binding to the 7-subunit TFIIH core (coreTFIIH) stimulates coreTFIIH-dependent double-strand (ds)DNA unwinding 10-fold, and XPG-dependent DNA cleavage by up to 700-fold. Simultaneous monitoring of rates for coreTFIIH single-stranded (ss)DNA translocation and dsDNA unwinding showed XPG acts by switching ssDNA translocation to dsDNA unwinding as a likely committed step. Pertinent to the NER pathway regulation, XPG incision activity is suppressed during coreTFIIH translocation on DNA but is licensed when coreTFIIH stalls at the lesion or when ATP hydrolysis is blocked. Moreover, ≥15 nucleotides of 5'-ssDNA is a prerequisite for efficient translocation and incision. Our results unveil a paired coordination mechanism in which key lesion scanning and DNA incision steps are sequentially coordinated, and damaged patch removal is only licensed after generation of ≥15 nucleotides of 5'-ssDNA, ensuring the correct ssDNA bubble size before cleavage.

Published
2023

4. Development of human alveolar epithelial cell models to study distal lung biology and disease

Author

Tran, Evelyn, Shi, Tuo, Li, Xiuwen, Chowdhury, Adnan Y, Jiang, Du, Liu, Yixin, Wang, Hongjun, Yan, Chunli, Wallace, William D, Lu, Rong, Ryan, Amy L, Marconett, Crystal N, Zhou, Beiyun, Borok, Zea, and Offringa, Ite A

Subjects
Biomedical and Clinical Sciences, Engineering, Biomedical Engineering, Stem Cell Research, Lung Cancer, Lung, Stem Cell Research - Nonembryonic - Human, Cancer, Respiratory, Cell biology, Developmental biology, Stem cells research, Transcriptomics
Abstract

Many acute and chronic diseases affect the distal lung alveoli. Alveolar epithelial cell (AEC) lines are needed to better model these diseases. We used de-identified human remnant transplant lungs to develop a method to establish AEC lines. The lines grow well in 2-dimensional (2D) culture as epithelial monolayers expressing lung progenitor markers. In 3-dimensional (3D) culture with fibroblasts, Matrigel, and specific media conditions, the cells form alveolar-like organoids expressing mature AEC markers including aquaporin 5 (AQP5), G-protein-coupled receptor class C group 5 member A (GPRC5A), and surface marker HTII280. Single-cell RNA sequencing of an AEC line in 2D versus 3D culture revealed increased cellular heterogeneity and induction of cytokine and lipoprotein signaling in 3D organoids. Our approach yields lung progenitor lines that retain the ability to differentiate along the alveolar cell lineage despite long-term expansion and provides a valuable system to model and study the distal lung in vitro.

Published
2022

5. Mechanism of Rad26-assisted rescue of stalled RNA polymerase II in transcription-coupled repair.

Author

Yan, Chunli, Dodd, Thomas, Yu, Jina, Leung, Bernice, Xu, Jun, Oh, Juntaek, Wang, Dong, and Ivanov, Ivaylo

Subjects
Adenosine Triphosphatases, Cockayne Syndrome, Computational Biology, Cryoelectron Microscopy, DNA, DNA Helicases, DNA Repair, DNA Repair Enzymes, Humans, Models, Molecular, Mutation, Poly-ADP-Ribose Binding Proteins, Protein Interaction Domains and Motifs, RNA Polymerase II
Abstract

Transcription-coupled repair is essential for the removal of DNA lesions from the transcribed genome. The pathway is initiated by CSB protein binding to stalled RNA polymerase II. Mutations impairing CSB function cause severe genetic disease. Yet, the ATP-dependent mechanism by which CSB powers RNA polymerase to bypass certain lesions while triggering excision of others is incompletely understood. Here we build structural models of RNA polymerase II bound to the yeast CSB ortholog Rad26 in nucleotide-free and bound states. This enables simulations and graph-theoretical analyses to define partitioning of this complex into dynamic communities and delineate how its structural elements function together to remodel DNA. We identify an allosteric pathway coupling motions of the Rad26 ATPase modules to changes in RNA polymerase and DNA to unveil a structural mechanism for CSB-assisted progression past less bulky lesions. Our models allow functional interpretation of the effects of Cockayne syndrome disease mutations.

Published
2021

7. Envisioning how the prototypic molecular machine TFIIH functions in transcription initiation and DNA repair

Author

Tsutakawa, Susan E, Tsai, Chi-Lin, Yan, Chunli, Bralić, Amer, Chazin, Walter J, Hamdan, Samir M, Schärer, Orlando D, Ivanov, Ivaylo, and Tainer, John A

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, 1.1 Normal biological development and functioning, Underpinning research, Cancer, Generic health relevance, Good Health and Well Being, DNA, DNA Damage, DNA Helicases, DNA Repair, DNA-Binding Proteins, Humans, Models, Molecular, Protein Conformation, Transcription Factor TFIIH, Transcription Initiation, Genetic, Xeroderma Pigmentosum Group D Protein, TFIIH, Helicase, Transcription initiation, Transcription-coupled repair, Nucleotide excision repair, XPB, XPD, Translocase, DNA damage, DNA repair, Biochemistry and Cell Biology, Developmental Biology
Abstract

Critical for transcription initiation and bulky lesion DNA repair, TFIIH provides an exemplary system to connect molecular mechanisms to biological outcomes due to its strong genetic links to different specific human diseases. Recent advances in structural and computational biology provide a unique opportunity to re-examine biologically relevant molecular structures and develop possible mechanistic insights for the large dynamic TFIIH complex. TFIIH presents many puzzles involving how its two SF2 helicase family enzymes, XPB and XPD, function in transcription initiation and repair: how do they initiate transcription, detect and verify DNA damage, select the damaged strand for incision, coordinate repair with transcription and cell cycle through Cdk-activating-kinase (CAK) signaling, and result in very different specific human diseases associated with cancer, aging, and development from single missense mutations? By joining analyses of breakthrough cryo-electron microscopy (cryo-EM) structures and advanced computation with data from biochemistry and human genetics, we develop unified concepts and molecular level understanding for TFIIH functions with a focus on structural mechanisms. We provocatively consider that TFIIH may have first evolved from evolutionary pressure for TCR to resolve arrested transcription blocks to DNA replication and later added its key roles in transcription initiation and global DNA repair. We anticipate that this level of mechanistic information will have significant impact on thinking about TFIIH, laying a robust foundation suitable to develop new paradigms for DNA transcription initiation and repair along with insights into disease prevention, susceptibility, diagnosis and interventions.

Published
2020

8. Transcription preinitiation complex structure and dynamics provide insight into genetic diseases.

Author

Yan, Chunli, Dodd, Thomas, He, Yuan, Tainer, John A, Tsutakawa, Susan E, and Ivanov, Ivaylo

Subjects
Humans, Cell Cycle Proteins, Transcription Factors, TFII, Protein Subunits, Transcription Factors, DNA, Models, Molecular, Transcription Factor TFIIH, Protein Interaction Maps, Transcription Initiation, Genetic, Models, Molecular, TFII, Transcription Initiation, Genetic, Chemical Sciences, Biological Sciences, Medical and Health Sciences, Biophysics, Developmental Biology
Abstract

Transcription preinitiation complexes (PICs) are vital assemblies whose function underlies the expression of protein-encoding genes. Cryo-EM advances have begun to uncover their structural organization. Nevertheless, functional analyses are hindered by incompletely modeled regions. Here we integrate all available cryo-EM data to build a practically complete human PIC structural model. This enables simulations that reveal the assembly's global motions, define PIC partitioning into dynamic communities and delineate how structural modules function together to remodel DNA. We identify key TFIIE-p62 interactions that link core-PIC to TFIIH. p62 rigging interlaces p34, p44 and XPD while capping the DNA-binding and ATP-binding sites of XPD. PIC kinks and locks substrate DNA, creating negative supercoiling within the Pol II cleft to facilitate promoter opening. Mapping disease mutations associated with xeroderma pigmentosum, trichothiodystrophy and Cockayne syndrome onto defined communities reveals clustering into three mechanistic classes that affect TFIIH helicase functions, protein interactions and interface dynamics.

Published
2019

9. Positional integration of lung adenocarcinoma susceptibility loci with primary human alveolar epithelial cell epigenomes.

Author

Yang, Chenchen, Stueve, Theresa Ryan, Yan, Chunli, Rhie, Suhn K, Mullen, Daniel J, Luo, Jiao, Zhou, Beiyun, Borok, Zea, Marconett, Crystal N, and Offringa, Ite A

Subjects
Humans, Adenocarcinoma, Lung Neoplasms, Genetic Predisposition to Disease, Membrane Proteins, Epigenesis, Genetic, Gene Expression Regulation, Neoplastic, Linkage Disequilibrium, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Middle Aged, Male, Enhancer Elements, Genetic, Alveolar Epithelial Cells, DCBLD1, FAIRE, SNP, alveolar epithelial cells, eQTL, enhancer, epigenomics, lung adenocarcinoma, rs6942067, Epigenesis, Genetic, Gene Expression Regulation, Neoplastic, Polymorphism, Single Nucleotide, Enhancer Elements, Rare Diseases, Genetics, Lung, Lung Cancer, Prevention, Cancer, Human Genome, 2.1 Biological and endogenous factors, Clinical Sciences
Abstract

AimTo identify functional lung adenocarcinoma (LUAD) risk SNPs.Materials & methodsEighteen validated LUAD risk SNPs (p ≤ 5 × 10-8) and 930 SNPs in high linkage disequilibrium (r2 > 0.5) were integrated with epigenomic information from primary human alveolar epithelial cells. Enhancer-associated SNPs likely affecting transcription factor-binding sites were predicted. Three SNPs were functionally investigated using luciferase assays, expression quantitative trait loci and cancer-specific expression.ResultsForty-seven SNPs mapped to putative enhancers; 11 located to open chromatin. Of these, seven altered predicted transcription factor-binding motifs. Rs6942067 showed allele-specific luciferase expression and expression quantitative trait loci analysis indicates that it influences expression of DCBLD1, a gene that encodes an unknown membrane protein and is overexpressed in LUAD.ConclusionIntegration of candidate LUAD risk SNPS with epigenomic marks from normal alveolar epithelium identified numerous candidate functional LUAD risk SNPs including rs6942067, which appears to affect DCBLD1 expression. Data deposition: Data are provided in GEO record GSE84273.

Published
2018

11. Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1.

Author

Rashid, Fahad, Harris, Paul D, Zaher, Manal S, Sobhy, Mohamed A, Joudeh, Luay I, Yan, Chunli, Piwonski, Hubert, Tsutakawa, Susan E, Ivanov, Ivaylo, Tainer, John A, Habuchi, Satoshi, and Hamdan, Samir M

Subjects
Humans, Flap Endonucleases, DNA, Nucleic Acid Conformation, Protein Conformation, Protein Binding, Substrate Specificity, Models, Biological, Models, Molecular, Single Molecule Imaging, Human purified proteins, biochemistry, biophysics, expressed proteins in E. coli, none, recombinant protein, structural biology, Models, Biological, Molecular, Biochemistry and Cell Biology
Abstract

Human flap endonuclease 1 (FEN1) and related structure-specific 5'nucleases precisely identify and incise aberrant DNA structures during replication, repair and recombination to avoid genomic instability. Yet, it is unclear how the 5'nuclease mechanisms of DNA distortion and protein ordering robustly mediate efficient and accurate substrate recognition and catalytic selectivity. Here, single-molecule sub-millisecond and millisecond analyses of FEN1 reveal a protein-DNA induced-fit mechanism that efficiently verifies substrate and suppresses off-target cleavage. FEN1 sculpts DNA with diffusion-limited kinetics to test DNA substrate. This DNA distortion mutually 'locks' protein and DNA conformation and enables substrate verification with extreme precision. Strikingly, FEN1 never misses cleavage of its cognate substrate while blocking probable formation of catalytically competent interactions with noncognate substrates and fostering their pre-incision dissociation. These findings establish FEN1 has practically perfect precision and that separate control of induced-fit substrate recognition sets up the catalytic selectivity of the nuclease active site for genome stability.

Published
2017

13. Near-atomic resolution visualization of human transcription promoter opening

Author

He, Yuan, Yan, Chunli, Fang, Jie, Inouye, Carla, Tjian, Robert, Ivanov, Ivaylo, and Nogales, Eva

Subjects
Genetics, Generic health relevance, Cryoelectron Microscopy, DNA, DNA Helicases, DNA-Binding Proteins, HeLa Cells, Humans, Models, Molecular, Movement, Multiprotein Complexes, Promoter Regions, Genetic, Protein Conformation, RNA Polymerase II, Saccharomyces cerevisiae, Transcription Elongation, Genetic, Transcription Factors, TFII, Transcription Initiation, Genetic, Hela Cells, General Science & Technology
Abstract

In eukaryotic transcription initiation, a large multi-subunit pre-initiation complex (PIC) that assembles at the core promoter is required for the opening of the duplex DNA and identification of the start site for transcription by RNA polymerase II. Here we use cryo-electron microscropy (cryo-EM) to determine near-atomic resolution structures of the human PIC in a closed state (engaged with duplex DNA), an open state (engaged with a transcription bubble), and an initially transcribing complex (containing six base pairs of DNA-RNA hybrid). Our studies provide structures for previously uncharacterized components of the PIC, such as TFIIE and TFIIH, and segments of TFIIA, TFIIB and TFIIF. Comparison of the different structures reveals the sequential conformational changes that accompany the transition from each state to the next throughout the transcription initiation process. This analysis illustrates the key role of TFIIB in transcription bubble stabilization and provides strong structural support for a translocase activity of XPB.

Published
2016

30. Identification and characterization of functional risk variants for colorectal cancer mapping to chromosome 11q23.1

Author

Biancolella, Michela, Fortini, Barbara K., Tring, Stephanie, Plummer, Sarah J., Mendoza-Fandino, Gustavo A., Hartiala, Jaana, Hitchler, Michael J., Yan, Chunli, Schumacher, Fredrick R., Conti, David V., Edlund, Christopher K., Noushmehr, Houtan, Coetzee, Simon G., Bresalier, Robert S., Ahnen, Dennis J., Barry, Elizabeth L., Berman, Benjamin P., Rice, Judd C., Coetzee, Gerhard A., and Casey, Graham

Published
2014
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39. Developing digital support for learning and diagnostic reasoning in clinical practice

Author

Yan, Chunli

Subjects
Datorsystem, Computer Systems, knowledge representation, possibilistic logic, end-user development, automated decision making, inquiry dialogue, continuing medical education, multi-agent systems, ontology, Clinical decision-support systems, formal argumentation, dementia
Abstract

The two main purposes of clinical decision-support systems (CDSSs) are to provide healthcare professionals decision-making support based on evidence-based medical knowledge, and a continuing medical education. This thesis focuses on both purposes and shows how fundamental theory in the field of artificial intelligence can be developed, adapted and implemented in a CDSS for supporting learning and diagnostic reasoning in clinical practice. The main research problems addressed in this thesis are how to represent and manage uncertain, incomplete, inconsistent and distributed knowledge in automated reasoning and decision-making with the clinicians in the loop, how to facilitate the knowledge engineering and maintenance process, and how to detect and support learning and skill development in CDSS users. Research contributions include theories, methods, and algorithms based on possibilistic logic and formal argumentation for representing and managing uncertain, incomplete, inconsistent and distributed medical knowledge, and for supporting reasoning and decision-making when using a CDSS. The clinician is provided potentially conflicting arguments and their strength based on different diagnostic criteria and the available patient information in order to make an informed decision. The theoretical results were implemented in the Dementia Diagnosis and Management Support System - Web version (DMSS-W), in a multi-agent hypothesis-driven inquiry dialogue system, and in an inference engine serving as a module of ACKTUS. CDSS maintenance is challenging since new knowledge about diseases and treatments are continuously developed. Typically, knowledge and software engineers are needed to bridge medical experts and CDSSs, leading to time-consuming system development. ACKTUS (Activity-Centered Knowledge and Interaction Tailored to Users) was, as part of this research, further developed as a generic web-based platform for knowledge management and end-user development of CDSSs. It includes the inference engine and a content management system that the medical expert can use to manage knowledge, design and evaluate CDSSs. A graphical user interface generator synchronizes the interface to the ontology serving as the knowledge base. ACKTUS was used for developing DMSS-W, and facilitated the system development and maintenance. To offer person-tailored support for the clinician's learning, reasoning and decision-making, the CDSS design was based on theories of how novices and experts reason and make decisions. Pilot case studies involving physicians with different levels of expertise who applied DMSS-W in patient cases were conducted in clinical practice to explore methods for detecting skill levels and whether learning is taking place. The results indicated that the skill levels can be detected using the method. The novice was seen to develop reasoning strategies similar to an expert's, indicating that learning was taking place. In future work, tailored educational support will be developed, and evaluated using the methods.

Published
2018

40. A Generic Approach for Data Management and End-User Development of Clinical Decision Support Systems

Author

Yan, Chunli and Lindgren, Helena

Subjects
Ontology, CDSS, Human Computer Interaction, Knowledge Acquisition, Människa-datorinteraktion (interaktionsdesign), Systemvetenskap, informationssystem och informatik, Data Management, Semantic Web, Information Systems
Abstract

The main purposes of clinical decision-support systems (CDSS) are disseminating evidence-based medical knowledge (EBM), supporting a continued medical education, and improving clinical decision making and care. These purposes are traditionally achieved by using solutions that are relatively transparent and explainable to the end user. However, the development and maintenance of such solutions is resource demanding. Currently, there are four challenges existing in CDSSs when adapting to new circumstances. That is, when facing new knowledge, new diseases, different organizations and users with different skills, usually one needs to update the existing CDSS or develop a new CDSS, which requires lots of time and efforts. Hence, this paper aims for reusing an existing CDSS code by virtue of inputs from authorized medical domain expert users, and with minimal requirement of knowledge and software engineers. To facilitate knowledge elicitation and end-user development, an ACKTUS-based architecture for CDSS development and management is presented that contains: I) A knowledge base and a content management system built on Semantic Web technology to achieve modularity, reusability, customisation, and the possibility to allow medical experts to model the medical knowledge and to structure the information that builds up the design of the user interface; II) A user interface and an graphical user interface generator that automatically generates the user interface whenever the user logs in, so that the interface is synchronised with updates of the knowledge base; III) An inference engine that utilizes patient-specific data and applies various rules in the knowledge base to conduct the reasoning and decision making. These modules can be reused when adapting to new situations. A CDSS for dementia diagnosis is developed and used as an example in the presentation of the generic architecture. A pilot study of the CDSS is presented involving four medical professionals with different levels of expertise. The results show how the generic approach allows for easy knowledge representation and management of EBM, supports a continued medical education and may improve clinical decision making and care provision.

Published
2018

41. Applying the zone of proximal development when evaluating clinical decision support systems : a case study

Author

Lindgren, Helena, Lu, Ming-Hsin, Hong, Yeji, and Yan, Chunli

Subjects
Clinical decision-support system, Dementia, Continuing medical education, Zone of proximal development, Human Computer Interaction, Evaluation, Människa-datorinteraktion (interaktionsdesign), Activity theory
Abstract

The goal to facilitate a continuing medical education can be incorporated in the design of a clinical decision-support system. Developing a method for evaluating knowledge and skill development as part of evaluating the system is the aim for the research presented in this paper. The activity supported by the system was analyzed using Activity theory and structured into a protocol. Four clinicians were studied using the system for the first time, and their activity were assessed using the concept of Zone of Proximal Development. Initial results show how the system was used for clinician with different level of skills, and provide implications for further development of the methodology and the system.

Published
2018

43. Tumor necrosis factor-alpha induced expression of matrix metalloproteinase-9 through p21-activated Kinase-1

Author

Garner Warren, Kida Yujiro, Gieling Roben G, Yan Chunli, Zhou Ling, Li Wei, and Han Yuan-Ping

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Expressed in embryonic development, matrix metalloprotein-9 (MMP-9) is absent in most of developed adult tissues, but recurs in inflammation during tissue injury, wound healing, tumor formation and metastasis. Expression of MMP-9 is tightly controlled by extracellular cues including pro-inflammatory cytokines and extracellular matrix (ECM). While the pathologic functions of MMP-9 are evident, the intracellular signaling pathways to control its expression are not fully understood. In this study we investigated mechanism of cytokine induced MMP-9 with particular emphasis on the role of p21-activated-kinase-1 (PAK1) and the down stream signaling. Results In response to TNF-alpha or IL-1alpha, PAK1 was promptly activated, as characterized by a sequential phosphorylation, initiated at threonine-212 followed by at threonine-423 in the activation loop of the kinase, in human skin keratinocytes, dermal fibroblasts, and rat hepatic stellate cells. Ectopic expression of PAK1 variants, but not p38 MAP kinase, impaired the TNF-alpha-induced MMP-9 expression, while other MMPs such as MMP-2, -3 and -14 were not affected. Activation of Jun N-terminal kinase (JNK) and NF-kappaB has been demonstrated to be essential for MMP-9 expression. Expression of inactive PAK1 variants impaired JNK but not NF-kappaB activation, which consequently suppressed the 5'-promoter activities of the MMP-9 gene. After the cytokine-induced phosphorylation, both ectopically expressed and endogenous PAK1 proteins were promptly accumulated even in the condition of suppressing protein synthesis, suggesting the PAK1 protein is stabilized upon TNF-alpha stimulation. Stabilization of PAK1 protein by TNF-alpha treatment is independent of the kinase catalytic activity and p21 GTPase binding capacities. In contrast to epithelial cells, mesenchymal cells require 3-dimensional type-I collagen in response to TNF-alpha to massively express MMP-9. The collagen effect is mediated, in part, by boost JNK activation in a way to cooperate the cytokine signaling. Conclusion We identified a novel mechanism for MMP-9 expression in response to injury signals, which is mediated by PAK1 activation and stabilization leading JNK activation.

Published
2009
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44. Thermal Analysis of AlGaN/GaN High-Electron-Mobility Transistors with Graphene

Author

Zhang, Guobin, Zhao, Miao, Yan, Chunli, Sun, Bing, Wu, Zonggang, Chang, Hudong, Jin, Zhi, Sun, Jie, Liu, Honggang, Zhang, Guobin, Zhao, Miao, Yan, Chunli, Sun, Bing, Wu, Zonggang, Chang, Hudong, Jin, Zhi, Sun, Jie, and Liu, Honggang

Abstract

A thermal analysis of AlGaN/GaN high electron mobility transistors (HEMTs) with Graphene is investigated using Silvaco and Finite Element Method. Two thermal management solutions are adopted; first of all, graphene is used as dissipation material between SiC substrate and GaN buffer layer to reduce thermal boundary resistance of the device. At the same time, graphene is also used as a thermal spread material on the top of the source contacts to reduce thermal resistance of the device. The thermal analysis results show that the temperature rise of device adopting graphene decreases by 46.5% in transistors operating at 13.86 W/mm. Meanwhile, the thermal resistance of GaN HEMTs with graphene is 6.8 K/W, which is much lower than the device without graphene, which is 18.5 K/W. The thermal management solutions are useful for integration of large-scale graphene into practical devices for effective heat spreading in AlGaN/GaN HEMT.

Published
2018
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46. Diagnostic Reasoning Guided by a Decision-Support System : a Case Study

Author

Yan, Chunli, Lindgren, Helena, Yan, Chunli, and Lindgren, Helena

Abstract

A clinical decision-support system for dementia investigation was used in clinical practice. User information was collected based on interactions with the application. The aim of this study is to identify features in logged data that can be used for detecting learning and reasoning patterns in the user. A case of a physician who is novice to both the application and the dementia domain was studied and compared to the case of an expert physician using the system. Diferences between them were found, and a clear pattern that indicates that learning takes place, both how to use the system and about dementia, was observed in the novice user. Further studies need to be conducted, focusing on whether patterns become stable over time, and with complementary methods that can detect reasons for observed behaviors. Software for automatic detection will be developed based on the results of this study.

Published
2017
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47. Instrument-Oriented Approach to Detecting and Representing Human Activity for Supporting Executive Functions and Learning

Author

Baskar, Jayalakshmi, Yan, Chunli, Lindgren, Helena, Baskar, Jayalakshmi, Yan, Chunli, and Lindgren, Helena

Abstract

The goal of this study is to develop a computer-interpretable model for activity detection and representation, based on existing informal models of how humans perform activity. Appropriate detection of purposeful human activity is an essential functionality of active assistive technology aiming at providing tailored support to individuals for improving activity performance and completion. The main contribution is the design of a model for detection and representation of human activities based on three categories of instruments, which is implemented as two generic and supplementary terminology models: an event ontology and a core ontology. The core ontology is extended for each new knowledge domain into a domain ontology. The model builds the base for personalization of services generated by the cooperative reasoning performed by a human collaborating with an intelligent and social software agent. Ongoing and future work includes user studies in the different application domains.

Published
2017
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49. Epigenome-wide analysis of DNA methylation in lung tissue shows concordance with blood studies and identifies tobacco smoke-inducible enhancers

Author

Stueve, Theresa Ryan, primary, Li, Wen-Qing, additional, Shi, Jianxin, additional, Marconett, Crystal N., additional, Zhang, Tongwu, additional, Yang, Chenchen, additional, Mullen, Daniel, additional, Yan, Chunli, additional, Wheeler, William, additional, Hua, Xing, additional, Zhou, Beiyun, additional, Borok, Zea, additional, Caporaso, Neil E., additional, Pesatori, Angela C., additional, Duan, Jubao, additional, Laird-Offringa, Ite A., additional, and Landi, Maria Teresa, additional

Published
2017
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