Dlx-1 and Dlx-2 expression in the adult mouse brain: relationship to dopaminergic phenotypic regulation.

Expression of the homeodomain-containing transcription factors Dlx-1 and Dlx-2 in the lateral (LGE) and medial (MGE) ganglionic eminences, subpallial embryonic structures, is required for generation of telencephalic interneurons. LGE- and MGE-derived progenitors migrate and populate a number of forebrain structures, including the cortex, hippocampus, and olfactory bulb (OB). Previous reports focusing on embryogenesis of telencephalic neurons in Dlx-1 and Dlx-2 null mice suggested a specific role for these genes in expression of the OB dopamine (DA) phenotype. We have investigated whether these genes also are expressed in adult brain, especially in those pallial derivatives, such as the OB, hippocampus, and possibly cortex, where neurogenesis continues in adults. With a highly sensitive, nonradioactive in situ hybridization technique and both DLX-2 and pan DLX antisera, widespread expression of both genes was found in adult mouse fore- but not mid- or hindbrain. The adult unilateral naris closure paradigm was employed to establish a causative role for Dlx in regulating tyrosine hydroxylase (TH) expression; TH is the first enzyme in DA biosynthesis. TH mRNA, but not Dlx expression, was significantly down-regulated in the OB ipsilateral to closure. These findings suggest that Dlx-1 and -2 do not play a direct role in DA phenotypic differentiation and TH gene regulation in adult OB. The widespread expression of Dlx mRNA and protein in the adult brain suggests that these genes may have additional roles in mature animals.

Saino-Saito S ，Berlin R ，Baker H 《JOURNAL OF COMPARATIVE NEUROLOGY》

Differentiation of the dopaminergic phenotype in the olfactory system of neonatal and adult mice.

Saino-Saito S ，Sasaki H ，Volpe BT ，Kobayashi K ，Berlin R ，Baker H ... -  《JOURNAL OF COMPARATIVE NEUROLOGY》

ER81 and CaMKIV identify anatomically and phenotypically defined subsets of mouse olfactory bulb interneurons.

The mechanisms underlying dopamine (DA) phenotypic differentiation in the olfactory bulb (OB) have not yet been fully elucidated and are the subject of some controversy. OB DA interneurons destined for the glomerular layer were shown to originate in the subventricular zone (SVZ) and in the rostral migratory stream (RMS). The current study investigated whether calcium/calmodulin-dependent protein kinase IV (CaMKIV) either alone or together with the Ets transcription factor ER81 was necessary for phenotypic determination during migration of progenitors. In most brain areas, including the OB, CaMKIV and ER81 displayed a reciprocal distribution. In the SVZ, only ER81 could be demonstrated. In the RMS, a subpopulation of progenitors contained ER81, but few, if any, contained CaMKIV. In OB, CaMKIV expression, restricted to deep granule cells, showed limited overlap with ER81. ER81 expression was weak in deep granule cells. Strong labeling occurred in the mitral and glomerular layers, where ER81 colabeled dopaminergic periglomerular cells that expressed either tyrosine hydroxylase (TH) or green fluorescent protein, the latter reporter gene under control of 9-kb of 5' TH promoter. Odor deprivation resulted in a significant 5.2-fold decline in TH immunoreactivity, but ER81 exhibited a relatively small 1.7-fold decline in immunoreactivity. TH expression as well as brain and bulb size were unchanged in CaMKIV knockout mice. These data suggest that ER81 may be required but is not sufficient for DA neuron differentiation and that CaMKIV is not directly involved in TH gene regulation.

Saino-Saito S ，Cave JW ，Akiba Y ，Sasaki H ，Goto K ，Kobayashi K ，Berlin R ，Baker H ... -  《JOURNAL OF COMPARATIVE NEUROLOGY》

The vertebrate ortholog of Aristaless is regulated by Dlx genes in the developing forebrain.

The Dlx transcription factors have a central role in controlling the development of gamma-aminobutyric acid (GABA)-ergic neurons in the forebrain. However, little is known about how they control the properties of GABAergic neurons. One candidate is the Aristaless (Arx) homeobox gene, which lies genetically downstream of the fly Dlx gene (Distal-less, Dll). The expression of Arx in the mouse forebrain includes Dlx-expressing territories, such us the ventral thalamus, parts of the hypothalamus, and the ganglionic eminences and their derivatives in the subpallial telencephalon, and is expressed, as with the Dlx genes, in cortical GABAergic neurons. By using gain-of-function and loss-of-function assays in mouse and chicken embryos, we show that the Dlx genes have a conserved role in regulating the expression of Arx in the forebrain of vertebrates. Ectopic expression of Dlx genes with electroporation in brain slices from mouse embryos and in the neural tube of chick embryos shows that Dlx genes are sufficient to induce Arx ectopically. Moreover, we provide evidence that the Dlx genes exert a functionally relevant role in regulating Arx in vivo, as shown by the severe reduction in the expression of Arx in Dlx1/2 double-knockout mice. Therefore, our results suggest evolutionarily conserved functions of Dlx genes in regulating Arx expression between Drosophila and vertebrates.

Cobos I ，Broccoli V ，Rubenstein JL 《JOURNAL OF COMPARATIVE NEUROLOGY》

Altered forebrain and hindbrain development in mice mutant for the Gsh-2 homeobox gene.

Szucsik JC ，Witte DP ，Li H ，Pixley SK ，Small KM ，Potter SS ... -  《DEVELOPMENTAL BIOLOGY》