GABAergic interneurons migrate long distances through stereotyped migration programs toward specific laminar positions. During their migration, GABAergic interneurons are morphologically alike but then differentiate into a rich array of interneuron subtypes critical for brain function. How interneuron subtypes acquire their final phenotypic traits remains largely unknown.
View Article and Find Full Text PDFTouch sensation is mediated by specific subtypes of sensory neurons which develop in a hierarchical process from common early progenitor neurons, but the molecular mechanism that underlies diversification of touch-sensitive mechanoreceptive neurons is not fully known. Here, we use genetically manipulated mice to examine whether the transcription factor short stature homeobox 2 (Shox2) participates in the acquisition of neuronal subtypes conveying touch sensation. We show that Shox2 encodes the development of category I low-threshold mechanoreceptive neurons in glabrous skin, i.
View Article and Find Full Text PDFThe developmental process and unique molecular identity between the many different types of dorsal root ganglion (DRG) sensory neurons generated during embryogenesis provide the cellular basis for the distinct perceptual modalities of somatosensation. The mechanisms leading to the generation of different types of nociceptive sensory neurons remain only partly understood. Here, we show that the transcription factor Cux2 is a novel marker of sensory neuron subpopulations of three main sublineages as defined by the expression of neurotrophic factor receptors TrkA, TrkB and TrkC.
View Article and Find Full Text PDFDuring brain development, the embryonic cerebrospinal fluid (E-CSF) allows brain expansion and promotes neuroepithelial cell survival, proliferation or differentiation. Previous analyses of E-CSF content have revealed a high protein concentration and the presence of membranous particles. The role of these particles in the E-CSF remains poorly investigated.
View Article and Find Full Text PDFThe roof plate (RP) of the midbrain shows an unusual plasticity, as it is duplicated or interrupted by experimental manipulations involving the mid/hindbrain organizer or FGF8. In previous experiments, we have found that FGF8 induces a local patterning center, the isthmic node, that is essential for the local development of a RP. Here, we show that the plasticity of the midbrain RP derives from two apparently antagonistic influences of FGF8.
View Article and Find Full Text PDFWe present evidence for a temporal control of GABAergic neurotransmitter specification in the basal forebrain orchestrated by the LIM-homeodomain factor Lhx7. In Xenopus, using in vivo overexpression experiments, we show that x-Lhx7 and x-Nkx2.1 inhibit GABAergic specification in the Dlx-expressing areas of the forebrain (subpallium and diencephalon).
View Article and Find Full Text PDFType 1 and type 8 adenylate cyclases, AC1 and AC8, are membrane bound enzymes that produce cAMP in response to calcium entry and could thus control a large number of developmental processes. We provide a detailed spatiotemporal localization of these genes in the mouse brain during embryonic and postnatal life using in situ hybridization. AC1 gene expression begins early in embryonic life (before E13), and its expression is much more widespread than in adults.
View Article and Find Full Text PDFWe investigated expression patterns of the LIM-homeodomain (LIM-hd) genes x-Lhx1, x-Lhx2, x-Lhx5, and x-Lhx9 in the brainstem of Xenopus laevis during larval development and in the adult. The two groups of paralogous genes, x-Lhx1/x-Lhx5 and x-Lhx2/x-Lhx9, showed fundamentally different expression patterns, being expressed in ventral versus dorsal territories of the midbrain and hindbrain, respectively. Indeed, prominent expression of x-Lhx1/5 was found in the mesencephalic tegmentum and the hindbrain reticular formation, whereas conspicuous x-Lhx2/9 expression was observed in the torus semicircularis and isthmic nucleus.
View Article and Find Full Text PDFWe have investigated the expression patterns of five LIM-homeodomain (LIM-hd) genes, x-Lhx1, x-Lhx2, x-Lhx5, x-Lhx7, and x-Lhx9 in the forebrain of the frog Xenopus laevis during larval development and in the adult. The results were analyzed in terms of neuromeric organization of the amphibian brain and of combinatorial LIM-hd code and showed that LIM-hd developmental transcription factors are particularly powerful to highlight the coherence of several groups or nuclei, to delineate subdivisions, and/or to clarify structures that are still a matter of debate. Among other findings, we bring substantial evidence for the following: (1) a dual origin of olfactory bulb neurons, based on x-Lhx5 expression; (2) the existence of a ventral pallium in frog, based on x-Lhx9 expression; (3) a multiple (pallial and subpallial) origin for the nuclei of the amygdaloid complex, based on distinct combinations of the five studied genes; (4) a clear homology between the Xenopus medial pallium and the mammalian hippocampus, based on x-Lhx2 pattern; and (5) a confirmed prosomeric organization of the diencephalon, based on alternating x-Lhx1/5 and x-Lhx2/9 expressions.
View Article and Find Full Text PDFWe used two developmental transcription factors, x-Eomes (T-box family) and x-Lhx5 (LIM-homeodomain family), to follow the origin and development of the olfactory bulbs in Xenopus. During embryonic and larval development, x-Eomes and x-Lhx5 were expressed in highly similar patterns, in the lateral and latero-ventral wall of the pallium. In adults, both markers were strongly and specifically expressed in mitral cells, i.
View Article and Find Full Text PDFMol Neurobiol
December 2002
The LIM domain is a cysteine-rich zinc-finger motif found in a large family of proteins. In LIM-homeodomain (LIM-hd) transcription factors and LIM-only (LMO) factors, the LIM domains are responsible for key interactions with co-activators, co-repressors, competitors, and other transcription factors, and are therefore of considerable importance for the regulation of associated transcriptional activity. In this review, the authors describe the progressive discoveries of NLI/Ldb/CLIM, LMO and RLIM, and discuss how the field was very recently updated by the finding that LIM-hd transcriptional activity is controlled by regulated degradation of cofactors and LIM-hd themselves.
View Article and Find Full Text PDFThe expression pattern of Lmx1a, a LIM-homeodomain gene disrupted in the dreher mouse neurological mutant, is described during development. Lmx1a is predominantly expressed in the developing nervous system from embryonic day E8.5 to adulthood, in restricted areas.
View Article and Find Full Text PDFTo shed light on the organisation of the Xenopus laevis telencephalon, we have used two sets of developmental regulators: genes acting in early regional specification (x-Dll3, x-Nkx2.1, x-Emx1, x-Pax6, x-Eomes) or in cell determination (x-Lhx5 and x-Lhx7). After expression patterns analysis, separately or combined, on whole-mount brains and serial sections, we identify the Xenopus pallium and subpallium, and the subdivisions herein.
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