Browsing by Author "Zhang, Xin"

Now showing 1 - 10 of 24
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    Alx4 relays sequential FGF signaling to induce lacrimal gland morphogenesis
    (PLOS, 2017-10-13) Garg, Ankur; Bansal, Mukesh; Gotoh, Noriko; Feng, Gen-Sheng; Zhong, Jian; Wang, Fen; Kariminejad, Ariana; Brooks, Steven; Zhang, Xin; Biochemistry and Molecular Biology, School of Medicine
    The sequential use of signaling pathways is essential for the guidance of pluripotent progenitors into diverse cell fates. Here, we show that Shp2 exclusively mediates FGF but not PDGF signaling in the neural crest to control lacrimal gland development. In addition to preventing p53-independent apoptosis and promoting the migration of Sox10-expressing neural crests, Shp2 is also required for expression of the homeodomain transcription factor Alx4, which directly controls Fgf10 expression in the periocular mesenchyme that is necessary for lacrimal gland induction. We show that Alx4 binds an Fgf10 intronic element conserved in terrestrial but not aquatic animals, underlying the evolutionary emergence of the lacrimal gland system in response to an airy environment. Inactivation of ALX4/Alx4 causes lacrimal gland aplasia in both human and mouse. These results reveal a key role of Alx4 in mediating FGF-Shp2-FGF signaling in the neural crest for lacrimal gland development., The dry eye disease caused by lacrimal gland dysgenesis is one of the most common ocular ailments. In this study, we show that Shp2 mediates the sequential use of FGF signaling in lacrimal gland development. Our study identifies Alx4 as a novel target of Shp2 signaling and a causal gene for lacrimal gland aplasia in humans. Given this result, there may also be a potential role for Alx4 in guiding pluripotent stem cells to produce lacrimal gland tissue. Finally, our data reveals an Alx4-Fgf10 regulatory unit broadly conserved in the diverse array of terrestrial animals from humans to reptiles, but not in aquatic animals such as amphibians and fish, which sheds light on how the lacrimal gland arose as an evolutionary innovation of terrestrial animals to adapt to their newfound exposure to an airy environment.
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    BMP Pathway and Reactive Retinal Gliosis
    (2013-03-06) Dharmarajan, Subramanian; Belecky-Adams, Teri; Skalnik, David Gordon; Zhang, Xin; Atkinson, Simon
    Reactive gliosis is known to have a beneficial and a degenerative effect following injury to neurons. Although many factors have been implicated in reactive gliosis, their role in regulating this change is still unclear. We investigated the role of bone morphogenetic proteins in reactive gliosis in vivo and in vitro. In vivo, IHC analysis indicated reactive gliosis in the 6 week Ins2Akita mouse and WPK rat retinas. Expression of BMP7 was upregulated in these models, leading to an increase in the phosphorylation of downstream SMAD1. In vitro, treatment of murine retinal astrocyte cells with a strong oxidizing agent such as sodium peroxynitrite regulated RNA levels of various markers, including GFAP, CSPGs, MMPs and TIMPs. BMP7 treatment also regulated RNA levels to a similar extent, suggesting reactive gliosis. Treatment with high glucose DMEM and BMP4, however, did not elicit increase in levels to a similar degree. Increase in SMAD levels and downstream targets of SMAD signaling such as ID1, ID3 and MSX2 was also observed following treatment with sodium peroxynitrite in vitro and in the 6 week Ins2Akita mouse retinas in vivo. These data concur with previously established data which show an increase in BMP7 levels following injury. It also demonstrates a role for BMP7 in gliosis following disease. Further, it suggests SMAD signaling to play a role in initiating reactivity in astrocytes as well as in remodeling the extracellular matrix following injury and in a disease condition.
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    Cell surface proteoglycans control astrocyte migration and retinal angiogenesis by regulating basement membrane assembly
    (2015-12-15) Tao, Chenqi; Zhang, Xin
    Elaborate vascularization of the retina is crucial for the development and functioning of the eye. The proper patterning of astrocytes is a key event preceding retinal angiogenesis by providing guidance cues for endothelial cells, yet how this is regulated still remains obscure. The dual function of proteoglycans in both extracellular matrix (ECM) composition and cell signal transduction suggests their potential in the regulation of astrocyte migration. The current study demonstrated that non-cell-autonomous regulation by neuroretina cell surface proteoglycan is crucial for PDGF-A regulated astrocyte migration. Ablation of glycosaminoglycan side chains of proteoglycans in neuroretina led to impaired astrocyte migration, incomplete retinal angiogenesis, and hyaloid vessel persistence. This is followed by severe photoreceptor degeneration as a result of reactive gliosis, which cannot be rescued by constitutively activated Kras signaling. Notably, inner limiting membrane (ILM), the basement membrane of the retina, was breached in proteoglycan-deficient retinae prior to the formation of astrocytic network. Herein we propose that cell surface proteoglycans are essential for the initial assembly of ILM, and this cannot be compensated by secreted ECM proteoglycans. In support of this, after removal of ILM in retinal explant by Collagenase digestion, establishment of a new ILM can be achieved by incubation with exogenous laminin-supplemented Matrigel. This basement membrane reconstitution failed, however, in proteoglycan-deficient retinae or in wild type samples digested with a combination of Heparinase and ChABC in addition to Collagenase. Taken together, our study reveals a novel function of neuroretinal cell surface proteoglycans in the initial assembly of basement membrane which subsequently serves as a permissive substratum necessary for astrocyte migration.
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    Changing Conceptions of the Opium War as History and Experience
    (Brill, 2018-06) Zhang, Xin; History, School of Liberal Arts
    Academic and popular accounts of the Opium War have gone through nearly two centuries of change in focus, view, and scope. My study probes this extensive historiography by tracing the evolvement of our understanding of the war through various phases among which we saw the rise of the “China-centered approach” and the beginning of a new trend towards combining government archives with personal records such as memoirs, personal correspondence, and private journals in research. Based on the observation, I will indicate, despite their undeniable achievements, most of the existing scholarships have paid little attention to the ordinary people in China whose lives were deeply affected by the war. It is high time that we pay more attention to human experience of the Chinese people in order to understand not only the war itself but also the history it helped shape.
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    Chitosan/interfering RNA nanoparticle mediated gene silencing in disease vector mosquito larvae
    (JOVE, 2015-03-25) Zhang, Xin; Mysore, Keshava; Flannery, Ellen; Michel, Kristin; Severson, David W.; Zhu, Kun Yan; Duman-Scheel, Molly; Department of Medical and Molecular Genetics, IU School of Medicine
    Vector mosquitoes inflict more human suffering than any other organism-and kill more than one million people each year. The mosquito genome projects facilitated research in new facets of mosquito biology, including functional genetic studies in the primary African malaria vector Anopheles gambiae and the dengue and yellow fever vector Aedes aegypti. RNA interference- (RNAi-) mediated gene silencing has been used to target genes of interest in both of these disease vector mosquito species. Here, we describe a procedure for preparation of chitosan/interfering RNA nanoparticles that are combined with food and ingested by larvae. This technically straightforward, high-throughput, and relatively inexpensive methodology, which is compatible with long double stranded RNA (dsRNA) or small interfering RNA (siRNA) molecules, has been used for the successful knockdown of a number of different genes in A. gambiae and A. aegypti larvae. Following larval feedings, knockdown, which is verified through qRT-PCR or in situ hybridization, can persist at least through the late pupal stage. This methodology may be applicable to a wide variety of mosquito and other insect species, including agricultural pests, as well as other non-model organisms. In addition to its utility in the research laboratory, in the future, chitosan, an inexpensive, non-toxic and biodegradable polymer, could potentially be utilized in the field.
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    Development of astrocytes in the vertebrate eye
    (Wiley Blackwell (John Wiley & Sons), 2014-12) Tao, Chenqi; Zhang, Xin; Department of Medical & Molecular Genetics, IU School of Medicine
    Astrocytes represent the earliest glial population in the embryonic optic nerve, contributing critically to retinal angiogenesis and formation of brain-retinal-barrier. Despite of many developmental and clinical implications of astrocytes, answers to some of the most fundamental questions of this unique type of glial cells remain elusive. This review provides an overview of the current knowledge about the origination, proliferation, and differentiation of astrocytes, their journey from the optic nerve toward the neuroretina, and their involvement in physiological and pathological development of the visual system.
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    Discovering Chinese Science and Technology: A Critical Review
    (BRILL, 2023-01-26) Zhang, Xin; History, School of Liberal Arts
    For most of the twentieth century, the investigation into the development of science and technology in China has been based on the assumption that China lacked the conditions to achieve that on its own before it was exposed to Western knowledge. The same assumption has led many inquiries into the search for shortcomings in Chinese civilization or the failure to embrace Western knowledge. It was only near the very end of the twentieth century that a breakthrough finally arrived to allow scholars to free themselves from the assumption. This article traces the history of the field as it evolved through nearly a century from denying China’s own identity to finally recognizing it. I aim to show, one of the main reasons many researchers had held this rather Western-centric view for nearly a century was to the influence of the “rise of the West” historical narrative, which dominated the discourse on world history. Only after the narrative was seriously questioned did we begin to witness significant changes in the field toward realizing China’s own achievements and historical trajectory in the development of science and technology.
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    DISHEVELLED-ASSOCIATED ACTIVATOR OF MORPHOGENESIS 1 (DAAM1) IS REQUIRED FOR HEART MORPHOGENESIS
    (2010-02-02T19:55:35Z) Li, Deqiang; Shou, Weinian; Field, Loren J.; Payne, R. Mark; Zhang, Xin
    Dishevelled-associated activator of morphogenesis 1 (Daam1), a member of the formin protein family, has been implicated in the non-canonical Wnt mediated Planar Cell Polarity (PCP) signaling pathway. Although the studies in Drosophila Daam1 and Xenopus Daam1 generated inconsistent conclusions regarding the function of Daam1, the biological function of mammalian Daam1 was not evaluated. In this study, we used a mouse promoter trap technology to create Daam1 deficient mice to analyze the role of Daam1 in embryonic development and organogenesis. Daam1 is highly expressed in the developing heart. The majority of Daam1 mutant mice died between embryonic day 14.5 and birth, exhibiting a variety of heart defects, which include ventricular noncompaction, ventricular septal defects, and double outlet right ventricle. About 10% mutant mice survive to adulthood, and these survivors do not show significantly compromised heart function based on echocardiographic analyses. However, all of these mutant survivors have ventricular noncompaction with a range of severities. A conditional rescue experiment using a cardiac specific Cre mouse line, Nkx2-5Cre, confirmed that the cardiac defects are the primary cause of death in Daam1 mutants. Both in vivo and ex vivo analyses revealed that Daam1 is essential for regulating non-sarcomeric filamentous actin assembly in cardiomyocytes, which likely contributes to cardiac morphogenesis and ventricular wall maturation. Biochemical studies further suggested that Daam1 is not a key signaling component in regulating the activation of small GTPases, such as RhoA, Rac1 and Cdc42. In conclusion, our studies demonstrated that Daam1 is essential for cardiac morphogenesis likely through its regulation of cytoskeletal architecture in the developing cardiomyocytes.
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    Forming a Japanese American Community in Indiana, 1941-1990
    (2005) Conner, Nancy Nakano; Barrows, Robert G. (Robert Graham), 1946-; Scarpino, Philip V.; Zhang, Xin