Browsing by Subject "Claustrum"
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- PublicationRestrictedExpression of Dbx1, Neurogenin 2, Semaphorin 5A, Cadherin 8, and Emx1 distinguish ventral and lateral pallial histogenetic divisions in the developing mouse claustroamygdaloid complex(Wiley, 2004-07-05) Medina, Loreta; González, Gertrudis; Castro, Fernando de; Rubenstein, John L.R.; Puelles, Luis; Legaz Pérez, Isabel; Ciencias SociosanitariasWe studied the lateral and ventral pallial divisions of the claustroamygdaloid complex by means of analysis of expression patterns of the developmental regulatory genes Tbr1, Dbx1, Neurogenin 2, Emx1, Cadherin 8, and Semaphorin 5A in mouse developing telencephalon, from embryonic day 12.5 until birth. Our results indicate that these genes help to distinguish distinct lateral and ventral pallial histogenetic divisions in the embryonic telencephalon. Tbr1 is broadly expressed in both lateral and ventral pallial histogenetic divisions (the lateroventral migratory stream plus the mantle) during early and intermediate embryonic development; its signal becomes weak in parts of the mantle during late embryonic development. Dbx1 is strongly and specifically expressed in progenitor cells (ventricular zone) of the ventral pallium during early embryonic development, but there is no signal of this gene in the rest of the pallium nor the subpallium. Neurogenin 2 and Semaphorin 5A are both expressed in a ventral subdivision of the lateroventral migratory stream (called by us the ventral migratory stream). Further, specific nuclei of the claustral complex and pallial amygdala show strong expression of Neurogenin 2 and/or Semaphorin 5A, including the ventromedial claustrum and endopiriform nuclei, the lateral and basomedial amygdalar nuclei, the anterior and posteromedial cortical amygdalar areas, plus the amygdalo-hippocampal area. We interpret these nuclei or areas of the claustroamygdaloid complex as possible derivatives of the ventral pallium. In contrast, during embryonic development the dorsolateral claustrum, the basolateral amygdalar nucleus, and the posterolateral cortical amygdalar area do not express or show weak expression of Neurogenin 2 or Semaphorin 5A, but express selectively and strongly Cadherin 8 plus Emx1, and may be derivatives of the lateral pallium. The lateral pallial and ventral pallial divisions of the claustroamygdaloid complex appear to have some different sets of connections, although this requires further investigation.
- PublicationOpen AccessSubpallial origin of part of the calbindin-positive neurons of the claustral complex and piriform cortex(Elsevier, 2005-09-15) García López, Margarita; Medina, Loreta; Legaz Pérez, Isabel; Ciencias SociosanitariasThe aim of the present study was to investigate whether part of the calbindin-positive neurons of the claustral complex and piriform cortex originate in the subpallium. To that end, we prepared organotypic cultures of embryonic telencephalic slices, and applied the cell tracker CMTMR to the ventricular/subventricular zone of the lateral or medial ganglionic eminence. Following 48 h of incubation, we observed a number of CMTMR-labeled cells (showing red fluorescence) of subpallial origin in the claustral complex and piriform cortex. To know whether some of these cells of subpallial origin were calbindin-positive, we performed immunofluorescence for calbindin using an Alexa 488-conjugated secondary antiserum (green fluorescence). Our results showed that some of the CMTMR-labeled cells of subpallial origin in the claustral complex and piriform cortex are calbindin-positive (and possibly GABAergic). The subpallial origin of part of these cells was confirmed by observation of double labeled neurons in the claustral complex that expressed both Lhx6 mRNA (a marker of cells derived from the medial ganglionic eminence) and calbindin. Future studies will be required to analyze the existence of a subpopulation of non-GABAergic calbindin cells in the claustral complex and piriform cortex, and to know their origin.