EphA7 receptor is expressed differentially at chicken prosomeric boundaries.

We reexamined tyrosine-kinase receptor EphA7 RNA signal in embryonic chicken forebrain, to clarify its topographic relationships with early regionalization processes, such as establishment of prosomeric boundaries. After neurulation, uniform alar expression appears across prospective prosomeres prosomere 1, prosomere 2 and prosomere 3 (prethalamus, thalamus and pretectum). This pattern soon changes by differential downregulation at or in between some of the prosomeric boundaries in an individual pattern for each limit, and by expansion of expression into the rostral midbrain. The secondary distribution highlights various transversal and longitudinal domains, notably the zona limitans intrathalamica and the pretectum limits, as well as two longitudinal bands in the basal plate, termed paramedian and parabasal. Strong expression of EphA7 appears at the mammillary pouch and a supramammillary tegmental arch from stage Hamburger and Hamilton stages 14-15 onwards. At the end of the developmental period examined, expression of EphA7 in the ventricular zone decreases generally (with some exceptions) and novel expression domains start to appear in the mantle layer, initiating a third phase of differential expression. Thus, while the expression of EphA7 does not show a fixed functional or topographic relationship to prosomeric boundaries, sequential transcription changes during chicken development are consistent with a differential involvement of the diverse interprosomeric boundaries, as well as dorsoventral patterning organizers, in the regulation of EphA7 expression.

Expression of Lrrn1 marks the prospective site of the zona limitans thalami in the early embryonic chicken diencephalon.

An unknown chicken gene selected from a published substractive hybridization screen (GenBank Accession No. ; [Christiansen, J.H., Coles, E.G., Robinson, V., Pasini, A., Wilkinson, D.G., 2001. Screening from a subtracted embryonic chick hindbrain cDNA library: identification of genes expressed during hindbrain, midbrain and cranial neural crest development. Mech. Dev. 102, 119-133.]) was deemed of interest because of its dynamic pattern of expression across the forebrain and midbrain regions. A 528bp fragment cloned from early chick embryo cDNA and used for in situ hybridization corresponded to part of the 3' untranslated region of the chicken gene Leucine-rich repeat neuronal protein 1 (Lrrn1). The expression of this gene, mapped in the embryonic chick brain between stages HH10 and HH26, apparently preconfigures the zona limitans thalami site before overt formation of this boundary structure. Apart of colateral expression in the forebrain, midbrain and hindbrain basal plate, the most significant expression of Lrrn1 was found early on across the entire alar plate of midbrain and forebrain (HH10). This unitary domain soon divides at HH14 into a rostral part, across alar secondary prosencephalon and prospective alar prosomere 3 (prethalamus; caudal limit at the prospective zona limitans), and a caudal part in alar prosomere 1 (pretectum) and midbrain. The rostral forebrain domain later downregulates gradually most extratelencephalic signal of Lrrn1, but the rostral shell of zona limitans retains expression longer. Expression in the caudal alar domain also changes by downregulation within its pretectal subdomain. Caudally, the midbrain domain ends at the isthmo-mesencephalic junction throughout the studied period. Embryonic Lrrn1 signal also appears in the somites and in the otic vesicle.