Hayley C. Anderson scite author profile

Hayley C. Anderson

4Publications

46Citation Statements Received

138Citation Statements Given

How they've been cited

How they cite others

133

Affiliations

Children's Hospital of Philadelphia

Publications

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Ex Vivo Gene Therapy Using Patient iPSC-Derived NSCs Reverses Pathology in the Brain of a Homologous Mouse Model

2015

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SummaryNeural stem cell (NSC) transplantation is a promising strategy for delivering therapeutic proteins in the brain. We evaluated a complete process of ex vivo gene therapy using human induced pluripotent stem cell (iPSC)-derived NSC transplants in a well-characterized mouse model of a human lysosomal storage disease, Sly disease. Human Sly disease fibroblasts were reprogrammed into iPSCs, differentiated into a stable and expandable population of NSCs, genetically corrected with a transposon vector, and assessed for engraftment in NOD/SCID mice. Following neonatal intraventricular transplantation, the NSCs engraft along the rostrocaudal axis of the CNS primarily within white matter tracts and survive for at least 4 months. Genetically corrected iPSC-NSCs transplanted post-symptomatically into the striatum of adult Sly disease mice reversed neuropathology in a zone surrounding the grafts, while control mock-corrected grafts did not. The results demonstrate the potential for ex vivo gene therapy in the brain using human NSCs from autologous, non-neural tissues.

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Engraftment of nonintegrating neural stem cells differentially perturbs cortical activity in a dose-dependent manner

et al. 2013

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Neural stem cell (NSC) therapy represents a potentially powerful approach for gene transfer in the diseased central nervous system. However, transplanted primary, embryonic stem cell- and induced pluripotent stem cell-derived NSCs generate largely undifferentiated progeny. Understanding how physiologically immature cells influence host activity is critical to evaluating the therapeutic utility of NSCs. Earlier inquiries were limited to single-cell recordings and did not address the emergent properties of neuronal ensembles. To interrogate cortical networks post-transplant, we used voltage sensitive dye imaging in mouse neocortical brain slices, which permits high temporal resolution analysis of neural activity. Although moderate NSC engraftment largely preserved host physiology, subtle defects in the activation properties of synaptic inputs were induced. High-density engraftment severely dampened cortical excitability, markedly reducing the amplitude, spatial extent, and velocity of propagating synaptic potentials in layers 2-6. These global effects may be mediated by specific disruptions in excitatory network structure in deep layers. We propose that depletion of endogenous cells in engrafted neocortex contributes to circuit alterations. Our data provide the first evidence that nonintegrating cells cause differential host impairment as a function of engrafted load. Moreover, they emphasize the necessity for efficient differentiation methods and proper controls for engraftment effects that interfere with the benefits of NSC therapy.

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Topographical Analysis of Sinkhole Soils in Central Kentucky

Anderson¹,

Ramsey²,

Shepard³

2019

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33. Ex Vivo Gene Therapy for Lysosomal Storage Disease in the CNS: Patient iPSC-Derived Neural Stem Cells Correct Pathology in the MPS VII Mouse Brain

2015

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6 and 12 months after transplant and was maintained thereafter. Vector marking in peripheral blood cells remained consistently detectable (> 0.1 copy/PBMC and ≥ 0.003 copy/granulocyte) at 2 years and later after transplant in subjects who discontinued ERT. These subjects also had PBMC ADA enzymatic activity in the normal range and red blood cell deoxynucleotide levels below 10%. Three subjects have discontinued intravenous immunoglobulin; five subjects have discontinued prophylactic antibiotics. All subjects have polyclonal gene marking with no sign of lymphoproliferative disease. The subjects remain in good health without infections or other complications.

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