Qili Yu scite author profile

Qili Yu

4Publications

86Citation Statements Received

253Citation Statements Given

How they've been cited

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184

242

Affiliations

Rutgers, The State University of New Jersey, Rutgers Sexual and Reproductive Health and Rights

Publications

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Strain differences in cuprizone induced demyelination

Hui

Park

et al. 2017

Cell Biosci

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BackgroundMultiple sclerosis (MS) is a severe neurological disorder, characterized by demyelination of the central nervous system (CNS), and with a prevalence of greater than 2 million people worldwide. In terms of research in MS pathology, the cuprizone toxicity model is widely used. Here we investigated the contribution of genetic differences in response to cuprizone-induced demyelination in two genetically different mouse strains: CD1 and C57BL/6.ResultsWe demonstrate that exposure to a diet containing 0.2% cuprizone resulted in less severe demyelination in the midline of the corpus callosum over the fornix in CD1 mice than C57BL/6 mice. With continuous cuprizone feeding, demyelination in CD1 mice was not prominent until after 7 weeks, in contrast to C57BL/6 mice, which showed prominent demyelination after 4 weeks of exposure. Concomitantly, immunohistochemical analysis demonstrated more oligodendrocytes, as well as fewer oligodendrocyte progenitor cells, microglia and astrocytes in cuprizone treated CD1 mice. We also analyzed 4-weeks-cuprizone treated corpus callosum tissue samples and found that cuprizone treated CD1 mice showed a smaller reduction of myelin-associated glycoprotein (MAG) and a smaller increase of Iba1 and NG2.ConclusionsThese observations suggest that CD1 mice are less vulnerable to cuprizone-induced demyelination than C57BL/6 mice and thus genetic background factors appear to influence the susceptibility to cuprizone-induced demyelination.Electronic supplementary materialThe online version of this article (doi:10.1186/s13578-017-0181-3) contains supplementary material, which is available to authorized users.

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Breakdown of interlocking domains may contribute to formation of membranous globules and lens opacity in ephrin-A5−/− mice

Biswas

Son

et al. 2016

Experimental Eye Research

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Ephrin-A5, a ligand of the Eph family of receptor tyrosine kinases, plays a key role in lens fiber cell packing and cell-cell adhesion, with approximately 87% of ephrin-A5−/− mice develop nuclear cataracts. Here, we investigated the extensive formation of light-scattering globules associated with breakdown of interlocking protrusions during lens opacification in ephrin-A5−/− mice. Lenses from wild-type (WT) and ephrin-A5−/− mice between 2–21 weeks old were studied with light and electron microscopy, immunofluorescence labeling, freeze-fracture TEM and filipin cytochemistry for membrane cholesterol detection. Lens opacities with various densities were first observed in ephrin-A5−/− mice at around 60 days old. Dense cataracts in the mutant lenses were seen primarily in the nuclear region surrounded by transparent cortices from all eyes examined. We confirmed that a majority of nuclear cataracts were dislocated posteriorly and ruptured the thinner posterior lens capsule. SEM analysis indicated that numerous interlocking protrusions and wavy ridge-and-valley membrane surfaces in deep cortical and nuclear fibers did not cause lens opacity in both transparent ephrin-A5−/− and WT mice. In contrast, abundant isolated membranous globules of approximately 1,000 nm in size were distributed randomly along the intact fiber cells during early stage of all ephrin-A5−/− cataracts examined. A further examination using both SEM and TEM revealed that isolated globules were generated from the disintegrated interlocking protrusions originally located along the corners of hexagonal fiber cells. Freeze-fracture TEM further revealed the association of square-array aquaporin junctions with both isolated globules and interlocking membrane domains. This study reports for the first time that disrupted interlocking protrusions are the source of numerous large membranous globules that contribute to light scattering and nuclear cataracts in the ephrin-A5−/− mice. Our results further suggest that dissociations of N-cadherin and adherens junctions in the associated interlocking domains may result in the formation of isolated globules and nuclear opacities in the ephrin-A5−/− mice.

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EphA5 and EphA6: regulation of neuronal and spine morphology

Das

Hui

et al. 2016

Cell Biosci

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BackgroundThe Eph family of receptor tyrosine kinases plays important roles in neural development. Previous studies have implicated Eph receptors and their ligands, the ephrins, in neuronal migration, axon bundling and guidance to specific targets, dendritic spine formation and neural plasticity. However, specific contributions of EphA5 and EphA6 receptors to the regulation of neuronal cell morphology have not been well studied.ResultsHere we show that deletion of EphA5 and EphA6 results in abnormal Golgi staining patterns of cells in the brain, and abnormal spine morphology.ConclusionThese observations suggest novel functions of these Eph receptors in the regulation of neuronal and spine structure in brain development and function.

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Decreased maternal behavior and anxiety in ephrin‐A5^−/− mice

Sheleg

et al. 2016

Genes Brain and Behavior

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During development of the nervous system, molecular signals mediating cell-cell interactions play critical roles in the guidance of axonal growth and establishment of synaptic functions. The Eph family of tyrosine kinase receptors and their ephrin ligands has been shown to mediate neuronal interactions in the development of topographic axon projection maps in several brain regions, and the loss of Eph activities result in defects in select axonal pathways. However, effects of deficiencies of the Eph signals on animal behavior have not been well documented. In this study, we showed that inactivation of a ligand of the Eph receptors, ephrin-A5, resulted in defects in maternal behavior and alterations in anxiety. Female ephrin-A5-/- mice show significant defects in nest building and pup retrieval. In addition, lower levels of anxiety were observed in both male and female null mice. These changes were not due to deficiencies in estradiol, progesterone, or corticosterone levels. Our observations suggest that ephrin-A5 plays a key role in the development and/or function of neural pathways mediating mouse maternal care and anxiety.

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Qili Yu

Strain differences in cuprizone induced demyelination

Breakdown of interlocking domains may contribute to formation of membranous globules and lens opacity in ephrin-A5−/− mice

EphA5 and EphA6: regulation of neuronal and spine morphology

Decreased maternal behavior and anxiety in ephrin‐A5^−/− mice

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Qili Yu

Strain differences in cuprizone induced demyelination

Breakdown of interlocking domains may contribute to formation of membranous globules and lens opacity in ephrin-A5−/− mice

EphA5 and EphA6: regulation of neuronal and spine morphology

Decreased maternal behavior and anxiety in ephrin‐A5−/− mice

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Product

Resources

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Decreased maternal behavior and anxiety in ephrin‐A5^−/− mice