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29 results on '"Zhao, Helong"'

1. Neuroinflammatory disease disrupts the blood-CNS barrier via crosstalk between proinflammatory and endothelial-to-mesenchymal-transition signaling.

Author

Sun, Zhonglou, Zhao, Helong, Fang, Daniel, Davis, Chadwick, Shi, Dallas, Lei, Kachon, Rich, Bianca, Winter, Jacob, Guo, Li, Sorensen, Lise, Pryor, Robert, Zhu, Nina, Lu, Samuel, Dickey, Laura, Doty, Daniel, Tong, Zongzhong, Thomas, Kirk, Mueller, Alan, Grossmann, Allie, Zhang, Baowei, Fujinami, Robert, Odelberg, Shannon, Zhu, Weiquan, and Lane, Thomas

Subjects
ADP ribosylation factor 6, activin receptor-like kinase, blood-central nervous system barrier, crosstalk, endothelial-to-mesenchymal transition, experimental autoimmune encephalomyelitis, interleukin-1β, multiple sclerosis, neuroinflammatory disorders, Activin Receptors, Animals, Central Nervous System, Encephalomyelitis, Autoimmune, Experimental, Mice, Mice, Inbred C57BL, Monomeric GTP-Binding Proteins, Multiple Sclerosis, Neuroinflammatory Diseases, Receptor Protein-Tyrosine Kinases, Signal Transduction
Abstract

Breakdown of the blood-central nervous system barrier (BCNSB) is a hallmark of many neuroinflammatory disorders, such as multiple sclerosis (MS). Using a mouse model of MS, experimental autoimmune encephalomyelitis (EAE), we show that endothelial-to-mesenchymal transition (EndoMT) occurs in the CNS before the onset of clinical symptoms and plays a major role in the breakdown of BCNSB function. EndoMT can be induced by an IL-1β-stimulated signaling pathway in which activation of the small GTPase ADP ribosylation factor 6 (ARF6) leads to crosstalk with the activin receptor-like kinase (ALK)-SMAD1/5 pathway. Inhibiting the activation of ARF6 both prevents and reverses EndoMT, stabilizes BCNSB function, reduces demyelination, and attenuates symptoms even after the establishment of severe EAE, without immunocompromising the host. Pan-inhibition of ALKs also reduces disease severity in the EAE model. Therefore, multiple components of the IL-1β-ARF6-ALK-SMAD1/5 pathway could be targeted for the treatment of a variety of neuroinflammatory disorders.

Published
2022

3. MS4A3 promotes differentiation in chronic myeloid leukemia by enhancing common β-chain cytokine receptor endocytosis

Author

Zhao, Helong, Pomicter, Anthony D., Eiring, Anna M., Franzini, Anca, Ahmann, Jonathan, Hwang, Jae-Yeon, Senina, Anna, Helton, Bret, Iyer, Siddharth, Yan, Dongqing, Khorashad, Jamshid S., Zabriskie, Matthew S., Agarwal, Anupriya, Redwine, Hannah M., Bowler, Amber D., Clair, Phillip M., McWeeney, Shannon K., Druker, Brian J., Tyner, Jeffrey W., Stirewalt, Derek L., Oehler, Vivian G., Varambally, Sooryanarayana, Berrett, Kristofer C., Vahrenkamp, Jeffery M., Gertz, Jason, Varley, Katherine E., Radich, Jerald P., and Deininger, Michael W.

Published
2022
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4. Control of intestinal stem cell function and proliferation by mitochondrial pyruvate metabolism

Author

Schell, John C, Wisidagama, Dona R, Bensard, Claire, Zhao, Helong, Wei, Peng, Tanner, Jason, Flores, Aimee, Mohlman, Jeffrey, Sorensen, Lise K, Earl, Christian S, Olson, Kristofor A, Miao, Ren, Waller, T Cameron, Delker, Don, Kanth, Priyanka, Jiang, Lei, DeBerardinis, Ralph J, Bronner, Mary P, Li, Dean Y, Cox, James E, Christofk, Heather R, Lowry, William E, Thummel, Carl S, and Rutter, Jared

Subjects
Biochemistry and Cell Biology, Biological Sciences, Digestive Diseases, Regenerative Medicine, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, Generic health relevance, Acrylates, Animals, Anion Transport Proteins, Cell Differentiation, Cell Proliferation, Cells, Cultured, Drosophila Proteins, Drosophila melanogaster, Genotype, Glycolysis, Humans, Intestinal Mucosa, Intestines, Lactic Acid, Mice, Knockout, Mitochondria, Mitochondrial Membrane Transport Proteins, Mitochondrial Proteins, Monocarboxylic Acid Transporters, Phenotype, Pyruvic Acid, RNA Interference, Receptors, G-Protein-Coupled, Signal Transduction, Stem Cells, Time Factors, Tissue Culture Techniques, Transfection, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology
Abstract

Most differentiated cells convert glucose to pyruvate in the cytosol through glycolysis, followed by pyruvate oxidation in the mitochondria. These processes are linked by the mitochondrial pyruvate carrier (MPC), which is required for efficient mitochondrial pyruvate uptake. In contrast, proliferative cells, including many cancer and stem cells, perform glycolysis robustly but limit fractional mitochondrial pyruvate oxidation. We sought to understand the role this transition from glycolysis to pyruvate oxidation plays in stem cell maintenance and differentiation. Loss of the MPC in Lgr5-EGFP-positive stem cells, or treatment of intestinal organoids with an MPC inhibitor, increases proliferation and expands the stem cell compartment. Similarly, genetic deletion of the MPC in Drosophila intestinal stem cells also increases proliferation, whereas MPC overexpression suppresses stem cell proliferation. These data demonstrate that limiting mitochondrial pyruvate metabolism is necessary and sufficient to maintain the proliferation of intestinal stem cells.

Published
2017

5. Small GTPase ARF6 controls VEGFR2 trafficking and signaling in diabetic retinopathy

Author

Zhu, Weiquan, Shi, Dallas S., Winter, Jacob M., Rich, Bianca E., Tong, Zongzhong, Sorensen, Lise K., Zhao, Helong, Huang, Yi, Tai, Zhengfu, Mleynek, Tara M., Yoo, Jae Hyuk, Dunn, Christine, Ling, Jing, Richards, Jackson R. Bergquist, Jake A., Jiang, Amanda, Lesniewski, Lisa A., Ward, M. Elizabeth Hartnet Diane M., Mueller, Alan L., Ostanin, Kirill, Thomas, Kirk R., Odelberg, Shannon J., and Li, Dean Y.

Subjects
Diabetic retinopathy -- Genetic aspects -- Research, Vascular endothelial growth factor -- Research, Binding proteins -- Research, Cellular signal transduction -- Research, Health care industry
Abstract

The devastating sequelae of diabetes mellitus include microvascular permeability, which results in retinopathy. Despite clinical and scientific advances, there remains a need for new approaches to treat retinopathy. Here, we have presented a possible treatment strategy, whereby targeting the small GTPase ARF6 alters VEGFR2 trafficking and reverses signs of pathology in 4 animal models that represent features of diabetic retinopathy and in a fifth model of ocular pathological angiogenesis. Specifically, we determined that the same signaling pathway utilizes distinct GEFs to sequentially activate ARF6, and these GEFs exert distinct but complementary effects on VEGFR2 trafficking and signal transduction. ARF6 activation was independently regulated by 2 different ARF GEFs - ARNO and GEP100. Interaction between VEGFR2 and ARNO activated ARF6 and stimulated VEGFR2 internalization, whereas a VEGFR2 interaction with GEP100 activated ARF6 to promote VEGFR2 recycling via coreceptor binding. Intervening in either pathway inhibited VEGFR2 signal output. Finally, using a combination of in vitro, cellular, genetic, and pharmacologic techniques, we demonstrated that ARF6 is pivotal in VEGFR2 trafficking and that targeting ARF6-mediated VEGFR2 trafficking has potential as a therapeutic approach for retinal vascular diseases such as diabetic retinopathy., Introduction Over 25 million people in the United States have diabetes mellitus (1) and are prone to suffer from its devastating sequelae. The metabolic derangements seen in diabetes lead to [...]

Published
2017
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11. MS4A3 Promotes Differentiation in Chronic Myeloid Leukemia By Enhancing Common β Chain Cytokine Receptor Endocytosis

Author

Zhao, Helong, primary, Pomicter, Anthony D., additional, Eiring, Anna M., additional, Franzini, Anca, additional, Ahmann, Jonathan, additional, Hwang, Jae-Yeon, additional, Senina, Anna V., additional, Helton, Bret, additional, Iyer, Siddharth, additional, Yan, Dongqing, additional, Khorashad, Jamshid, additional, Zabriskie, Matthew S., additional, Agarwal, Anupriya, additional, Redwine, Hannah M, additional, Bowler, Amber D., additional, Clair, Phillip M., additional, McWeeney, Shannon K., additional, Druker, Brian J., additional, Tyner, Jeffrey W., additional, Stirewalt, Derek, additional, Oehler, Vivian G., additional, Varambally, Sooryanarayana, additional, Berrett, Kristofer, additional, Vahrenkamp, Jeffrey, additional, Gertz, Jason, additional, Varley, Katherine, additional, Radich, Jerald P., additional, and Deininger, Michael W., additional

Published
2021
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13. Dysregulated exocytosis of angiopoietin-2 drives cerebral cavernous malformation

Author

Zhao, Helong, Mleynek, Tara M, and Li, Dean Y

Subjects
Brain hemorrhage -- Risk factors, Gene mutation -- Analysis, Exocytosis -- Analysis, Biological sciences, Health
Abstract

Author(s): Helong Zhao [1]; Tara M Mleynek [1]; Dean Y Li (corresponding author) [2] The disruption or malformation of the vascular network can lead to various vascular diseases, such as [...]

Published
2016
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17. Lipopolysaccharide from the commensal microbiota of the breast enhances cancer growth: role of S100A7 and TLR4.

Author

Wilkie, Tasha, Verma, Ajeet K., Zhao, Helong, Charan, Manish, Ahirwar, Dinesh K., Kant, Sashi, Pancholi, Vijay, Mishra, Sanjay, and Ganju, Ramesh K.

Abstract

The role of commensal bacterial microbiota in the pathogenesis of human malignancies has been a research field of incomparable progress in recent years. Although breast tissue is commonly assumed to be sterile, recent studies suggest that human breast tissue may contain a bacterial microbiota. In this study, we used an immune-competent orthotopic breast cancer mouse model to explore the existence of a unique and independent bacterial microbiota in breast tumors. We observed some similarities in breast cancer microbiota with skin; however, breast tumor microbiota was mainly enriched with Gram-negative bacteria, serving as a primary source of lipopolysaccharide (LPS). In addition, dextran sulfate sodium (DSS) treatment in late-stage tumor lesions increased LPS levels in the breast tissue environment. We also discovered an increased expression of S100A7 and low level of TLR4 in late-stage tumors with or without DSS as compared to early-stage tumor lesions. The treatment of breast cancer cells with LPS increased the expression of S100A7 in breast cancer cells in vitro. Furthermore, S100A7 overexpression downregulated TLR4 and upregulated RAGE expression in breast cancer cells. Analysis of human breast cancer samples also highlighted the inverse correlation between S100A7 and TLR4 expression. Overall, these findings suggest that the commensal microbiota of breast tissue may enhance breast tumor burden through a novel LPS/S100A7/TLR4/RAGE signaling axis. [ABSTRACT FROM AUTHOR]

Published
2022
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18. N-terminal Slit2 inhibits HIV-1 replication by regulating the actin cytoskeleton

Author

Anand Appakkudal R, Zhao Helong, Nagaraja Tirumuru, Robinson Lisa A, and Ganju Ramesh K

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Slit2 is a ~ 200 kDa secreted glycoprotein that has been recently shown to regulate immune functions. However, not much is known about its role in HIV (human immunodeficiency virus)-1 pathogenesis. Results In the present study, we have shown that the N-terminal fragment of Slit2 (Slit2N) (~120 kDa) inhibits replication of both CXCR4 and CCR5-tropic HIV-1 viruses in T-cell lines and peripheral blood T-cells. Furthermore, we demonstrated inhibition of HIV-1 infection in resting CD4+ T-cells. In addition, we showed that Slit2N blocks cell-to-cell transmission of HIV-1. We have shown that Slit2N inhibits HIV-1 infection by blocking viral entry into T-cells. We also ruled out Slit2N-mediated inhibition of various other steps in the life cycle including binding, integration and viral transcription. Elucidation of the molecular mechanism revealed that Slit2N mediates its functional effects by binding to Robo1 receptor. Furthermore, we found that Slit2N inhibited Gp120-induced Robo1-actin association suggesting that Slit2N may inhibit cytoskeletal rearrangements facilitating HIV-1 entry. Studies into the mechanism of inhibition of HIV-1 revealed that Slit2N abrogated HIV-1 envelope-induced actin cytoskeletal dynamics in both T-cell lines and primary T-cells. We further showed that Slit2N specifically attenuated the HIV-1 envelope-induced signaling pathway consisting of Rac1, LIMK and cofilin that regulates actin polymerization. Conclusions Taken together, our results show that Slit2N inhibits HIV-1 replication through novel mechanisms involving modulation of cytoskeletal dynamics. Our study, thus, provides insights into the role of Slit2N in HIV-1 infection and underscores its potential in limiting viral replication in T-cells.

Published
2013
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20. The small GTPase ARF6 regulates protein trafficking to control cellular function during development and in disease.

Author

Grossmann, Allie H., Zhao, Helong, Jenkins, Noah, Zhu, Weiquan, Richards, Jackson R., Yoo, Jae Hyuk, Winter, Jacob M., Rich, Bianca, Mleynek, Tara M., Li, Dean Y., and Odelberg, Shannon J.

Subjects
*GUANOSINE triphosphatase, *METASTASIS, *EMBRYOLOGY, *ENDOCYTOSIS, *TUMOR growth
Abstract

The activation of the small GTPase ARF6 has been implicated in promoting several pathological processes related to vascular instability and tumor formation, growth, and metastasis. ARF6 also plays a vital role during embryonic development. Recent studies have suggested that ARF6 carries out these disparate functions primarily by controlling protein trafficking within the cell. ARF6 helps direct proteins to intracellular or extracellular locations where they function in normal cellular responses during development and in pathological processes later in life. This transport of proteins is accomplished through a variety of mechanisms, including endocytosis and recycling, microvesicle release, and as yet uncharacterized processes. This Commentary will explore the functions of ARF6, while focusing on the role of this small GTPase in development and postnatal physiology, regulating barrier function and diseases associated with its loss, and tumor formation, growth, and metastasis. [ABSTRACT FROM AUTHOR]

Published
2019
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25. RAGE Mediates S100A7-Induced Breast Cancer Growth and Metastasis by Modulating the Tumor Microenvironment

Author

Nasser, Mohd W., primary, Wani, Nissar Ahmad, additional, Ahirwar, Dinesh K., additional, Powell, Catherine A., additional, Ravi, Janani, additional, Elbaz, Mohamad, additional, Zhao, Helong, additional, Padilla, Laura, additional, Zhang, Xiaoli, additional, Shilo, Konstantin, additional, Ostrowski, Michael, additional, Shapiro, Charles, additional, Carson, William E., additional, and Ganju, Ramesh K., additional

Published
2015
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