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8. The Effects of Human Bone Marrow-Derived Mesenchymal Stem Cell Conditioned Media Produced with Fetal Bovine Serum or Human Platelet Lysate on Skin Rejuvenation Characteristics

Author

JeeHoon Nam, Eunkyung Chung, Kim Sina, Lee Chanju, Sun U. Song, and Byeol Choi

Subjects
Fetal bovine serum, Human mesenchymal stem cell, Extracellular matrix, Dermal fibroblast, 03 medical and health sciences, 0302 clinical medicine, medicine, Human platelet lysate, Wrinkle, 030304 developmental biology, Skin rejuvenation, 0303 health sciences, biology, integumentary system, Chemistry, Regeneration (biology), Mesenchymal stem cell, Cell Biology, Cell biology, Secretory protein, biology.protein, Original Article, medicine.symptom, Elastin, 030217 neurology & neurosurgery, Developmental Biology
Abstract

Background and objectives Human mesenchymal stem cell-conditioned medium (MSC-CM) is produced using mesenchymal stem cell culture technology and has various benefits for the skin, including wrinkle removal, skin regeneration, and increased antioxidant activity. Its popularity is thus increasing in the field of functional cosmetics. Methods and results In this study, we analyzed the effects of fetal bovine serum-supplemented MSC-CM (FBSMSC-CM) and human platelet lysate-supplemented MSC-CM (hPL-MSC-CM) on skin rejuvenation characteristics. We found that the concentrations of important growth factors (VEGF, TGF-β1, and HGF) and secretory proteins for skin regeneration were significantly higher in hPL-MSC-CM than in FBS-MSC-CM. Furthermore, the capacity for inducing proliferation of human dermal fibroblast (HDF) and keratinocytes, the migration ability of HDF, extracellular matrix (ECM) production such as collagen and elastin was higher in hPL-MSC-CM than that in FBSMSC-CM. Conclusions These results support the usefulness and high economic value of hPL-MSC-CM as an alternative source of FBS-MSC-CM in the cosmetic industry for skin rejuvenation.

Published
2020

9. Culturing at Low Cell Density Delays Cellular Senescence of Human Bone Marrow-Derived Mesenchymal Stem Cells in Long-Term Cultures

Author

Kim Sina, Min Kyoung Kim, Sun U. Song, Eunkyung Chung, Byeol Choi, Jeong Hyun Moon, and Lee Chanju

Subjects
chemistry.chemical_classification, Senescence, Reactive oxygen species, Aging, Low cell density, Mesenchymal stem cell, Mass production, Cell Biology, Biology, Regenerative medicine, In vitro, Cell biology, Cell therapy, medicine.anatomical_structure, chemistry, medicine, Mesenchymal stem cells, Original Article, Bone marrow, Stem cell, Developmental Biology
Abstract

Background and objectives Mesenchymal stem cells (MSCs) have immense therapeutic potential for treating intractable and immune diseases. They also have applications in regenerative medicine in which distinct treatments do not exist. Thus, MSCs are gaining attention as important raw materials in the field of cell therapy. Importantly, the number of MSCs in the bone marrow is limited and they are present only in small quantities. Therefore, mass production of MSCs through long-term culture is necessary to use them in cell therapy. However, MSCs undergo cellular senescence through repeated passages during mass production. In this study, we explored methods to prolong the limited lifetime of MSCs by culturing them with different seeding densities. Methods and results We observed that in long-term cultures, low-density (LD, 50 cells/cm2 ) MSCs showed higher population doubling level, leading to greater fold increase, than high-density (HD, 4,000 cells/cm2 ) MSCs. LD-MSCs suppressed the expression of aging-related genes. We also showed that reactive oxygen species (ROS) were decreased in LD-MSCs compared to that in HD-MSCs. Further, proliferation potential increased when ROS were inhibited in HD-MSCs. Conclusions The results in this study suggest that MSC senescence can be delayed and that life span can be extended by controlling cell density in vitro. These results can be used as important data for the mass production of stem cell therapeutic products.

Published
2020

11. Hippocampal‐striatal functional connectivity supports processing of temporal expectations from associative memory.

Author

Ven, Vincent, Lee, Chanju, Lifanov, Julia, Kochs, Sarah, Jansma, Henk, and De Weerd, Peter

Subjects
*FUNCTIONAL connectivity, *ASSOCIATIVE memory (Psychology), *FUNCTIONAL magnetic resonance imaging
Abstract

The hippocampus and dorsal striatum are both associated with temporal processing, but they are thought to play distinct roles. The hippocampus has been reported to contribute to storing temporal structure of events in memory, whereas the striatum contributes to temporal motor preparation and reward anticipation. Here, we asked whether the striatum cooperates with the hippocampus in processing the temporal context of memorized visual associations. In our task, participants were trained to implicitly form temporal expectations for one of two possible time intervals associated to specific cue‐target associations, and subsequently were scanned using ultra‐high‐field 7T functional magnetic resonance imaging. During scanning, learned temporal expectations could be violated when the pairs were presented at either the associated or not‐associated time intervals. When temporal expectations were met during testing trials, activity in left and right hippocampal subfields and right putamen decreased, compared to when temporal expectations were not met. Further, psycho‐physiological interactions showed that functional connectivity between left hippocampal subfields and caudate decreased when temporal expectations were not met. Our results indicate that the hippocampus and striatum cooperate to process implicit temporal expectation from mnemonic associations. Our findings provide further support for a hippocampal‐striatal network in temporal associative processing. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Magnolol Attenuates Cisplatin-Induced Muscle Wasting by M2c Macrophage Activation.

Author

Lee, Chanju, Jeong, Hyunju, Lee, Hyunji, Hong, Minwoo, Park, Seon-young, and Bae, Hyunsu

Subjects
MACROPHAGE activation, SOMATOMEDIN, PERITONEAL macrophages, MUSCLE mass, MUSCLES, SKELETAL muscle
Abstract

Cancer chemotherapy induces sarcopenia, which is a rapid loss of muscle mass that directly restricts daily activities and leads to poor quality of life and increased mortality. Although hormone-related therapies have been used to improve appetite and nutritional status, current treatments are considered palliative. Thus, the protection of skeletal muscle loss without adverse effects is essential to allow the maintenance of chemotherapy in cancer patients. Magnolol from Magnolia officinalis has several pharmacological effects including anti-cancer and anti-inflammatory activities, but the protection from muscle atrophy is not well-understood. In the present study, we investigated the effects of magnolol on muscle wasting and macrophage subtypes in a cisplatin-induced sarcopenia mouse model. We showed that magnolol significantly attenuated the body weight and the muscle loss induced by cisplatin injection. The diameter of the tibialis anterior muscle was markedly increased after magnolol treatment in cisplatin-treated mice. Importantly, magnolol increased macrophage infiltration into skeletal muscle while not affecting proliferation of macrophages. Magnolol attenuated the imbalance of M1/M2c macrophages by increasing CD206+CD163+ M2c tissue reparative macrophages. Further, magnolol increased insulin-like growth factor (IGF)-1 expression. This effect was also observed in bone marrow-derived macrophages upon magnolol treatment. Taken together, magnolol may be a promising chemoprotective agent for the prevention of muscle atrophy through the upregulating M2c macrophages, which are a major source of IGF-1. [ABSTRACT FROM AUTHOR]

Published
2020
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13. Evaluation of the Efficacy and Safety of the Herbal Formula PM014 in a Cisplatin- and Paclitaxel-Treated Tumor-Bearing Mouse Model.

Author

Lee, Chanju, Jeong, Hyunju, Lee, Kwang Hyung, Park, Sehyun, Gang, Mi Jung, Bae, Soo Kyung, and Bae, Hyunsu

Abstract

PM014 (HL301) is a standardized herbal mixture derived from a traditional Korean medicine, Chung-Sang-Bo-Ha-Tang. Previously, we reported that PM014 treatment significantly suppressed pulmonary fibrosis, one of the frequent adverse effects of anticancer therapy in lung cancer. Before the clinical application of PM014 in anticancer therapy, the safety and efficacy of PM014 in combination with conventional anticancer drugs should be addressed to determine whether PM014 can be used in lung cancer. Lewis lung cancer–bearing mice were injected with 10 mg/kg of cisplatin or paclitaxel on day 5. Starting on day 7, the mice were administered 200 mg/kg PM014 every 2 days. On day 15, all mice were assessed by biochemical and histological analyses. PM014 did not block the antitumor activity of cisplatin and paclitaxel. Coadministration of PM014 and antitumor agents did not elevate the aspartate transaminase/alanine transaminase ratio or the blood urea nitrogen/creatinine ratio. Histopathological analysis also showed that PM014 did not induce hepatic or renal injury. Moreover, PM014 had no apparent inhibitory effects on drug metabolizing enzymes, indicating that PM014 did not alter the pharmacokinetics of chemotherapeutic drugs. Overall, these data show the safety and compatibility of combination therapy of PM014 and chemotherapies for the treatment of lung cancer. [ABSTRACT FROM AUTHOR]

Published
2020
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14. Macrophage Depletion Protects against Cigarette Smoke-Induced Inflammatory Response in the Mouse Colon and Lung.

Author

Lim, Dahae, Kim, Woogyeong, Lee, Chanju, Bae, Hyunsu, and Kim, Jinju

Subjects
MACROPHAGES, PHYSIOLOGICAL effects of tobacco, INTESTINAL diseases, LUNG disease prevention, LIPOSOMES, PREVENTION
Abstract

Cigarette smoke (CS) is considered as a major risk factor for pulmonary and intestinal inflammation. CS leads to macrophage infiltration in the mucosae of the lung and colon, inducing the uncontrolled secretion of inflammatory mediators, and thus promoting inflammatory response. In this study, we investigated whether macrophage depletion modulates cigarette smoke (CS)-induced inflammatory response in both the lung and colon. The mice were exposed to CS for 30min, after which they were rested in a fresh air environment for 30min. The total duration of exposure to CS was 2 h per day for 4 weeks. Macrophage depletion state wasmade with the injection of clodronate containing liposome. Individual body weights were measured twice a week, and the mice were sacrificed on day 28. Hematoxylin and eosin (H&E) staining was performed in the lung and colon tissue to determine histological changes. Inflammatory mediators' synthesis was analyzed using ELISA and western blotting. Clodronate liposome treatment ameliorated pathological changes associated with the infiltration of immune cells in the lung and colon. Also, clodronate liposome injected mice showed significantly lower level of inflammatory mediators, including cytokines and chemokine and proteases. Our results indicated that macrophage depletion by clodronate liposome treatment attenuates CS-induced inflammatory response in both the lung and colon. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Neuroprotective effects of bee venom phospholipase A2 in the 3xTg AD mouse model of Alzheimer's disease.

Author

Minsook Ye, Hwan-Suck Chung, Chanju Lee, Moon Sik Yoon, Ram Yu, A., Jin Su Kim, Deok-Sang Hwang, Insop Shim, Hyunsu Bae, Ye, Minsook, Chung, Hwan-Suck, Lee, Chanju, Yoon, Moon Sik, Yu, A Ram, Kim, Jin Su, Hwang, Deok-Sang, Shim, Insop, and Bae, Hyunsu

Subjects
ALZHEIMER'S disease, NEURODEGENERATION, PHOSPHOLIPASE A2, GLUCOSE metabolism, ANIMAL models in research, NEUROPROTECTIVE agents, ESTERASES, ANIMAL experimentation, ANTIGENS, ARTHROPOD venom, BIOLOGICAL models, BODY weight, DEOXY sugars, FEAR, HIPPOCAMPUS (Brain), LEARNING, LEARNING disabilities, MEMBRANE proteins, MICE, GENETIC mutation, NERVE tissue proteins, PROTEIN precursors, RADIOPHARMACEUTICALS, DISEASE complications, T cells, THERAPEUTICS, PHYSIOLOGY
Abstract

Background: Alzheimer's disease (AD) is a severe neuroinflammatory disease. CD4(+)Foxp3(+) regulatory T cells (Tregs) modulate various inflammatory diseases via suppressing Th cell activation. There are increasing evidences that Tregs have beneficial roles in neurodegenerative diseases. Previously, we found the population of Treg cells was significantly increased by bee venom phospholipase A2 (bvPLA2) treatment in vivo and in vitro.Methods: To examine the effects of bvPLA2 on AD, bvPLA2 was administered to 3xTg-AD mice, mouse model of Alzheimer's disease. The levels of amyloid beta (Aβ) deposits in the hippocampus, glucose metabolism in the brain, microglia activation, and CD4(+) T cell infiltration were analyzed to evaluate the neuroprotective effect of bvPLA2.Results: bvPLA2 treatment significantly enhanced the cognitive function of the 3xTg-AD mice and increased glucose metabolism, as assessed with 18F-2 fluoro-2-deoxy-D-glucose ([F-18] FDG) positron emission tomography (PET). The levels of Aβ deposits in the hippocampus were dramatically decreased by bvPLA2 treatment. This neuroprotective effect of bvPLA2 was associated with microglial deactivation and reduction in CD4(+) T cell infiltration. Interestingly, the neuroprotective effects of bvPLA2 were abolished in Treg-depleted mice.Conclusions: The present studies strongly suggest that the increase of Treg population by bvPLA2 treatment might inhibit progression of AD in the 3xTg AD mice. [ABSTRACT FROM AUTHOR]

Published
2016
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16. Cover Image, Volume 42, Issue 4.

Author

Lee, Chanju, Lee, Hyunji, Cho, Hayoon, Kim, Soyoung, Choi, Ilseob, Hwang, Young‐Sik, Jeong, Hyunju, Jang, Hogi, Pak, Sehyun, Hwang, Deok‐Sang, Han, Ik‐Hwan, and Bae, Hyunsu

Published
2022
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17. TAMpepK Suppresses Metastasis through the Elimination of M2-Like Tumor-Associated Macrophages in Triple-Negative Breast Cancer.

Author

Lee, Chanju, Kim, Soyoung, Jeong, Chanmi, Cho, Inhee, Jo, Juyeon, Han, Ik-Hwan, and Bae, Hyunsu

Subjects
*TRIPLE-negative breast cancer, *METASTATIC breast cancer, *CYTOTOXIC T cells, *MACROPHAGES, *LYMPHATIC metastasis, *T cells, *LUNGS
Abstract

Triple-negative breast cancer (TNBC) accounts for approximately 10–15% of all breast cancer cases and is characterized by high invasiveness, high metastatic potential, relapse proneness, and poor prognosis. M2-like tumor-associated macrophages (TAMs) contribute to tumorigenesis and are promising targets for inhibiting breast cancer metastasis. Therefore, we investigated whether melittin-conjugated pro-apoptotic peptide (TAMpepK) exerts therapeutic effects on breast cancer metastasis by targeting M2-like TAMs. TAMpepK is composed of M2-like TAM binding peptide (TAMpep) and pro-apoptotic peptide d(KLAKLAK)2 (dKLA). A metastatic mouse model was constructed by injecting 4T1-luc2 cells either orthotopically or via tail vein injection, and tumor burden was quantified using a bioluminescence in vivo imaging system. We found that TAMpepK suppressed lung and lymph node metastases of breast cancer by eliminating M2-like TAMs without affecting the viability of M1-like macrophages and resident macrophages in the orthotopic model. Furthermore, TAMpepK reduced pulmonary seeding and the colonization of tumor cells in the tail vein injection model. The number of CD8+ T cells in contact with TAMs was significantly decreased in tumor nodules treated with TAMpepK, resulting in the functional activation of cytotoxic CD8+ T cells. Taken together, our findings suggest that TAMpepK could be a novel therapeutic agent for the inhibition of breast cancer metastasis by targeting M2-like TAMs. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Thermopneumatic Soft Micro Bellows Actuator for Standalone Operation.

Author

Ahn, Seongbeom, Jung, Woojun, Ko, Kyungho, Lee, Yeongchan, Lee, Chanju, and Hwang, Yongha

Subjects
SOFT lithography, ALKALINE batteries, COPPER wire, POWER resources, HEAT transfer, ACTUATORS
Abstract

Typical pneumatic soft micro actuators can be manufactured without using heavy driving components such as pumps and power supplies by adopting an independent battery-powered mechanism. In this study, a thermopneumatically operated soft micro bellows actuator was manufactured, and the standalone operation of the actuator was experimentally validated. Thermopneumatic actuation is based on heating a sealed cavity inside the elastomer of the actuator to raise the pressure, leading to deflection of the elastomer. The bellows actuator was fabricated by casting polydimethylsiloxane (PDMS) using the 3D-printed soluble mold technique to prevent leakage, which is inherent in conventional soft lithography due to the bonding of individual layers. The heater, manufactured separately using winding copper wire, was inserted into the cavity of the bellows actuator, which together formed the thermopneumatic actuator. The 3D coil heater and bellows allowed immediate heat transfer and free movement in the intended direction, which is unachievable for conventional microfabrication. The fabricated actuator produced a stroke of 2184 μm, equivalent to 62% of the body, and exerted a force of 90.2 mN at a voltage of 0.55 V. A system in which the thermopneumatic actuator was driven by alkaline batteries and a control circuit also demonstrated a repetitive standalone operation. [ABSTRACT FROM AUTHOR]

Published
2021
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19. Galectin-9 Mediates the Functions of Microglia in the Hypoxic Brain Tumor Microenvironment.

Author

Lee C, Yu D, Kim HS, Kim KS, Chang CY, Yoon HJ, Won SB, Kim DY, Goh EA, Lee YS, Park JB, Kim SS, and Park EJ

Subjects
Animals, Mice, Humans, Cell Line, Tumor, Glioblastoma pathology, Glioblastoma metabolism, Glioblastoma genetics, Glioma pathology, Glioma metabolism, Glioma genetics, Mice, Inbred C57BL, Macrophages metabolism, Macrophages pathology, Male, Tumor Microenvironment, Microglia metabolism, Microglia pathology, Brain Neoplasms pathology, Brain Neoplasms metabolism, Brain Neoplasms genetics, Galectins metabolism, Galectins genetics
Abstract

Galectin-9 (Gal-9) is a multifaceted regulator of various pathophysiologic processes that exerts positive or negative effects in a context-dependent manner. In this study, we elucidated the distinctive functional properties of Gal-9 on myeloid cells within the brain tumor microenvironment (TME). Gal-9-expressing cells were abundant at the hypoxic tumor edge in the tumor-bearing ipsilateral hemisphere compared with the contralateral hemisphere in an intracranial mouse brain tumor model. Gal-9 was highly expressed in microglia and macrophages in tumor-infiltrating cells. In primary glia, both the expression and secretion of Gal-9 were influenced by tumors. Analysis of a human glioblastoma bulk RNA sequencing dataset and a single-cell RNA sequencing dataset from a murine glioma model revealed a correlation between Gal-9 expression and glial cell activation. Notably, the Gal-9high microglial subset was functionally distinct from the Gal-9neg/low subset in the brain TME. Gal-9high microglia exhibited properties of inflammatory activation and higher rates of cell death, whereas Gal-9neg/low microglia displayed a superior phagocytic ability against brain tumor cells. Blockade of Gal-9 suppressed tumor growth and altered the activity of glial and T cells in a mouse glioma model. Additionally, glial Gal-9 expression was regulated by hypoxia-inducible factor-2α in the hypoxic brain TME. Myeloid-specific hypoxia-inducible factor-2α deficiency led to attenuated tumor progression. Together, these findings reveal that Gal-9 on myeloid cells is an immunoregulator and putative therapeutic target in brain tumors. Significance: Galectin-9 serves as an immune checkpoint molecule that modulates the functional properties of microglia in the brain tumor microenvironment and could potentially be targeted to effectively treat brain tumors., (©2024 American Association for Cancer Research.)

Published
2024
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20. Immune Checkpoint-Blocking Nanocages Cross the Blood-Brain Barrier and Impede Brain Tumor Growth.

Author

Kim M, Yoon HJ, Lee C, Lee M, Park RW, Lee B, Park EJ, and Kim S

Subjects
Humans, Blood-Brain Barrier metabolism, Blood-Brain Barrier pathology, B7-H1 Antigen metabolism, Programmed Cell Death 1 Receptor metabolism, Ferritins therapeutic use, Peptides therapeutic use, Tumor Microenvironment, Brain Neoplasms drug therapy, Brain Neoplasms pathology, Glioblastoma drug therapy, Glioblastoma pathology
Abstract

Glioblastoma (GBM) is the deadliest tumor of the central nervous system, with a median survival of less than 15 months. Despite many trials, immune checkpoint-blocking (ICB) therapies using monoclonal antibodies against the PD-1/PD-L1 axis have demonstrated only limited benefits for GBM patients. Currently, the main hurdles in brain tumor therapy include limited drug delivery across the blood-brain barrier (BBB) and the profoundly immune-suppressive microenvironment of GBM. Thus, there is an urgent need for new therapeutics that can cross the BBB and target brain tumors to modulate the immune microenvironment. To this end, we developed an ICB strategy based on the BBB-permeable, 24-subunit human ferritin heavy chain, modifying the ferritin surface with 24 copies of PD-L1-blocking peptides to create ferritin-based ICB nanocages. The PD-L1pep ferritin nanocages first demonstrated their tumor-targeting and antitumor activities in an allograft colon cancer model. Next, we found that these PD-L1pep ferritin nanocages efficiently penetrated the BBB and targeted brain tumors through specific interactions with PD-L1, significantly inhibiting tumor growth in an orthotopic intracranial tumor model. The addition of PD-L1pep ferritin nanocages to triple in vitro cocultures of T cells, GBM cells, and glial cells significantly inhibited PD-1/PD-L1 interactions and restored T-cell activity. Collectively, these findings indicate that ferritin nanocages displaying PD-L1-blocking peptides can overcome the primary hurdle of brain tumor therapy and are, therefore, promising candidates for treating GBM.

Published
2024
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21. Adoptive therapy with amyloid-β specific regulatory T cells alleviates Alzheimer's disease.

Author

Yang H, Park SY, Baek H, Lee C, Chung G, Liu X, Lee JH, Kim B, Kwon M, Choi H, Kim HJ, Kim JY, Kim Y, Lee YS, Lee G, Kim SK, Kim JS, Chang YT, Jung WS, Kim KH, and Bae H

Subjects
Animals, Mice, T-Lymphocytes, Regulatory, Amyloid beta-Peptides, Inflammation therapy, Alzheimer Disease therapy, Cognitive Dysfunction
Abstract

Rationale : Neuroinflammation is a primary feature of Alzheimer's disease (AD), for which an increasing number of drugs have been specifically developed. The present study aimed to define the therapeutic impact of a specific subpopulation of T cells that can suppress excessive inflammation in various immune and inflammatory disorders, namely, CD4 + CD25 + Foxp3 + regulatory T cells (Tregs). Methods : To generate Aβ antigen-specific Tregs (Aβ + Tregs), Aβ 1-42 peptide was applied in vivo and subsequent in vitro splenocyte culture. After isolating Tregs by magnetic bead based purification method, Aβ + Tregs were adoptively transferred into 3xTg-AD mice via tail vein injection. Therapeutic efficacy was confirmed with behavior test, Western blot, quantitative real-time PCR (qRT-PCR), enzyme-linked immunosorbent assay (ELISA), and immunohistochemistry staining (IHC). In vitro suppression assay was performed to evaluate the suppressive activity of Aβ + Tregs using flow cytometry. Thy1.1 + Treg trafficking and distribution was analyzed to explore the infused Tregs migration into specific organs in an antigen-driven manner in AD mice. We further assessed cerebral glucose metabolism using 18 F-FDG-PET, an imaging approach for AD biological definition. Subsequently, we evaluated the migration of Aβ + Tregs toward Aβ activated microglia using live cell imaging, chemotaxis, antibody blocking and migration assay. Results : We showed that Aβ-stimulated Tregs inhibited microglial proinflammatory activity and modulated the microglial phenotype via bystander suppression. Single adoptive transfer of Aβ + Tregs was enough to induce amelioration of cognitive impairments, Aβ accumulation, hyper-phosphorylation of tau, and neuroinflammation during AD pathology. Moreover, Aβ-specific Tregs effectively inhibited inflammation in primary microglia induced by Aβ exposure. It may indicate bystander suppression in which Aβ-specific Tregs promote immune tolerance by secreting cytokines to modulate immune responses during neurodegeneration. Conclusions : The administration of Aβ antigen-specific regulatory T cells may represent a new cellular therapeutic strategy for AD that acts by modulating the inflammatory status in AD., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2022
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22. Cigarette Smoking Triggers Colitis by IFN-γ + CD4 + T Cells.

Author

Lee G, Jung KH, Shin D, Lee C, Kim W, Lee S, Kim J, and Bae H

Abstract

The increased incidence of Crohn's disease in smokers has been recently reported, suggesting a strong association of cigarette smoke (CS) with colitis. However, the mechanism of the action of CS on colitis has not yet been explored. Here, we demonstrate that CS exposure is sufficient to induce colitis in mice. Interestingly, the colitis is mainly mediated by Th1, but not Th17, responses. CD4 + T-cell depletion or T-bet/IFN-γ deficiency protects against the development of colitis induced by CS. Additionally, IFN-γ-producing CD4 + T cells play a substantial role in CS-induced colitis. The adoptive transfer (AT) of effector T cells from CS-exposed WT mice into colitis-prone mice caused these mice to develop colitis, while the AT of effector T cells from IFN-γ knock-out mice did not. These findings have implications for broadening our understanding of CS-induced pathology and for the development of novel therapeutic strategies to treat Crohn's disease.

Published
2017
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23. Melittin suppresses tumor progression by regulating tumor-associated macrophages in a Lewis lung carcinoma mouse model.

Author

Lee C, Bae SS, Joo H, and Bae H

Abstract

Tumor-associated macrophages (TAM) are a major component of tumor stroma. It has been reported that TAMs have M2-like phenotype and facilitate tumor progression by promoting angiogenesis and immunosuppression. Melittin, a major polypeptide of bee venom, has been widely studied as an anti-cancer drug due to its cytotoxicity to malignant cells. However, very little is known regarding the effect of melittin on immune cells in the tumor microenvironment. This study focuses on the effect of melittin on TAMs in a Lewis lung carcinoma mouse model. Melittin inhibited the rapid tumor growth compared to the control in vivo . Melittin increased the M1/M2 ratio of TAMs by selectively reducing the number of CD206 + M2-like TAMs while not altering the population of CD86 + M1-like TAMs. Melittin also preferentially binds to M2 macrophages, and this binding was not associated with phagocytosis. Gene and protein expression of vascular endothelial growth factor (Vegf) and mannose receptor C type 1 (Mrc1/CD206) was reduced in M2-like bone marrow-derived macrophages by melittin treatment, but there was no significant change in the gene level of Vegf and FMS-like tyrosine kinase 1 (Flt1/VEGFR1) in tumor cells in vitro . Additionally, the levels of VEGF and CD31, markers of angiogenesis, were significantly decreased by melittin treatment in tumor tissues. This study revealed a novel role for melittin in tumor treatment and suggested that melittin could be a promising therapeutic agent for targeting M2-like TAMs., Competing Interests: CONFLICTS OF INTEREST The authors declare that they have no conflicts of interest related to this study.

Published
2017
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24. Neuroprotective effects of CD4+CD25+Foxp3+ regulatory T cells in a 3xTg-AD Alzheimer's disease model.

Author

Baek H, Ye M, Kang GH, Lee C, Lee G, Choi DB, Jung J, Kim H, Lee S, Kim JS, Lee HJ, Shim I, Lee JH, and Bae H

Subjects
Alzheimer Disease genetics, Alzheimer Disease metabolism, Animals, Forkhead Transcription Factors metabolism, Glucose metabolism, Hippocampus diagnostic imaging, Hippocampus metabolism, Hippocampus physiopathology, Humans, Interleukin-2 Receptor alpha Subunit metabolism, Learning Disabilities genetics, Learning Disabilities metabolism, Learning Disabilities therapy, Male, Memory Disorders genetics, Memory Disorders metabolism, Memory Disorders therapy, Mice, Inbred C57BL, Mice, Transgenic, Positron-Emission Tomography methods, T-Lymphocytes, Regulatory metabolism, Adoptive Transfer methods, Alzheimer Disease therapy, Disease Models, Animal, T-Lymphocytes, Regulatory transplantation
Abstract

Alzheimer's disease patients display neuropathological lesions, including the accumulation of amyloid-beta (Aβ) peptide and neurofibrillary tangles. Although the mechanisms causing the neurodegenerative process are largely unknown, increasing evidence highlights a critical role of immunity in the pathogenesis of Alzheimer's disease. In the present study, we investigated the role of regulatory T cells (Tregs) on Alzheimer's disease progression. First, we explored the effect of Tregs (CD4+CD25+ T cells) and Teffs (CD4+CD25- T cells) in an adoptive transfer model. Systemic transplantation of purified Tregs into 3xTg-AD mice improved cognitive function and reduced deposition of Aβ plaques. In contrast, adoptive transfer of Teffs diminished behavioral function and cytokine production. Next, we transiently depleted Treg population using an anti-CD25 antibody (PC61). Depletion of Tregs for four months resulted in a marked aggravation of the spatial learning deficits of six-month-old 3xTg-AD mice. Additionally, it resulted in decreasing glucose metabolism, as assessed by positron emission tomography (PET) with 18F-2 fluoro-2-deoxy-D-glucose ([F-18] FDG) neuroimaging. Importantly, the deposition of Aβ plaques and microglia/macrophage was increased in the hippocampal CA1 and CA3 regions of the Treg depleted 3xTg-AD compared to the vehicle-treated 3xTg-AD group. Our finding suggested that systemic Treg administration ameliorates disease progression and could be an effective Alzheimer's disease treatment.

Published
2016
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25. Bee venom phospholipase A2 ameliorates motor dysfunction and modulates microglia activation in Parkinson's disease alpha-synuclein transgenic mice.

Author

Ye M, Chung HS, Lee C, Hyun Song J, Shim I, Kim YS, and Bae H

Subjects
Animals, Bees, Disease Models, Animal, Enzyme Therapy, Humans, Mice, Mice, Transgenic, Microglia drug effects, Microglia pathology, Parkinson Disease genetics, Point Mutation, Spinal Cord drug effects, Spinal Cord physiopathology, alpha-Synuclein analysis, alpha-Synuclein genetics, Bee Venoms enzymology, Motor Activity drug effects, Parkinson Disease drug therapy, Parkinson Disease physiopathology, Phospholipases A2 therapeutic use
Abstract

α-Synuclein (α-Syn) has a critical role in microglia-mediated neuroinflammation, which leads to the development of Parkinson's disease (PD). Recent studies have shown that bee venom (BV) has beneficial effects on PD symptoms in human patients or 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) toxin-induced PD mice. This study investigated whether treatment with BV-derived phospholipase A2 (bvPLA2) would improve the motor dysfunction and pathological features of PD in human A53T α-Syn mutant transgenic (A53T Tg) mice. The motor dysfunction of A53T Tg mice was assessed using the pole test. The levels of α-Syn, microglia and the M1/M2 phenotype in the spinal cord were evaluated by immunofluorescence. bvPLA2 treatment significantly ameliorated motor dysfunction in A53T Tg mice. In addition, bvPLA2 significantly reduced the expression of α-Syn, the activation and numbers of microglia, and the ratio of M1/M2 in A53T Tg mice. These results suggest that bvPLA2 could be a promising treatment option for PD.

Published
2016
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26. Immunotherapy with methyl gallate, an inhibitor of Treg cell migration, enhances the anti-cancer effect of cisplatin therapy.

Author

Kim H, Lee G, Sohn SH, Lee C, Kwak JW, and Bae H

Abstract

Foxp3(+) CD25(+)CD4(+) regulatory T (Treg) cells are crucial for the maintenance of immunological self-tolerance and are abundant in tumors. Most of these cells are chemo-attracted to tumor tissues and suppress anti-tumor responses inside the tumor. Currently, several cancer immunotherapies targeting Treg cells are being clinically tested. Cisplatin is one of the most potent chemotherapy drugs widely used for cancer treatment. While cisplatin is a powerful drug for the treatment of multiple cancers, there are obstacles that limit its use, such as renal dysfunction and the development of cisplatin-resistant cancer cells after its use. To minimize these barriers, combinatorial therapies of cisplatin with other drugs have been developed and have proven to be more effective to treat cancer. In the present study, we evaluated the eff ect of the combination therapy using methyl gallate with cisplatin in EL4 murine lymphoma bearing C57BL/6 mice. The combinatorial therapy of methyl gallate and cisplatin showed stronger anti-cancer eff ects than methyl gallate or cisplatin as single treatments. In Treg cell-depleted mice, however, the eff ect of methyl gallate vanished. It was found that methyl gallate treatment inhibited Treg cell migration into the tumor regardless of cisplatin treatment. Additionally, in both the normal and cisplatin-treated tumor-bearing mice, there was no renal toxicity attributed to methyl gallate treatment. These findings suggest that methyl gallate treatment could be useful as an adjuvant method accompanied with cisplatin therapy.

Published
2016
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27. Bee Venom Phospholipase A2, a Novel Foxp3+ Regulatory T Cell Inducer, Protects Dopaminergic Neurons by Modulating Neuroinflammatory Responses in a Mouse Model of Parkinson's Disease.

Author

Chung ES, Lee G, Lee C, Ye M, Chung HS, Kim H, Bae SJ, Hwang DS, and Bae H

Subjects
1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine adverse effects, 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine pharmacology, Animals, Dinoprostone genetics, Dinoprostone immunology, Disease Models, Animal, Dopaminergic Neurons pathology, Forkhead Transcription Factors genetics, Forkhead Transcription Factors immunology, Lectins, C-Type genetics, Lectins, C-Type immunology, MPTP Poisoning genetics, MPTP Poisoning immunology, MPTP Poisoning pathology, Mannose Receptor, Mannose-Binding Lectins genetics, Mannose-Binding Lectins immunology, Mice, Mice, Transgenic, Microglia immunology, Microglia pathology, Receptors, Cell Surface genetics, Receptors, Cell Surface immunology, T-Lymphocytes, Regulatory pathology, Bee Venoms pharmacology, Dopaminergic Neurons immunology, Insect Proteins pharmacology, MPTP Poisoning prevention & control, Neuroprotective Agents pharmacology, Phospholipases A2 pharmacology, T-Lymphocytes, Regulatory immunology
Abstract

Foxp3-expressing CD4(+) regulatory T cells (Tregs) are vital for maintaining immune tolerance in animal models of various immune diseases. In the present study, we demonstrated that bee venom phospholipase A2 (bvPLA2) is the major BV compound capable of inducing Treg expansion and promotes the survival of dopaminergic neurons in the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine mouse model of Parkinson's disease. We associated this neuroprotective effect of bvPLA2 with microglial deactivation and reduction of CD4(+) T cell infiltration. Interestingly, bvPLA2 had no effect on mice depleted of Tregs by injecting anti-CD25 Ab. This finding indicated that Treg-mediated modulation of peripheral immune tolerance is strongly involved in the neuroprotective effects of bvPLA2. Furthermore, our results showed that bvPLA2 directly bound to CD206 on dendritic cells and consequently promoted the secretion of PGE2, which resulted in Treg differentiation via PGE2 (EP2) receptor signaling in Foxp3(-)CD4(+) T cells. These observations suggest that bvPLA2-CD206-PGE2-EP2 signaling promotes immune tolerance through Treg differentiation and contributes to the prevention of various neurodegenerative diseases, including Parkinson's disease., (Copyright © 2015 by The American Association of Immunologists, Inc.)

Published
2015
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