, 2009), a bHLH transcription factor required for survival of GABAergic progenitors in different regions of the central nervous system (CNS), including the diencephalon ( Bradley et al., 2006; van Eekelen et al., 2003). Tracing of Tal1-expressing neurons in the r-Th indicates that this progenitor pool will form the IGL and, to a minor extent, part of the ventral lateral geniculate (vLGN) ( Jeong et al., 2011). Much less selleck chemicals llc information is available regarding the embryonic origin of other nuclei of the SVS, but GABAergic transcription factors
that, like Tal1, are expressed in the r-Th have also been described in the posterior pretectum, notably Helt (alias Mgn) and Sox14. Helt encodes a bHLH-Orange transcription factor with an essential role in differentiation of GABAergic neurons in the midbrain ( Guimera et al., 2006a, 2006b; Nakatani et al., 2004). Sox14 is a member of the SRY-related HMG box class of transcription factors and it is thought to act as a transcriptional repressor to control lineage fate decisions ( Hargrave et al., 2000; Hashimoto-Torii et al., 2003; Uchikawa et al., 1999). In this Article, we identify Sox14 as a marker for SAHA HDAC all nuclei of the SVS and show that its expression is required to drive development of a functional network supporting light-entrained circadian behaviors.
We provide evidence on the common developmental origins of the SVS from two related neuronal progenitor domains, one in the r-Th and the other in the pretectum. Furthermore, we describe how sequential waves of tangential migration convert the simple organization of the two progenitor territories into the complex architecture of the SVS. This research redefines the role of the SVS as an important regulator of circadian behaviors. Expression of proneural bHLH transcription
factors in the diencephalon defines territories with a determined neurotransmitter fate. Expression of Neurog2 in the rostral pretectum, caudal thalamus, and zona limitans intrathalamica (ZLI) defines diencephalic regions with an excitatory fate ( Figures 1A and 1B). By contrast, expression of the bHLH transcription factor Ascl1 defines the caudal pretectum, rostral thalamus, whatever and prethalamus as having an inhibitory fate ( Figures 1A and 1B). Upon exiting the cell cycle, neuronal progenitors upregulate expression of transcription factors that are predictive of their nuclear identity. Lhx9-positive neurons contribute to all thalamic nuclei projecting to the cortex ( Figures 1A and 1B). Dlx2-positive neurons form prethalamic nuclei including the reticular nucleus of the thalamus and the ventral part of the LGN complex (vLGN) ( Figures 1A and 1B). We describe a neuronal population in the r-Th and caudal pretectum defined by the hierarchical expression of three transcription factors.