Phil Sanders scite author profile

that the nodal point of these interactions is an activity of Notch that regulates the activity and the amount of the active/oncogenic form of Armadillo/β-catenin. This activity of Notch is independent of that induced upon cleavage of its intracellular domain and which mediates transcription through Su(H)/CBF1. The modulatory function of Notch described here, contributes to the establishment of a robust threshold for Wnt signalling which is likely to play important roles in both normal and pathological situations.

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Developmental alterations in Huntington's disease neural cells and pharmacological rescue in cells and mice

Lim¹,

Salazar²,

Wilton³

et al. 2017

Nat Neurosci

193

172

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Neural cultures derived from Huntington’s disease (HD) patient-derived induced pluripotent stem cells were used for ‘omics’ analyses to identify mechanisms underlying neurodegeneration. RNA-seq analysis identified genes in glutamate and GABA signaling, axonal guidance and calcium influx whose expression was decreased in HD cultures. One-third of gene changes were in pathways regulating neuronal development and maturation. When mapped to stages of mouse striatal development, the profiles aligned with earlier embryonic stages of neuronal differentiation. We observed a strong correlation between HD-related histone marks, gene expression and unique peak profiles associated with dysregulated genes, suggesting a coordinated epigenetic program. Treatment with isoxazole-9, which targets key dysregulated pathways, led to amelioration of expanded polyglutamine repeat-associated phenotypes in neural cells and of cognitive impairment and synaptic pathology in HD model R6/2 mice. These data suggest that mutant huntingtin impairs neurodevelopmental pathways that could disrupt synaptic homeostasis and increase vulnerability to the pathologic consequence of expanded polyglutamine repeats over time.

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Forced cell cycle exit and modulation of GABA_A, CREB, and GSK3β signaling promote functional maturation of induced pluripotent stem cell-derived neurons

Telezhkin

Schnell

Yarova

et al. 2016

American Journal of Physiology-Cell Physiology

111

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Although numerous protocols have been developed for differentiation of neurons from a variety of pluripotent stem cells, most have concentrated on being able to specify effectively appropriate neuronal subtypes and few have been designed to enhance or accelerate functional maturity. Of those that have, most employ time courses of functional maturation that are rather protracted, and none have fully characterized all aspects of neuronal function, from spontaneous action potential generation through to postsynaptic receptor maturation. Here, we describe a simple protocol that employs the sequential addition of just two supplemented media that have been formulated to separate the two key phases of neural differentiation, the neurogenesis and synaptogenesis, each characterized by different signaling requirements. Employing these media, this new protocol synchronized neurogenesis and enhanced the rate of maturation of pluripotent stem cell-derived neural precursors. Neurons differentiated using this protocol exhibited large cell capacitance with relatively hyperpolarized resting membrane potentials; moreover, they exhibited augmented: 1) spontaneous electrical activity; 2) regenerative induced action potential train activity; 3) Na(+) current availability, and 4) synaptic currents. This was accomplished by rapid and uniform development of a mature, inhibitory GABAAreceptor phenotype that was demonstrated by Ca(2+) imaging and the ability of GABAAreceptor blockers to evoke seizurogenic network activity in multielectrode array recordings. Furthermore, since this protocol can exploit expanded and frozen prepatterned neural progenitors to deliver mature neurons within 21 days, it is both scalable and transferable to high-throughput platforms for the use in functional screens.

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Phil Sanders

Notch modulates Wnt signalling by associating with Armadillo/β-catenin and regulating its transcriptional activity

Developmental alterations in Huntington's disease neural cells and pharmacological rescue in cells and mice

Forced cell cycle exit and modulation of GABA_A, CREB, and GSK3β signaling promote functional maturation of induced pluripotent stem cell-derived neurons

Contact Info

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Resources

About

Phil Sanders

Notch modulates Wnt signalling by associating with Armadillo/β-catenin and regulating its transcriptional activity

Developmental alterations in Huntington's disease neural cells and pharmacological rescue in cells and mice

Forced cell cycle exit and modulation of GABAA, CREB, and GSK3β signaling promote functional maturation of induced pluripotent stem cell-derived neurons

Contact Info

Product

Resources

About

Forced cell cycle exit and modulation of GABA_A, CREB, and GSK3β signaling promote functional maturation of induced pluripotent stem cell-derived neurons