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FoxP1 marks medium spiny neurons from precursors to maturity and is required for their differentiation

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PRECIOUS S.V. KELLY C.M. REDDINGTON A.E. VINH N.N. STICKLAND R.C. PEKAŘÍK Vladimír SCHERF C. JEYASINGHAM R. GLASBEY J. HOLEITER M. JONES L. TAYLOR M.V. ROSSER A.E.

Rok publikování 2016
Druh Článek v odborném periodiku
Časopis / Zdroj Experimental Neurology
Fakulta / Pracoviště MU

Lékařská fakulta

Citace
Doi http://dx.doi.org/10.1016/j.expneurol.2016.05.002
Obor Neurologie, neurochirurgie, neurovědy
Klíčová slova FoxP1; DARPP-32; Medium spiny neurons; Neural transplantation; Huntington's disease
Popis Identifying the steps involved in striatal development is important both for understanding the striatum in health and disease, and for generating protocols to differentiate striatal neurons for regenerative medicine. The most prominent neuronal subtype in the adult striatum is the medium spiny projection neuron (MSN), which constitutes more than 85% of all striatal neurons and classically expresses DARPP-32. Through a microarray study of genes expressed in the whole ganglionic eminence (WGE: the developing striatum) in the mouse, we identified the gene encoding the transcription factor Forkhead box protein P1 (FoxP1) as the most highly up-regulated gene, thus providing unbiased evidence for the association of FoxP1 with MSN development. We also describe the expression of FoxP1 in the human fetal brain over equivalent gestational stages. FoxP1 expression persisted through into adulthood in the mouse brain, where it co-localised with all striatal DARPP-32 positive projection neurons and a small population of DARPP-32 negative cells. There was no co-localisation of FoxP1 with any inter neuron markers. FoxP1 was detectable in primary fetal striatal cells following dissection, culture, and transplantation into the adult lesioned striatum, demonstrating its utility as an MSN marker for transplantation studies. Furthermore, DARPP-32 expression was absent from FoxP1 knock-out mouse WGE differentiated in vitro, suggesting that FoxP1 is important for the development of DARPP-32-positive MSNs. In summary, we show that FoxP1 labels MSN precursors prior to the expression of DARPP-32 during normal development, and in addition suggest that FoxP1 labels a sub-population of MSNs that are not co-labelled by DARPP-32. We demonstrate the utility of FoxP1 to label MSNs in vitro and following neural transplantation, and show that FoxP1 is required for DARPP-32 positive MSN differentiation in vitro. (C) 2016 The Authors. Published by Elsevier Inc.

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