Characterization of a premeiotic germ cell-specific cytoplasmic protein encoded by Stra8, a novel retinoic acid-responsive gene.

The full-length cDNA corresponding to Stra8, a novel gene inducible by retinoic acid (RA) in P19 embryonal carcinoma cells, has been isolated and shown to encode a 45-kD protein. Both Stra8 mRNA and protein were induced in cells treated by all-trans and 9-cis retinoic acids. Two-dimensional gel analysis and dephosphorylation experiments revealed that the two stereoisomers of RA differentially regulate the phosphorylation status of the Stra8 protein, which was shown to exist in differently phosphorylated forms. Subcellular fractionation and immunocytochemistry studies showed that the Stra8 protein is cytoplasmic. During mouse embryogenesis, Stra8 expression was restricted to the male developing gonads, and in adult mice, the expression of Stra8 was restricted to the premeiotic germ cells. Thus, Stra8 protein may play a role in the premeiotic phase of spermatogenesis.

AP-2.2: a novel AP-2-related transcription factor induced by retinoic acid during differentiation of P19 embryonal carcinoma cells.

A 2.8-kb cDNA encoding a new transcription factor (AP-2.2) has been cloned from mouse P19 embryonal carcinoma cells, in which the corresponding mRNA begins to accumulate 30 min after retinoic acid (RA) addition. The predicted protein is 449 amino acids long and exhibits approximately 65% overall identity with other AP-2-related proteins (human AP-2, mouse AP-2alpha and beta). A 96-amino-acid-long sequence, which is almost fully conserved between all these proteins, corresponds to the previously characterized human AP-2 DNA binding domain. Expression of AP-2.2 in Escherichia coli generated a protein that formed a specific complex with the AP-2 recognition site GCCN3GGC. AP-2.2 activated transcription from a reporter gene containing an AP-2 DNA binding site and acted synergistically with RARalpha to activate transcription from the CRABPII gene promoter. Transcriptional activation required the AP-2.2 amino-terminal region that contains a domain rich in proline and glutamine residues. The pattern of AP-2.2 expression in adult tissues, which is distinct from that of AP-2alpha, is essentially restricted to male and female gonads, to most if not all the squamous epithelia, and to several exocrine glands.

Sequence and expression pattern of the Stra7 (Gbx-2) homeobox-containing gene induced by retinoic acid in P19 embryonal carcinoma cells.

The cDNA sequence of Stra7, a retinoic acid (RA)-inducible gene in P19 embryonal carcinoma (EC) cells, was determined. The deduced Stra7 protein contains a homeodomain highly similar to that of the previously described chicken CHox7 gene product, and is highly conserved during evolution, from hemichordates to vertebrates. The mouse Stra7 cDNA corresponds to the full-length form of the 77 bp homeodomain-encoding cDNA fragment which was previously cloned and termed MMoxA or Gbx-2. Reverse-transcriptase-PCR analysis revealed the presence of Stra7/Gbx-2 transcripts in the adult brain, spleen, and female genital tract, whereas no expression could be observed in heart, liver, lung, kidney, or testes. In situ hybridization analysis showed a restricted expression pattern of Stra7/Gbx-2 in the three primitive germ layers during gastrulation. Restricted expression was also detected in the pharyngeal arches. Subsequently, there were specific expression domains in the developing central nervous system, at the midbrain/hindbrain boundary and later in the cerebellum anlage, in certain rhombomeres, in dorsal regions of the spinal cord, and in the developing dorsal thalamus and corpus striatum.

Efficient cloning of cDNAs of retinoic acid-responsive genes in P19 embryonal carcinoma cells and characterization of a novel mouse gene, Stra1 (mouse LERK-2/Eplg2).

Pluripotent mouse P19 embryonal carcinoma (EC) cells have been extensively used as a developmental model system because they can differentiate in the presence of retinoic acid (RA) into derivatives of all three germ layers depending on RA dosage and culture conditions. The expression of several genes has been shown to be induced in RA-treated P19 EC cells and, interestingly, some of these genes may play important roles during mouse embryogenesis. In view of the increasing evidence that RA is a crucial signaling molecule during vertebrate development, we have initiated a study aimed at the systematic isolation of genes whose expression is induced in P19 cells at various times after exposure to RA. We describe here an efficient differential subtractive hybridization cloning strategy which was used to identify additional RA-responsive genes in P19 cells. Fifty different cDNA fragments corresponding to RA-induced genes were isolated. Ten cDNAs represent known genes, 4 of which have already been described as RA-inducible, while the remaining 40 correspond to novel genes. Many of these cDNA sequences represent low-abundance mRNAs. Kinetic analysis of mRNA accumulation following RA treatment allowed us to characterize four classes of RA-responsive genes. We also report the sequence and expression pattern in mouse embryos and adult tissues of one of these novel RA-inducible genes, Stra1, and show that it corresponds to the mouse ligand for the Cek5 receptor protein-tyrosine kinase.