Using degenerate primers designed to amplify genes containing homeodom
ains, we have used reverse transcription and polymerase chain reaction
to amplify and clone a rat homeobox gene. Based on the nucleotide and
predicted amino acid sequences, the rat cDNA clone contains a high de
gree of sequence similarity to murine genes which are members of the p
aired-like class of homeobox genes (Ptx2, Otlx2, solurshin and Ptx1).
Considering the high degree of sequence similarity and similar restric
ted expression patterns, we have named the cloned rat gene rPtx2 (rat
Ptx2 homolog). Northern analysis revealed two rPtx2 transcripts expres
sed in the developing rat brain. Yet, only a single gene was detected
by Southern blot hybridization, suggesting that multiple messages are
the result of alternative transcriptional initiation, splicing or proc
essing of a common message. The expression pattern of rPtx2 was furthe
r delineated by in situ hybridization to rat embryos. Within the brain
, tissue specific expression was observed in the differentiating neura
l cells of the posterior hypothalamus, tegmentum, and rhombomere r1. E
xpression was also observed in the developing pituitary, maxilla, mand
ible, tongue and umbilical cord. To further study the control of Ptx2
gene expression, we used an in vitro model for neural differentiation
by treating mouse embryonic stem cells with retinoic acid. Within 24 h
and prior to detection of a neural phenotype in the culture, murine P
tx transcripts were induced and remained elevated for at least 6 days.
This suggests that retinoic acid may be an important inductive signal
which regulates the developmental and tissue-specific expression of P
tx2. (C) 1998 Elsevier Science B.V. All rights reserved.