Your search keyword '"Seung-Min Shin"' showing total 111 results

1. Antibody targeting intracellular oncogenic Ras mutants exerts anti-tumour effects after systemic administration

Author

Seung-Min Shin, Dong-Ki Choi, Keunok Jung, Jeomil Bae, Ji-sun Kim, Seong-wook Park, Ki-Hoon Song, and Yong-Sung Kim

Subjects

Science

Abstract

Oncogenic RAS mutants are key anti-cancer targets as KRas mutations are very frequent in human cancers. Here, the authors engineer a cytosol-penetrating anti-Ras antibody and demonstrate its ability to block RAS-effector protein interactions inhibiting tumour growth of Ras mutant-driven cancers.

Published

2017

2. One-Step Etching Characteristics of ITO/Ag/ITO Multilayered Electrode in High-Density and High-Electron-Temperature Plasma

Author

Ho-Won Yoon, Seung-Min Shin, Seong-Yong Kwon, Hyun-Min Cho, Sang-Gab Kim, and Mun-Pyo Hong

Subjects

ITO/Ag/ITO multilayer, one-step dry etch, H2/HCl gas, ECR-RIE, TE-OLED, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This paper presents the dry etching characteristics of indium tin oxide (ITO)/Ag/ITO multilayered thin film, used as a pixel electrode in a high-resolution active-matrix organic light-emitting diode (AMOLED) device. Dry etching was performed using a combination of H2 and HCl gases in a reactive ion etching system with a remote electron cyclotron resonance (ECR) plasma source, in order to achieve high electron temperature. The effect of the gas ratio (H2/HCl) was closely observed, in order to achieve an optimal etch profile and an effective etch process, while other parameters—such as the radio frequency (RF) power, ECR power, chamber pressure, and temperature—were fixed. The optimized process, with an appropriate gas ratio, constitutes a one-step serial dry etch solution for ITO and Ag multilayered thin films.

Published

2021

3. Efficacy and safety of a new torque-controlled angiographic catheter in cerebral angiography: A multicenter, randomized, open-label trial

Author

Seung Min Shin, Ji Young Lee, Heo Nam Hun, Se Woong Choo, Yong Pyo Jeon, Jaewoo Chung, Jung Ho Ko, Hae-Won Koo, Dong Seoung Shin, Man Ryul Lee, and Jae Sang Oh

Subjects

Cerebral angiography, Catheters, Femoral artery, Torque-controlled, Carotid artery, Rotation force, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Objective: We aimed to examine the effectiveness and safety of a novel torque-controlled catheter for cerebral angiography. Methods: A total of 417 patients who underwent routine transfemoral cerebral angiography were enrolled in a randomized controlled study to compare the new torque-controlled and control group catheters. Device success was assessed on parameters such as the assessment of the common carotid artery, device rotation force, and success rate with the crossover group after the failed procedure. Four neurointerventionalists investigated the degree of satisfaction of using the new device. Superiority and non-inferiority tests of satisfaction scores were estimated for the new torque-controlled and the control group catheters. Results: The new torque-controlled catheter showed improved performance in terms of technical device success (92.79 vs. 98.09 %, P = 0.010), crossover after technical device failure (0 vs. 86.67 %, P = 0.004), and common carotid artery access (92.79 vs. 98.56 %, P = 0.004). The flexibility and rotational force of the new torque-controlled catheter were higher than those of the control group catheters (75.48 vs. 100 %, P

Published

2024

4. Cellular internalization mechanism and intracellular trafficking of filamentous M13 phages displaying a cell-penetrating transbody and TAT peptide.

Author

Aeyung Kim, Tae-Hwan Shin, Seung-Min Shin, Chuong D Pham, Dong-Ki Choi, Myung-Hee Kwon, and Yong-Sung Kim

Subjects

Medicine, Science

Abstract

Cellular internalization of bacteriophage by surface-displayed cell penetrating peptides has been reported, though the underlying mechanism remains elusive. Here we describe in detail the internalization mechanism and intracellular trafficking and stability of filamentous M13 phages, the cellular entry of which is mediated by surface-displayed cell-penetrating light chain variable domain 3D8 VL transbody (3D8 VL-M13) or TAT peptide (TAT-M13). Recombinant 3D8 VL-M13 and TAT-M13 phages were efficiently internalized into living mammalian cells via physiologically relevant, energy-dependent endocytosis and were recovered from the cells in their infective form with the yield of 3D8 VL-M13 being higher (0.005 ≈ 0.01%) than that of TAT-M13 (0.001 ≈ 0.005%). Biochemical and genetic studies revealed that 3D8 VL-M13 was internalized principally by caveolae-mediated endocytosis via interaction with heparan sulfate proteoglycans as cell surface receptors, whereas TAT-M13 was internalized by clathrin- and caveolae-mediated endocytosis utilizing chondroitin sulfate proteoglycans as cell surface receptors, suggesting that phage internalization occurs by physiological endocytotic mechanism through specific cell surface receptors rather than non-specific transcytotic pathways. Internalized 3D8 VL-M13 phages routed to the cytosol and remained stable for more than 18 h without further trafficking to other subcellular compartments, whereas TAT-M13 phages routed to several subcellular compartments before being degraded in lysosomes even after 2 h of internalization. Our results suggest that the internalizing mechanism and intracellular trafficking of filamentous M13 bacteriophages largely follow the attributes of the displayed cell-penetrating moiety. Efficient internalization and cytosolic localization of 3D8 VL transbody-displayed phages will provide a useful tool for intracellular delivery of polar macromolecules such as proteins, peptides, and siRNAs.

Published

2012

5. Structural and biochemical investigation into stable FGF2 mutants with novel mutation sites and hydrophobic replacements for surface-exposed cysteines.

Author

Young Jun An, Ye-Eun Jung, Kyeong Won Lee, Prashant Kaushal, In Young Ko, Seung Min Shin, Sangho Ji, Wookyung Yu, Cheolju Lee, Won-Kyu Lee, Kiweon Cha, Jung-Hyun Lee, Sun-Shin Cha, and Hyung-Soon Yim

Subjects

Medicine, Science

Abstract

Fibroblast growth factor 2 (FGF2) is an attractive biomaterial for pharmaceuticals and functional cosmetics. To improve the thermo-stability of FGF2, we designed two mutants harboring four-point mutations: FGF2-M1 (D28E/C78L/C96I/S137P) and FGF2-M2 (D28E/C78I/C96I/S137P) through bioinformatics, molecular thermodynamics, and molecular modeling. The D28E mutation reduced fragmentation of the FGF2 wild type during preparation, and the substitution of a whale-specific amino acid, S137P, enhanced the thermal stability of FGF2. Surface-exposed cysteines that participate in oligomerization through intermolecular disulfide bond formation were substituted with hydrophobic residues (C78L/C78I and C96I) using the in silico method. High-resolution crystal structures revealed at the atomic level that the introduction of mutations stabilizes each local region by forming more favorable interactions with neighboring residues. In particular, P137 forms CH-π interactions with the side chain indole ring of W123, which seems to stabilize a β-hairpin structure, containing a heparin-binding site of FGF2. Compared to the wild type, both FGF2-M1 and FGF2-M2 maintained greater solubility after a week at 45 °C, with their Tm values rising by ~ 5 °C. Furthermore, the duration for FGF2-M1 and FGF2-M2 to reach 50% residual activity at 45 °C extended to 8.8- and 8.2-fold longer, respectively, than that of the wild type. Interestingly, the hydrophobic substitution of surface-exposed cysteine in both FGF2 mutants makes them more resistant to proteolytic cleavage by trypsin, subtilisin, proteinase K, and actinase than the wild type and the Cys → Ser substitution. The hydrophobic replacements can influence protease resistance as well as oligomerization and thermal stability. It is notable that hydrophobic substitutions of surface-exposed cysteines, as well as D28E and S137P of the FGF2 mutants, were designed through various approaches with structural implications. Therefore, the engineering strategies and structural insights adopted in this study could be applied to improve the stability of other proteins.

Published

2024

6. Selective block of sensory neuronal T-type/Cav3.2 activity mitigates neuropathic pain behavior in a rat model of osteoarthritis pain

Author

Brandon Itson-Zoske, Seung Min Shin, Hao Xu, Chensheng Qiu, Fan Fan, Quinn H. Hogan, and Hongwei Yu

Subjects

Monosodium iodoacetate, Osteoarthritis, Chronic pain, Dorsal root ganglia, Primary sensory neuron, T-type/Cav3.2 channels, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Peripheral and central nociceptive sensitization is a critical pathogenetic component in osteoarthritis (OA) chronic pain. T-type calcium channel 3.2 (CaV3.2) regulates neuronal excitability and plays important roles in pain processing. We previously identified that enhanced T-type/CaV3.2 activity in the primary sensory neurons (PSNs) of dorsal root ganglia (DRG) is associated with neuropathic pain behavior in a rat model of monosodium iodoacetate (MIA)-induced knee OA. PSN-specific T-type/CaV3.2 may therefore represent an important mediator in OA painful neuropathy. Here, we test the hypothesis that the T-type/CaV3.2 channels in PSNs can be rationally targeted for pain relief in MIA-OA. Methods MIA model of knee OA was induced in male and female rats by a single injection of 2 mg MIA into intra-knee articular cavity. Two weeks after induction of knee MIA-OA pain, recombinant adeno-associated viruses (AAV)-encoding potent CaV3.2 inhibitory peptide aptamer 2 (CaV3.2iPA2) that have been characterized in our previous study were delivered into the ipsilateral lumbar 4/5 DRG. Effectiveness of DRG-CaV3.2iPA2 treatment on evoked (mechanical and thermal) and spontaneous (conditioned place preference) pain behavior, as well as weight-bearing asymmetry measured by Incapacitance tester, in the arthritic limbs of MIA rats were evaluated. AAV-mediated transgene expression in DRG was determined by immunohistochemistry. Results AAV-mediated expression of CaV3.2iPA2 selective in the DRG-PSNs produced significant and comparable mitigations of evoked and spontaneous pain behavior, as well as normalization of weight-bearing asymmetry in both male and female MIA-OA rats. Analgesia of DRG-AAV-CaV3.2iPA1, another potent CaV3.2 inhibitory peptide, was also observed. Whole-cell current-clamp recordings showed that AAV-mediated CaV3.2iPA2 expression normalized hyperexcitability of the PSNs dissociated from the DRG of MIA animals, suggesting that CaV3.2iPA2 attenuated pain behavior by reversing MIA-induced neuronal hyperexcitability. Conclusions Together, our results add therapeutic support that T-type/CaV3.2 in primary sensory pathways contributes to MIA-OA pain pathogenesis and that CaV3.2iPAs are promising analgesic leads that, combined with AAV-targeted delivery in anatomically segmental sensory ganglia, have the potential for further development as a peripheral selective T-type/CaV3.2-targeting strategy in mitigating chronic MIA-OA pain behavior. Validation of the therapeutic potential of this strategy in other OA models may be valuable in future study.

Published

2022

7. Computed tomography-based analysis of the characteristics of fifth metacarpal neck fractures and its clinical applications

Author

Donghee Kwak, Seung Min Shin, Hyun Jae Ryoo, In Cheul Choi, and Jong Woong Park

Subjects

General Earth and Planetary Sciences, General Environmental Science

Abstract

Purpose: Understanding the configuration and characteristics of the comminuted fifth metacarpal neck fractures is essential for successful operative treatment, especially for antegrade intramedullary Kirchner wire (K-wire) fixation. This study aimed to investigate the characteristics and shape of comminuted fragments in fifth metacarpal neck fractures and suggest the appropriate K-wire position. Methods: Forty-one cases of fifth metacarpal neck fractures operated from January 2010 to April 2022 were enrolled in this study. The length and width of the comminuted fragments were measured, as well as the distance from the articular surface of the fifth metacarpal head to the comminuted fragment (Da-c) and the distance from the articular surface to the proximal end of the metacarpal head (Da-h). The location of the comminuted fragments was categorized in terms of four quadrants: dorsal-ulnar (DU), dorsal-radial (DR), palmar-radial, and palmar-ulnar.Results: Among 41 patients with fifth metacarpal neck fractures, comminuted fracture fragments were observed in 35 cases (85.4%). The mean length and width of the comminuted fragments were 7.5±2.3 mm and 3.2±0.8 mm, respectively. The comminuted fragments were on the dorsal aspect of the fracture in all cases; 27 (77.1%) in the DU quadrant and 8 (22.9%) in the DR quadrant. The mean Da-c and Da-h were 5.3±1.6 mm and 10.9±1.5 mm, respectively.Conclusion: To ensure stable K-wire fixation, it is essential to identify the location and characteristics of the comminuted fracture fragments before surgery and subsequently choose an appropriate K-wire position.

Published

2023

8. Combination Therapy of the Active KRAS-Targeting Antibody inRas37 and a PI3K Inhibitor in Pancreatic Cancer

Author

Min Gyu Woo, Yong Sung Kim, Mi Kwon Son, Seung-Min Shin, Zhenghuan Fang, Kyung Hee Jung, Soon-Sun Hong, Young-Chan Yoon, Hong Hua Yan, Ji Eun Lee, Yeo Wool Kang, and Jung Hee Park

Subjects

Pharmacology, MAPK/ERK pathway, Cell growth, Chemistry, medicine.disease, medicine.disease_cause, Biochemistry, Pancreatic cancer, Drug Discovery, medicine, Cancer research, Molecular Medicine, KRAS, Signal transduction, Protein kinase A, Protein kinase B, PI3K/AKT/mTOR pathway

Abstract

KRAS activating mutations, which are present in more than 90% of pancreatic cancers, drive tumor dependency on the RAS/mitogen-activated protein kinase (MAPK) and phosphoinositide 3-kinase (PI3K)/AKT signaling pathways. Therefore, combined targeting of RAS/MAPK and PI3K/AKT signaling pathways may be required for optimal therapeutic effect in pancreatic cancer. However, the therapeutic efficacy of combined MAPK and PI3K/AKT signaling target inhibitors is unsatisfactory in pancreatic cancer treatment, because it is often accompanied by MAPK pathway reactivation by PI3K/AKT inhibitor. Therefore, we developed an inRas37 antibody, which directly targets the intra-cellularly activated GTP-bound form of oncogenic RAS mutation and investigated its synergistic effect in the presence of the PI3K inhibitor BEZ-235 in pancreatic cancer. In this study, inRas37 remarkably increased the drug response of BEZ-235 to pancreatic cancer cells by inhibiting MAPK reactivation. Moreover, the co-treatment synergistically inhibited cell proliferation, migration, and invasion and exhibited synergistic anticancer activity by inhibiting the MAPK and PI3K pathways. The combined administration of inRas37and BEZ-235 significantly inhibited tumor growth in mouse models. Our results demonstrated that inRas37 synergistically increased the antitumor activity of BEZ-235 by inhibiting MAPK reactivation, suggesting that inRas37 and BEZ-235 co-treatment could be a potential treatment approach for pancreatic cancer patients with KRAS mutations.

Published

2022

9. Longitudinal Characterization of Cerebral Hemodynamics in the TgF344-AD Rat Model of Alzheimer’s Disease

Author

Xing Fang, Chengyun Tang, Huawei Zhang, Jane J. Border, Yedan Liu, Seung Min Shin, Hongwei Yu, Richard J. Roman, and Fan Fan

Subjects

Aging, Geriatrics and Gerontology

Abstract

Alzheimer’s Disease (AD) is a global healthcare crisis. The TgF344-AD rat is an AD model exhibiting age-dependent AD pathological hallmarks. We confirmed that AD rats developed cognitive deficits at 6 months without alteration of any other major biophysical parameters. We longitudinally characterized cerebral hemodynamics in AD rats at 3, 4, 6, and 14 months. The myogenic responses of the cerebral arteries and arterioles were impaired at 4 months of age in the AD rats. Consistent with theex vivoresults, the AD rat exhibited poor autoregulation of surface and deep cortical cerebral blood flow two months preceding cognitive decline. The dysfunction of cerebral hemodynamics in AD is exacerbated with age associated with reduced cerebral perfusion. Further, abolished cell contractility contributes to cerebral hemodynamics imbalance in AD. This may be attributed to enhanced ROS production, reduced mitochondrial respiration and ATP production, and disrupted actin cytoskeleton in cerebral vascular contractile cells.

Published

2022

10. Piezo2 mechanosensitive ion channel is located to sensory neurons and nonneuronal cells in rat peripheral sensory pathway: implications in pain

Author

Fan Fan, Brandon Itson-Zoske, Hongwei Yu, Cheryl L. Stucky, Seung Min Shin, Francie Moehring, and Quinn H. Hogan

Subjects

Sensory Receptor Cells, Sensory processing, medicine.medical_treatment, Sensory system, Biology, Mechanotransduction, Cellular, Article, Ion Channels, Mechanosensitive ion channel, Postsynaptic potential, Ganglia, Spinal, medicine, Animals, Neurons, Afferent, Mechanotransduction, Spinal cord, Rats, Anesthesiology and Pain Medicine, medicine.anatomical_structure, nervous system, Neurology, Neuropathic pain, Neuralgia, Neurology (clinical), Sciatic nerve, Neuroglia, Neuroscience

Abstract

Piezo2 mechanotransduction channel is a crucial mediator of sensory neurons for sensing and transducing touch, vibration, and proprioception. We here characterized Piezo2 expression and cell specificity in rat peripheral sensory pathway using a validated Piezo2 antibody. Immunohistochemistry using this antibody revealed Piezo2 expression in pan primary sensory neurons of dorsal root ganglia in naive rats, which was actively transported along afferent axons to both central presynaptic terminals innervating the spinal dorsal horn (DH) and peripheral afferent terminals in the skin. Piezo2 immunoreactivity (IR) was also detected in the postsynaptic neurons of the DH and in the motor neurons of the ventral horn, but not in spinal glial fibrillary acidic protein-positive and Iba1-positive glia. Notably, Piezo2-IR was clearly identified in peripheral nonneuronal cells, including perineuronal glia, Schwann cells in the sciatic nerve and surrounding cutaneous afferent endings, as well as in skin epidermal Merkel cells and melanocytes. Immunoblots showed increased Piezo2 in dorsal root ganglia ipsilateral to plantar injection of complete Freund's adjuvant, and immunostaining revealed increased Piezo2-IR intensity in the DH ipsilateral to complete Freund's adjuvant injection. This elevation of DH Piezo2-IR was also evident in various neuropathic pain models and monosodium iodoacetate knee osteoarthritis pain model, compared with controls. We conclude that (1) the pan neuronal profile of Piezo2 expression suggests that Piezo2 may function extend beyond simply touch or proprioception mediated by large-sized low-threshold mechanosensitive primary sensory neurons; (2) Piezo2 may have functional roles involving sensory processing in the spinal cord, Schwann cells, and skin melanocytes; and (3) aberrant Piezo2 expression may contribute pain pathogenesis.

Published

2021

11. Peripheral sensory neurons and non-neuronal cells express functional Piezo1 channels

Author

Seung Min Shin, Brandon Itson-Zoske, Fan Fan, Uarda Gani, Mahmudur Rahman, Quinn H. Hogan, and Hongwei Yu

Subjects

Cellular and Molecular Neuroscience, Anesthesiology and Pain Medicine, Molecular Medicine

Abstract

Here, we present evidence showing Piezo1 protein expression in the primary sensory neurons (PSNs) and non-neuronal cells of rat peripheral nervous system. Using a knockdown/knockout validated antibody, we detected Piezo1 immunoreactivity (IR) in ∼60% of PSNs of rat dorsal root ganglia (DRG) with higher IR density in the small- and medium-sized neurons. Piezo1-IR was clearly identified in DRG perineuronal glia, including satellite glial cells (SGCs) and Schwann cells; in sciatic nerve Schwann cells surrounding the axons and cutaneous afferent endings; and in skin epidermal Merkel cells and melanocytes. Neuronal and non-neuronal Piezo1 channels were functional since various cells (dissociated PSNs and SGCs from DRGs, isolated Schwann cells, and primary human melanocytes) exhibited a robust response to Piezo1 agonist Yoda1 by an increase of intracellular Ca2+ concentration ([Ca2+]i). These responses were abolished by non-specific Piezo1 antagonist GsMTx4. Immunoblots showed elevated Piezo1 protein in DRG proximal to peripheral nerve injury-induced painful neuropathy, while PSNs and SGCs from rats with neuropathic pain showed greater Yoda1-evoked elevation of [Ca2+]i and an increased frequency of cells responding to Yoda1, compared to controls. Sciatic nerve application of GsMTx4 alleviated mechanical hypersensitivity induced by Yoda1. Overall, our data show that Piezo1 is widely expressed by the neuronal and non-neuronal cells in the peripheral sensory pathways and that painful nerve injury appeared associated with activation of Piezo1 in PSNs and peripheral glial cells.

Published

2023

12. A Study on Introducing Safety & Health Management System to the Navy Force to Prevent the Losses by Non-combat Accidents

Author

Byung Jick Kim, Eunsung Baek, Seung Min Shin, Park， Kyoshik, and Jeong Woo Han

Subjects

Navy, Aeronautics, Health management system, Business

Published

2020

13. Targeting intrinsically disordered regions facilitates discovery of calcium channels 3.2 inhibitory peptides for adeno-associated virus-mediated peripheral analgesia

Author

Seung Min Shin, Justas Lauzadis, Brandon Itson-Zoske, Yongsong Cai, Fan Fan, Gayathri K. Natarajan, Wai-Meng Kwok, Michelino Puopolo, Quinn H. Hogan, and Hongwei Yu

Subjects

Analgesics, Sensory Receptor Cells, Dependovirus, Rats, Rats, Sprague-Dawley, Calcium Channels, T-Type, Anesthesiology and Pain Medicine, HEK293 Cells, Neurology, Ganglia, Spinal, Humans, Animals, Pain Management, Neuralgia, Neurology (clinical), Calcium Channels, Analgesia, Peptides, Aptamers, Peptide

Abstract

Ample data support a prominent role of peripheral T-type calcium channels 3.2 (Ca V 3.2) in generating pain states. Development of primary sensory neuron-specific inhibitors of Ca V 3.2 channels is an opportunity for achieving effective analgesic therapeutics, but success has been elusive. Small peptides, especially those derived from natural proteins as inhibitory peptide aptamers (iPAs), can produce highly effective and selective blockade of specific nociceptive molecular pathways to reduce pain with minimal off-target effects. In this study, we report the engineering of the potent and selective iPAs of Ca V 3.2 from the intrinsically disordered regions (IDRs) of Ca V 3.2 intracellular segments. Using established prediction algorithms, we localized the IDRs in Ca V 3.2 protein and identified several Ca V 3.2iPA candidates that significantly reduced Ca V 3.2 current in HEK293 cells stably expressing human wide-type Ca V 3.2. Two prototype Ca V 3.2iPAs (iPA1 and iPA2) derived from the IDRs of Ca V 3.2 intracellular loops 2 and 3, respectively, were expressed selectively in the primary sensory neurons of dorsal root ganglia in vivo using recombinant adeno-associated virus (AAV), which produced sustained inhibition of calcium current conducted by Ca V 3.2/T-type channels and significantly attenuated both evoked and spontaneous pain behavior in rats with neuropathic pain after tibial nerve injury. Recordings from dissociated sensory neurons showed that AAV-mediated Ca V 3.2iPA expression suppressed neuronal excitability, suggesting that Ca V 3.2iPA treatment attenuated pain by reversal of injury-induced neuronal hypersensitivity. Collectively, our results indicate that Ca V 3.2iPAs are promising analgesic leads that, combined with AAV-mediated delivery in anatomically targeted sensory ganglia, have the potential to be a selective peripheral Ca V 3.2-targeting strategy for clinical treatment of pain.

Published

2022

14. Peripherally targeted analgesia via AAV-mediated sensory neuron-specific inhibition of multiple pronociceptive sodium channels in rat

Author

Seung Min Shin, Brandon Itson-Zoske, Chensheng Qiu, Mahmudur Rahman, Uarda Gani, Fan Fan, Theodore R. Cummins, Quinn H. Hogan, and Hongwei Yu

Subjects

Pathology, medicine.medical_specialty, Chemistry, PIEZO1, Sensory system, Nerve injury, medicine.anatomical_structure, nervous system, Peripheral nervous system, Peripheral nerve injury, Neuropathic pain, medicine, Sciatic nerve, medicine.symptom, Merkel cell

Abstract

This study reports that targeting intrinsically disordered regions (IDRs) of NaV1.7 protein facilitated discovery of sodium channel inhibitory peptide aptamers (NaviPA) for adeno-associated virus (AAV)-mediated, sensory neuron-specific analgesia. A multipronged inhibition of INa1.7, INa1.6, and INa1.3, but not INa1.5and INa1.8was found for a prototype, named NaviPA1, which was derived from the NaV1.7 intracellular loop 1 and is conserved among the TTXs NaVsubtypes. NaviPA1 expression in primary sensory neurons (PSNs) of dorsal root ganglia (DRG) produced significant inhibition of TTXs INabut not TTXr INa. DRG injection of AAV6-encoded NaviPA1 significantly attenuated evoked and spontaneous pain behaviors in both male and female rats with neuropathic pain induced by tibial nerve injury (TNI). Whole-cell current-clamp of the PSNs showed that NaviPA1 expression normalized PSN excitability in TNI rats, suggesting that NaviPA1 attenuated pain by reversal of injury-induced neuronal hypersensitivity. Immunohistochemistry revealed efficient NaviPA1 expression restricted in PSNs and their central and peripheral terminals, indicating PSN-restricted AAV biodistribution. Inhibition of sodium channels by NaviPA1 was replicated in the human iPSC-derived sensory neurons. These results summate that NaviPA1 is a promising analgesic lead that, combined with AAV-mediated PSN-specific block of multiple TTXs NaVs has potential as peripheral nerve-restricted analgesic therapeutics.

Published

2021

15. Prevalence of Precancerous Conditions and Gastric Cancer Based upon the National Cancer Screening Program in Korea for 7 Years, Single Center Experience

Author

Ji Hyuk Kang, Yun Jeong Lim, Jung Hyun Kang, Jae Nam Yang, Seung Min Shin, Jae Hyeuk Choi, and Jin Ho Lee

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Aims. Gastric cancer is the second most prevalent cancer and the third leading cause of cancer-related deaths in Korea. The National Cancer Screening Program (NCSP) has implemented esophagogastroduodenoscopy (EGD) biennially for all Koreans starting in their 40s. This study was conducted to estimate the clinical relevance of NCSP through identifying the prevalence of gastric disease, including cancer. Materials and Methods. Data from 40,821 subjects who received the screening EGD in the single center for 7 years were retrospectively investigated. Results. The overall prevalence of nonatrophic/atrophic/metaplastic gastritis, peptic ulcer, adenoma, early gastric cancer (EGC), and advanced gastric cancer (AGC) was 44.28%, 27.97%, 14.95%, 0.59%, 0.43%, 0.21%, and 0.09%, respectively. The prevalence of metaplastic gastritis, peptic ulcer, adenoma, EGC, and AGC was significantly higher in men than in women. The prevalence of preneoplastic/neoplastic disease significantly increased with age. Judged from the ratio of EGC to AGC, the proportion of EGC made up to 70% of all cancers. Conclusions. Screening endoscopy starting for people in their 40s should be strongly recommended for the elderly. Through the NCSP, the early detection of gastric cancer might contribute to the decreased mortality rate due to gastric cancer in Korea.

Published

2015

16. S-SCAM inhibits Axin-dependent synaptic function of GSK3β in a sex-dependent manner

Author

Gillian Kearney, David Grau, Damaris Nieves Torres, Seung Min Shin, and Sang H. Lee

Subjects

Male, Neurons, Mice, Multidisciplinary, Glycogen Synthase Kinase 3 beta, Neuronal Plasticity, Sex Factors, Axin Protein, Animals, Female, Guanylate Kinases, Adaptor Proteins, Signal Transducing, Signal Transduction

Abstract

S-SCAM/MAGI-2 gene duplication is associated with schizophrenia (SCZ). S-SCAM overexpression in the forebrain induces SCZ-like phenotypes in a transgenic (Tg) mouse model. Interestingly, S-SCAM Tg mice show male-specific impairments in synaptic plasticity and working memory. However, mechanisms underlying the sex-specific deficits remain unknown. Here we report that S-SCAM Tg mice have male-specific deficits in synaptic GSK3β functions, as shown by reduced synaptic protein levels and increased inhibitory phosphorylation of GSK3β. This GSK3β hyper-phosphorylation was associated with increased CaMKII activities. Notably, synaptic levels of Axin1, to which GSK3β binds in competition with S-SCAM, were also reduced in male S-SCAM Tg mice. We demonstrated that Axin-binding is required for the S-SCAM overexpression-induced synaptic GSK3β reduction. Axin stabilization using XAV939 rescued the GSK3β deficits and restored the temporal activation of GSK3β during long-term depression in S-SCAM overexpressing neurons. Interestingly, synaptic Axin2 levels were increased in female S-SCAM Tg mice. Female sex hormone 17β-estradiol increased Axin2 expression and increased synaptic GSK3β levels in S-SCAM overexpressing neurons. These results reveal the role of S-SCAM in controlling Axin-dependent synaptic localization of GSK3β. Moreover, our studies point out the pathological relevance of GSK3β hypofunction found in humans and contribute to understanding the molecular underpinnings of sex differences in SCZ.

Published

2021

17. Study on Performance of Vehicle with Different Types of 12 V Starter Batteries Using HILS

Author

Tae-Hoon Kim, Hyun-Sik Song, Donghyun Shin, Byoung-Kuk Lee, Jin-Beom Jeong, and Seung-Min Shin

Subjects

Battery (electricity), Alternator (automotive), Test bench, business.industry, Computer science, Powertrain, 020209 energy, 020208 electrical & electronic engineering, Automotive industry, 02 engineering and technology, Automotive engineering, Lithium battery, law.invention, Internal combustion engine, law, 0202 electrical engineering, electronic engineering, information engineering, Fuel efficiency, Electrical and Electronic Engineering, business

Abstract

There is an active technological development effort into the fuel efficiency enhancement of the existing internal combustion engine vehicles. As part of this technological development effort, researches are being conducted on the use of lithium batteries as the starter battery for internal combustion engine vehicles, in place of lead–acid batteries. While the use of lithium starter battery is expected to result in various advantages and disadvantages, there is a lack of specific research on this area. Therefore, in this paper, we present a quantitative analysis of the characteristics and performance of internal combustion engine vehicles with different types of starter batteries. For this purpose, we simulate the power-net system of a vehicle, including charging control, through a test bench based on actual vehicle data, and develop an automotive power-net hardware-in-the-loop simulation (HILS) by combining the test bench with a powertrain model. HILS-based test and evaluation were performed for vehicles equipped with absorbent glass mat (AGM) battery and those with lithium battery, using an actual road evaluation pattern to compare their characteristics and performance with impedance measurements for each type of battery.

Published

2019

18. KRAS targeting antibody synergizes anti-cancer activity of gemcitabine against pancreatic cancer

Author

Yong Sung Kim, Kyung Hee Jung, Soon-Sun Hong, Yeo Wool Kang, Seung-Min Shin, Min Ji Cheon, Soo Jung Kim, Min Gyu Woo, Mi Kwon Son, Boreum Han, Hong Hua Yan, Jung Hee Park, Zhenghuan Fang, Joo Han Lim, and Ji Eun Lee

Subjects

0301 basic medicine, Cancer Research, Angiogenesis, medicine.medical_treatment, Mice, Nude, medicine.disease_cause, Deoxycytidine, Antibodies, Targeted therapy, Metastasis, Proto-Oncogene Proteins p21(ras), 03 medical and health sciences, Cell Line, Tumor, Pancreatic cancer, Antineoplastic Combined Chemotherapy Protocols, Animals, Humans, Medicine, PI3K/AKT/mTOR pathway, Mice, Inbred BALB C, business.industry, Cancer, Drug Synergism, medicine.disease, Xenograft Model Antitumor Assays, Gemcitabine, Tumor Burden, Pancreatic Neoplasms, 030104 developmental biology, Oncology, Mutation, Cancer research, KRAS, business, Carcinoma, Pancreatic Ductal, Signal Transduction, medicine.drug

Abstract

Pancreatic cancer exhibits an oncogenic KRAS mutation rate of ∼90%. Despite research and drug development efforts focused on KRAS, no targeted therapy has been clinically approved for the treatment of pancreatic cancer with KRAS mutation. Also, the efficacy of gemcitabine is poor due to rapidly acquired resistance. We developed RT11-i antibody, which directly targets the intracellularly activated GTP-bound form of oncogenic RAS mutants. Here, we investigated the combined effects of RT11-i and gemcitabine in vitro and in vivo, and the mechanism involved. RT11-i significantly sensitized pancreatic cancer cells to gemcitabine. Also, the co-treatment synergistically inhibited angiogenesis, migration, and invasion, and showed synergistic anticancer activity by inhibiting the RAF/MEK/ERK or PI3K/AKT pathways. Furthermore, co-treatment inhibited endothelial barrier disruption in tumor vessels, which is a critical step in vascular leakiness of metastasis, and improved vessel structural stability. Importantly, co-treatment significantly suppressed tumor growth in an orthotopic tumor model. Taken together, our findings show that RT11-i synergistically increased the antitumor activity of gemcitabine by inhibiting RAS downstream signaling, which suggests RT11-i and gemcitabine be viewed a potential combination treatment option for pancreatic cancer patients with KRAS mutation.

Published

2018

19. Intracellular KRAS-specific antibody enhances the anti-tumor efficacy of gemcitabine in pancreatic cancer by inducing endosomal escape

Author

Min Gyu Woo, Soo Jung Kim, Ji Eun Lee, Zhenghuan Fang, Yong Sung Kim, Seung-Min Shin, Myung Sung Seo, Min Ji Cheon, Kyung Hee Jung, Soon-Sun Hong, Mi Kwon Son, Jung Hee Park, Yeo Wool Kang, Young-Chan Yoon, Hong Hua Yan, Joo Han Lim, Boreum Han, and Ji-Sun Kim

Subjects

0301 basic medicine, MAPK/ERK pathway, Male, Cancer Research, Antimetabolites, Antineoplastic, Epithelial-Mesenchymal Transition, Mice, Nude, Endosomes, medicine.disease_cause, Deoxycytidine, Proto-Oncogene Proteins p21(ras), 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Antineoplastic Agents, Immunological, Cell Movement, Pancreatic cancer, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, medicine, Animals, Humans, Neoplasm Invasiveness, Viability assay, Protein kinase B, PI3K/AKT/mTOR pathway, Cell Proliferation, Mice, Inbred BALB C, Chemistry, Epithelial cell adhesion molecule, Drug Synergism, medicine.disease, Epithelial Cell Adhesion Molecule, Xenograft Model Antitumor Assays, Gemcitabine, Endocytosis, Tumor Burden, Pancreatic Neoplasms, 030104 developmental biology, Oncology, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Mutation, Cancer research, KRAS, medicine.drug

Abstract

KRAS mutation is associated with the progression and growth of pancreatic cancer and contributes to chemo-resistance, which poses a significant clinical challenge in pancreatic cancer. Here, we developed a RT22-ep59 antibody (Ab) that directly targets the intracellularly activated GTP-bound form of oncogenic KRAS mutants after it is internalized into cytosol by endocytosis through tumor-associated receptor of extracellular epithelial cell adhesion molecule (EpCAM) and investigated its synergistic anticancer effects in the presence of gemcitabine in pancreatic cancer. We first observed that RT22-ep59 specifically recognized tumor-associated EpCAM and reached the cytosol by endosomal escape. In addition, the anticancer effect of RT22-ep59 was observed in the high-EpCAM-expressing pancreatic cancer cells and gemcitabine-resistant pancreatic cancer cells, but it had little effect on the low-EpCAM-expressing pancreatic cancer cells. Additionally, co-treatment with RT22-ep59 and gemcitabine synergistically inhibited cell viability, migration, and invasion in 3D-cultures and exhibited synergistic anticancer activity by inhibiting the RAF/ERK or PI3K/AKT pathways in cells with high-EpCAM expression. In an orthotopic mouse model, combined administration of RT22-ep59 and gemcitabine significantly inhibited tumor growth. Furthermore, the co-treatment suppressed cancer metastasis by blocking EMT signaling in vitro and in vivo. Our results demonstrated that RT22-ep59 synergistically increased the antitumor activity of gemcitabine by inhibiting RAS signaling by specifically targeting KRAS. This indicates that co-treatment with RT22-ep59 and gemcitabine might be considered a potential therapeutic strategy for pancreatic cancer patients harboring KRAS mutation.

Published

2020

20. Enhanced T-type calcium channel 3.2 activity in sensory neurons contributes to neuropathic-like pain of monosodium iodoacetate-induced knee osteoarthritis

Author

Xu Hao, Seung Min Shin, Quinn H. Hogan, Chensheng Qiu, Hongfei Xiang, Hongwei Yu, Brandon Itson-Zoske, and Yongsong Cai

Subjects

0301 basic medicine, Male, Monosodium iodoacetate, Sensory Receptor Cells, Sensory system, Osteoarthritis, Pharmacology, Pathogenesis, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, Calcium Channels, T-Type, 0302 clinical medicine, Piperidines, Ganglia, Spinal, Medicine, Animals, neuropathic pain, Inflammation, Activating Transcription Factor 3, T-type calcium channel 3.2, business.industry, whole-cell patch clamp, Chronic pain, T-type calcium channel, Imidazoles, dorsal root ganglia, Nociceptors, Osteoarthritis, Knee, medicine.disease, Calcium Channel Blockers, Immunohistochemistry, Sciatic Nerve, Rats, Up-Regulation, Diphosphates, Disease Models, Animal, 030104 developmental biology, Anesthesiology and Pain Medicine, nervous system, Neuropathic pain, Behavior Rating Scale, Benzamides, Molecular Medicine, Neuralgia, business, 030217 neurology & neurosurgery, Research Article

Abstract

The monosodium iodoacetate knee osteoarthritis model has been widely used for the evaluation of osteoarthritis pain, but the pathogenesis of associated chronic pain is not fully understood. The T-type calcium channel 3.2 (CaV3.2) is abundantly expressed in the primary sensory neurons, in which it regulates neuronal excitability at both the somata and peripheral terminals and facilitates spontaneous neurotransmitter release at the spinal terminals. In this study, we investigated the involvement of primary sensory neuron-CaV3.2 activation in monosodium iodoacetate osteoarthritis pain. Knee joint osteoarthritis pain was induced by intra-articular injection of monosodium iodoacetate (2 mg) in rats, and sensory behavior was evaluated for 35 days. At that time, knee joint structural histology, primary sensory neuron injury, and inflammatory gliosis in lumbar dorsal root ganglia, and spinal dorsal horn were examined. Primary sensory neuron-T-type calcium channel current by patch-clamp recording and CaV3.2 expression by immunohistochemistry and immunoblots were determined. In a subset of animals, pain relief by CaV3.2 inhibition after delivery of CaV3.2 inhibitor TTA-P2 into sciatic nerve was investigated. Knee injection of monosodium iodoacetate resulted in osteoarthritis histopathology, weight-bearing asymmetry, sensory hypersensitivity of the ipsilateral hindpaw, and inflammatory gliosis in the ipsilateral dorsal root ganglia, sciatic nerve, and spinal dorsal horn. Neuronal injury marker ATF-3 was extensively upregulated in primary sensory neurons, suggesting that neuronal damage was beyond merely knee-innervating primary sensory neurons. T-type current in dissociated primary sensory neurons from lumbar dorsal root ganglia of monosodium iodoacetate rats was significantly increased, and CaV3.2 protein levels in the dorsal root ganglia and spinal dorsal horn ipsilateral to monosodium iodoacetate by immunoblots were significantly increased, compared to controls. Perineural application of TTA-P2 into the ipsilateral sciatic nerve alleviated mechanical hypersensitivity and weight-bearing asymmetry in monosodium iodoacetate osteoarthritis rats. Overall, our findings demonstrate an elevated CaV3.2 expression and enhanced function of primary sensory neuron-T channels in the monosodium iodoacetate osteoarthritis pain. Further study is needed to delineate the importance of dysfunctional primary sensory neuron-CaV3.2 in osteoarthritis pain.

Published

2020

21. Sigma-1 receptor activity in primary sensory neurons is a critical driver of neuropathic pain

Author

Brandon Itson-Zoske, Fei Wang, Chensheng Qiu, Hongwei Yu, Seung Min Shin, and Quinn H. Hogan

Subjects

0301 basic medicine, SNi, Sensory Receptor Cells, Biology, Article, Small hairpin RNA, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Ganglia, Spinal, Genetics, medicine, Animals, Receptors, sigma, Molecular Biology, Sigma-1 receptor, Nerve injury, Rats, 030104 developmental biology, Nociception, 030220 oncology & carcinogenesis, Neuropathic pain, Peripheral nerve injury, Molecular Medicine, Neuralgia, medicine.symptom, Neuroscience

Abstract

The Sigma-1 receptor (σ(1)R) is highly expressed in the primary sensory neurons (PSNs) that are the critical site of initiation and maintenance of pain following peripheral nerve injury. By immunoblot and immunohistochemistry, we observed increased expression of both σ(1)R and σ1R-binding immunoglobulin protein (BiP) in the lumbar (L) dorsal root ganglia (DRG) ipsilateral to painful neuropathy induced by spared nerve injury (SNI). To evaluate the therapeutic potential of PSN-targeted σ(1)R inhibition at a selected segmental level, we designed a recombinant adeno-associated viral (AAV) vector expressing a small hairpin RNA (shRNA) against rat σ(1)R. Injection of this vector into the L4/L5 DRGs induced downregulation of σ(1)R in DRG neurons of all size groups, while expression of BiP was not affected. This was accompanied by attenuation of SNI-induced cutaneous mechanical and thermal hypersensitivity. Whole-cell current-clamp recordings of dissociated neurons showed that knockdown of σ(1)R suppressed neuronal excitability, suggesting that σ(1)R silencing attenuates pain by reversal of injury-induced neuronal hyperexcitability. These findings support a critical role of σ(1)R in modulating PSN nociceptive functions, and that the nerve injury-induced elevated σ(1)R activity in the PSNs can be a significant driver of neuropathic pain. Further understanding the role of PSN-σ(1)R in pain pathology may open routes to exploit this system for DRG-targeted pain therapy.

Published

2020

22. Aberrant expression of S-SCAM causes the loss of GABAergic synapses in hippocampal neurons

Author

Eric Danielson, Seung Min Shin, Sang Hyoung Lee, and Samantha Skaar

Subjects

lcsh:Medicine, AMPA receptor, Hippocampus, Article, Synaptic plasticity, Rats, Sprague-Dawley, Synapse, chemistry.chemical_compound, Postsynaptic potential, Animals, lcsh:Science, Cells, Cultured, Adaptor Proteins, Signal Transducing, Neurons, Multidisciplinary, Gephyrin, biology, GABAA receptor, lcsh:R, Embryo, Mammalian, Receptors, GABA-A, Cellular neuroscience, Rats, Cell biology, chemistry, Synapses, CNQX, Excitatory postsynaptic potential, biology.protein, GABAergic, lcsh:Q, Guanylate Kinases

Abstract

The duplication and deletion mutations of the S-SCAM/MAGI-2 gene are associated with schizophrenia and infantile spasms, respectively. S-SCAM is a unique synaptic scaffolding protein that localizes to both excitatory and GABAergic synapses. However, consequences of aberrant S-SCAM expression on GABAergic synapses is little studied. Here we report the effect of S-SCAM knockdown and overexpression on GABAergic synapses. S-SCAM knockdown in cultured hippocampal neurons caused a drastic loss of both pre- and post-synaptic components of GABAergic synapses, indicating its essential role in GABAergic synapse formation and maintenance. Surprisingly, S-SCAM overexpression also attenuated GABAergic synapses, but the effect is mediated by the loss of postsynaptic GABAA receptors, gephyrin, and neuroligin 2 and does not involve presynaptic component vesicular GABA transporters. Overexpression studies using S-SCAM mutants with various domain deletions indicated that GABAergic synapse loss correlates with their ability to increase excitatory synaptic function. Consistently, AMPA receptor antagonist CNQX or calcineurin inhibitor FK506 abolished the S-SCAM overexpression-induced loss of GABAA receptors, supporting that GABAergic synapse loss by S-SCAM overexpression is due to the activity-induced dispersal of synaptic GABAA receptors. These results suggest that abnormal S-SCAM protein levels disrupt excitation/inhibition balance in neurons, which may explain the pathogenic nature of S-SCAM copy number variations.

Published

2020

23. Direct targeting of oncogenic RAS mutants with a tumor-specific cytosol-penetrating antibody inhibits RAS mutant–driven tumor growth

Author

Yong Beom Cho, Yong Sung Kim, Seong-Wook Park, Dong-Ki Choi, Sei-Yong Jun, Ji-Sun Kim, Dakeun Lee, Hye-Jin Kweon, and Seung-Min Shin

Subjects

media_common.quotation_subject, Mutant, Endosomes, Biochemistry, 03 medical and health sciences, Mice, 0302 clinical medicine, Antineoplastic Agents, Immunological, In vivo, Neoplasms, Animals, Humans, Internalization, PI3K/AKT/mTOR pathway, Research Articles, 030304 developmental biology, media_common, Cancer, Cell Proliferation, YAP1, 0303 health sciences, Multidisciplinary, Dose-Response Relationship, Drug, Chemistry, Effector, SciAdv r-articles, Integrin alphaVbeta3, Xenograft Model Antitumor Assays, In vitro, Endocytosis, Disease Models, Animal, 030220 oncology & carcinogenesis, Immunoglobulin G, Mutation, Systemic administration, Cancer research, ras Proteins, Research Article, Signal Transduction

Abstract

We report a potent pan-RAS–targeting antibody and the corresponding therapeutic strategy against RAS mutant tumors., Oncogenic RAS mutant (RASMUT) proteins have been considered undruggable via conventional antibody regimens owing to the intracellular location restricting conventional-antibody accessibility. Here, we report a pan-RAS–targeting IgG antibody, inRas37, which directly targets the intracellularly activated form of various RASMUT subtypes after tumor cell–specific internalization into the cytosol to block the interactions with effector proteins, thereby suppressing the downstream signaling. Systemic administration of inRas37 exerted a potent antitumor activity in a subset of RASMUT tumor xenografts in mice, but little efficacy in RASMUT tumors with concurrent downstream PI3K mutations, which were overcome by combination with a PI3K inhibitor. The YAP1 protein was up-regulated as an adaptive resistance-inducing response to inRas37 in RASMUT-dependent colorectal tumors; accordingly, a combination of inRas37 with a YAP1 inhibitor manifested synergistic antitumor effects in vitro and in vivo. Our study offers a promising pan-RAS–targeting antibody and the corresponding therapeutic strategy against RASMUT tumors.

Published

2020

24. A Study on the Algorithm for Determining Back Bead Generation in GMA Welding Using Deep Learning

Author

Min Seok Kim, Dong Hyun Kim, Seung Min Shin, and Sehun Rhee

Subjects

Engineering, business.industry, Automotive industry, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, Manufacturing engineering, Industrial technology, Work (electrical), 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Christian ministry, business, Research center

Abstract

This work was supported by the Industrial technology Innovation Program (No. 10063421, 'Development of the in-line welds quality estimation system and network-based quality control technology in arc and spot welds of ultra high strength steels for automotive parts assembly') funded By the Ministry of Trade, industry & Energy(MI, Korea).This research was respectfully supported by Engineering Development Research Center (EDRC) funded by the Ministry of Trade, Industry & Energy (MOTIE). (No. N0000990)

Published

2018

25. Practice Guideline to Prevent Postoperative Pulmonary Complications for Abdominal Surgery

Author

Hye-Ran Choi and Seung Min Shin

Subjects

medicine.medical_specialty, business.industry, medicine, Guideline, business, Surgery, Abdominal surgery

Published

2017

26. Abstract B28: Direct targeting oncogenic Ras mutants by IgG-format cytosol-penetrating antibody

Author

Sei-Yong Jun, Seung-Min Shin, Dong-Ki Choi, Seong-Wook Park, Yong Sung Kim, Jin-Sun Hong, Hye-Jin Kweon, and Ji-Sun Kim

Subjects

Cancer Research, biology, Chemistry, Effector, medicine.drug_class, Integrin, Mutant, Immunoglobulin light chain, Endocytosis, medicine.disease_cause, Monoclonal antibody, Oncology, biology.protein, Cancer research, medicine, KRAS, Antibody, Molecular Biology

Abstract

Oncogenic Ras mutants, and most frequently KRas mutants (86% of Ras-driven cancers), are found in approximately 25% of human cancers and are high-priority anticancer drug targets. Despite 30 years of effort to develop drugs that directly target oncogenic Ras mutants, no effective pharmacologic inhibitors for these mutants are clinically available, mainly because of the lack of suitable surface binding pockets for small molecules. More than 50 therapeutic antibodies have been clinically approved against many extracellular proteins. However, such antibodies do not have the capacity to localize in intracellular cytosolic regions after receptor-mediated endocytosis, restricting their therapeutic application for targeting cytosolic proteins. Our group recently developed a platform technology of cytosol-penetrating antibody, which in the IgG format can reach the cytosolic space of living cells owing to its endosomal escaping ability after receptor-mediated endocytosis. Exploiting the cytosol-penetrating antibody technology, we have engineered a human IgG1 format antibody, named iMab (internalizing and protein-protein interaction [PPI] interfering monoclonal antibody), which internalizes into the cytosol of living cells and selectively binds to the activated GTP-bound form of oncogenic Ras mutants. iMab specifically binds to the PPI interfaces of activated Ras with effector proteins to block the associations, thereby inhibiting the Ras downstream oncogenic signaling and exerting antiproliferation effects on oncogenic Ras mutant tumor cells. For in vivo antitumor efficacy assessment, we further engineer iMab to have tumor tissue-homing ability by fusion of tumor-associated integrin αvβ3/αvβ5 binding cyclic peptide to the N-terminus of light chain. When systemically administered, the iMab variant significantly inhibited the in vivo growth of oncogenic Ras-mutated tumor xenografts in mice, but not wild-type Ras-harboring tumors. Our results demonstrate the feasibility of developing antibody therapeutics that directly target cytosolic proteins involved in disease-associated PPIs, such as oncogenic Ras mutants, by systemic administration, similar to conventional therapeutic antibody regimens. Because the oncogenic Ras targeting antibody holds many desirable features of the conventional IgG antibody, it shows great potential for development as a first-in-class anticancer antibody. Citation Format: Seung-Min Shin, Ji-Sun Kim, Jin-Sun Hong, Seong-wook Park, Sei-Yong Jun, Hye-Jin Kweon, Dong-Ki Choi, Yong-Sung Kim. Direct targeting oncogenic Ras mutants by IgG-format cytosol-penetrating antibody [abstract]. In: Proceedings of the AACR Special Conference on Targeting RAS-Driven Cancers; 2018 Dec 9-12; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2020;18(5_Suppl):Abstract nr B28.

Published

2020

27. Reciprocal control of excitatory synapse numbers by Wnt and Wnt inhibitor PRR7 secreted on exosomes

Author

June Myoung Kim, Sang Hyoung Lee, Hyun Taek Kim, Dong-Il Kim, Peng Zhong, Dae Won Kim, Won Do Heo, Seung Min Shin, Chang Yeol Yeo, Qing-song Liu, and Cheol-Hee Kim

Subjects

0301 basic medicine, Neurogenesis, Science, Synaptogenesis, General Physics and Astronomy, Nerve Tissue Proteins, Molecular neuroscience, Exosomes, Hippocampus, Article, General Biochemistry, Genetics and Molecular Biology, Synapse, Mice, 03 medical and health sciences, Excitatory synapse, Cellular neuroscience, Animals, Humans, lcsh:Science, Cells, Cultured, Exosomal secretion, Mice, Knockout, Neurons, Multidisciplinary, Chemistry, Wnt signaling pathway, Membrane Proteins, General Chemistry, Immunohistochemistry, Rats, 3. Good health, Cell biology, Wnt Proteins, HEK293 Cells, 030104 developmental biology, nervous system, Synapses, Excitatory postsynaptic potential, Female, lcsh:Q, Signal Transduction

Abstract

Secreted Wnts play crucial roles in synaptogenesis and synapse maintenance, but endogenous factors promoting synapse elimination in central neurons remain unknown. Here we show that proline-rich 7 (PRR7) induces specific removal of excitatory synapses and acts as a Wnt inhibitor. Remarkably, transmembrane protein PRR7 is activity-dependently released by neurons via exosomes. Exosomal PRR7 is uptaken by neurons through membrane fusion and eliminates excitatory synapses in neighboring neurons. Conversely, PRR7 knockdown in sparse neurons greatly increases excitatory synapse numbers in all surrounding neurons. These non-cell autonomous effects of PRR7 are effectively negated by augmentation or blockade of Wnt signaling. PRR7 exerts its effect by blocking the exosomal secretion of Wnts, activation of GSK3β, and promoting proteasomal degradation of PSD proteins. These data uncover a proximity-dependent, reciprocal mechanism for the regulation of excitatory synapse numbers in local neurons and demonstrate the significance of exosomes in inter-neuronal signaling in the vertebrate brain., Wnts are important for synapse formation and maintenance. Here, the authors show that proline-rich 7 (PRR7) is a Wnt inhibitor that is secreted via exosomes to regulate excitatory synapse numbers.

Published

2018

28. Engineering of a tumor cell-specific, cytosol-penetrating antibody with high endosomal escape efficacy

Author

Dong-Ki Choi, Jae-Yeong Park, Seong-Wook Park, Sei-Yong Jun, Jin-Sun Hong, Yong Sung Kim, Ji-Sun Kim, and Seung-Min Shin

Subjects

0301 basic medicine, Endosome, Cell, Biophysics, Cell-Penetrating Peptides, Endosomes, Immunoglobulin light chain, Endocytosis, Protein Engineering, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Cytosol, Drug Delivery Systems, Cell Line, Tumor, medicine, Humans, Receptor, Molecular Biology, biology, Epithelial cell adhesion molecule, Cell Biology, Epithelial Cell Adhesion Molecule, Cell biology, 030104 developmental biology, medicine.anatomical_structure, chemistry, Immunoglobulin G, biology.protein, Antibody, HeLa Cells

Abstract

The main obstacles for practical uses of cytosol-penetrating peptides and proteins include their lack of cell- or tissue-specific targeting and limited cytosolic access owing to the poor endosomal escape ability. We have previously reported a cytosol-penetrating, human IgG1 antibody TMab4-WYW, generally referred to as a cytotransmab (CT), which reaches the cytosol of living cells but nonspecifically because it is endocytosed via a ubiquitously expressed receptor called heparan sulfate proteoglycan (HSPG). Here, our aim was to construct a next-generation CT with tumor cell specificity and improved endosomal escape efficiency. We first substantially reduced the HSPG-binding activity of TMab4-WYW and then fused a cyclic peptide specifically recognizing tumor-associated epithelial cell adhesion molecule (EpCAM) to the N terminus of the light chain for EpCAM-mediated endocytosis, while maintaining the endosomal escape ability in the light chain variable domain (VL), thus generating epCT05. Then, we separately engineered another CT, dubbed epCT65-AAA, with an endosomal escape ability only in the heavy chain variable domain (VH) but not in VL, by functional grafting of the endosomal escape motif of epCT05 VL to the VH. We finally combined the heavy chain of epCT65-AAA and the light chain of epCT05 to create epCT65 with endosomal escape capacity in both the VH and VL. epCT65 effectively localized to the cytosol of only EpCAM-expressing tumor cells and showed approximately twofold improved endosomal escape efficiency, as compared with CTs with endosomal escape motifs in either VH or VL. The full-IgG format CT, epCT65, with a tumor cell-specific cytosol-penetrating activity, has a great potential for practical medical applications, e.g., as a carrier for cytosolic delivery of payloads.

Published

2018

29. Quantitative assessment of cellular uptake and cytosolic access of antibody in living cells by an enhanced split GFP complementation assay

Author

Yong Sung Kim, Dong-Myung Kim, Tae Hyeon Yoo, Ji-Sun Kim, Seung-Min Shin, Seong-Wook Park, Dong-Ki Choi, and Jeomil Bae

Subjects

Endosome, Recombinant Fusion Proteins, media_common.quotation_subject, Blotting, Western, Green Fluorescent Proteins, Molecular Sequence Data, Biophysics, Endosomes, Biology, Biochemistry, Green fluorescent protein, Cytosol, Protein-fragment complementation assay, Humans, Amino Acid Sequence, Internalization, Molecular Biology, media_common, HEK 293 cells, Antibodies, Monoclonal, Cell Biology, Cell biology, Complementation, HEK293 Cells, Spectrometry, Fluorescence, Endocytic vesicle, Immunoglobulin G, Biological Assay, Carrier Proteins, HeLa Cells

Abstract

Considering the number of cytosolic proteins associated with many diseases, development of cytosol-penetrating molecules from outside of living cells is highly in demand. To gain access to the cytosol after cellular uptake, cell-penetrating molecules should be released from intermediate endosomes prior to the lysosomal degradation. However, it is very challenging to distinguish the pool of cytosolic-released molecules from those trapped in the endocytic vesicles. Here we describe a method to directly demonstrate the cytosolic localization and quantification of cytosolic amount of a cytosol-penetrating IgG antibody, TMab4, based on enhanced split GFP complementation system. We generated TMab4 genetically fused with one GFP fragment and separately established HeLa cells expressing the other GFP fragment in the cytosol such that the complemented GFP fluorescence is observed only when extracellular-treated TMab4 reaches the cytosol after cellular internalization. The high affinity interactions between streptavidin-binding peptide 2 and streptavidin was employed as respective fusion partners of GFP fragments to enhance the sensitivity of GFP complementation. With this method, cytosolic concentration of TMab4 was estimated to be about 170 nM after extracellular treatment of HeLa cells with 1 μM TMab4 for 6 h. We also found that after cellular internalization into living cells, nearly 1.3-4.3% of the internalized TMab4 molecules escaped into the cytosol from the endocytic vesicles. Our enhanced split GFP complementation assay provides a useful tool to directly quantify cytosolic amount of cytosol-penetrating agents and allows cell-based high-throughput screening for cytosol-penetrating agents with increased endosomal-escaping activity.

Published

2015

30. Effect of Temperature on Particle Structure and Strength Characteristic of Sand and Weathered Granite Soil

Author

Chung-Sik Yoo and Seung-min Shin

Subjects

Stress (mechanics), Thermal conductivity, Heating cooling, Soil water, Particle, Geotechnical engineering, sense organs, skin and connective tissue diseases, Triaxial compression, Geology

Abstract

This paper presents the results of an investigation into the effect of forced temperature change cycles on physical and mechanical properties of sand and weathered granite soil. The effect of forced temperature change cylecs on the particle arrangement and the thermal conductivity was first investigated. A series of triaxial compression tests on the soils were also performed to look into the effect of temperature change cycles on the stress-strain-strength behavior. The results indicated that the forced temperature change cycle does not significantly affect the particle arrangement and thermal conductivity. It is shown however that the heating duration showed some effect on the deviatoric stress at failure while no significant effect due to the number of heating-cooling cycle was observed.

Published

2015

31. Effect of orientation of fracture zone on tunnel behavior during construction using model test

Author

Chung-Sik Yoo, Jung-Hyuk Choi, Yun-Gyu Cho, Seung-min Shin, and Eun-Mok Chung

Subjects

Engineering, business.industry, Model test, Fracture zone, Geotechnical engineering, Structural engineering, Orientation (graph theory), business

Published

2015

32. Signal detection technique for asynchronous filtered multi‐tone modulation‐based mesh systems

Author

Park Changhwan, Seung-Min Shin, Joo-Hyung Choi, Won-Young Yang, and Yong Soo Cho

Subjects

Wireless mesh network, Computer science, Real-time computing, Interference (wave propagation), Computer Science Applications, Intersymbol interference, Transmission (telecommunications), Single antenna interference cancellation, Interference (communication), Modulation, Asynchronous communication, Bit error rate, Detection theory, Electrical and Electronic Engineering, Nyquist ISI criterion, Algorithm, Communication channel

Abstract

In this study, the authors propose a signal detection technique of successive interference cancellation to reduce the effect of inter-symbol interference (ISI), which is caused by the time difference of arrivals among distributed nodes in an asynchronous wireless mesh network based on filtered multi-tone modulation. The proposed signal detection technique uses partial matrices of a transmission gain matrix to mitigate the ISI effect from the adjacent symbols. Under the assumption of perfect symbol time offset and channel estimation at each node, it is shown by simulation that the proposed technique can improve the bit error rate performance with lower complexity compared with the conventional technique.

Published

2015

33. Maximum Efficiency Operation of Three-Level T-type Inverter for Low-Voltage and Low-Power Home Appliances

Author

Byoung-Kuk Lee, Seung-Min Shin, and Jung-Hoon Ahn

Subjects

Maximum efficiency, Engineering, Operation mode, business.industry, Selection strategy, Electrical engineering, Inverter, Grid-tie inverter, Electrical and Electronic Engineering, business, Low voltage, Three level, Power (physics)

Abstract

This paper proposes a maximum efficiency operation strategy for three-level T-type inverter in entire operation areas. The three-level T-type inverter has higher and lower efficiency areas compared with two-level inverter. The proposed strategy aims to operate in the maximum efficiency point for the low-voltage and low-power home appliances. The three-level T-type inverter is analyzed in detail, and the two operation mode selection strategy is developed. The proposed algorithm is verified by theoretical analysis and experimental results.

Published

2015

34. S-SCAM, A Rare Copy Number Variation Gene, Induces Schizophrenia-Related Endophenotypes in Transgenic Mouse Model

Author

Jacob Metallo, Nanyan Zhang, Peng Zhong, Qing-song Liu, Eric Danielson, Christopher M. Olsen, Sang Hyoung Lee, and Seung Min Shin

Subjects

Male, Genetically modified mouse, DNA Copy Number Variations, Long-Term Potentiation, Glutamic Acid, AMPA receptor, Anxiety, Biology, Mice, Glutamatergic, Prosencephalon, Sex Factors, Animals, Receptors, AMPA, Amino Acids, Maze Learning, Social Behavior, Prepulse inhibition, Adaptor Proteins, Signal Transducing, Neurons, General Neuroscience, Glutamate receptor, Excitatory Postsynaptic Potentials, Long-term potentiation, Articles, Bridged Bicyclo Compounds, Heterocyclic, Up-Regulation, Memory, Short-Term, Parvalbumins, Phenotype, Metabotropic glutamate receptor, Schizophrenia, Excitatory postsynaptic potential, Female, Guanylate Kinases, Neuroscience, Locomotion

Abstract

Accumulating genetic evidence suggests that schizophrenia (SZ) is associated with individually rare copy number variations (CNVs) of diverse genes, often specific to single cases. However, the causality of these rare mutations remains unknown. One of the rare CNVs found in SZ cohorts is the duplication ofSynaptic Scaffolding Molecule(S-SCAM, also calledMAGI-2), which encodes a postsynaptic scaffolding protein controlling synaptic AMPA receptor levels, and thus the strength of excitatory synaptic transmission. Here we report that, in a transgenic mouse model simulating the duplication conditions, elevation of S-SCAM levels in excitatory neurons of the forebrain was sufficient to induce multiple SZ-related endophenotypes. S-SCAM transgenic mice showed an increased number of lateral ventricles and a reduced number of parvalbumin-stained neurons. In addition, the mice exhibited SZ-like behavioral abnormalities, including hyperlocomotor activity, deficits in prepulse inhibition, increased anxiety, impaired social interaction, and working memory deficit. Notably, the S-SCAM transgenic mice showed a unique sex difference in showing these behavioral symptoms, which is reminiscent of human conditions. These behavioral abnormalities were accompanied by hyperglutamatergic function associated with increased synaptic AMPA receptor levels and impaired long-term potentiation. Importantly, reducing glutamate release by the group 2 metabotropic glutamate receptor agonist LY379268 ameliorated the working memory deficits in the transgenic mice, suggesting that hyperglutamatergic function underlies the cognitive functional deficits. Together, these results contribute to validate a causal relationship of the rare S-SCAM CNV and provide supporting evidence for the rare CNV hypothesis in SZ pathogenesis. Furthermore, the S-SCAM transgenic mice provide a valuable new animal model for studying SZ pathogenesis.

Published

2015

35. Glial fibrillary acidic protein promoter determines transgene expression in satellite glial cells following intraganglionic adeno-associated virus delivery in adult rats

Author

Hongwei Yu, Quinn H. Hogan, Seung-Min Shin, Fan Fan, Hongfei Xiang, and Hao Xu

Subjects

0301 basic medicine, Male, Transgene, Genetic enhancement, Genetic Vectors, Gene Expression, Biology, medicine.disease_cause, Tropism, Article, Rats, Sprague-Dawley, 03 medical and health sciences, Cellular and Molecular Neuroscience, Transduction (genetics), 0302 clinical medicine, Dorsal root ganglion, Transduction, Genetic, Ganglia, Spinal, Gene expression, Glial Fibrillary Acidic Protein, medicine, Animals, Transgenes, Promoter Regions, Genetic, Adeno-associated virus, Glial fibrillary acidic protein, Satellite glial cell, Gene Transfer Techniques, Dependovirus, Molecular biology, Rats, 030104 developmental biology, medicine.anatomical_structure, nervous system, biology.protein, Ganglia, Neuroglia, 030217 neurology & neurosurgery

Abstract

Recombinant adeno-associated viral (AAV)-mediated therapeutic gene transfer to dorsal root ganglia (DRG) is an effective and safe tool for treating chronic pain. However, AAV with various constitutively active promoters leads to transgene expression predominantly to neurons, while glial cells are refractory to AAV transduction in the peripheral nervous system. The present study evaluated whether in vivo satellite glial cell (SGC) transduction in the DRG can be enhanced by the SGC-specific GFAP promoter and by using shH10 and shH19, which are engineered capsid variants with Muller glia-prone transduction. Titer-matched AAV6 (as control), AAVshH10, and AAVshH19, all encoding the EGFP driven by the constitutively active CMV promoter, as well as AAV6-EGFP and AAVshH10-EGFP driven by a GFAP promoter (AAV6-GFAP-EGFP and AAVshH10-GFAP-EGFP), were injected into DRG of adult male rats. Neurotropism of gene expression was determined and compared by immunohistochemistry. Results showed that injection of AAV6- and AAVshH10-GFAP-EGFP induces robust EGFP expression selectively in SGCs, whereas injection of either AAVshH10-CMV-EGFP or AAVshH19-CMV-EGFP into DRG resulted in a similar in vivo transduction profile to AAV6-CMV-EGFP, all showing efficient transduction of sensory neurons without significant transduction of glial cell populations. Coinjection of AAV6-CMV-mCherry and AAV6-GFAP-EGFP induces transgene expression in neurons and SGCs separately. This report, together with our prior studies, demonstrates that the GFAP promoter rather than capsid tropism determines selective gene expression in SGCs following intraganglionic AAV delivery in adult rats. A dual AAV system, one with GFAP promoter and the other with CMV promoter, can efficiently express transgenes selectively in neurons versus SGCs.

Published

2017

36. Antibody targeting intracellular oncogenic Ras mutants exertsanti-tumour effects after systemic administration

Author

Ji-Sun Kim, Seong-Wook Park, Yong Sung Kim, Seung-Min Shin, Ki-Hoon Song, Keunok Jung, Jeomil Bae, and Dong-Ki Choi

Subjects

0301 basic medicine, Science, Mutant, General Physics and Astronomy, HL-60 Cells, Article, General Biochemistry, Genetics and Molecular Biology, GTP Phosphohydrolases, Proto-Oncogene Proteins p21(ras), Mice, 03 medical and health sciences, Cytosol, In vivo, Cell Line, Tumor, Neoplasms, Animals, Humans, Protein Interaction Domains and Motifs, Cell Proliferation, Integrin binding, Multidisciplinary, biology, Effector, Antibodies, Monoclonal, Membrane Proteins, General Chemistry, Xenograft Model Antitumor Assays, Molecular biology, 030104 developmental biology, Cell culture, Immunoglobulin G, Mutation, MCF-7 Cells, NIH 3T3 Cells, ras Proteins, Cancer research, biology.protein, Systemic administration, Antibody, K562 Cells, HT29 Cells, Neoplasm Transplantation, HeLa Cells, Signal Transduction, K562 cells

Abstract

Oncogenic Ras mutants, frequently detected in human cancers, are high-priority anticancer drug targets. However, direct inhibition of oncogenic Ras mutants with small molecules has been extremely challenging. Here we report the development of a human IgG1 format antibody, RT11, which internalizes into the cytosol of living cells and selectively binds to the activated GTP-bound form of various oncogenic Ras mutants to block the interactions with effector proteins, thereby suppressing downstream signalling and exerting anti-proliferative effects in a variety of tumour cells harbouring oncogenic Ras mutants. When systemically administered, an RT11 variant with an additional tumour-associated integrin binding moiety for tumour tissue targeting significantly inhibits the in vivo growth of oncogenic Ras-mutated tumour xenografts in mice, but not wild-type Ras-harbouring tumours. Our results demonstrate the feasibility of developing therapeutic antibodies for direct targeting of cytosolic proteins that are inaccessible using current antibody technology., Oncogenic RAS mutants are key anti-cancer targets as KRas mutations are very frequent in human cancers. Here, the authors engineer a cytosol-penetrating anti-Ras antibody and demonstrate its ability to block RAS-effector protein interactions inhibiting tumour growth of Ras mutant-driven cancers.

Published

2017

37. A Clinical Study of Mandibular Angle Fracture

Author

Ji-Su Oh, Seung-Min Shin, Su-Gwan Kim, Kyung-Seop Lim, Wook-Jae Yoon, Cheol-Man Kim, and Jae-Seek You

Subjects

Molar, Fracture risk, business.industry, medicine.medical_treatment, Dentistry, Mandibular angle, Clinical study, stomatognathic diseases, Mandibular injuries, stomatognathic system, Jaw Fracture, Fracture (geology), Jaw fracture, Medicine, Proper treatment, Original Article, business, Reduction (orthopedic surgery)

Abstract

Purpose: To establish management protocol for mandibular angle fracture, we describe pertinent factors including cause, impacted third molar and recent treatment tendency. Methods: We examined the records of 62 patients who had unilateral mandibular angle fracture. Sixty patients who had open reduction surgery were examined at postoperative weeks 1, 4, 8, 12, and 28. Results: Left mandibular angle fracture is frequent in younger males. Presence of the mandibular third molar can increase fracture risk. Because of attached muscle, favorable fractures occurred primarily in the mandibular angle area. Conclusion: Extracting the mandibular third molar can prevent angle fractures, and open reduction with only one plate adaptation is generally the proper treatment method for mandibular angle fracture.

Published

2014

38. Compensation PWM Technique for Extended Output Voltage Range in Three-Phase VSI Using Three Shunt Resistors

Author

Rae-Kwan Park, Byoung-Kuk Lee, and Seung-Min Shin

Subjects

Engineering, business.industry, Numerical analysis, Dead zone, Compensation (engineering), Three-phase, Modulation, Control theory, Electronic engineering, Voltage range, Electrical and Electronic Engineering, business, Pulse-width modulation, Voltage

Abstract

This paper proposes a compensation PWM technique for the extension of output voltage ranges in three-phase VSI applications using three shunt resistors. The proposed technique aims to solve the dead zone, which occurs in high modulation indexes. In the dead zone, two phase currents cannot be sampled correctly, so that the three-phase VSI cannot be operated up to the maximum output voltage. The dead zone is analyzed in detail, and the compensation PWM algorithm is developed. The proposed algorithm is verified by numerical analysis and experimental results.

Published

2014

39. Transmembrane protein 100 is expressed in neurons and glia of dorsal root ganglia and is reduced after painful nerve injury

Author

Hongwei Yu, Yongsong Cai, Hao Xu, Seung Min Shin, Quinn H. Hogan, Brandon Itson-Zoske, Hongfei Xiang, and Fei Wang

Subjects

Pathology, medicine.medical_specialty, Inflammatory pain, TRPV1, 02 engineering and technology, Neuropathic pain, Transmembrane protein 100, 01 natural sciences, Primary sensory neurons, lcsh:RD78.3-87.3, Dorsal root ganglion, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Medicine, Dorsal root ganglia, 010306 general physics, Microglia, business.industry, Nerve injury, Anesthesiology and Pain Medicine, medicine.anatomical_structure, nervous system, lcsh:Anesthesiology, Calcitonin, Peripheral nerve injury, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Immunohistochemistry, Satellite glial cells, 020201 artificial intelligence & image processing, Neuropathic, medicine.symptom, business, Research Paper

Abstract

Supplemental Digital Content is Available in the Text., Introduction: Tmem100 modulates interactions between TRPA1 and TRPV1. The cell specificity of Tmem100 expression in dorsal root ganglia (DRGs) is not well defined, nor is the effect of peripheral nerve injury on Tmem100 expression. Objective: This study was designed to determine the cell specificity of Tmem100 expression in DRG and its subcellular localization, and to examine how Tmem100 expression may be altered in painful conditions. Methods: Dorsal root ganglion Tmem100 expression was determined by immunohistochemistry, immunoblot, and quantitative real-time PCR, and compared between various experimental rat pain models and controls. Results: Tmem100 is expressed in both neurons and perineuronal glial cells in the rat DRG. The plasma membrane and intracellular localization of Tmem100 are identified in 83% ± 6% of IB4-positive and 48% ± 6% of calcitonin gene-related peptide–positive neurons, as well as in medium- and large-sized neurons, with its immunopositivity colocalized to TRPV1 (94% ± 5%) and TRPA1 (96% ± 3%). Tmem100 is also detected in the perineuronal satellite glial cells and in some microglia. Tmem100 protein is significantly increased in the lumbar DRGs in the complete Freund adjuvant inflammatory pain. By contrast, peripheral nerve injury by spinal nerve ligation diminishes Tmem100 expression in the injured DRG, with immunoblot and immunohistochemistry experiments showing reduced Tmem100 protein levels in both neurons and satellite glial cells of DRGs proximal to injury, whereas Tmem100 is unchanged in adjacent DRGs. The spared nerve injury model also reduces Tmem100 protein in the injured DRGs. Conclusion: Our data demonstrate a pain pathology–dependent alteration of DRG Tmem100 protein expression, upregulated during CFA inflammatory pain but downregulated during neuropathic pain.

Published

2019

40. Enhanced T-type calcium channel 3.2 activity in sensory neurons contributes to neuropathic-like pain of monosodium iodoacetate-induced knee osteoarthritis.

Author

Seung Min Shin, Yongsong Cai, Itson-Zoske, Brandon, Chensheng Qiu, Xu Hao, Hongfei Xiang, Hogan, Quinn H., and Hongwei Yu

Subjects

*SENSORY neurons, *CALCIUM channels, *DORSAL root ganglia, *SCIATIC nerve injuries, *OSTEOARTHRITIS, *SCIATIC nerve, *INTRA-articular injections

Abstract

The monosodium iodoacetate knee osteoarthritis model has been widely used for the evaluation of osteoarthritis pain, but the pathogenesis of associated chronic pain is not fully understood. The T-type calcium channel 3.2 (CaV3.2) is abundantly expressed in the primary sensory neurons, in which it regulates neuronal excitability at both the somata and peripheral terminals and facilitates spontaneous neurotransmitter release at the spinal terminals. In this study, we investigated the involvement of primary sensory neuron-CaV3.2 activation in monosodium iodoacetate osteoarthritis pain. Knee joint osteoarthritis pain was induced by intra-articular injection of monosodium iodoacetate (2 mg) in rats, and sensory behavior was evaluated for 35 days. At that time, knee joint structural histology, primary sensory neuron injury, and inflammatory gliosis in lumbar dorsal root ganglia, and spinal dorsal horn were examined. Primary sensory neuron-T-type calcium channel current by patch-clamp recording and CaV3.2 expression by immunohistochemistry and immunoblots were determined. In a subset of animals, pain relief by CaV3.2 inhibition after delivery of CaV3.2 inhibitor TTA-P2 into sciatic nerve was investigated. Knee injection of monosodium iodoacetate resulted in osteoarthritis histopathology, weight-bearing asymmetry, sensory hypersensitivity of the ipsilateral hindpaw, and inflammatory gliosis in the ipsilateral dorsal root ganglia, sciatic nerve, and spinal dorsal horn. Neuronal injury marker ATF-3 was extensively upregulated in primary sensory neurons, suggesting that neuronal damage was beyond merely knee-innervating primary sensory neurons. T-type current in dissociated primary sensory neurons from lumbar dorsal root ganglia of monosodium iodoacetate rats was significantly increased, and CaV3.2 protein levels in the dorsal root ganglia and spinal dorsal horn ipsilateral to monosodium iodoacetate by immunoblots were significantly increased, compared to controls. Perineural application of TTA-P2 into the ipsilateral sciatic nerve alleviated mechanical hypersensitivity and weight-bearing asymmetry in monosodium iodoacetate osteoarthritis rats. Overall, our findings demonstrate an elevated CaV3.2 expression and enhanced function of primary sensory neuron-T channels in the monosodium iodoacetate osteoarthritis pain. Further study is needed to delineate the importance of dysfunctional primary sensory neuron-CaV3.2 in osteoarthritis pain. [ABSTRACT FROM AUTHOR]

Published

2020

41. Direct targeting of oncogenic RAS mutants with a tumor-specific cytosol-penetrating antibody inhibits RAS mutant-driven tumor growth.

Author

Seung-Min Shin, Ji-Sun Kim, Seong-Wook Park, Sei-Yong Jun, Hye-Jin Kweon, Dong-Ki Choi, Dakeun Lee, Yong Beom Cho, and Yong-Sung Kim

Subjects

*RAS oncogenes, *INTEGRINS, *TUMOR growth, *CELL receptors, *GREEN fluorescent protein, *IMMUNOGLOBULINS, *FIBROBLAST growth factor receptors

Abstract

The article reports on oncogenic RAS mutant proteins are appealing high-priority drug targets for anticancer therapy. Topic include RAS protein activates more than 11 downstream effector proteins with distinct downstream signaling through PPIs; and in Ras37 reaches the cytosol of cells via better endosomal escape after integrin v3/v5–specific endocytosis.

Published

2020

42. HILS-based analysis of characteristics and performance of internal combustion engine vehicles with varying battery types

Author

Tae-Hoon Kim, Byoung-Kuk Lee, Hyun-Sik Song, and Seung-Min Shin

Subjects

Automotive engine, Battery (electricity), 0209 industrial biotechnology, Engineering, Test bench, business.industry, Powertrain, 020208 electrical & electronic engineering, Automotive industry, 02 engineering and technology, Automotive engineering, 020901 industrial engineering & automation, Internal combustion engine, 0202 electrical engineering, electronic engineering, information engineering, Fuel efficiency, Automotive battery, business

Abstract

Along with the recent developments of environmentally friendly vehicles, there is an active technological development effort into the fuel efficiency enhancement of the existing internal combustion engine vehicles. As part of such technological development effort, researches are being conducted on the use of lithium batteries as the starter battery for internal combustion engine vehicles in place of lead-acid batteries, which have already been released as a test product for high-end vehicles. While the use of lithium starter battery as a replacement is expected to lead to various advantages and disadvantages at the same time, there is a lack of specific research on this area. Therefore, in this paper, we present a quantitative analysis of characteristics and performance in internal combustion engine vehicles with different battery types. For this purpose, we simulate a power-net system of a vehicle including charging control through a test bench based on actual vehicle data, and develop automotive power-net HILS by combining the test bench with a powertrain model. Based on HILS, we conduct tests of vehicles with AGM battery and lithium battery under various test scenarios, in order to comparatively analyze the characteristics and performance of the vehicle.

Published

2016

43. GKAP orchestrates activity-dependent postsynaptic protein remodeling and homeostatic scaling

Author

Morgan Sheng, Nashaat Z. Gerges, Nanyan Zhang, Daniel T.S. Pak, Sang Hyoung Lee, Jonathan D Hansen, and Seung Min Shin

Subjects

Nerve Tissue Proteins, SAP90-PSD95 Associated Proteins, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Double-Blind Method, Postsynaptic potential, Homeostatic plasticity, Ca2+/calmodulin-dependent protein kinase, Chlorocebus aethiops, Animals, Guanine Nucleotide Exchange Factors, Homeostasis, Cells, Cultured, 030304 developmental biology, 0303 health sciences, Neuronal Plasticity, Synaptic scaling, Voltage-dependent calcium channel, General Neuroscience, Intracellular Signaling Peptides and Proteins, Membrane Proteins, Synaptic Potentials, Rats, Cell biology, Enzyme Activation, nervous system, Disks Large Homolog 4 Protein, COS Cells, Synapses, NMDA receptor, Neuroscience, 030217 neurology & neurosurgery

Abstract

How does chronic activity modulation lead to global remodeling of proteins at synapses and synaptic scaling? Here we report a role of guanylate-kinase-associated-protein (GKAP; also known as SAPAP), a scaffolding molecule linking NMDA receptor-PSD-95 to Shank-Homer complexes, in these processes. Over-excitation removes GKAP from synapses via ubiquitin-proteasome system, while inactivity induces synaptic accumulation of GKAP in rat hippocampal neurons. The bi-directional changes of synaptic GKAP levels are controlled by specific CaMKII isoforms coupled to different Ca2+ channels. α-CaMKII activated by NMDA receptor phosphorylates Serine-54 of GKAP to induce poly-ubiquitination of GKAP. In contrast, β-CaMKII activation via L-type voltage-dependent calcium channel promotes GKAP recruitment by phosphorylating Serine-340 and Serine-384 residues, which uncouples GKAP from MyoVa motor complex. Remarkably, overexpressing GKAP turnover mutants not only hampers activity-dependent remodeling of PSD-95 and Shank but also blocks bi-directional synaptic scaling. Therefore, activity-dependent turnover of PSD proteins orchestrated by GKAP is critical for homeostatic plasticity.

Published

2012

44. HCCRBP-3 induces tumorigenesis through direct interaction with HCCR-1 in human cancers

Author

Jin Woo Kim, Jin Ah Yoo, Seon Ah Ha, Hyun Kee Kim, Sanghee Kim, Yun Kyung Lee, Seung Min Shin, and Gi-Hwan Gong

Subjects

Genetically modified mouse, Cancer Research, Oncogene, Transfection, Mitochondrion, Biology, medicine.disease_cause, Molecular biology, 3T3 cells, In vitro, medicine.anatomical_structure, Cancer research, medicine, Carcinogenesis, Molecular Biology, Gene

Abstract

Human cervical cancer oncogene 1, HCCR-1, is over-expressed in various human tumors and appears to serve as a negative regulator of the p53 gene. HCCR-1 transgenic mice developed breast cancers but it is unknown how HCCR-1 contributes to tumorigenesis. We identified the HCCR-1 binding protein 3 (HCCRBP-3) as a binding partner for HCCR-1. These two proteins co-localized to the mitochondria. HCCRBP-3 over-expressed in various human tumors converted normal cells into tumor cells in vitro. Nude mice injected with NIH/3T3 cells stably transfected with HCCRBP-3 also induced the tumor formation. In addition, p53 showed the functional impairment in HCCRBP-3-transfected cells as accompanied with defective induction of p21 and bax. In support of this, p21 promoter activities containing p53 responsive elements were inhibited by HCCRBP-3 in a dose-dependent manner. Therefore, our study suggests that HCCRBP-3 contributes to the HCCR-1 induced tumorigenesis by interrupting the p53 function.

Published

2012

45. S-SCAM/MAGI-2 Is an Essential Synaptic Scaffolding Molecule for the GluA2-Containing Maintenance Pool of AMPA Receptors

Author

Kanwardeep Kaleka, Seung Min Shin, Sang Hyoung Lee, Nanyan Zhang, Nashaat Z. Gerges, Jacob Metallo, and Eric Danielson

Subjects

Male, N-Methylaspartate, Dendritic spine, Dendritic Spines, AMPA receptor, Biology, Neurotransmission, Hippocampus, Synaptic Transmission, Article, Rats, Sprague-Dawley, Synaptic augmentation, Animals, Receptors, AMPA, N-Ethylmaleimide-Sensitive Proteins, Long-Term Synaptic Depression, Cells, Cultured, Adaptor Proteins, Signal Transducing, musculoskeletal, neural, and ocular physiology, General Neuroscience, Intracellular Signaling Peptides and Proteins, Membrane Proteins, Post-Synaptic Density, Rats, Cell biology, Protein Transport, Synaptic fatigue, nervous system, Gene Knockdown Techniques, Synaptic plasticity, Female, Disks Large Homolog 4 Protein, Guanylate Kinases, Postsynaptic density, Neuroscience

Abstract

Synaptic plasticity, the cellular basis of learning and memory, involves the dynamic trafficking of AMPA receptors (AMPARs) into and out of synapses. One of the remaining key unanswered aspects of AMPAR trafficking is the mechanism by which synaptic strength is preserved despite protein turnover. In particular, the identity of AMPAR scaffolding molecule(s) involved in the maintenance of GluA2-containing AMPARs is completely unknown. Here we report that the synaptic scaffolding molecule (S-SCAM; also called membrane-associated guanylate kinase inverted-2 and atrophin interacting protein-1) plays the critical role of maintaining synaptic strength. Increasing S-SCAM levels in rat hippocampal neurons led to specific increases in the surface AMPAR levels, enhanced AMPAR-mediated synaptic transmission, and enlargement of dendritic spines, without significantly effecting GluN levels or NMDA receptor (NMDAR) EPSC. Conversely, decreasing S-SCAM levels by RNA interference-mediated knockdown caused the loss of synaptic AMPARs, which was followed by a severe reduction in the dendritic spine density. Importantly, S-SCAM regulated synaptic AMPAR levels in a manner, dependent on GluA2 not GluA1, sensitive toN-ethylmaleimide-sensitive fusion protein interaction, and independent of activity. Further, S-SCAM increased surface AMPAR levels in the absence of PSD-95, while PSD-95 was dependent on S-SCAM to increase surface AMPAR levels. Finally, S-SCAM overexpression hampered NMDA-induced internalization of AMPARs and prevented the induction of long term-depression, while S-SCAM knockdown did not. Together, these results suggest that S-SCAM is an essential AMPAR scaffolding molecule for the GluA2-containing pool of AMPARs, which are involved in the constitutive pathway of maintaining synaptic strength.

Published

2012

46. A Study on the Design and Selection of Switch and Diode by Analyzing Current Ringing on DCM Bi-directional Buck Converter

Author

Young-Dal Lee, Byoung-Kuk Lee, Gyu-Yeong Choe, Tae-Won Lee, and Seung-Min Shin

Subjects

Engineering, Parasitic capacitance, business.industry, Buck converter, Buck–boost converter, Ćuk converter, Electronic engineering, Topology (electrical circuits), General Medicine, Electric power, Ringing, business, Diode

Abstract

This paper presents a design and topology selection of bi-direcional buck converter based on PV PCS for managing the electric power. Futhermore, Current Ringing on DCM bi-directional buck converter for soft switching is analyzed in detail. PSIM Simulation and Experiments at the various operating points show the propriety of this paper. Building on the result of simulation and experiment, a comparative analysis is performed with the approximate estimate. By use of a study, the selecion of switch and diode which improve efficiency of the overall system is appiled to DCM bi-directional buck converter based on PV PCS.

Published

2012

47. An Effective Method for Selection of WGN Band in Man Made Noise(MMN) Environment

Author

Seung-Min Shin and Young-Soo Kim

Subjects

Background noise, Gradient noise, symbols.namesake, Noise measurement, Colors of noise, Gaussian noise, Noise spectral density, Electronic engineering, symbols, Salt-and-pepper noise, Value noise, Algorithm, Mathematics

Abstract

In this paper, an effective method has been proposed for selection of white Gaussian noise(WGN) band for radio background noise measurement system under broad band noise environment. MMN which comes from industrial devices and equipment mostly happens in the shape of broad band noise mostly like impulsive noise and this is the main reason for increasing level in the present radio noise measurements. The existing method based on singular value decomposition has weak point that it cannot give good performance for the broad band signal because it uses signal`s white property. The proposed method overcomes such a weakness of singular value decomposition based method by using signal`s Gaussian property based method in parallel. Moreover, this proposed method hires a modelling based method which uses parameter estimation algorithm like maximum likelihood estimation(MLE) and gives more accurate result than the method using amplitude probability distribution(APD) graph. Experiment results under the natural environment has done to verify feasibility of the proposed method.

Published

2010

48. Development of a Force-Reflecting Robotic Platform for Cardiac Catheter Navigation

Author

Seung Min Shin, Jung Chan Lee, Jaesoon Choi, Hui Nam Pak, Seung Joon Song, Yongdoo Park, Jun Woo Park, and Kyung Sun

Subjects

Engineering, business.industry, Biomedical Engineering, Medicine (miscellaneous), Navigation system, Bioengineering, Control engineering, General Medicine, Cardiac Ablation, Motion control, Signal, Biomaterials, Mechanism (engineering), Torque, Actuator, business, Simulation, Haptic technology

Abstract

Electrophysiological catheters are used for both diagnostics and clinical intervention. To facilitate more accurate and precise catheter navigation, robotic cardiac catheter navigation systems have been developed and commercialized. The authors have developed a novel force-reflecting robotic catheter navigation system. The system is a network-based master-slave configuration having a 3-degree of freedom robotic manipulator for operation with a conventional cardiac ablation catheter. The master manipulator implements a haptic user interface device with force feedback using a force or torque signal either measured with a sensor or estimated from the motor current signal in the slave manipulator. The slave manipulator is a robotic motion control platform on which the cardiac ablation catheter is mounted. The catheter motions-forward and backward movements, rolling, and catheter tip bending-are controlled by electromechanical actuators located in the slave manipulator. The control software runs on a real-time operating system-based workstation and implements the master/slave motion synchronization control of the robot system. The master/slave motion synchronization response was assessed with step, sinusoidal, and arbitrarily varying motion commands, and showed satisfactory performance with insignificant steady-state motion error. The current system successfully implemented the motion control function and will undergo safety and performance evaluation by means of animal experiments. Further studies on the force feedback control algorithm and on an active motion catheter with an embedded actuation mechanism are underway.

Published

2010

49. Dual action of apolipoprotein E-interacting HCCR-1 oncoprotein and its implication for breast cancer and obesity

Author

Jin Woo Kim, Youn Soo Lee, Yeun-Jun Chung, Seung Min Shin, Yong Gyu Park, Yu Sun Lee, Seon-Ah Ha, Hae Joo Kim, Hyun Kee Kim, Sang Seol Jung, Sang Min Jung, Sanghee Kim, and Hong Namkoong

Subjects

Apolipoprotein E, Genetically modified mouse, obesity, medicine.medical_specialty, Transgene, Breast Neoplasms, Mice, Transgenic, Receptors, Cell Surface, Biology, Mice, Apolipoproteins E, breast cancer, Breast cancer, Cell Line, Tumor, Proto-Oncogene Proteins, Internal medicine, Chlorocebus aethiops, medicine, Animals, Humans, Secretion, skin and connective tissue diseases, Receptor, apolipoprotein E, Oncogene Proteins, Regulation of gene expression, Oncogene, Cell Biology, medicine.disease, Gene Expression Regulation, Neoplastic, Molecular Oncology, Endocrinology, Microscopy, Fluorescence, COS Cells, HCCR-1 oncogene, Cancer research, Molecular Medicine, Female

Abstract

Obese women have an increased risk for post-menopausal breast cancer. The physiological mechanism by which obesity contributes to breast tumourigenesis is not understood. We previously showed that HCCR-1 oncogene contributes to breast tumourigenesis as a negative regulator of p53 and detection of HCCR-1 serological level was useful for the diagnosis of breast cancer(.) In this study, we found that the HCCR-1 level is elevated in breast cancer tissues and cell lines compared to normal breast tissues. We identified apolipoprotein E (ApoE) interacting with HCCR-1. Our data show that HCCR-1 inhibits anti-proliferative effect of ApoE, which was mediated by diminishing ApoE secretion of breast cancer cells. Finally, HCCR-1 induced the severe obesity in transgenic mice. Those obese mice showed severe hyperlipidaemia. In conclusion, our results suggest that HCCR-1 might play a role in the breast tumourigenesis while the overexpression of HCCR-1 induces the obesity probably by inhibiting the cholesterol-lowering effect of ApoE. Therefore, HCCR-1 seems to provide the molecular link between the obesity and the breast cancer risk.

Published

2010

50. The phosphatidylinositol 3-kinase/Akt pathway regulates the HCCR-1 oncogene expression

Author

Young Gyu Chai, Jin Woo Kim, Seung Min Shin, Tae Eung Kim, Seon-Ah Ha, Soo Young Hur, Goang-Won Cho, Hyun Kee Kim, and Hong Namkoong

Subjects

Oncogene Proteins, 5' Flanking Region, Molecular Sequence Data, 5' flanking region, Receptors, Cell Surface, Biology, Cell Line, Mice, Phosphatidylinositol 3-Kinases, Cell Line, Tumor, Proto-Oncogene Proteins, Genetics, Animals, Humans, Northern blot, Promoter Regions, Genetic, Protein kinase B, PI3K/AKT/mTOR pathway, Base Sequence, Oncogene, Akt/PKB signaling pathway, Gene Expression Regulation, Developmental, General Medicine, Molecular biology, Gene Expression Regulation, Neoplastic, NIH 3T3 Cells, Signal transduction, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

The human cervical cancer oncogene HCCR-1 is overexpressed in various human cancers, and might function as a negative regulator of the p53 tumor suppressor. To determine the regulatory pathway involved in the HCCR-1 gene expression, we searched the 5' flanking region of HCCR-1 and identified HCCR-1 promoter including putative homeodomain protein binding sites. The level of HCCR-1 expression was increased during the mouse embryogenesis. Expression of phosphatidylinositol 3-kinase (PI3K) in NIH/3T3 cells activated the HCCR-1 promoter. This promoter was also activated by wild type Akt but not by dominant negative Akt in K562 cells. In addition, the level of HCCR-1 was decreased by PI3K inhibitor, LY-294002, in a dose dependent manner. Northern blot analysis revealed that the HCCR-1 gene expression was down-regulated by LY-294002. These results suggest that the HCCR-1 oncogene expression was regulated by the PI3K/Akt signaling pathway.

Published

2006