Qifei Liang scite author profile

SUMMARY Striatal medium-sized spiny neurons (MSNs), composed of striatonigral and striatopallidal neurons, are derived from the lateral ganglionic eminence (LGE). We find that the transcription factor Sp9 is expressed in LGE progenitors that generate nearly all striatal MSNs, and that Sp9 expression is maintained in postmitotic striatopallidal MSNs. Sp9 null mice lose most striatopallidal MSNs due to decreased proliferation of striatopallidal MSN progenitors and increased Bax-dependent apoptosis, whilethe development of striatonigral neurons is largely unaffected. ChIP-qPCR provides evidence that Ascl1 directly binds the Sp9 promoter. RNA-Seq and in situ hybridization reveal that Sp9 promotes expression of Adora2a, P2ry1, Gpr6 and Grik3 in the LGE and striatum. Thus, Sp9 is crucial for the generation, differentiation and survival of striatopallidal MSNs.

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SP8 and SP9 coordinately promote D2-type medium spiny neuron production by activating Six3 expression

Liang

Song

et al. 2018

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Dopamine receptor DRD1-expressing medium spiny neurons (D1 MSNs) and dopamine receptor DRD2-expressing medium spiny neurons (D2 MSNs) are the principal projection neurons in the striatum, which is divided into dorsal striatum (caudate nucleus and putamen) and ventral striatum (nucleus accumbens and olfactory tubercle). Progenitors of these neurons arise in the lateral ganglionic eminence (LGE). Using conditional deletion, we show that mice lacking the transcription factor genes and lose virtually all D2 MSNs as a result of reduced neurogenesis in the LGE, whereas D1 MSNs are largely unaffected. SP8 and SP9 together drive expression of the transcription factor in a spatially restricted domain of the LGE subventricular zone. Conditional deletion of also prevents the formation of most D2 MSNs, phenocopying the mutants. Finally, ChIP-Seq reveals that SP9 directly binds to the promoter and a putative enhancer of Thus, this study defines components of a transcription pathway in a regionally restricted LGE progenitor domain that selectively drives the generation of D2 MSNs.

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Transcription Factors Sp8 and Sp9 Coordinately Regulate Olfactory Bulb Interneuron Development

Wang

Zhang

et al. 2017

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Neural stem cells in the postnatal telencephalic ventricular-subventricular zone (V-SVZ) generate new interneurons, which migrate tangentially through the rostral migratory stream (RMS) into the olfactory bulb (OB). The Sp8 and Sp9 transcription factors are expressed in neuroblasts, as well as in the immature and mature interneurons in the V-SVZ-RMS-OB system. Here we show that Sp8 and Sp9 coordinately regulate OB interneuron development: although Sp9 null mutants show no major OB interneuron defect, conditional deletion of both Sp8 and Sp9 resulted in a much more severe reduction of OB interneuron number than that observed in the Sp8 conditional mutant mice, due to defects in neuronal differentiation, tangential and radial migration, and increased cell death in the V-SVZ-RMS-OB system. RNA-Seq and RNA in situ hybridization reveal that, in Sp8/Sp9 double mutant mice, but not in Sp8 or Sp9 single mutant mice, newly born neuroblasts in the V-SVZ-RMS-OB system fail to express Prokr2 and Tshz1 expression, genes with known roles in promoting OB interneuron differentiation and migration, and that are involved in human Kallmann syndrome.

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Qifei Liang

The Zinc Finger Transcription Factor Sp9 Is Required for the Development of Striatopallidal Projection Neurons

SP8 and SP9 coordinately promote D2-type medium spiny neuron production by activating Six3 expression

Transcription Factors Sp8 and Sp9 Coordinately Regulate Olfactory Bulb Interneuron Development

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