Inhibition of retinoic acid-induced activation of 3' human HOXB genes by antisense oligonucleotides affects sequential activation of genes located upstream in the four HOX clusters.

Most homeobox genes belonging to the Hox family are sequentially activated in embryonal carcinoma cells upon treatment with retinoic acid. Genes located at the 3' end of each one of the four Hox clusters are activated first, whereas upstream Hox genes are activated progressively later. This activation has been extensively studied for human HOX genes in the NT2/D1 cell line and shown to take place at the transcriptional level. To understand the molecular mechanisms of sequential HOX gene activation in these cells, we tried to modulate the expression of 3' HOX genes through the use of antisense oligonucleotides added to the culture medium. We chose the HOXB locus. A 5- to 15-fold reduction of the expression of HOXB1 and HOXB3 was sufficient to produce a significant inhibition of the activation of the upstream HOXB genes, as well as of their paralogs in the HOXA, HOXC, and HOXD clusters. Conversely, no effect was detectable on downstream HOX genes. The extent of this inhibition increased for progressively more-5' genes. The stability of the corresponding mRNAs appeared to be unaffected, supporting the idea that the observed effect might be mediated at the transcriptional level. These data suggest a cascade model of progressive activation of Hox genes, with a 3'-to-5' polarity.