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1. Urease-powered nanomotor containing STING agonist for bladder cancer immunotherapy

Author

Hyunsik Choi, Seung-hwan Jeong, Cristina Simó, Anna Bakenecker, Jordi Liop, Hye Sun Lee, Tae Yeon Kim, Cheol Kwak, Gou Young Koh, Samuel Sánchez, and Sei Kwang Hahn

Subjects
Science
Abstract

Abstract Most non-muscle invasive bladder cancers have been treated by transurethral resection and following intravesical injection of immunotherapeutic agents. However, the delivery efficiency of therapeutic agents into bladder wall is low due to frequent urination, which leads to the failure of treatment with side effects. Here, we report a urease-powered nanomotor containing the agonist of stimulator of interferon genes (STING) for the efficient activation of immune cells in the bladder wall. After characterization, we perform in vitro motion analysis and assess in vivo swarming behaviors of nanomotors. The intravesical instillation results in the effective penetration and retention of nanomotors in the bladder. In addition, we confirm the anti-tumor effect of nanomotor containing the STING agonist (94.2% of inhibition), with recruitment of CD8+ T cells (11.2-fold compared with PBS) and enhanced anti-tumor immune responses in bladder cancer model in female mice. Furthermore, we demonstrate the better anti-tumor effect of nanomotor containing the STING agonist than those of the gold standard Bacille Calmette-Guerin therapy and the anti-PD-1 inhibitor pembrolizumab in bladder cancer model. Taken together, the urease-powered nanomotor would provide a paradigm as a next-generation platform for bladder cancer immunotherapy.

Published
2024
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2. Loss of Katnal2 leads to ependymal ciliary hyperfunction and autism-related phenotypes in mice.

Author

Ryeonghwa Kang, Kyungdeok Kim, Yewon Jung, Sang-Han Choi, Chanhee Lee, Geun Ho Im, Miram Shin, Kwangmin Ryu, Subin Choi, Esther Yang, Wangyong Shin, Seungjoon Lee, Suho Lee, Zachary Papadopoulos, Ji Hoon Ahn, Gou Young Koh, Jonathan Kipnis, Hyojin Kang, Hyun Kim, Won-Ki Cho, Soochul Park, Seong-Gi Kim, and Eunjoon Kim

Subjects
Biology (General), QH301-705.5
Abstract

Autism spectrum disorders (ASD) frequently accompany macrocephaly, which often involves hydrocephalic enlargement of brain ventricles. Katnal2 is a microtubule-regulatory protein strongly linked to ASD, but it remains unclear whether Katnal2 knockout (KO) in mice leads to microtubule- and ASD-related molecular, synaptic, brain, and behavioral phenotypes. We found that Katnal2-KO mice display ASD-like social communication deficits and age-dependent progressive ventricular enlargements. The latter involves increased length and beating frequency of motile cilia on ependymal cells lining ventricles. Katnal2-KO hippocampal neurons surrounded by enlarged lateral ventricles show progressive synaptic deficits that correlate with ASD-like transcriptomic changes involving synaptic gene down-regulation. Importantly, early postnatal Katnal2 re-expression prevents ciliary, ventricular, and behavioral phenotypes in Katnal2-KO adults, suggesting a causal relationship and a potential treatment. Therefore, Katnal2 negatively regulates ependymal ciliary function and its deletion in mice leads to ependymal ciliary hyperfunction and hydrocephalus accompanying ASD-related behavioral, synaptic, and transcriptomic changes.

Published
2024
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3. Endothelial cell-derived stem cell factor promotes lipid accumulation through c-Kit-mediated increase of lipogenic enzymes in brown adipocytes

Author

Hyuek Jong Lee, Jueun Lee, Myung Jin Yang, Young-Chan Kim, Seon Pyo Hong, Jung Mo Kim, Geum-Sook Hwang, and Gou Young Koh

Subjects
Science
Abstract

Abstract Active thermogenesis in the brown adipose tissue (BAT) facilitating the utilization of lipids and glucose is critical for maintaining body temperature and reducing metabolic diseases, whereas inactive BAT accumulates lipids in brown adipocytes (BAs), leading to BAT whitening. Although cellular crosstalk between endothelial cells (ECs) and adipocytes is essential for the transport and utilization of fatty acid in BAs, the angiocrine roles of ECs mediating this crosstalk remain poorly understood. Using single-nucleus RNA sequencing and knock-out male mice, we demonstrate that stem cell factor (SCF) derived from ECs upregulates gene expressions and protein levels of the enzymes for de novo lipogenesis, and promotes lipid accumulation by activating c-Kit in BAs. In the early phase of lipid accumulation induced by denervation or thermoneutrality, transiently expressed c-Kit on BAs increases the protein levels of the lipogenic enzymes via PI3K and AKT signaling. EC-specific SCF deletion and BA-specific c-Kit deletion attenuate the induction of the lipogenic enzymes and suppress the enlargement of lipid droplets in BAs after denervation or thermoneutrality in male mice. These data provide insight into SCF/c-Kit signaling as a regulator that promotes lipid accumulation through the increase of lipogenic enzymes in BAT when thermogenesis is inhibited.

Published
2023
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4. Structural insights into the clustering and activation of Tie2 receptor mediated by Tie2 agonistic antibody

Author

Gyunghee Jo, Jeomil Bae, Ho Jeong Hong, Ah-reum Han, Do-Kyun Kim, Seon Pyo Hong, Jung A Kim, Sangkyu Lee, Gou Young Koh, and Ho Min Kim

Subjects
Science
Abstract

Angiopoietin (Angpt)-Tie receptor 2 (Tie2) regulates vascular stability and is thus a potential therapeutic target in vascular diseases. Here, the authors report a Tie2-agonistic antibody which targets a site distinct from the Angpt 1-binding site and which influences Tie2 clustering and activation in an Angpt2 inhibition-resistant manner.

Published
2021
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5. Ultra- and micro-structural changes of respiratory tracts in SARS-CoV-2 infected Syrian hamsters

Author

Myeon-Sik Yang, Byung Kwan Oh, Daram Yang, Eun Young Oh, Yeonhwa Kim, Kyung Won Kang, Chae Woong Lim, Gou Young Koh, Sang-Myeong Lee, and Bumseok Kim

Subjects
Veterinary medicine, SF600-1100
Abstract

Abstract The severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) pandemic is causing a global crisis. It is still unresolved. Although many therapies and vaccines are being studied, they are still in their infancy. As this pandemic continues, rapid and accurate research for the development of therapies and vaccines is needed. Therefore, it is necessary to understand characteristics of diseases caused by SARS-CoV-2 through animal models. Syrian hamsters are known to be susceptible to SARS-CoV-2. They were intranasally inoculated with SARS-CoV-2. At 2, 4, 8, 12, and 16 days post-infection (dpi), these hamsters were euthanized, and tissues were collected for ultrastructural and microstructural examinations. Microscopic lesions were prominent in the upper and lower respiratory tracts from 2 and 4 dpi groups, respectively. The respiratory epithelium in the trachea, bronchiole, and alveolar showed pathological changes. Inflammatory cells including neutrophils, lymphocytes, macrophages, and eosinophils were infiltrated in/around tracheal lamina propria, pulmonary vessels, alveoli, and bronchiole. In pulmonary lesions, alveolar wall was thickened with infiltrated inflammatory cells, mainly neutrophils and macrophages. In the trachea, epithelial damages started from 2 dpi and recovered from 8 dpi, consistent with microscopic results, High levels of SARS-CoV-2 nucleoprotein were detected at 2 dpi and 4 dpi. In the lung, lesions were most severe at 8 dpi. Meanwhile, high levels of SARS-CoV-2 were detected at 4 dpi. Electron microscopic examinations revealed cellular changes in the trachea epithelium and alveolar epithelium such as vacuolation, sparse micro-organelle, and poor cellular margin. In the trachea epithelium, the number of cytoplasmic organelles was diminished, and small vesicles were prominent from 2 dpi. Some of these electron-lucent vesicles were filled with virion particles. From 8 dpi, the trachea epithelium started to recover. Because of shrunken nucleus and swollen cytoplasm, the N/C ratio of type 2 pneumocyte decreased at 8 and 12 dpi. From 8 dpi, lamellar bodies on type 2 pneumocyte cytoplasm were increasingly observed. Their number then decreased from 16 dpi. However, there was no significant change in type 1 pneumocyte. Viral vesicles were only observed in the cytoplasm of type 2 pneumocyte. In conclusion, ultra- and micro-structural changes presented in this study may provide useful information for SARS-CoV-2 studies in various fields.

Published
2021
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6. Refractoriness of STING therapy is relieved by AKT inhibitor through effective vascular disruption in tumour

Author

Seung-hwan Jeong, Myung Jin Yang, Seunghyeok Choi, JungMo Kim, and Gou Young Koh

Subjects
Science
Abstract

How STING agonists exert anti-tumour effects remains unclear. Here, the authors show that STING agonists suppress tumor growth of subcutaneous xenografts models inducing early apoptosis of endothelial cells through the TNFalpha-TNFR1 signaling, while in primary tumors, additional inhibition of AKT is required for efficient induction of apoptosis via the same pathway.

Published
2021
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7. Pericyte Loss Leads to Capillary Stalling Through Increased Leukocyte-Endothelial Cell Interaction in the Brain

Author

Young-Geun Choe, Jin-Hui Yoon, Jongyoon Joo, Bokyung Kim, Seon Pyo Hong, Gou Young Koh, Dong-Seok Lee, Wang-Yuhl Oh, and Yong Jeong

Subjects
capillary stalling, pericyte, leukocyte-endothelial cell interaction, cerebral endothelial glycocalyx, leukocyte adhesion molecules, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The neurovascular unit is a functional unit composed of neurons, glial cells, pericytes, and endothelial cells which sustain brain activity. While pericyte is a key component of the neurovascular unit, its role in cerebral blood flow regulation remains elusive. Recently, capillary stalling, which means the transient interruption of microcirculation in capillaries, has been shown to have an outsized impact on microcirculatory changes in several neurological diseases. In this study, we investigated capillary stalling and its possible causes, such as the cerebral endothelial glycocalyx and leukocyte adhesion molecules after depleting pericytes postnatally in mice. Moreover, we investigated hypoxia and gliosis as consequences of capillary stalling. Although there were no differences in the capillary structure and RBC flow, longitudinal optical coherence tomography angiography showed an increased number of stalled segments in capillaries after pericyte loss. Furthermore, the extent of the cerebral endothelial glycocalyx was decreased with increased expression of leukocyte adhesion molecules, suggesting enhanced interaction between leukocytes and endothelial cells. Finally, pericyte loss induced cerebral hypoxia and gliosis. Cumulatively, the results suggest that pericyte loss induces capillary stalling through increased interaction between leukocytes and endothelial cells in the brain.

Published
2022
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8. Cerebral amyloid angiopathy aggravates perivascular clearance impairment in an Alzheimer’s disease mouse model

Author

Shin Heun Kim, Ji Hoon Ahn, Hyunwoo Yang, Peter Lee, Gou Young Koh, and Yong Jeong

Subjects
Cerebral amyloid angiopathy, Alzheimer’s disease, Intramural periarterial drainage, Perivascular cerebrospinal fluid influx, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Cerebral amyloid angiopathy (CAA), defined as the accumulation of amyloid-beta (Aβ) on the vascular wall, is a major pathology of Alzheimer’s disease (AD) and has been thought to be caused by the failure of Aβ clearance. Although two types of perivascular clearance mechanisms, intramural periarterial drainage (IPAD) and the perivascular cerebrospinal fluid (CSF) influx, have been identified, the exact contribution of CAA on perivascular clearance is still not well understood. In this study, we investigated the effect of CAA on the structure and function of perivascular clearance systems in the APP/PS1 transgenic mouse model. To investigate the pathological changes accompanied by CAA progression, the key elements of perivascular clearance such as the perivascular basement membrane, vascular smooth muscle cells (vSMCs), and vascular pulsation were evaluated in middle-aged (7–9 months) and old-aged (19–21 months) mice using in vivo imaging and immunofluorescence staining. Changes in IPAD and perivascular CSF influx were identified by ex vivo fluorescence imaging after dextran injection into the parenchyma or cisterna magna. Amyloid deposition on the vascular wall disrupted the integrity and morphology of the arterial basement membrane. With CAA progression, vascular pulsation was augmented, and conversely, vSMC coverage was decreased. These pathological changes were more pronounced in the surface arteries with earlier amyloid accumulation than in penetrating arteries. IPAD and perivascular CSF influx were impaired in the middle-aged APP/PS1 mice and further aggravated in old age, showing severely impaired tracer influx and efflux patterns. Reduced clearance was also observed in old wild-type mice without changing the tracer distribution pattern in the influx and efflux pathway. These findings suggest that CAA is not merely a consequence of perivascular clearance impairment, but rather a contributor to this process, causing changes in arterial function and structure and increasing AD severity.

Published
2020
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9. Distinct fibroblast subsets regulate lacteal integrity through YAP/TAZ-induced VEGF-C in intestinal villi

Author

Seon Pyo Hong, Myung Jin Yang, Hyunsoo Cho, Intae Park, Hosung Bae, Kibaek Choe, Sang Heon Suh, Ralf H. Adams, Kari Alitalo, Daesik Lim, and Gou Young Koh

Subjects
Science
Abstract

Intestinal stromal cells (IntSCs) play essential roles in maintaining intestinal homeostasis. Here the authors show that VEGF-C expression in specialized IntSCs is regulated by YAP/TAZ, and VEGF-C is responsible for maintaining lacteal integrity, thus influencing dietary fat drainage into lacteals.

Published
2020
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10. VEGFR2 signaling drives meningeal vascular regeneration upon head injury

Author

Bong Ihn Koh, Hyuek Jong Lee, Pil Ae Kwak, Myung Jin Yang, Ju-Hee Kim, Hyung-Seok Kim, Gou Young Koh, and Injune Kim

Subjects
Science
Abstract

Severe head injury results in critical damage of blood vessels of the meninges and brain parenchyma. Here, the authors describe key pathways governing meningeal vascular regeneration following head injury, characterizing the differential roles of VEGFR2, Tie2, Dll4 and PDGFRβ signaling.

Published
2020
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11. Angiopoietin-2–integrin α5β1 signaling enhances vascular fatty acid transport and prevents ectopic lipid-induced insulin resistance

Author

Hosung Bae, Ki Yong Hong, Choong-kun Lee, Cholsoon Jang, Seung-Jun Lee, Kibaek Choe, Stefan Offermanns, Yulong He, Hyuek Jong Lee, and Gou Young Koh

Subjects
Science
Abstract

Fat uptake and storage in subcutaneous adipose tissue (SAT) prevents ectopic fat accumulation and associated metabolic complications, however, the underlying mechanisms are incompletely understood. Here, the authors show that adipose angiopoietin-2 (Angpt2) enhances SAT size via increased endothelial fatty acid transport.

Published
2020
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12. YAP/TAZ direct commitment and maturation of lymph node fibroblastic reticular cells

Author

Sung Yong Choi, Hosung Bae, Sun-Hye Jeong, Intae Park, Hyunsoo Cho, Seon Pyo Hong, Da-Hye Lee, Choong-kun Lee, Jin-Sung Park, Sang Heon Suh, Jeongwoon Choi, Myung Jin Yang, Jeon Yeob Jang, Lucas Onder, Jeong Hwan Moon, Han-Sin Jeong, Ralf H. Adams, Jin-Man Kim, Burkhard Ludewig, Joo-Hye Song, Dae-Sik Lim, and Gou Young Koh

Subjects
Science
Abstract

Fibroblastic reticular cells (FRC) are important for lymph node (LN) structure and function. Here the authors show that the YAP/TAZ complex downstream of Hippo signalling regulates FRC commitment and maturation, with YAP/TAZ deficiency impairing FRC differentiation, while hyperactivation of YAZ/TAZ inducing myofibroblastic FRCs and LN fibrosis.

Published
2020
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13. A MST1–FOXO1 cascade establishes endothelial tip cell polarity and facilitates sprouting angiogenesis

Author

Yoo Hyung Kim, Jeongwoon Choi, Myung Jin Yang, Seon Pyo Hong, Choong-kun Lee, Yoshiaki Kubota, Dae-Sik Lim, and Gou Young Koh

Subjects
Science
Abstract

Angiogenesis is driven by the directed migration of tip endothelial cells towards hypoxic tissues. Here, Kim et al. show that the generation of reactive oxygen species in endothelial cells upon hypoxia activates MST1, which subsequently promotes the nuclear translocation of FOXO1, and thus activates a pro-migratory transcriptional programme in endothelial tip cells.

Published
2019
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14. Enhanced thrombospondin-1 causes dysfunction of vascular endothelial cells derived from Fabry disease-induced pluripotent stem cells

Author

Hyo-Sang Do, Sang-Wook Park, Ilkyun Im, Donghyuk Seo, Han-Wook Yoo, Heounjeong Go, Yoo Hyung Kim, Gou Young Koh, Beom-Hee Lee, and Yong-Mahn Han

Subjects
Medicine, Medicine (General), R5-920
Abstract

Background: Fabry disease (FD) is a recessive X-linked lysosomal storage disorder caused by α-galactosidase A (GLA) deficiency. Although the mechanism is unclear, GLA deficiency causes an accumulation of globotriaosylceramide (Gb3), leading to vasculopathy. Methods: To explore the relationship between the accumulation of Gb3 and vasculopathy, induced pluripotent stem cells generated from four Fabry patients (FD-iPSCs) were differentiated into vascular endothelial cells (VECs). Genome editing using CRISPR-Cas9 system was carried out to correct the GLA mutation or to delete Thrombospondin-1 (TSP-1). Global transcriptomes were compared between wild-type (WT)- and FD-VECs by RNA-sequencing analysis. Findings: Here, we report that overexpression of TSP-1 contributes to the dysfunction of VECs in FD. VECs originating from FD-iPSCs (FD-VECs) showed aberrant angiogenic functionality even upon treatment with recombinant α-galactosidase. Intriguingly, FD-VECs produced more p-SMAD2 and TSP-1 than WT-VECs. We also found elevated TSP-1 in the peritubular capillaries of renal tissues biopsied from FD patients. Inhibition of SMAD2 signaling or knock out of TSP-1 (TSP-1−/−) rescues normal vascular functionality in FD-VECs, like in gene-corrected FD-VECs. In addition, the enhanced oxygen consumption rate is reduced in TSP-1−/− FD-VECs. Interpretation: The overexpression of TSP-1 secondary to Gb3 accumulation is primarily responsible for the observed FD-VEC dysfunction. Our findings implicate dysfunctional VEC angiogenesis in the peritubular capillaries in some of the complications of Fabry disease. Funding: This study was supported by grant 2018M3A9H1078330 from the National Research Foundation of the Republic of Korea. Keywords: Fabry disease, Human induced pluripotent stem cells (hiPSCs), Globotriaosylceramide (Gb3), Vascular dysfunction, Thrombospondin-1

Published
2020
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15. YAP1 and TAZ negatively control bone angiogenesis by limiting hypoxia-inducible factor signaling in endothelial cells

Author

Kishor K Sivaraj, Backialakshmi Dharmalingam, Vishal Mohanakrishnan, Hyun-Woo Jeong, Katsuhiro Kato, Silke Schröder, Susanne Adams, Gou Young Koh, and Ralf H Adams

Subjects
bone, angiogenesis, endothelial cells, hypoxia, Hippo signaling, Medicine, Science, Biology (General), QH301-705.5
Abstract

Blood vessels are integrated into different organ environments with distinct properties and physiology (Augustin and Koh, 2017). A striking example of organ-specific specialization is the bone vasculature where certain molecular signals yield the opposite effect as in other tissues (Glomski et al., 2011; Kusumbe et al., 2014; Ramasamy et al., 2014). Here, we show that the transcriptional coregulators Yap1 and Taz, components of the Hippo pathway, suppress vascular growth in the hypoxic microenvironment of bone, in contrast to their pro-angiogenic role in other organs. Likewise, the kinase Lats2, which limits Yap1/Taz activity, is essential for bone angiogenesis but dispensable in organs with lower levels of hypoxia. With mouse genetics, RNA sequencing, biochemistry, and cell culture experiments, we show that Yap1/Taz constrain hypoxia-inducible factor 1α (HIF1α) target gene expression in vivo and in vitro. We propose that crosstalk between Yap1/Taz and HIF1α controls angiogenesis depending on the level of tissue hypoxia, resulting in organ-specific biological responses.

Published
2020
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16. Pulmonary pericytes regulate lung morphogenesis

Author

Katsuhiro Kato, Rodrigo Diéguez-Hurtado, Do Young Park, Seon Pyo Hong, Sakiko Kato-Azuma, Susanne Adams, Martin Stehling, Britta Trappmann, Jeffrey L. Wrana, Gou Young Koh, and Ralf H. Adams

Subjects
Science
Abstract

Pericytes surround endothelial tubules and help maintain the integrity of blood vessels. Here the authors show that pericytes regulate lung morphogenesis via paracrine signalling controlled by components of the Hippo pathway.

Published
2018
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17. Myocardial Angiopoietin-1 Controls Atrial Chamber Morphogenesis by Spatiotemporal Degradation of Cardiac Jelly

Author

Kyun Hoo Kim, Yoshikazu Nakaoka, Hellmut G. Augustin, and Gou Young Koh

Subjects
Biology (General), QH301-705.5
Abstract

Summary: The four-chamber structure of the mammalian heart is established during embryonic development. While key regulators for ventricular development are well studied, regulatory mechanisms for atrial chamber morphogenesis remain poorly understood. Here, we found that angiopoietin-1 (Angpt1), a vascular maturation factor, is highly and specifically expressed in atrial myocardium during heart development. Loss of myocardial Angpt1 in mouse embryo led to severe impairment in atrial chamber morphogenesis. We revealed that Angpt1 deficiency results in excessive deposition of cardiac jelly, which disturbs regulation of myocardial growth, thereby impairing maturation of atrial chambers. Mechanistically, myocardial Angpt1 activates endocardial Tie2 and positively regulates expression of ADAMTS proteases, which is crucial for proper degradation of cardiac jelly. Accordingly, loss of Tie2 also impairs ADAMTS-mediated degradation of cardiac jelly in atrium. Collectively, myocardial Angpt1/endocardial Tie2 signaling in atrium promotes spatiotemporal degradation of cardiac jelly during early cardiac development and is therefore indispensable for atrial chamber morphogenesis. : Kim et al. demonstrate that myocardium-derived Angpt1 is indispensable for atrial chamber morphogenesis. Myocardial Angpt1 activates endocardial Tie2 signaling and positively regulates ADAMTS-dependent degradation of cardiac jelly. Proper distribution of cardiac jelly is critical for the regulation of myocardial growth and chamber morphogenesis in the atrium.

Published
2018
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18. Plastic roles of pericytes in the blood–retinal barrier

Author

Do Young Park, Junyeop Lee, Jaeryung Kim, Kangsan Kim, Seonpyo Hong, Sangyeul Han, Yoshiaki Kubota, Hellmut G. Augustin, Lei Ding, Jin Woo Kim, Hail Kim, Yulong He, Ralf H. Adams, and Gou Young Koh

Subjects
Science
Abstract

Blood-retinal barrier (BRB) is composed of tightly connected endothelium and supporting pericytes and glia. Here, the authors show that pericytes are crucial for BRB buildup during retinal development and its maintenance in adult retinas in response to VEGF-A-induced endothelial sensitization by regulating the Tie2/FOXO1/Ang2 axis.

Published
2017
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19. VEGFR2 but not VEGFR3 governs integrity and remodeling of thyroid angiofollicular unit in normal state and during goitrogenesis

Author

Jeon Yeob Jang, Sung Yong Choi, Intae Park, Do Young Park, Kibaek Choe, Pilhan Kim, Young Keum Kim, Byung‐Joo Lee, Masanori Hirashima, Yoshiaki Kubota, Jeong‐Won Park, Sheue‐Yann Cheng, Andras Nagy, Young Joo Park, Kari Alitalo, Minho Shong, and Gou Young Koh

Subjects
thyroid angiofollicular unit, thyroid goitrogenesis, vascular remodeling, VEGFR2, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Thyroid gland vasculature has a distinguishable characteristic of endothelial fenestrae, a critical component for proper molecular transport. However, the signaling pathway that critically governs the maintenance of thyroid vascular integrity, including endothelial fenestrae, is poorly understood. Here, we found profound and distinct expression of follicular epithelial VEGF‐A and vascular VEGFR2 that were precisely regulated by circulating thyrotropin, while there were no meaningful expression of angiopoietin–Tie2 system in the thyroid gland. Our genetic depletion experiments revealed that VEGFR2, but not VEGFR3, is indispensable for maintenance of thyroid vascular integrity. Notably, blockade of VEGF‐A or VEGFR2 not only abrogated vascular remodeling but also inhibited follicular hypertrophy, which led to the reduction of thyroid weights during goitrogenesis. Importantly, VEGFR2 blockade alone was sufficient to cause a reduction of endothelial fenestrae with decreases in thyrotropin‐responsive genes in goitrogen‐fed thyroids. Collectively, these findings establish follicular VEGF‐A–vascular VEGFR2 axis as a main regulator for thyrotropin‐dependent thyroid angiofollicular remodeling and goitrogenesis.

Published
2017
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20. Methylation-dependent regulation of HIF-1α stability restricts retinal and tumour angiogenesis

Author

Yunho Kim, Hye Jin Nam, Junyeop Lee, Do Young Park, Chan Kim, Young Suk Yu, Dongha Kim, Se Won Park, Jinhyuk Bhin, Daehee Hwang, Ho Lee, Gou Young Koh, and Sung Hee Baek

Subjects
Science
Abstract

HIF-1α is a pivotal protein involved in angiogenesis and is known to be regulated posttranslationally. Here, the authors show that HIF-1α is methylated by Set7/9 methyltransferase, which reduces protein stability and contributes to reduced angiogenesis.

Published
2016
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21. Angiopoietin-1 blocks neurotoxic zinc entry into cortical cells via PIP2 hydrolysis-mediated ion channel inhibition

Author

Joon Seo Lim, Gou Young Koh, and Jae-Young Koh

Subjects
Angiopoietin-1, Zinc, Neuron, Astrocyte, Cell death, Integrin, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Excessive entry of zinc ions into the soma of neurons and glial cells results in extensive oxidative stress and necrosis of cortical cells, which underlies acute neuronal injury in cerebral ischemia and epileptic seizures. Here, we show that angiopoietin-1 (Ang1), a potent angiogenic ligand for the receptor tyrosine kinase Tie2 and integrins, inhibits the entry of zinc into primary mouse cortical cells and exerts a substantial protective effect against zinc-induced neurotoxicity. The neuroprotective effect of Ang1 was mediated by the integrin/focal adhesion kinase (FAK) signaling axis, as evidenced by the blocking effects of a pan-integrin inhibitory RGD peptide and PF-573228, a specific chemical inhibitor of FAK. Notably, blockade of zinc-permeable ion channels by Ang1 was attributable to phospholipase C-mediated hydrolysis of phosphatidylinositol 4,5-bisphosphate. Collectively, these data reveal a novel role of Ang1 in regulating the activity of zinc-permeable ion channels, and thereby protecting cortical cells against zinc-induced neurotoxicity.

Published
2015
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22. Taking aim at Sox18

Author

Injune Kim and Gou Young Koh

Subjects
small molecules, transcription factors, protein-protein interactions, tumour angiogenesis, gene expression, Medicine, Science, Biology (General), QH301-705.5
Abstract

A small molecule called Sm4 can disrupt interactions involving a transcription factor called Sox18, while having little impact on other members of the SoxF family.

Published
2017
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23. Angiopoietin receptor Tie2 is required for vein specification and maintenance via regulating COUP-TFII

Author

Man Chu, Taotao Li, Bin Shen, Xudong Cao, Haoyu Zhong, Luqing Zhang, Fei Zhou, Wenjuan Ma, Haijuan Jiang, Pancheng Xie, Zhengzheng Liu, Ningzheng Dong, Ying Xu, Yun Zhao, Guoqiang Xu, Peirong Lu, Jincai Luo, Qingyu Wu, Kari Alitalo, Gou Young Koh, Ralf H Adams, and Yulong He

Subjects
Tie2, COUP-TFII, vein specification, Medicine, Science, Biology (General), QH301-705.5
Abstract

Mechanisms underlying the vein development remain largely unknown. Tie2 signaling mediates endothelial cell (EC) survival and vascular maturation and its activating mutations are linked to venous malformations. Here we show that vein formation are disrupted in mouse skin and mesentery when Tie2 signals are diminished by targeted deletion of Tek either ubiquitously or specifically in embryonic ECs. Postnatal Tie2 attenuation resulted in the degeneration of newly formed veins followed by the formation of haemangioma-like vascular tufts in retina and venous tortuosity. Mechanistically, Tie2 insufficiency compromised venous EC identity, as indicated by a significant decrease of COUP-TFII protein level, a key regulator in venogenesis. Consistently, angiopoietin-1 stimulation increased COUP-TFII in cultured ECs, while Tie2 knockdown or blockade of Tie2 downstream PI3K/Akt pathway reduced COUP-TFII which could be reverted by the proteasome inhibition. Together, our results imply that Tie2 is essential for venous specification and maintenance via Akt mediated stabilization of COUP-TFII.

Published
2016
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24. VEGF‐A regulated by progesterone governs uterine angiogenesis and vascular remodelling during pregnancy

Author

Minah Kim, Hyeung Ju Park, Jae Won Seol, Jeon Yeob Jang, Young‐Suk Cho, Kyu Rae Kim, Youngsok Choi, John P. Lydon, Francesco J. DeMayo, Masabumi Shibuya, Napoleone Ferrara, Hoon‐Ki Sung, Andras Nagy, Kari Alitalo, and Gou Young Koh

Subjects
decidual angiogenesis, pregnant uterus, vascular sinus folding, vascular regression, VEGF‐A, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract The features and regulation of uterine angiogenesis and vascular remodelling during pregnancy are poorly defined. Here we show that dynamic and variable decidual angiogenesis (sprouting, intussusception and networking), and active vigorous vascular remodelling such as enlargement and elongation of ‘vascular sinus folding’ (VSF) and mural cell drop‐out occur distinctly in a spatiotemporal manner in the rapidly growing mouse uterus during early pregnancy — just after implantation but before placentation. Decidual angiogenesis is mainly regulated through VEGF‐A secreted from the progesterone receptor (PR)‐expressing decidual stromal cells which are largely distributed in the anti‐mesometrial region (AMR). In comparison, P4‐PR‐regulated VEGF‐A‐VEGFR2 signalling, ligand‐independent VEGFR3 signalling and uterine natural killer (uNK) cells positively and coordinately regulate enlargement and elongation of VSF. During the postpartum period, Tie2 signalling could be involved in vascular maturation at the endometrium in a ligand‐independent manner, with marked reduction of VEGF‐A, VEGFR2 and PR expressions. Overall, we show that two key vascular growth factor receptors — VEGFR2 and Tie2 — strikingly but differentially regulate decidual angiogenesis and vascular remodelling in rapidly growing and regressing uteri in an organotypic manner.

Published
2013
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25. Mouse Hepatic Tumor Vascular Imaging by Experimental Selective Angiography.

Author

Sang Kyum Kim, Honsoul Kim, Gou Young Koh, Dae-Sik Lim, Dae-Yeul Yu, Man Deuk Kim, Mi-Suk Park, and Joon Seok Lim

Subjects
Medicine, Science
Abstract

Human hepatocellular carcinoma (HCC) has unique vascular features, which require selective imaging of hepatic arterial perfusion and portal venous perfusion with vascular catheterization for sufficient evaluation. Unlike in humans, vessels in mice are too small to catheterize, and the importance of separately imaging the feeding vessels of tumors is frequently overlooked in hepatic tumor models. The purpose of this study was to perform selective latex angiography in several mouse liver tumor models and assess their suitability.In several ectopic (Lewis lung carcinoma, B16/F10 melanoma cell lines) and spontaneous liver tumor (Albumin-Cre/MST1fl/fl/MST2fl/fl, Albumin-Cre/WW45fl/fl, and H-ras12V genetically modified mouse) models, the heart left ventricle and/or main portal vein of mice was punctured, and latex dye was infused to achieve selective latex arteriography and/or portography.H-ras12V transgenic mice (a HCC and hepatic adenoma model) developed multiple liver nodules that displayed three different perfusion patterns (portal venous or hepatic artery perfusion predominant, mixed perfusion), indicating intra-tumoral vascular heterogeneity. Selective latex angiography revealed that the Lewis lung carcinoma implant model and the Albumin-Cre/WW45fl/fl model reproduced conventional angiography findings of human HCC. Specifically, these mice developed tumors with abundant feeding arteries but no portal venous perfusion.Different hepatic tumor models showed different tumor vessel characteristics that influence the suitability of the model and that should be considered when designing translational experiments. Selective latex angiography applied to certain mouse tumor models (both ectopic and spontaneous) closely simulated typical characteristics of human HCC vascular imaging.

Published
2015
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26. Reversing the intractable nature of pancreatic cancer by selectively targeting ALDH-high, therapy-resistant cancer cells.

Author

Sang Kyum Kim, Honsoul Kim, Da-Hye Lee, Tae-shin Kim, Tackhoon Kim, Chaeuk Chung, Gou Young Koh, Hoguen Kim, and Dae-Sik Lim

Subjects
Medicine, Science
Abstract

Human pancreatic ductal adenocarcinoma (PDAC) is a cancer with a dismal prognosis. The efficacy of PDAC anticancer therapies is often short-lived; however, there is little information on how this disease entity so frequently gains resistance to treatment. We adopted the concept of cancer stem cells (CSCs) to explain the mechanism of resistance and evaluated the efficacy of a candidate anticancer drug to target these therapy-resistant CSCs. We identified a subpopulation of cells in PDAC with CSC features that were enriched for aldehyde dehydrogenase (ALDH), a marker expressed in certain stem/progenitor cells. These cells were also highly resistant to, and were further enriched by, treatment with gemcitabine. Similarly, surgical specimens from PDAC patients showed that those who had undergone preoperative chemo-radiation therapy more frequently displayed cancers with ALDH strongly positive subpopulations compared with untreated patients. Importantly, these ALDH-high cancer cells were sensitive to disulfiram, an ALDH inhibitor, when tested in vitro. Furthermore, in vivo xenograft studies showed that the effect of disulfiram was additive to that of low-dose gemcitabine when applied in combination. In conclusion, human PDAC-derived cells that express high levels of ALDH show CSC features and have a key role in the development of resistance to anticancer therapies. Disulfiram can be used to suppress this therapy-resistant subpopulation.

Published
2013
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27. Toll-like receptor 4 decoy, TOY, attenuates gram-negative bacterial sepsis.

Author

Keehoon Jung, Jung-Eun Lee, Hak-Zoo Kim, Ho Min Kim, Beom Seok Park, Seong-Ik Hwang, Jie-Oh Lee, Sun Chang Kim, and Gou Young Koh

Subjects
Medicine, Science
Abstract

Lipopolysaccharide (LPS), the Gram-negative bacterial outer membrane glycolipid, induces sepsis through its interaction with myeloid differentiation protein-2 (MD-2) and Toll-like receptor 4 (TLR4). To block interaction between LPS/MD-2 complex and TLR4, we designed and generated soluble fusion proteins capable of binding MD-2, dubbed TLR4 decoy receptor (TOY) using 'the Hybrid leucine-rich repeats (LRR) technique'. TOY contains the MD-2 binding ectodomain of TLR4, the LRR motif of hagfish variable lymphocyte receptor (VLR), and the Fc domain of IgG1 to make it soluble, productive, and functional. TOY exhibited strong binding to MD-2, but not to the extracellular matrix (ECM), resulting in a favorable pharmacokinetic profile in vivo. TOY significantly extended the lifespan, when administered in either preventive or therapeutic manners, in both the LPS- and cecal ligation/puncture-induced sepsis models in mice. TOY markedly attenuated LPS-triggered NF-kappaB activation, secretion of proinflammatory cytokines, and thrombus formation in multiple organs. Taken together, the targeting strategy for sequestration of LPS/MD-2 complex using the decoy receptor TOY is effective in treating LPS- and bacteria-induced sepsis; furthermore, the strategy used in TOY development can be applied to the generation of other novel decoy receptor proteins.

Published
2009
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28. Quantitative analysis of peripheral tissue perfusion using spatiotemporal molecular dynamics.

Author

Yujung Kang, Myunghwan Choi, Jungsul Lee, Gou Young Koh, Kihwan Kwon, and Chulhee Choi

Subjects
Medicine, Science
Abstract

BACKGROUND: Accurate measurement of peripheral tissue perfusion is challenging but necessary to diagnose peripheral vascular insufficiency. Because near infrared (NIR) radiation can penetrate relatively deep into tissue, significant attention has been given to intravital NIR fluorescence imaging. METHODOLOGY/PRINCIPAL FINDINGS: We developed a new optical imaging-based strategy for quantitative measurement of peripheral tissue perfusion by time-series analysis of local pharmacokinetics of the NIR fluorophore, indocyanine green (ICG). Time-series NIR fluorescence images were obtained after injecting ICG intravenously in a murine hindlimb ischemia model. Mathematical modeling and computational simulations were used for translating time-series ICG images into quantitative pixel perfusion rates and a perfusion map. We could successfully predict the prognosis of ischemic hindlimbs based on the perfusion profiles obtained immediately after surgery, which were dependent on the preexisting collaterals. This method also reflected increases in perfusion and improvements in prognosis of ischemic hindlimbs induced by treatment with vascular endothelial growth factor and COMP-angiopoietin-1. CONCLUSIONS/SIGNIFICANCE: We propose that this novel NIR-imaging-based strategy is a powerful tool for biomedical studies related to the evaluation of therapeutic interventions directed at stimulating angiogenesis.

Published
2009
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30. Three-dimensional morphologic and molecular atlases of nasal vasculature

Author

Seon Pyo Hong, Myung Jin Yang, Jung Hyun Bae, Du Ri Choi, Young-Chan Kim, Myeon-Sik Yang, Byungkwan Oh, Kyung Won Kang, Sang-Myeong Lee, Bumseok Kim, Yong-Dae Kim, Ji Hoon Ahn, and Gou Young Koh

Abstract

Understanding the function of the nasal vasculature in homeostasis and pathogenesis of common nasal diseases is important. Here we describe an extensive network of venous sinusoids (VSs) in mouse and human nasal mucosa. The endothelium of the VSs expressed Prox1 (considered to be a constitutive marker of lymphatic endothelium) and high levels of VCAM-1 and exhibited unusual cell-to-cell junctions. VSs are supported by circular smooth muscle cells (SMCs) and surrounded by immune cells. The nasal mucosa also showed a rich supply of lymphatic vessels with distinctive features, such as the absence of the lymphatic marker LYVE1 and sharp-ended capillaries. In mouse models of allergic rhinitis or acute Coronavirus Disease 2019 (COVID-19) infection, Prox1+ VSs were regressed or compromised. However, in aged mice, the VSs lost the SMC support and were expanded and enlarged. Our findings demonstrate three-dimensional morphological and molecular heterogeneities of the nasal vasculature and offer insights into their associations with nasal inflammation, infection and aging.

Published
2023

34. Supplementary Figures S1-S12 and Supplementary Tables S1-S3 from Novel Glycosylated VEGF Decoy Receptor Fusion Protein, VEGF-Grab, Efficiently Suppresses Tumor Angiogenesis and Progression

Author

Ho Min Kim, Gou Young Koh, Gyun Min Lee, Sun Chang Kim, Hyun Joo An, Haneul Jeong, Serenus Hua, Nuri Oh, Intae Park, Hannah Yang, Chan Kim, and Jung-Eun Lee

Abstract

Supplementary Figure S1. Sequence Alignment of VEGF-Grab1, VEGF-Grab3, and VEGF-Trap; Supplementary Figure S2. Analysis of N-linked Glycosylation for VEGF-Grabs and VEGF-Trap; Supplementary Figure S3. Analysis of O-linked Glycosylation in VEGF-Grab1; Supplementary Figure S4. VEGF-Grab3 displays low binding to tumor ECM; Supplementary Figure S5. Pharmacokinetic profile of VEGF-Grab1 and VEGF-Grab3; Supplementary Figure S6. Tissue accumulation of VEGF-Trap and VEGF-Grab3; Supplementary Figure S7. VEGF-Grabs or VEGF-Trap have no effects on VEGFR2 signalling, EC survival, migration, and tube formation in the absence of VEGFA; Supplementary Figure S8. Dose-dependent Inhibition of VEGFR2 Signalling with Anti-VEGF Therapy; Supplementary Figure S9. Histologic Analyses of Vital Organs after Anti-VEGF Therapy; Supplementary Figure S10. VEGF-Grab effectively suppresses the growth of established bulky macroscopic tumors; Supplementary Figure S11. Histological analyses of the kidney and liver after dose dependent anti-VEGF therapy; Supplementary Figure S12. Combination Therapy of VEGF-Grab3 and Cisplatin Enhances Intratumoral Apoptosis; Supplementary Table S1. Primer sequences for site-directed mutagenesis; Supplementary Table S2. Primer sequences for Quantitative Real Time PCR; Supplementary Table S3. Antibodies.

Published
2023

37. Tables S1 and S2 from YAP/TAZ Initiates Gastric Tumorigenesis via Upregulation of MYC

Author

Dae-Sik Lim, Gou Young Koh, Chan Choi, Seon-Young Kim, Duane Smoot, Hassan Ashktorab, Jeong-Hwan Kim, Daehee Hwang, Da-Hye Lee, Jaeoh Park, Jeongsik Kim, and Wonyoung Choi

Abstract

Table S1. Pathologic diagnoses of Lats1/2iÎ"Lgr5 mice. Table S2. GSEA results for C6 Oncogenic Signatures in GSE62254 (MSS/EMT vs REST).

Published
2023

38. Data from Profound but Dysfunctional Lymphangiogenesis via Vascular Endothelial Growth Factor Ligands from CD11b+ Macrophages in Advanced Ovarian Cancer

Author

Gou Young Koh, Kari Alitalo, Kwan-Sik Kim, Kyu Yun Jang, Reto A. Schwendener, Hye Ji Cha, Keehoon Jung, Lianhua Piao, Raghu P. Kataru, Jinah Han, Cholsoon Jang, and Bong-Hyun Jeon

Abstract

Severe ascites is a hallmark of advanced ovarian cancer (OVCA), yet the underlying mechanism that creates an imbalance between peritoneal vascular leakage and lymphatic drainage is unknown. Here, we identified and characterized peritoneal lymphatic vessels in OVCA mice, a model generated by implantation of human OVCA cells into athymic nude mice. The OVCA mice displayed substantial lymphangiogenesis and lymphatic remodeling, massive infiltration of CD11b+/LYVE-1+ macrophages and disseminated carcinomatosis in the mesentery and diaphragm, and progressive chylous ascites formation. Functional assays indicated that the abnormally abundant lymphatic vessels in the diaphragm were not conductive in peritoneal fluid drainage. Moreover, lipid absorbed from the gut leaked out from the aberrant mesenteric lymphatic vessels. Our results indicate that vascular endothelial growth factor (VEGF)-C, VEGF-D, and VEGF-A from CD11b+ macrophages are responsible for producing OVCA-induced dysfunctional lymphangiogenesis, although other cell types contribute to the increased ascites formation. Accordingly, the combined blockade of VEGF-C/D and VEGF-A signaling with soluble VEGF receptor-3 and VEGF-Trap, respectively, markedly inhibited chylous ascites formation. These findings provide additional therapeutic targets to ameliorate chylous ascites formation in patients with advanced OVCA. [Cancer Res 2008;68(4):1100–9]

Published
2023

39. Supplementary Methods, Figures 1-9, Tables 1-2 from Profound but Dysfunctional Lymphangiogenesis via Vascular Endothelial Growth Factor Ligands from CD11b+ Macrophages in Advanced Ovarian Cancer

Author

Gou Young Koh, Kari Alitalo, Kwan-Sik Kim, Kyu Yun Jang, Reto A. Schwendener, Hye Ji Cha, Keehoon Jung, Lianhua Piao, Raghu P. Kataru, Jinah Han, Cholsoon Jang, and Bong-Hyun Jeon

Abstract

Supplementary Methods, Figures 1-9, Tables 1-2 from Profound but Dysfunctional Lymphangiogenesis via Vascular Endothelial Growth Factor Ligands from CD11b+ Macrophages in Advanced Ovarian Cancer

Published
2023

40. Supplementary Figure 2 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Author

Yulong He, Kari Alitalo, Gou Young Koh, Jun Wu, Jun Yu, Chaojun Li, Wencan Han, Fei Zhou, Luqing Zhang, Kyung Eun Kim, Caiping Chen, Huilian Huang, and Tanja Holopainen

Abstract

Supplementary Figure 2 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Published
2023

41. Supplementary Figure 1 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Author

Yulong He, Kari Alitalo, Gou Young Koh, Jun Wu, Jun Yu, Chaojun Li, Wencan Han, Fei Zhou, Luqing Zhang, Kyung Eun Kim, Caiping Chen, Huilian Huang, and Tanja Holopainen

Abstract

Supplementary Figure 1 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Published
2023

43. Data from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Author

Yulong He, Kari Alitalo, Gou Young Koh, Jun Wu, Jun Yu, Chaojun Li, Wencan Han, Fei Zhou, Luqing Zhang, Kyung Eun Kim, Caiping Chen, Huilian Huang, and Tanja Holopainen

Abstract

The angiopoietin-1 (Ang1)/Tie2 signaling pathway is known to play an important role in the regulation of vascular maturation and maintenance of vessel integrity. In this study, we have investigated the effect of systemic Tie2 activation or inhibition on tumor growth and metastasis. We found that treatment with Ang1 delivered via an adenoviral vector promoted s.c. implanted tumor metastasis to the lungs. Ang1 treatment did not significantly increase vascular density in the tumors but induced enlargement of blood vessels in both the tumor and normal tissues, which increased tumor cell dissemination into the blood circulation. Ang1 also enhanced the formation of metastatic foci in the lungs when tumor cells were injected into the circulation via the tail vein. The effect of Ang1 on metastasis was validated by a simultaneous treatment with a soluble form of Tie2 (sTie2), which led to the suppression of Ang1-induced increase of tumor metastasis. Furthermore, using a highly metastatic tumor model, we confirmed that systemic treatment with sTie2 suppressed tumor metastasis to the lungs and lymph nodes, whereas tumor-associated angiogenesis and lymphangiogenesis were not significantly affected. This suggests that the Ang1/Tie2 signals contribute to tumor progression by increasing vascular entry and exit of tumor cells to facilitate tumor dissemination and establishment of metastases. [Cancer Res 2009;69(11):4656–64]

Published
2023

44. Supplementary Figure Legends 1-2 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Author

Yulong He, Kari Alitalo, Gou Young Koh, Jun Wu, Jun Yu, Chaojun Li, Wencan Han, Fei Zhou, Luqing Zhang, Kyung Eun Kim, Caiping Chen, Huilian Huang, and Tanja Holopainen

Abstract

Supplementary Figure Legends 1-2 from Angiopoietin-1 Overexpression Modulates Vascular Endothelium to Facilitate Tumor Cell Dissemination and Metastasis Establishment

Published
2023

46. Data from Hydrogen Peroxide Produced by Angiopoietin-1 Mediates Angiogenesis

Author

Kong-Joo Lee, Ye-Shih Ho, Gou Young Koh, Kyung Eun Kim, and Young Mee Kim

Abstract

Angiopoietin-1 (Ang1) mediates angiogenesis by enhancing endothelial cell survival and migration. It is also known that Ang1 activates Tie2, an endothelial-specific tyrosine kinase receptor, but the molecular mechanism of this process is not clear. In this study, we investigated whether reactive oxygen species (ROS) production plays a role in Ang1-mediated angiogenesis. We found that human umbilical vein endothelial cells treated with Ang1 produce ROS transiently, which was suppressed by NADPH oxidase inhibitor, diphenylene-iodonium chloride, and rotenone. The Ang1-induced ROS was identified as hydrogen peroxide (H2O2) using adenovirus-catalase infection. Removal of H2O2 by adenovirus-catalase significantly suppressed Ang1-induced in vitro endothelial cell migration, in vivo tubule formation and angiogenesis, and activation of p44/42 mitogen-activated protein kinase (MAPK), involved in cell migration, and delayed the deactivation of Akt phosphorylation involved in cell survival. Supporting to in vitro data, Ang1-induced vascular remodeling in catalase (−/−) mice was more prominent than in catalase (+/+) mice: Ang1-induced increases of the diameter of terminal arterioles and the postcapillary venules in catalase (−/−) mice were significant compared with catalase (+/+) mice. These results show that Ang1-induced H2O2 plays an important role in Ang1-mediated angiogenesis by modulating p44/42 MAPK activity. (Cancer Res 2006; 66(12): 6167-74)

Published
2023

50. Endothelial cell-derived stem cell factor promotes lipogenesis through c-Kit-mediated upregulation of lipogenic enzymes in brown adipocytes

Author

Gou Young Koh, Hyuek Jong Lee, Young-Chan Kim, JungMo Kim, Myung Jin Yang, Seon Pyo Hong, Jueun Lee, and Geum-Sook Hwang

Abstract

Thermogenic function of brown adipose tissue (BAT) has beneficial effects in metabolic diseases by utilizing lipids and glucose, whereas inactive BAT accumulates lipids in brown adipocytes (BAs), leading to BAT whitening. Although cellular crosstalk between endothelial cells (ECs) and adipocytes is important for fatty acid uptake in adipocytes, the roles of ECs in de novo lipogenesis (DNL) of adipocytes have been poorly understood. Using single-nucleus RNA sequencing and knock-out mice, we demonstrate that stem cell factor (SCF) from ECs promotes DNL by activating c-Kit in BAs. In the early phase of lipid accumulation induced by denervation or thermoneutrality, transiently expressed c-Kit on BAs upregulates DNL enzymes via PI3K and AKT signaling. EC-specific SCF deletion and BA-specific c-Kit deletion attenuate lipogenic enzymes and inhibit the enlargement of lipid droplets in BAs after denervation or thermoneutrality. These data provide insight into SCF/c-Kit signaling as a novel lipogenic regulator that promotes DNL in the early phase of lipid accumulation when thermogenesis is inhibited in BAT.

Published
2022

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