Your search keyword '"Kuglae Kim"' showing total 37 results

1. PLD1 is a key player in cancer stemness and chemoresistance: Therapeutic targeting of cross-talk between the PI3K/Akt and Wnt/β-catenin pathways

Author

Seong Hun Lim, Hyesung Lee, Hyun Ji Lee, Kuglae Kim, Junjeong Choi, Jung Min Han, and Do Sik Min

Subjects

Medicine, Biochemistry, QD415-436

Abstract

Abstract The development of chemoresistance is a major challenge in the treatment of several types of cancers in clinical settings. Stemness and chemoresistance are the chief causes of poor clinical outcomes. In this context, we hypothesized that understanding the signaling pathways responsible for chemoresistance in cancers is crucial for the development of novel targeted therapies to overcome drug resistance. Among the aberrantly activated pathways, the PI3K-Akt/Wnt/β-catenin signaling pathway is clinically implicated in malignancies such as colorectal cancer (CRC) and glioblastoma multiforme (GBM). Aberrant dysregulation of phospholipase D (PLD) has been implicated in several malignancies, and oncogenic activation of this pathway facilitates tumor proliferation, stemness, and chemoresistance. Crosstalk involving the PLD and Wnt/β-catenin pathways promotes the progression of CRC and GBM and reduces the sensitivity of cancer cells to standard therapies. Notably, both pathways are tightly regulated and connected at multiple levels by upstream and downstream effectors. Thus, gaining deeper insights into the interactions between these pathways would help researchers discover unique therapeutic targets for the management of drug-resistant cancers. Here, we review the molecular mechanisms by which PLD signaling stimulates stemness and chemoresistance in CRC and GBM. Thus, the current review aims to address the importance of PLD as a central player coordinating cross-talk between the PI3K/Akt and Wnt/β-catenin pathways and proposes the possibility of targeting these pathways to improve cancer therapy and overcome drug resistance.

Published

2024

2. Molecular mechanism of biased signaling at the kappa opioid receptor

Author

Amal El Daibani, Joseph M. Paggi, Kuglae Kim, Yianni D. Laloudakis, Petr Popov, Sarah M. Bernhard, Brian E. Krumm, Reid H. J. Olsen, Jeffrey Diberto, F. Ivy Carroll, Vsevolod Katritch, Bernhard Wünsch, Ron O. Dror, and Tao Che

Subjects

Science

Abstract

Biased signaling in κ-opiod receptors (KOR) offer an attractive strategy for pain management. Here the authors identify determinants of KOR signaling bias using structural methods in combination with molecular dynamics simulations.

Published

2023

3. Nanobody-enabled monitoring of kappa opioid receptor states

Author

Tao Che, Justin English, Brian E. Krumm, Kuglae Kim, Els Pardon, Reid H. J. Olsen, Sheng Wang, Shicheng Zhang, Jeffrey F. Diberto, Noah Sciaky, F. Ivy Carroll, Jan Steyaert, Daniel Wacker, and Bryan L. Roth

Subjects

Science

Abstract

Recent studies revealed that G protein-coupled receptors rapidly interconvert between multiple states. Here, authors use the kappa opioid receptor (KOR) and show how two state-dependent nanobodies provide real-time reporting of ligand stabilized states with KOR and other GPCRs.

Published

2020

4. Crystal structure and functional characterization of a light-driven chloride pump having an NTQ motif

Author

Kuglae Kim, Soon-Kyeong Kwon, Sung-Hoon Jun, Jeong Seok Cha, Hoyoung Kim, Weontae Lee, Jihyun F. Kim, and Hyun-Soo Cho

Subjects

Science

Abstract

The atypical rhodopsin ClR from flavobacterium Nonlabens marinusis a light-driven chloride-pumping protein. Here, the authors show that ClR crystal structure presents two chloride ion-binding sites, proposing a molecular pathway for ion transport by this light-driven pump.

Published

2016

5. Bespoke library docking for 5-HT2A receptor agonists with antidepressant activity

Author

Anat Levit Kaplan, Danielle N. Confair, Kuglae Kim, Ximena Barros-Álvarez, Ramona M. Rodriguiz, Ying Yang, Oh Sang Kweon, Tao Che, John D. McCorvy, David N. Kamber, James P. Phelan, Luan Carvalho Martins, Vladimir M. Pogorelov, Jeffrey F. DiBerto, Samuel T. Slocum, Xi-Ping Huang, Jain Manish Kumar, Michael J. Robertson, Ouliana Panova, Alpay B. Seven, Autumn Q. Wetsel, William C. Wetsel, John J. Irwin, Georgios Skiniotis, Brian K. Shoichet, Bryan L. Roth, and Jonathan A. Ellman

Subjects

Multidisciplinary

Published

2022

6. Supplementary figure 2 from GC1118, an Anti-EGFR Antibody with a Distinct Binding Epitope and Superior Inhibitory Activity against High-Affinity EGFR Ligands

Author

Jonghwa Won, Hyun-Soo Cho, Dong Geon Kim, Heekyoung Yang, Do-Hyun Nam, Yeup Yoon, Yeon-Gil Kim, Se-Ho Kim, Kwang-Won Hong, YingJin Kang, Kuglae Kim, Ki Hwan Chang, Kyuhyun Lee, Tae Wook Park, Shi-Nai Lee, Jae-Chul Lee, Hyung-Suk Hur, Eun Hee Lee, Minkyu Hur, Min-Soo Kim, Jiho Yoo, and Yangmi Lim

Abstract

Supplementary Figure 2. The EGFR-GC1118 interaction is not disrupted by excess amounts of high- or low-affinity EGFR ligands. The indicated colorectal cancer cell lines were pre-incubated with 0.1 ug/ml of cetuximab or GC1118 for 2 h prior to the addition of EGFR ligands for 10 min (EGF, HB-EGF, BTC, and TGF-�, 20~500 ng/ml; AREG and EREG, 40~1000 ng/ml). The blue and red lines indicate the relative % of cetuximab and GC1118, respectively, bound to EGFR in the presence of competing ligands compared with bound antibodies in the absence of blocking ligands. Antibody binding to EGFR was assessed by measuring the fluorescence intensity using flow cytometry. The results are expressed as the average{plus minus}SE of % maximal binding of the antibody of triplicate experiments.

Published

2023

7. Supplementary figure 1 from GC1118, an Anti-EGFR Antibody with a Distinct Binding Epitope and Superior Inhibitory Activity against High-Affinity EGFR Ligands

Author

Jonghwa Won, Hyun-Soo Cho, Dong Geon Kim, Heekyoung Yang, Do-Hyun Nam, Yeup Yoon, Yeon-Gil Kim, Se-Ho Kim, Kwang-Won Hong, YingJin Kang, Kuglae Kim, Ki Hwan Chang, Kyuhyun Lee, Tae Wook Park, Shi-Nai Lee, Jae-Chul Lee, Hyung-Suk Hur, Eun Hee Lee, Minkyu Hur, Min-Soo Kim, Jiho Yoo, and Yangmi Lim

Abstract

Supplementary Figure 1. Kinetic binding interactions between GC1118 and EGFR as analyzed by SPR. SPR sensorgrams were obtained from injections of (A) GC1118 or (B) cetuximab over an EGFR-immobilized surface at a flow rate of 30 µl/min. The results of a quantitative evaluation of the experimental data are shown in Supplementary Table 2.

Published

2023

8. Supplementary table 1 from GC1118, an Anti-EGFR Antibody with a Distinct Binding Epitope and Superior Inhibitory Activity against High-Affinity EGFR Ligands

Author

Jonghwa Won, Hyun-Soo Cho, Dong Geon Kim, Heekyoung Yang, Do-Hyun Nam, Yeup Yoon, Yeon-Gil Kim, Se-Ho Kim, Kwang-Won Hong, YingJin Kang, Kuglae Kim, Ki Hwan Chang, Kyuhyun Lee, Tae Wook Park, Shi-Nai Lee, Jae-Chul Lee, Hyung-Suk Hur, Eun Hee Lee, Minkyu Hur, Min-Soo Kim, Jiho Yoo, and Yangmi Lim

Abstract

Supplementary Table 1. X-ray data collection and refinement statistics.

Published

2023

9. Supplementary method from GC1118, an Anti-EGFR Antibody with a Distinct Binding Epitope and Superior Inhibitory Activity against High-Affinity EGFR Ligands

Author

Jonghwa Won, Hyun-Soo Cho, Dong Geon Kim, Heekyoung Yang, Do-Hyun Nam, Yeup Yoon, Yeon-Gil Kim, Se-Ho Kim, Kwang-Won Hong, YingJin Kang, Kuglae Kim, Ki Hwan Chang, Kyuhyun Lee, Tae Wook Park, Shi-Nai Lee, Jae-Chul Lee, Hyung-Suk Hur, Eun Hee Lee, Minkyu Hur, Min-Soo Kim, Jiho Yoo, and Yangmi Lim

Abstract

Surface plasmon resonance (SPR)

Published

2023

10. Structure, function and pharmacology of human itch GPCRs

Author

Samuel T. Slocum, Yongfeng Liu, Bryan L. Roth, Jian Jin, Brian E. Krumm, Brian J. Bender, Reid H.J. Olsen, Hye Jin Kang, Justin G. English, Isha Singh, Jing Liu, Lily Yeh Jan, Wenlei Ye, Brian K. Shoichet, Xi Ping Huang, Byron W. Hayes, Can Cao, John D. McCorvy, Jonathan F. Fay, Katherine Lansu, Soman N. Abraham, Shicheng Zhang, Chengwei Zhang, Wesley K. Kroeze, Kuglae Kim, He Chen, Ryan H. Gumpper, Jeffrey F. DiBerto, and Joel Karpiak

Subjects

Models, Molecular, Receptors, Neuropeptide, Agonist, Drug Inverse Agonism, General Science & Technology, medicine.drug_class, Chemical biology, Nerve Tissue Proteins, Endogeny, Peptide, GTP-Binding Protein alpha Subunits, Gi-Go, Pharmacology, Gi-Go, Article, Receptors, G-Protein-Coupled, G-Protein-Coupled, Models, Receptors, medicine, Humans, 2.1 Biological and endogenous factors, Aetiology, Receptor, G protein-coupled receptor, Gq-G11, chemistry.chemical_classification, Multidisciplinary, Chemistry, Pruritus, Cryoelectron Microscopy, Pain Research, Antagonist, Molecular, GTP-Binding Protein alpha Subunits, Neuropeptide, Structural biology, GTP-Binding Protein alpha Subunits, Gq-G11, Generic health relevance, Chronic Pain

Abstract

The MRGPRX family of receptors (MRGPRX1–4) is a family of mas-related G-protein-coupled receptors that have evolved relatively recently1. Of these, MRGPRX2 and MRGPRX4 are key physiological and pathological mediators of itch and related mast cell-mediated hypersensitivity reactions2–5. MRGPRX2 couples to both Gi and Gq in mast cells6. Here we describe agonist-stabilized structures of MRGPRX2 coupled to Gi1 and Gq in ternary complexes with the endogenous peptide cortistatin-14 and with a synthetic agonist probe, respectively, and the development of potent antagonist probes for MRGPRX2. We also describe a specific MRGPRX4 agonist and the structure of this agonist in a complex with MRGPRX4 and Gq. Together, these findings should accelerate the structure-guided discovery of therapeutic agents for pain, itch and mast cell-mediated hypersensitivity. Structural studies of the itch receptors MRGPRX2 and MRGPRX4 in complex with endogenous and synthetic ligands provide a basis for the development of therapeutic compounds for pain, itch and mast cell-mediated hypersensitivity.

Published

2021

11. Inactive and active state structures template selective tools for the human 5-HT5A receptor

Author

Shicheng Zhang, He Chen, Chengwei Zhang, Ying Yang, Petr Popov, Jing Liu, Brian E. Krumm, Can Cao, Kuglae Kim, Yan Xiong, Vsevolod Katritch, Brian K. Shoichet, Jian Jin, Jonathan F. Fay, and Bryan L. Roth

Subjects

Serotonin, 1.1 Normal biological development and functioning, Biophysics, Biological Sciences, Medical and Health Sciences, Serotonin Receptor Agonists, Structural Biology, Underpinning research, Receptors, Chemical Sciences, Humans, 2.1 Biological and endogenous factors, Serotonin Antagonists, Generic health relevance, Aetiology, Molecular Biology, Developmental Biology

Abstract

Serotonin receptors are important targets for established therapeutics and drug development as they are expressed throughout the human body and play key roles in cell signaling. There are 12 serotonergic G protein-coupled receptor members encoded in the human genome, of which the 5-hydroxytryptamine (5-HT)5A receptor (5-HT5AR) is the least understood and lacks selective tool compounds. Here, we report four high-resolution (2.73-2.80 Å) structures of human 5-HT5ARs, including an inactive state structure bound to an antagonist AS2674723 by crystallization and active state structures bound to a partial agonist lisuride and two full agonists, 5-carboxamidotryptamine (5-CT) and methylergometrine, by cryo-EM. Leveraging the new structures, we developed a highly selective and potent antagonist for 5-HT5AR. Collectively, these findings both enhance our understanding of this enigmatic receptor and provide a roadmap for structure-based drug discovery for 5-HT5AR.

Published

2022

12. Structure Insights into Biased Signaling of kappa Opioid Receptor

Author

Amal El Daibani, Joe Paggi, Kuglae Kim, Yianni Laloudakis, Petr Popov, Sarah Bernhard, Reid H Olsen, Jeffrey Diberto, Vsevolod Katritch, Bernhard Wunsch, Ron Dror, and Tao Che

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

13. Nanobody-enabled monitoring of kappa opioid receptor states

Author

Els Pardon, Justin G. English, F. Ivy Carroll, Brian E. Krumm, Jeffrey F. DiBerto, Bryan L. Roth, Noah Sciaky, Sheng Wang, Reid H.J. Olsen, Tao Che, Daniel Wacker, Shicheng Zhang, Kuglae Kim, Jan Steyaert, Department of Bio-engineering Sciences, and Structural Biology Brussels

Subjects

0301 basic medicine, Pyrrolidines, Protein Conformation, Science, Allosteric regulation, General Physics and Astronomy, Biosensing Techniques, Crystallography, X-Ray, Dynorphins, κ-opioid receptor, Article, Piperazines, General Biochemistry, Genetics and Molecular Biology, Receptors, G-Protein-Coupled, 03 medical and health sciences, 0302 clinical medicine, Protein structure, Piperidines, Tetrahydroisoquinolines, Cyclic AMP, Humans, Binding site, Receptor, lcsh:Science, X-ray crystallography, G protein-coupled receptor, Binding Sites, Multidisciplinary, Chemistry, Receptors, Opioid, kappa, HEK 293 cells, General Chemistry, Single-Domain Antibodies, Ligand (biochemistry), Chemical biology, Recombinant Proteins, 3. Good health, HEK293 Cells, 030104 developmental biology, Luminescent Measurements, Biophysics, lcsh:Q, Allosteric Site, 030217 neurology & neurosurgery

Abstract

Recent studies show that GPCRs rapidly interconvert between multiple states although our ability to interrogate, monitor and visualize them is limited by a relative lack of suitable tools. We previously reported two nanobodies (Nb39 and Nb6) that stabilize distinct ligand- and efficacy-delimited conformations of the kappa opioid receptor. Here, we demonstrate via X-ray crystallography a nanobody-targeted allosteric binding site by which Nb6 stabilizes a ligand-dependent inactive state. As Nb39 stabilizes an active-like state, we show how these two state-dependent nanobodies can provide real-time reporting of ligand stabilized states in cells in situ. Significantly, we demonstrate that chimeric GPCRs can be created with engineered nanobody binding sites to report ligand-stabilized states. Our results provide both insights regarding potential mechanisms for allosterically modulating KOR with nanobodies and a tool for reporting the real-time, in situ dynamic range of GPCR activity., Recent studies revealed that G protein-coupled receptors rapidly interconvert between multiple states. Here, authors use the kappa opioid receptor (KOR) and show how two state-dependent nanobodies provide real-time reporting of ligand stabilized states with KOR and other GPCRs.

Published

2020

14. Inactive and active state structures template selective tools for the human 5-HT

Author

Shicheng, Zhang, He, Chen, Chengwei, Zhang, Ying, Yang, Petr, Popov, Jing, Liu, Brian E, Krumm, Can, Cao, Kuglae, Kim, Yan, Xiong, Vsevolod, Katritch, Brian K, Shoichet, Jian, Jin, Jonathan F, Fay, and Bryan L, Roth

Subjects

Serotonin, Receptors, Serotonin, Humans, Serotonin Antagonists, Article, Serotonin Receptor Agonists

Abstract

Serotonin receptors are important targets for established therapeutics and drug development as they are expressed throughout the human body and play key roles in cell signaling. There are 12 serotonergic G protein-coupled receptor members in the human genome, of which the 5-HT(5A)R is the least understood and lacks selective tool compounds. Here, we report four high-resolution (2.73-2.80 Å) structures of human 5-HT(5A) receptors, including an inactive state bound to an antagonist AS2674723 by crystallization, and active states bound to a partial agonist lisuride, and two full agonists 5-carboxamidotryptamine (5-CT) and methylergometrine by cryo-EM. Leveraging the new structures, we developed a highly selective and potent antagonist for 5-HT(5A)R. Collectively, these findings both enhance our understanding of this enigmatic receptor and provide a roadmap for structure-based drug discovery at 5-HT(5A)R.

Published

2022

15. Signaling Snapshots of 5-HT 2BR Activated by the Prototypical Psychedelic LSD

Author

Can Cao, Ximena Barros-Álvarez, Shicheng Zhang, Kuglae Kim, Marc A. Dämgen, Ouliana Panova, Carl-Mikael Suomivuori, Jonathan Fay, Xiaofang Zhong, Brian E. Krumm, Ryan H. Gumpper, Alpay B. Seven, Michael J. Robertson, Nevan J. Krogan, Ruth Hüttenhain, David E. Nichols, Ron O. Dror, Georgios Skiniotis, and Bryan Roth

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

16. Signaling snapshots of a serotonin receptor activated by the prototypical psychedelic LSD

Author

Can Cao, Ximena Barros-Álvarez, Shicheng Zhang, Kuglae Kim, Marc A. Dämgen, Ouliana Panova, Carl-Mikael Suomivuori, Jonathan F. Fay, Xiaofang Zhong, Brian E. Krumm, Ryan H. Gumpper, Alpay B. Seven, Michael J. Robertson, Nevan J. Krogan, Ruth Hüttenhain, David E. Nichols, Ron O. Dror, Georgios Skiniotis, and Bryan L. Roth

Subjects

Lysergic Acid Diethylamide, Serotonin, Receptors, Serotonin, General Neuroscience, Hallucinogens, beta-Arrestins

Abstract

Serotonin (5-hydroxytryptamine [5-HT]) 5-HT2-family receptors represent essential targets for lysergic acid diethylamide (LSD) and all other psychedelic drugs. Although the primary psychedelic drug effects are mediated by the 5-HT

Published

2022

17. Bespoke library docking for 5-HT

Author

Anat Levit, Kaplan, Danielle N, Confair, Kuglae, Kim, Ximena, Barros-Álvarez, Ramona M, Rodriguiz, Ying, Yang, Oh Sang, Kweon, Tao, Che, John D, McCorvy, David N, Kamber, James P, Phelan, Luan Carvalho, Martins, Vladimir M, Pogorelov, Jeffrey F, DiBerto, Samuel T, Slocum, Xi-Ping, Huang, Jain Manish, Kumar, Michael J, Robertson, Ouliana, Panova, Alpay B, Seven, Autumn Q, Wetsel, William C, Wetsel, John J, Irwin, Georgios, Skiniotis, Brian K, Shoichet, Bryan L, Roth, and Jonathan A, Ellman

Subjects

Small Molecule Libraries, Mice, Pyrrolidines, Fluoxetine, Cryoelectron Microscopy, Hallucinogens, Animals, Receptor, Serotonin, 5-HT2A, Ligands, Antidepressive Agents

Abstract

There is considerable interest in screening ultralarge chemical libraries for ligand discovery, both empirically and computationally

Published

2021

18. Structure of a Hallucinogen-Activated Gq-Coupled 5-HT2A Serotonin Receptor

Author

Michael J. Robertson, Alpay B. Seven, Ouliana Panova, Tao Che, Jeffrey F. DiBerto, Kuglae Kim, Brian K. Shoichet, Brian E. Krumm, David E. Nichols, Georgios Skiniotis, Jiankun Lyu, Daniel Wacker, and Bryan L. Roth

Subjects

Protein Conformation, alpha-Helical, Protein Conformation, Methiothepin, Gene Expression, Crystallography, X-Ray, Ligands, Medical and Health Sciences, Psilocybin, LSD, Substance Misuse, 0302 clinical medicine, GPCR, Models, 5-HT2A, structural biology, 2.1 Biological and endogenous factors, Receptor, Serotonin, 5-HT2A, Aetiology, Lysergic acid diethylamide, 0303 health sciences, Crystallography, Depression, Biological Sciences, Ligand (biochemistry), GTP-Binding Protein alpha Subunits, Recombinant Proteins, Mental Health, signal transduction, medicine.drug, Receptor, Hallucinogen, Serotonin, Chemical, Biology, Spodoptera, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, medicine, Inverse agonist, Animals, Humans, 5-HT receptor, 030304 developmental biology, G protein-coupled receptor, Gq-G11, sertotonin receptor, Cryoelectron Microscopy, alpha-Helical, Brain Disorders, Lysergic Acid Diethylamide, HEK293 Cells, Models, Chemical, Structural biology, psychedelic, Mutation, Hallucinogens, X-Ray, GTP-Binding Protein alpha Subunits, Gq-G11, Neuroscience, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Hallucinogens like lysergic acid diethylamide (LSD), psilocybin, and substituted N-benzyl phenylalkylamines are widely used recreationally with psilocybin being considered as a therapeutic for many neuropsychiatric disorders including depression, anxiety, and substance abuse. How psychedelics mediate their actions—both therapeutic and hallucinogenic—are not understood, although activation of the 5-HT(2A) serotonin receptor (HTR2A) is key. To gain molecular insights into psychedelic actions, we determined the active-state structure of HTR2A bound to 25-CN-NBOH—a prototypical hallucinogen—in complex with an engineered Gαq heterotrimer by cryoelectron microscopy (cryo-EM). We also obtained the X-ray crystal structures of HTR2A complexed with the arrestin-biased ligand LSD or the inverse agonist methiothepin. Comparisons of these structures reveal determinants responsible for HTR2A-Gαq protein interactions as well as the conformational rearrangements involved in active-state transitions. Given the potential therapeutic actions of hallucinogens, these findings could accelerate the discovery of more selective drugs for the treatment of a variety of neuropsychiatric disorders.

Published

2020

19. Crystal structure of GSK3β in complex with the flavonoid, morin

Author

Jin Sik Kim, Jeong Seok Cha, Kuglae Kim, Hyun Soo Cho, Jinsook Ahn, and Nam-Chul Ha

Subjects

0301 basic medicine, Cell signaling, Tau pathology, Flavonoid, Molecular Conformation, Biophysics, Binding pocket, Hyperphosphorylation, Crystal structure, Morin, Crystallography, X-Ray, Biochemistry, Mice, 03 medical and health sciences, chemistry.chemical_compound, Animals, Humans, Molecular Biology, Flavonoids, chemistry.chemical_classification, Glycogen Synthase Kinase 3 beta, Kinase, Cell Biology, Surface Plasmon Resonance, Cell biology, 030104 developmental biology, chemistry, Protein Binding

Abstract

GSK3β is a key kinase that plays a role in cellular signaling pathways. In Alzheimer's disease (AD), GSK3β has been implicated in hyperphosphorylation of tau proteins in the neuron, which is a hallmark of AD. Morin, a flavonoid that is abundant in nature, was found as an inhibitor of GSK3β that can reduce tau pathology in vivo and in vitro. In this study, we determined the crystal structure of GSK3β in complex with morin. The structure revealed that morin inhibits GSK3β by binding to the ATP binding pocket. Our findings augment the potential of morin as a functional food to help prevent AD, as well as to provide structural information to develop new therapeutics based on the morin skeleton.

Published

2018

20. A missense allele of KARRIKIN-INSENSITIVE2 impairs ligand-binding and downstream signaling in Arabidopsis thaliana

Author

Inhye Lee, Kuglae Kim, Sumin Lee, Seungjun Lee, Eunjin Hwang, Kihye Shin, Dayoung Kim, Jungki Choi, Hyunmo Choi, Jeong Seok Cha, Hoyoung Kim, Rin-A Lee, Suyeong Jeong, Jeongsik Kim, Yumi Kim, Hong Gil Nam, Soon-Ki Park, Hyun-Soo Cho, and Moon-Soo Soh

Subjects

0106 biological sciences, 0301 basic medicine, Light Signal Transduction, Light, Positional cloning, Hydrolases, Physiology, Mutant, Arabidopsis, Mutation, Missense, Plant Science, Ligands, medicine.disease_cause, 01 natural sciences, 03 medical and health sciences, medicine, Missense mutation, Arabidopsis thaliana, KAI2, Alleles, phytochrome, Mutation, biology, Arabidopsis Proteins, Chemistry, Ligand (biochemistry), biology.organism_classification, Research Papers, karrikin, photomorphogenesis, Karrikin, Cell biology, Phenotype, 030104 developmental biology, germination, Growth and Development, 010606 plant biology & botany

Abstract

A missense mutation of KARRIKIN-INSENSITIVE2, KAI2ply2, compromises its ligand-binding activity, which subsequently impairs KAI2-signaling and multiple aspects of light-dependent responses., A smoke-derived compound, karrikin (KAR), and an endogenous but as yet unidentified KARRIKIN INSENSITIVE2 (KAI2) ligand (KL) have been identified as chemical cues in higher plants that impact on multiple aspects of growth and development. Genetic screening of light-signaling mutants in Arabidopsis thaliana has identified a mutant designated as ply2 (pleiotropic long hypocotyl2) that has pleiotropic light-response defects. In this study, we used positional cloning to identify the molecular lesion of ply2 as a missense mutation of KAI2/HYPOSENSITIVE TO LIGHT, which causes a single amino acid substitution, Ala219Val. Physiological analysis and genetic epistasis analysis with the KL-signaling components MORE AXILLARY GROWTH2 (MAX2) and SUPPRESSOR OF MAX2 1 suggested that the pleiotropic phenotypes of the ply2 mutant can be ascribed to a defect in KL-signaling. Molecular and biochemical analyses revealed that the mutant KAI2ply2 protein is impaired in its ligand-binding activity. In support of this conclusion, X-ray crystallography studies suggested that the KAI2ply2 mutation not only results in a narrowed entrance gate for the ligand but also alters the structural flexibility of the helical lid domains. We discuss the structural implications of the Ala219 residue with regard to ligand-specific binding and signaling of KAI2, together with potential functions of KL-signaling in the context of the light-regulatory network in Arabidopsis thaliana.

Published

2018

21. AlphaFold2 structures guide prospective ligand discovery.

Author

Jiankun Lyu, Kapolka, Nicholas, Gumpper, Ryan, Alon, Assaf, Liang Wang, Jain, Manish K., Barros-Álvarez, Ximena, Kensuke Sakamoto, Yoojoong Kim, DiBerto, Jeffrey, Kuglae Kim, Glenn, Isabella S., Tummino, Tia A., Sijie Huang, Irwin, John J., Tarkhanova, Olga O., Moroz, Yurii, Skiniotis, Georgios, Kruse, Andrew C., and Shoichet, Brian K.

Published

2024

22. Crystal structure and functional characterization of a light-driven chloride pump having an NTQ motif

Author

Soon Kyeong Kwon, Sung Hoon Jun, Jeong Seok Cha, Kuglae Kim, Hyun Soo Cho, Hoyoung Kim, Jihyun F. Kim, and Weontae Lee

Subjects

Models, Molecular, 0301 basic medicine, Rhodopsin, Light, Protein Conformation, Stereochemistry, Science, Amino Acid Motifs, General Physics and Astronomy, Ion Pumps, Crystallography, X-Ray, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, Protein structure, Bacterial Proteins, Chlorides, Aromatic amino acids, Amino Acid Sequence, Binding site, Peptide sequence, Ion transporter, chemistry.chemical_classification, Binding Sites, Ion Transport, Multidisciplinary, Sequence Homology, Amino Acid, biology, General Chemistry, Transport protein, Amino acid, Optogenetics, 030104 developmental biology, chemistry, Biochemistry, biology.protein, Flavobacteriaceae

Abstract

A novel light-driven chloride-pumping rhodopsin (ClR) containing an ‘NTQ motif' in its putative ion conduction pathway has been discovered and functionally characterized in a genomic analysis study of a marine bacterium. Here we report the crystal structure of ClR from the flavobacterium Nonlabens marinus S1-08T determined under two conditions at 2.0 and 1.56 Å resolutions. The structures reveal two chloride-binding sites, one around the protonated Schiff base and the other on a cytoplasmic loop. We identify a ‘3 omega motif' formed by three non-consecutive aromatic amino acids that is correlated with the B–C loop orientation. Detailed ClR structural analyses with functional studies in E. coli reveal the chloride ion transduction pathway. Our results help understand the molecular mechanism and physiological role of ClR and provide a structural basis for optogenetic applications., The atypical rhodopsin ClR from flavobacterium Nonlabens marinus is a light-driven chloride-pumping protein. Here, the authors show that ClR crystal structure presents two chloride ion-binding sites, proposing a molecular pathway for ion transport by this light-driven pump.

Published

2016

23. Monomerization and ER Relocalization of GRASP Is a Requisite for Unconventional Secretion of CFTR

Author

Hyun Soo Cho, Min Goo Lee, Dong Hee Kim, Jeong Seok Cha, He Piao, Woo Young Chung, Kuglae Kim, Jiyoon Kim, Joo Young Kim, and Shin Hye Noh

Subjects

0301 basic medicine, Endoplasmic reticulum, Mutant, Regulator, Cell Biology, Golgi reassembly, Biology, Biochemistry, Transmembrane protein, Cell biology, 03 medical and health sciences, 030104 developmental biology, Structural Biology, Genetics, Unfolded protein response, Phosphorylation, Secretion, Molecular Biology

Abstract

Induction of endoplasmic reticulum (ER)-to-Golgi blockade or ER stress induces Golgi reassembly stacking protein (GRASP)-mediated, Golgi-independent unconventional cell-surface trafficking of the folding-deficient ΔF508-cystic fibrosis transmembrane conductance regulator (CFTR). However, molecular mechanisms underlying this process remain elusive. Here, we show that phosphorylation-dependent dissociation of GRASP homotypic complexes and subsequent relocalization of GRASP to the ER play a critical role in the unconventional secretion of CFTR. Immunolocalization analyses of mammalian cells revealed that the Golgi protein GRASP55 was redistributed to the ER by stimuli that induce unconventional secretion of ΔF508-CFTR, such as induction of ER-to-Golgi blockade by the Arf1 mutant. Notably, the same stimuli also induced phosphorylation of regions near the C-terminus of GRASP55 and dissociation of GRASP homomultimer complexes. Furthermore, phosphorylation-mimicking mutations of GRASP55 induced the monomerization and ER relocalization of GRASP55, and these changes were nullified by phosphorylation-inhibiting mutations. These results provide mechanistic insights into how GRASP accesses the ER-retained ΔF508-CFTR and mediates the ER stress-induced unconventional secretion pathway.

Published

2016

24. GC1118, an Anti-EGFR Antibody with a Distinct Binding Epitope and Superior Inhibitory Activity against High-Affinity EGFR Ligands

Author

Jiho Yoo, Min Soo Kim, Yeup Yoon, Tae Wook Park, Jonghwa Won, Yangmi Lim, Kwang Won Hong, Jae-Chul Lee, Yeon Gil Kim, Minkyu Hur, Do-Hyun Nam, Shi Nai Lee, Eun-Hee Lee, Se-Ho Kim, Donggeon Kim, Kyuhyun Lee, Hyung Suk Hur, Kuglae Kim, Yingjin Kang, Ki Hwan Chang, Hyun Soo Cho, and Heekyoung Yang

Subjects

Models, Molecular, 0301 basic medicine, Cancer Research, medicine.drug_class, Antineoplastic Agents, Pharmacology, Biology, Antibodies, Monoclonal, Humanized, Ligands, Monoclonal antibody, Epitope, Epitopes, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, medicine, Animals, Humans, Panitumumab, Cell Proliferation, Tumor microenvironment, Cetuximab, Cancer, medicine.disease, Xenograft Model Antitumor Assays, ErbB Receptors, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Monoclonal, biology.protein, Female, Antibody, Colorectal Neoplasms, Protein Binding, medicine.drug

Abstract

The EGFR-targeted monoclonal antibodies are a valid therapeutic strategy for patients with metastatic colorectal cancer (mCRC). However, only a small subset of mCRC patients has therapeutic benefits and there are high demands for EGFR therapeutics with a broader patient pool and more potent efficacy. In this study, we report GC1118 exhibiting a different character in terms of binding epitope, affinity, mode of action, and efficacy from other anti-EGFR antibodies. Structural analysis of the EGFR–GC1118 crystal complex revealed that GC1118 recognizes linear, discrete N-terminal epitopes of domain III of EGFR, critical for EGF binding but not overlapping with those of other EGFR-targeted antibodies. GC1118 exhibited superior inhibitory activity against high-affinity EGFR ligands in terms of EGFR binding, triggering EGFR signaling, and proliferation compared with cetuximab and panitumumab. EGFR signaling driven by low-affinity ligands, on the contrary, was well inhibited by all the antibodies tested. GC1118 demonstrated robust antitumor activity in tumor xenografts with elevated expression of high-affinity ligands in vivo, whereas cetuximab did not. Considering the significant role of high-affinity EGFR ligands in modulating tumor microenvironment and inducing resistance to various cancer therapeutics, our study suggests a potential therapeutic advantage of GC1118 in terms of efficacy and a range of benefited patient pool. Mol Cancer Ther; 15(2); 251–63. ©2015 AACR.

Published

2016

25. Crystal Structure of Human Dual-Specificity Tyrosine-Regulated Kinase 3 Reveals New Structural Features and Insights into its Auto-phosphorylation

Author

Yong Soon Cho, Hyun Soo Cho, Jeong Seok Cha, Nienping Chang, Hye-Jung Kim, Hoyoung Kim, and Kuglae Kim

Subjects

inorganic chemicals, 0301 basic medicine, Models, Molecular, macromolecular substances, Protein Serine-Threonine Kinases, Crystallography, X-Ray, Protein Structure, Secondary, Serine, 03 medical and health sciences, 0302 clinical medicine, Structural Biology, Humans, Tyrosine, Kinase activity, Threonine, Phosphorylation, Molecular Biology, Binding Sites, Chemistry, Kinase, Protein Stability, Protein-Tyrosine Kinases, DYRK3, Cell biology, Molecular Docking Simulation, enzymes and coenzymes (carbohydrates), Harmine, 030104 developmental biology, Docking (molecular), 030220 oncology & carcinogenesis

Abstract

Dual-specificity tyrosine-regulated kinases (DYRKs) auto-phosphorylate a critical tyrosine residue in their activation loop and phosphorylate their substrate on serine and threonine residues. The auto-phosphorylation occurs intramolecularly and is a one-off event. DYRK3 is selectively expressed at a high level in hematopoietic cells and attenuates erythroblast development, leading to anemia. In the present study, we determined the crystal structure of the mature form of human DYRK3 in complex with harmine, an ATP competitive inhibitor. The crystal structure revealed a phosphorylation site, residue S350, whose phosphorylation increases the stability of DYRK3 and enhances its kinase activity. In addition, our structural and biochemical assays suggest that the N-terminal auto-phosphorylation accessory domain stabilizes the DYRK3 protein, followed by auto-phosphorylation of the tyrosine of the activation loop, which is important for kinase activity. Finally, our docking analysis provides information for the design of novel and potent therapeutics to treat anemia.

Published

2018

26. Akt-mediated phosphorylation increases the binding affinity of hTERT for importin α to promote nuclear translocation

Author

Jeong Seok Cha, Hyun Soo Cho, Sun Ah Jeong, Kuglae Kim, Prabhat Khadka, Ji Hoon Lee, and In Kwon Chung

Subjects

alpha Karyopherins, cells, Blotting, Western, Molecular Sequence Data, Nuclear Localization Signals, Cell, Active Transport, Cell Nucleus, Fluorescent Antibody Technique, Importin, Biology, Real-Time Polymerase Chain Reaction, environment and public health, Phosphoserine, Structure-Activity Relationship, Neoplasms, Tumor Cells, Cultured, medicine, Humans, NLS, Telomerase reverse transcriptase, Amino Acid Sequence, RNA, Messenger, Phosphorylation, Nuclear pore, Telomerase, Protein kinase B, Ribonucleoprotein, Cell Nucleus, Sequence Homology, Amino Acid, Reverse Transcriptase Polymerase Chain Reaction, Cell Biology, Nuclear translocation, Cell biology, enzymes and coenzymes (carbohydrates), medicine.anatomical_structure, Biochemistry, Mutation, embryonic structures, MCF-7 Cells, Mutant Proteins, biological phenomena, cell phenomena, and immunity, Nuclear transport, Proto-Oncogene Proteins c-akt, Nuclear localization sequence

Abstract

Telomeres are essential for chromosome integrity and protection, and their maintenance requires the ribonucleoprotein enzyme telomerase. Previously, we have shown that human telomerase reverse transcriptase (hTERT) contains a bipartite nuclear localization signal (NLS; residues 222–240) that is responsible for nuclear import, and that Akt-mediated phosphorylation of residue S227 is important for efficient nuclear import of hTERT. Here, we show that hTERT binds to importin-α proteins through the bipartite NLS and that this heterodimer then forms a complex with importin-β proteins to interact with the nuclear pore complex. Depletion of individual importin-α proteins results in a failure of hTERT nuclear import, and the resulting cytoplasmic hTERT is degraded by ubiquitin-dependent proteolysis. Crystallographic analysis reveals that the bipartite NLS interacts with both the major and minor sites of importin-α proteins. We also show that Akt-mediated phosphorylation of S227 increases the binding affinity for importin-α proteins and promotes nuclear import of hTERT, thereby resulting in increased telomerase activity. These data provide details of a binding mechanism that enables hTERT to interact with the nuclear import receptors and of the control of the dynamic nuclear transport of hTERT through phosphorylation.

Published

2015

27. Solution structure of the transmembrane 2 domain of the human melanocortin-4 receptor in sodium dodecyl sulfate (SDS) micelles and the functional implication of the D90N mutant

Author

Hyun Soo Cho, Minsup Kim, Art E. Cho, Dae-Seok Oh, Kuglae Kim, Dongju Lee, Weontae Lee, Ji Hye Yun, Yoon Joo Ko, and Young-Jin Jung

Subjects

Models, Molecular, Magnetic Resonance Spectroscopy, Allosteric regulation, Mutant, Molecular Sequence Data, Biophysics, Biochemistry, Protein Structure, Secondary, Transmembrane domain, Melanocortin receptor, Humans, Amino Acid Sequence, Obesity, Protein secondary structure, Micelles, Nuclear magnetic resonance spectroscopy, G protein-coupled receptor, Ions, Binding Sites, Chemistry, Protein Stability, Circular Dichroism, Sodium, Sodium Dodecyl Sulfate, Cell Biology, Melanocortin 4 receptor, Solutions, Structural Homology, Protein, Receptor, Melanocortin, Type 4, Mutant Proteins, Salts, Sodium ion binding, Sodium allosteric binding

Abstract

The melanocortin receptors (MCRs) are members of the G protein-coupled receptor (GPCR) 1 superfamily with seven transmembrane (TM) domains. Among them, the melanocortin-4 receptor (MC4R) subtype has been highlighted recently by genetic studies in obese humans. In particular, in a patient with severe early-onset obesity, a novel heterozygous mutation in the MC4R gene was found in an exchange of Asp to Asn in the 90th amino acid residue located in the TM 2 domain (MC4R D90N ). Mutations in the MC4R gene are the most frequent monogenic causes of severe obesity and are described as heterozygous with loss of function. We determine solution structures of the TM 2 domain of MC4R (MC4R TM2 ) and compared secondary structure of Asp90 mutant (MC4R TM2-D90N ) in a micelle environment by nuclear magnetic resonance (NMR) spectroscopy. NMR structure shows that MC4R TM2 forms a long α-helix with a kink at Gly98. Interestingly, the structure of MC4R TM2-D90N is similar to that of MC4R TM2 based on data from CD and NMR spectrum. However, the thermal stability and homogeneity of MC4R D90N is quite different from those of MC4R. The structure from molecular modeling suggests that Asp90 2.50 plays a key role in allosteric sodium ion binding. Our data suggest that the sodium ion interaction of Asp90 2.50 in the allosteric pocket of MC4R is essential to its function, explaining the loss of function of the MC4R D90N mutant.

Published

2015

28. Constitutive activation of T cells by γ2-herpesviral GPCR through the interaction with cellular CXCR4

Author

Hyun Soo Cho, Chan Ki Min, Hyun-Jun Nam, Seong Kyu Han, Myung Sik Choi, Sebastian Schmidt, Jeong Seok Cha, Kuglae Kim, Abdimadiyeva Aigerim, Nam Hyuk Cho, Eun Kyung Kwon, Yuri Kim, Hoyoung Kim, Jae Won Lee, and Sanguk Kim

Subjects

0301 basic medicine, Cell signaling, Herpesvirus 4, Human, Receptors, CXCR4, viruses, T cell, Receptors, Antigen, T-Cell, alpha-beta, T-Lymphocytes, Primary Cell Culture, Biology, Lymphocyte Activation, Herpesvirus 2, Saimiriine, 03 medical and health sciences, Chemokine receptor, medicine, Gene silencing, Humans, Viral G-Protein Coupled Receptor, Molecular Biology, G protein-coupled receptor, ZAP-70 Protein-Tyrosine Kinase, ZAP70, T-cell receptor, Cell Biology, Cell biology, 030104 developmental biology, medicine.anatomical_structure, HEK293 Cells, Gene Expression Regulation, Lymphocyte Specific Protein Tyrosine Kinase p56(lck), Herpesvirus 8, Human, Host-Pathogen Interactions, Receptors, Chemokine, Protein Multimerization, Protein Binding, Signal Transduction

Abstract

Members of the herpesviral family use multiple strategies to hijack infected host cells and exploit cellular signaling for their pathogenesis and latent infection. Among the most intriguing weapons in the arsenal of pathogenic herpesviruses are the constitutively active virally-encoded G protein-coupled receptors (vGPCRs). Even though vGPCRs contribute to viral pathogenesis such as immune evasion and proliferative disorders, the molecular details of how vGPCRs continuously activate cellular signaling are largely unknown. Here, we report that the vGPCR of Herpesvirus saimiri (HVS), an oncogenic γ2-herpesvirus, constitutively activates T cells via a heteromeric interaction with cellular CXCR4. Constitutive T cell activation also occurs with expression of the vGPCR of Kaposi's sarcoma-associated herpesvirus (KSHV), but not the vGPCR of Epstein-Barr virus. Expression of HVS vGPCR down-regulated the surface expression of CXCR4 but did not induce the degradation of the chemokine receptor, suggesting that vGPCR/CXCR4 signaling continues in cytosolic compartments. The physical association of vGPCR with CXCR4 was demonstrated by proximity ligation assay as well as immunoprecipitation. Interestingly, the constitutive activation of T cells by HVS vGPCR is independent of proximal T cell receptor (TCR) signaling molecules, such as TCRβ, Lck, and ZAP70, whereas CXCR4 silencing by shRNA abolished T cell activation by vGPCRs of HVS and KSHV. Furthermore, previously identified inactive vGPCR mutants failed to interact with CXCR4. These findings on the positive cooperativity of vGPCR with cellular CXCR4 in T cell activation extend our current understanding of the molecular mechanisms of vGPCR function and highlight the importance of heteromerization for GPCR activity.

Published

2016

29. In Vitro and In Vivo Investigation of the Inhibition of Trypanosoma brucei Cell Growth by Lipophilic Bisphosphonates

Author

Soo Young Byun, Hyun Soo Cho, Gyongseon Yang, Eric Oldfield, Joo Hwan No, Wei Zhu, Ke Wang, Kuglae Kim, Gahee Choi, and Jeong Seok Cha

Subjects

Models, Molecular, Trypanosoma brucei brucei, Protozoan Proteins, Gene Expression, Trypanosoma brucei, Pharmacology, Parasitemia, Mice, Structure-Activity Relationship, Farnesyl diphosphate synthase, Prenylation, In vivo, parasitic diseases, Escherichia coli, Animals, Humans, Pharmacology (medical), Experimental Therapeutics, Enzyme Inhibitors, Trypanocidal agent, Mice, Inbred BALB C, Binding Sites, biology, Diphosphonates, Isothermal titration calorimetry, Geranyltranstransferase, biology.organism_classification, Survival Analysis, Trypanocidal Agents, In vitro, Recombinant Proteins, Disease Models, Animal, Infectious Diseases, HEK293 Cells, Trypanosomiasis, African, Biochemistry, biology.protein, Thermodynamics, Hydrophobic and Hydrophilic Interactions, Protein Binding

Abstract

We report the results of a screen of a library of 925 potential prenyl synthase inhibitors against Trypanosoma brucei farnesyl diphosphate synthase (TbFPPS) and against T. brucei , the causative agent of human African trypanosomiasis. The most potent compounds were lipophilic analogs of the bone resorption drug zoledronate, some of which had submicromolar to low micromolar activity against bloodstream form T. brucei and selectivity indices of up to ∼300. We evaluated the effects of two such inhibitors on survival and parasitemia in a T. brucei mouse model of infection and found that survival increased by up to 16 days. We also investigated the binding of three lipophilic bisphosphonates to an expressed TbFPPS using crystallography and investigated the thermodynamics of binding using isothermal titration calorimetry.

Published

2015

30. Monomerization and ER Relocalization of GRASP Is a Requisite for Unconventional Secretion of CFTR

Author

Jiyoon, Kim, Shin Hye, Noh, He, Piao, Dong Hee, Kim, Kuglae, Kim, Jeong Seok, Cha, Woo Young, Chung, Hyun-Soo, Cho, Joo Young, Kim, and Min Goo, Lee

Subjects

Secretory Pathway, Cystic Fibrosis Transmembrane Conductance Regulator, Golgi Apparatus, Membrane Proteins, Endoplasmic Reticulum, Endoplasmic Reticulum Stress, Transfection, Protein Transport, HEK293 Cells, Mutation, Humans, Protein Multimerization, Carrier Proteins, HeLa Cells, Plasmids

Abstract

Induction of endoplasmic reticulum (ER)-to-Golgi blockade or ER stress induces Golgi reassembly stacking protein (GRASP)-mediated, Golgi-independent unconventional cell-surface trafficking of the folding-deficient ΔF508-cystic fibrosis transmembrane conductance regulator (CFTR). However, molecular mechanisms underlying this process remain elusive. Here, we show that phosphorylation-dependent dissociation of GRASP homotypic complexes and subsequent relocalization of GRASP to the ER play a critical role in the unconventional secretion of CFTR. Immunolocalization analyses of mammalian cells revealed that the Golgi protein GRASP55 was redistributed to the ER by stimuli that induce unconventional secretion of ΔF508-CFTR, such as induction of ER-to-Golgi blockade by the Arf1 mutant. Notably, the same stimuli also induced phosphorylation of regions near the C-terminus of GRASP55 and dissociation of GRASP homomultimer complexes. Furthermore, phosphorylation-mimicking mutations of GRASP55 induced the monomerization and ER relocalization of GRASP55, and these changes were nullified by phosphorylation-inhibiting mutations. These results provide mechanistic insights into how GRASP accesses the ER-retained ΔF508-CFTR and mediates the ER stress-induced unconventional secretion pathway.

Published

2015

31. The crystal structure of MPK38 in complex with OTSSP167, an orally administrative MELK selective inhibitor

Author

Kuglae Kim, Yingjin Kang, Young Je Cha, Hyun Soo Cho, and Yong Soon Cho

Subjects

Models, Molecular, Kinase, Mutant, Biophysics, Cell Biology, Biology, Protein Serine-Threonine Kinases, Crystallography, X-Ray, Biochemistry, In vitro, Maternal embryonic leucine zipper kinase, Serine, Mice, Cancer stem cell, In vivo, Animals, Threonine, Naphthyridines, Molecular Biology

Abstract

Murine protein serine/threonine kinase 38 (MPK38), also known as maternal embryonic leucine zipper kinase (MELK), has been associated with various human cancers and plays an important role in the formation of cancer stem cells. OTSSP167, a MELK selective inhibitor, exhibits a strong in vitro activity, conferring an IC50 of 0.41nM and in vivo effect on various human cancer xenograft models. Here, we report the crystal structure of MPK38 (T167E), an active mutant, in complex with OTSSP167 and describe its detailed protein-inhibitor interactions. Comparison with the previous determined structure of MELK bound to the nanomolar inhibitors shows that OTSSP167 effectively fits into the active site, thus offering an opportunity for structure-based development and optimization of MELK inhibitors.

Published

2014

32. Structural basis for the inhibition of human lysozyme by PliC from Brucella abortus

Author

Kuglae Kim, Si Hyeon Um, Nam-Chul Ha, Jin Sik Kim, Nahee Kim, and Hyun Soo Cho

Subjects

Models, Molecular, Protein Conformation, Virulence Factors, Virulence, Brucella abortus, Glutamic Acid, Crystallography, X-Ray, Biochemistry, Conserved sequence, Microbiology, chemistry.chemical_compound, Protein structure, Bacterial Proteins, Animals, Humans, Amino Acid Sequence, Enzyme Inhibitors, Databases, Protein, Peptide sequence, Conserved Sequence, biology, Escherichia coli Proteins, Periplasmic space, biology.organism_classification, Recombinant Proteins, chemistry, Amino Acid Substitution, Muramidase, Mutant Proteins, Peptidoglycan, Lysozyme, Periplasmic Proteins, Bacteria

Abstract

Lysozymes are the first line of defense for a diverse range of organisms that catalyze the degradation of bacterial peptidoglycan. Gram-negative bacteria produce proteinaceous lysozyme inhibitors to protect themselves from the action of lysozymes. To date, MliC or PliC (membrane-bound or periplasmic inhibitor of c-type lysozyme, respectively) has been found in various Gram-negative bacteria. Here, we report the crystal structures of Brucella abortus PliC and its complex with human c-type lysozyme. The complex structure demonstrates that the invariant loop of MliC/PliC plays a crucial role in the inhibition of lysozyme via its insertion into the active site cleft of the lysozyme, as previously observed in the complex structure of Pseudomonas aeruginosa MliC and chicken c-type lysozyme. We identified a new binding interface between a loop adjacent to the active site of human lysozyme and a loop carrying Glu112 of B. abortus PliC, the structure of which was disordered in P. aeruginosa MliC. Because MliC/PliC family members have been implicated as putative colonization or virulence factors, the structures and mechanism of action of MliC/PliC will be relevant to the control of bacterial growth in animal hosts.

Published

2013

33. RETRACTED ARTICLE: Human MTERF3 crystal structure forms a left-handed superhelix

Author

Dong-uk Kim, Sang-Gil Cho, Kuglae Kim, and Hyun Soo Cho

Subjects

Left handed, Crystallography, Superhelix, Chemistry, Cell Biology, General Medicine, Molecular Biology

Published

2010

34. The structures of the kinase domain and UBA domain of MPK38 suggest the activation mechanism for kinase activity

Author

Yong-Soon Cho, Yingjin Kang, Young-Je Cha, Kuglae Kim, and Hyun Soo Cho

Subjects

MAP kinase kinase kinase, biology, Chemistry, Cyclin-dependent kinase 5, Cyclin-dependent kinase 2, Mitogen-activated protein kinase kinase, Condensed Matter Physics, Biochemistry, MAP2K7, Cell biology, Inorganic Chemistry, Structural Biology, biology.protein, General Materials Science, c-Raf, Physical and Theoretical Chemistry, Kinase activity, Proto-oncogene tyrosine-protein kinase Src

Published

2015

35. Akt-mediated phosphorylation increases the binding affinity of hTERT for importin α to promote efficient nuclear translocation

Author

Sun-Ah Jung, Hyun Soo Cho, Kuglae Kim, In-Kwon Chung, Hoyoung Kim, and Jeong Seok Cha

Subjects

Chemistry, Importin, Condensed Matter Physics, Biochemistry, Molecular biology, Nuclear translocation, Cell biology, Inorganic Chemistry, Structural Biology, Phosphorylation, General Materials Science, Telomerase reverse transcriptase, Physical and Theoretical Chemistry, Protein kinase B

Published

2015

36. Crystal structure of human TERT_NLS peptide in complex with hImportin α5

Author

J. H. Yoo, Kuglae Kim, and Hyun Soo Cho

Subjects

chemistry.chemical_classification, Crystallography, Structural Biology, Chemistry, Stereochemistry, Peptide, Crystal structure

Published

2011

37. Structural Basis for the Inhibition of Human Lysozyme by PliC from Brucella abortus.

Author

Si-Hyeon Um, Jin-Sik Kim, Kuglae Kim, Nahee Kim, Hyun-Soo Cho, and Nam-Chul Ha

Published

2013