Amber Young scite author profile

SummaryIn vitro models have proven to be effective in studying the placental transporters that play a role in the exchange of nutrients, waste products, and drugs between the maternal and fetal circulations. Although primary cultures of trophoblast cells can be used to perform uptake, efflux, and metabolism studies, only the rodent HRP-1 and the human BeWo cell lines have been shown to form confluent monolayers when grown on semi-permeable membranes. Protocols for the revival, maintenance, passage, and growth of BeWo cells for transporter expression and transcellular transport studies are provided.

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Ion channels and ionotropic receptors in human embryonic stem cell derived neural progenitors

Young¹,

Machacek

Dhara³

et al. 2011

Neuroscience

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Human neural progenitor cells differentiated from human embryonic stem cells offer a potential cell source for studying neurodegenerative diseases and for drug screening assays. Previously, we demonstrated that human neural progenitors could be maintained in a proliferative state with the addition of leukemia inhibitory factor and basic fibroblast growth factor. Here we demonstrate that 96 hours after removal of basic fibroblast growth factor the neural progenitor cell culture was significantly altered and cell replication halted. 14 days after the removal of basic fibroblast growth factor, most cells expressed MAP2 and TUJ1, markers characterizing a post-mitotic neuronal phenotype as well as neural developmental markers Cdh2 and Gbx2. Real-time PCR was performed to determine the ionotrophic receptor subunit expression profile. Differentiated neural progenitors express subunits of glutamatergic, GABAergic, nicotinic, purinergic and transient receptor potential receptors. In addition, sodium and calcium channel subunits were also expressed. Functionally, virtually all the NP cells tested under whole-cell voltage clamp exhibited delayed rectifier potassium channel currents and some differentiated cells exhibited tetrodotoxin-sensitive, voltage-dependent sodium channel current. Action potentials could also be elicited by current injection under whole-cell current clamp in a minority of cells. These results indicate that removing basic fibroblast growth factor from the neural progenitor cell cultures leads to a post-mitotic state, and has the capability to produce excitable cells that can generate action potentials, a landmark characteristic of a neuronal phenotype. This is the first report of an efficient and simple means of generating human neuronal cells for ionotrophic receptor assays and ultimately for electrically active human neural cell assays for drug discovery.

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Glial cell line‐derived neurotrophic factor enhances in vitro differentiation of mid‐/hindbrain neural progenitor cells to dopaminergic‐like neurons

Young

Assey²,

Sturkie³

et al. 2010

J of Neuroscience Research

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Parkinson's disease (PD) affects the motor system through the degeneration of the dopaminergic neurons of the substantia nigra. The use of human embryonic stem cell (hESC)-derived human neural progenitor (hNP) cells provides a potential cell source for cell therapies and drug screens for future treatments. Glial cell line-derived neurotrophic factor (GDNF) is a known dopaminergic neuroprotectant agent; however, its potential role in neural differentiation remains largely unknown. Addition of 25 ng/ml GDNF to hNP cell differentiation media, over a 21-day period, induced a significantly (P < 0.05) greater portion of hNP cells to differentiate into dopaminergic neurons than non-GDNF cultures, 50% compared with 2.9% of cells expressing tyrosine hydroxylase (TH), respectively. The hNP cells exposed to GDNF selectively expressed dopamine receptors 1, 4, and 5 and were evoked to release dopamine with KCl. This is the first report of GDNF and leukemia inhibitory factor enriching hESC-derived hNP cells toward dopaminergic-like neurons.

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Human Haploid Cells Differentiated from Meiotic Competent Clonal Germ Cell Lines That Originated from Embryonic Stem Cells

West

Mumaw²,

Gallegos-Cardenas³

et al. 2011

Stem Cells and Development

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Early germ-like cells (GLCs) derived from human embryonic stem cells (hESCs) have presented new opportunities to study germ cell differentiation in vitro. However, differentiation conditions that facilitate the formation of haploid cells from the derived GLCs have eluded the field. The inability to propagate GLCs in culture is a further limitation, resulting in inconsistent rederivations of GLCs from hESCs with relatively few GLCs in these heterogeneous populations. Here we found in vitro conditions that enrich for DDX4/POU5F1+ GLCs (∼60%) and that has enabled continual propagation for >50 passages without loss of phenotype. Clonal isolation of single GLCs from these mixed cultures generated 3 GLC (>90% DDX4/POU5F1+) and 2 hESC (<0.1% DDX4+) lines that could be continually expanded without loss of phenotype. Differentiation of clonal GLC lines in serum resulted in expression of postmeiotic markers and >11% were haploid, ∼5-fold higher than previous studies. The robust clonal meiotic competent and incompetent GLC lines will be used to understand the factors controlling human germ cell meiosis and postmeiotic maturation.

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Amber Young

Efflux transporters of the human placenta

In Vitro Models for Studying Trophoblast Transcellular Transport

Ion channels and ionotropic receptors in human embryonic stem cell derived neural progenitors

Glial cell line‐derived neurotrophic factor enhances in vitro differentiation of mid‐/hindbrain neural progenitor cells to dopaminergic‐like neurons

Human Haploid Cells Differentiated from Meiotic Competent Clonal Germ Cell Lines That Originated from Embryonic Stem Cells

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