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1.
Stem Cell Reports ; 8(3): 715-727, 2017 03 14.
Article in English | MEDLINE | ID: mdl-28216147

ABSTRACT

Zika virus (ZIKV) infection causes microcephaly in a subset of infants born to infected pregnant mothers. It is unknown whether human individual differences contribute to differential susceptibility of ZIKV-related neuropathology. Here, we use an Asian-lineage ZIKV strain, isolated from the 2015 Mexican outbreak (Mex1-7), to infect primary human neural stem cells (hNSCs) originally derived from three individual fetal brains. All three strains of hNSCs exhibited similar rates of Mex1-7 infection and reduced proliferation. However, Mex1-7 decreased neuronal differentiation in only two of the three stem cell strains. Correspondingly, ZIKA-mediated transcriptome alterations were similar in these two strains but significantly different from that of the third strain with no ZIKV-induced neuronal reduction. This study thus confirms that an Asian-lineage ZIKV strain infects primary hNSCs and demonstrates a cell-strain-dependent response of hNSCs to ZIKV infection.


Subject(s)
Brain/metabolism , Brain/virology , Neural Stem Cells/metabolism , Neural Stem Cells/virology , Zika Virus Infection/virology , Zika Virus/physiology , Animals , Astrocytes , Brain/immunology , Cell Differentiation , Cell Proliferation , Cell Survival , Chlorocebus aethiops , Cluster Analysis , Fetus , Gene Expression , Gene Expression Profiling , Humans , Immunity, Innate , Male , Mice , Neural Stem Cells/cytology , Neurogenesis/genetics , Neurons , Transcriptome , Vero Cells , Zika Virus/classification , Zika Virus Infection/genetics , Zika Virus Infection/immunology , Zika Virus Infection/metabolism
2.
J Assoc Res Otolaryngol ; 18(2): 227-245, 2017 Apr.
Article in English | MEDLINE | ID: mdl-27873085

ABSTRACT

Four CreER lines that are commonly used in the auditory field to label cochlear supporting cells (SCs) are expressed in multiple SC subtypes, with some lines also showing reporter expression in hair cells (HCs). We hypothesized that altering the tamoxifen dose would modify CreER expression and target subsets of SCs. We also used two different reporter lines, ROSA26 tdTomato and CAG-eGFP, to achieve the same goal. Our results confirm previous reports that Sox2 CreERT2 and Fgfr3-iCreER T2 are not only expressed in neonatal SCs but also in HCs. Decreasing the tamoxifen dose did not reduce HC expression for Sox2 CreERT2 , but changing to the CAG-eGFP reporter decreased reporter-positive HCs sevenfold. However, there was also a significant decrease in the number of reporter-positive SCs. In contrast, there was a large reduction in reporter-positive HCs in Fgfr3-iCreER T2 mice with the lowest tamoxifen dose tested yet only limited reduction in SC labeling. The targeting of reporter expression to inner phalangeal and border cells was increased when Plp-CreER T2 was paired with the CAG-eGFP reporter; however, the total number of labeled cells decreased. Changes to the tamoxifen dose or reporter line with Prox1 CreERT2 caused minimal changes. Our data demonstrate that modifications to the tamoxifen dose or the use of different reporter lines may be successful in narrowing the numbers and/or types of cells labeled, but each CreER line responded differently. When the ROSA26 tdTomato reporter was combined with any of the four CreER lines, there was no difference in the number of tdTomato-positive cells after one or two injections of tamoxifen given at birth. Thus, tamoxifen-mediated toxicity could be reduced by only giving one injection. While the CAG-eGFP reporter consistently labeled fewer cells, both reporter lines are valuable depending on the goal of the study.


Subject(s)
Cochlea/cytology , Animals , Animals, Newborn , Female , Genetic Techniques , Male , Mice , Tamoxifen
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