The chicken Pdcd4 gene is regulated by v-Myb.

The retroviral oncogene v-myb encodes a transcription factor (v-Myb) which is responsible for the ability of avian myeloblastosis virus (AMV) to transform myelomonocytic cells. v-Myb is thought to disrupt the differentiation of myelomonocytic cells by affecting the expression of specific target genes. To identify such genes we have analysed the gene expression in a myelomonocytic chicken cell line that carries an estrogen inducible version of v-Myb by differential display. Here we describe the identification of the chicken homolog of the mouse Pdcd4 gene as a novel v-Myb target gene. Pdcd4 is also known as MA-3, TIS and H731 and has recently been shown to suppress the transformation of epidermal cells by tumor promoters. Our results provide the first evidence that v-Myb directly regulates the expression of a potential tumor suppressor gene.

Large-scale screen for genes controlling mammalian embryogenesis, using high-throughput gene expression analysis in mouse embryos.

We have adapted the whole-mount in situ hybridization technique to perform high-throughput gene expression analysis in mouse embryos. A large-scale screen for genes showing specific expression patterns in the mid-gestation embryo was carried out, and a large number of genes controlling development were isolated. From 35760 clones of a 9.5 d.p.c. cDNA library, a total of 5348 cDNAs, enriched for rare transcripts, were selected and analyzed by whole-mount in situ hybridization. Four hundred and twenty-eight clones revealed specific expression patterns in the 9.5 d.p.c. embryo. Of 361 tag-sequenced clones, 198 (55%) represent 154 known mouse genes. Thirty-nine (25%) of the known genes are involved in transcriptional regulation and 33 (21%) in inter- or intracellular signaling. A large number of these genes have been shown to play an important role in embryogenesis. Furthermore, 24 (16%) of the known genes are implicated in human disorders and three others altered in classical mouse mutations. Similar proportions of regulators of embryonic development and candidates for human disorders or mouse mutations are expected among the 163 new mouse genes isolated. Thus, high-throughput gene expression analysis is suitable for isolating regulators of embryonic development on a large-scale, and in the long term, for determining the molecular anatomy of the mouse embryo. This knowledge will provide a basis for the systematic investigation of pattern formation, tissue differentiation and organogenesis in mammals.

The chicken adenosine receptor 2B gene is regulated by v-myb.

The retroviral oncogene v-myb is a mutated and truncated version of the c-myb proto-oncogene and encodes a transcription factor (v-Myb) that specifically transforms myelomonocytic cells. v-Myb is thought to transform myelomonocytic cells by affecting the expression of specific target genes, most of which as yet remain unknown. To identify novel v-Myb regulated genes we have employed 'differential display', using a myelomonocytic chicken cell line that expresses a conditional version of v-Myb. Here we describe the identification of the gene encoding the A2b adenosine receptor, a member of the seven transmembrane receptor superfamily, as a v-Myb target gene. Our results provide the first evidence that v-Myb directly regulates a gene encoding a membrane receptor and establish a link between Myb function and adenosine receptor signaling.

tom-1, a novel v-Myb target gene expressed in AMV- and E26-transformed myelomonocytic cells.

The retroviral oncogene v-myb is a mutated and truncated version of the c-myb proto-oncogene and encodes a transcription factor (v-Myb) that specifically transforms myelomonocytic cells. Two different variants of v-myb, transduced independently by the oncogenic chicken retroviruses AMV and E26, have been characterized. It is believed that both variants of v-Myb transform myelomonocytic cells by affecting the expression of specific genes; however, no target genes common to both oncogenic viruses have been identified. Here, we describe the identification of a novel v-Myb target gene, designated as tom-1 (target of myb 1). The tom-1 gene has two promoters, one of which is Myb-inducible. tom-1 is expressed at elevated levels in AMV-transformed as well as in E26-transformed myeloid cells. We show that tom-1 activation by v-Myb does not require de novo protein synthesis and that the Myb-inducible tom-1 promoter contains a functional Myb binding site. Thus, tom-1 is the first example of a direct target gene for both oncogenic forms of the v-myb gene. Further analysis of the Myb-inducible tom-1 promoter shows that a C/EBP binding site is juxtaposed to the Myb binding site and that C/EBP is required for the Myb-dependent activation of the promoter. Together with previous work our results suggest that C/EBP may be a general cooperation partner for v-Myb in myelomonocytic cells.