Cell-surface changes induced by ectopic expression of the murine homeobox gene Hox-3.3.

Murine homeobox-containing genes (Hox genes) are postulated as playing key roles in the establishment of the anterior-posterior embryonic body axis, possibly providing cells with positional cues. Little is known, however, concerning how cells might respond to homeobox gene expression to interpret these cues. Since changes in the cell-surface are central to many processes in early development we reasoned that cells expressing different complements of Hox genes might have different surface properties. In order to investigate this we have used the sensitive, non-disruptive technique of multiple two-phase aqueous partition, which is able to detect small differences on the surface of intact cells. Using this technique we have found that ectopic expression of the murine Hox-3.3 gene in cultured cells induces reproducible changes in the cell surface. Changes only occurred above a threshold level of gene expression, but above this level a correlation between surface change and gene expression was seen. The implications for the establishment of a 'Hox' code of homeobox genes acting to specifically change cell-surface properties are discussed.     

Isolation and regional localization of the murine homeobox-containing gene Hox-3.3 to mouse chromosome region 15E

A murine homeobox-containing cDNA clone has been isolated from an adult spinal cord library. Using in situ hybridization and somatic cell genetics techniques, the newly isolated homeobox gene has been mapped to mouse chromosome region 15E. Because of its chromosomal location, we called this gene locus Hox-3.3. Nucleotide sequence analysis revealed that the Hox-3.3 gene represents the murine cognate of the human homeobox gene c8. The presumptive organization of the murine Hox-3 homeobox gene cluster is discussed.     

An autoregulatory element of the murine Hox-4.2 gene.

Hox-4.2 promoter activity was assayed by transient expression assays in P19 embryonal carcinoma (EC) cells. Cotransfection of a luciferase reporter gene construct driven by Hox-4.2 upstream sequences with an expression vector for the Hox-4.2 gene product resulted in a 20-fold increase in luciferase activity. This activity was specific in that the Hox-1.6 gene product had no effect in the same assay. Mutational analysis defined a cis-acting element with enhancer function which conferred most of this increase. Activation was largely dependent on two TAAT/ATTA motifs within this 217 bp fragment and HOX-4.2 bound specifically to both of these motifs. The 217 bp element maps within a highly conserved region of the human Hox-4.2 gene (HOX4B) which has been shown to display spatial enhancer activity in mice and flies. These findings suggest a conserved autoregulatory mechanism for the control of Hox-4.2 expression.     

Sequence and embryonic expression of the murine Hox-3.5 gene.

The murine Hox-3.5 gene has been mapped and linked genomically to a position 18 kb 3' of its most 5' locus neighbour, Hox-3.4, on chromosome 15. The sequence of the Hox-3.5 cDNA, together with the position of the gene within the locus, show it to be a paralogue of Hox-2.6, Hox-1.4 and Hox-4.2. The patterns of embryonic expression for the Hox-3.5 gene are examined in terms of three rules, proposed to relate a Hox gene's expression pattern to its position within the locus. The anterior boundaries of Hox-3.5 expression in the hindbrain and prevertebral column lie anterior to those of Hox-3.4 and all other, more 5'-located Hox-3 genes. Within the hindbrain, the Hox-3.5 boundary is seen to lie posterior to that of its paralogue, Hox-2.6, by a distance equal to about the length of one rhombomere. Patterns of Hox-3.5 expression within the oesophagus and spinal cord, but not the testis, are similar to those of other Hox-3 genes, Hox-3.3 and Hox-3.4.     

Chromosome assignment of the murine Hox-4.1 gene

The murine homebox gene 4.1 was assigned to chromosome 2 by Southern analysis of somatic cell hybrids and by in situ hybridization. This assignment and the report of Featherstone et al. (M. S. Featherstone, A. Baron, S. J. Gaunt, M. G. Mattei, and D. Duboule, 1988, Proc. Natl. Acad. Sci. USA, 85, 4760-4764) indicate that a fourth group of homeobox genes is located on chromosome 2 in the mouse (in addition to the homeobox gene clusters on chromosomes 6, 11, and 15).     

Dominant mutation of the murine Hox-2.2 gene results in developmental abnormalities.

Genes carrying the homeobox were originally identified in Drosophila, in which they are now known to play key roles in establishing segmentation patterns and in determining segment identities. A number of genes with striking homology to the Drosophila homeobox genes have now been found in the mouse genome, and mutational analysis is beginning to shed light on their function in mammalian development. To understand better the developmental significance of the murine Hox-2.2 gene, we have generated gain of function mutants by using the chicken beta-actin promoter to drive ubiquitous expression in transgenic mice. The resulting Hox-2.2 misexpression produces early postnatal lethality as well as craniofacial and axial skeletal perturbations that include open eyes at birth, cleft palate, micrognathia, microtia, skull bone deficiencies, and structural and positional alterations in the vertebral column. We repeatedly observe complete or partial absence of the supraoccipital bone and malformations of the exoccipital and the basioccipital bones. These results suggests a role for the Hox-2.2 gene in specifying positional identity along the anterior-posterior axis.     

Organization of the murine Mx gene and characterization of its interferon- and virus-inducible promoter.

Specific resistance of Mx+ mice to influenza virus is due to the interferon (IFN)-induced protein Mx. The Mx gene consists of 14 exons that are spread over at least 55 kilobase pairs of DNA. Surprisingly, the Mx gene promoter is induced as efficiently by Newcastle disease virus as it is by IFN. The 5' boundary of the region required for maximal induction by both IFN and Newcastle disease virus is located about 140 base pairs upstream of the cap site. This region contains five elements of the type GAAANN, which occurs in all IFN- and virus-inducible promoters. The consensus sequence purine-GAAAN(N/-)GAAA(C/G)-pyrimidine is found in all IFN-inducible promoters.     

Hox-3.6: isolation and characterization of a new murine homeobox gene located in the 5' region of the Hox-3 cluster.

Most members of the murine Hox gene system can be grouped into two subclasses based on their structural similarity to either one of the Drosophila homeotic genes Antennapedia (Antp) or Abdominal B (AbdB). All the AbdB-like genes reported thus far are located in the 5' region of their respective cluster. We describe here the isolation, structural characterization and spatio-temporal expression pattern of a new AbdB-like homeobox gene designated Hox-3.6 that is located in the 5' region of the Hox-3 cluster. Hox-3.6 has an extreme posterior expression domain in embryos of 12.5 days of gestation, a feature that has thus far only been observed for the 5' most genes of the Hox-4 cluster. Like the other members of the AbdB subfamily, Hox-3.6 exhibits spatially restricted expression in the hindlimb bud, but the expression domain is antero-proximal in contrast to the postero-distal domain reported for its cognate gene Hox-4.5. Structural analysis of the 5' region revealed the presence of a 35 bp sequence which shares homology and relative 5' position with an upstream sequence present in its two nearest downstream neighbors, Hox-3.2 and -3.1.     

Identification of a retinoic acid response element upstream of the murine Hox-4.2 gene.

Hox genes play an important role in the process of vertebrate pattern formation, and their expression is intricately regulated both temporally and spatially. All-trans-retinoic acid (RA), a physiologically active metabolite of vitamin A, affects the expression of a large number of Hox genes in vitro and in vivo. However, the regulatory mechanisms underlying the RA response of these genes have not been extensively studied, and no response element for RA receptors (RARs) has been characterized in a Hox regulatory region. The expression of murine Hox-4.2 and its human homolog, HOX4B, is increased in embryonal carcinoma (EC) cell lines upon RA treatment (M. S. Featherstone, A. Baron, S. J. Gaunt, M.-G. Mattei, and D. Duboule, Proc. Natl. Acad. Sci. USA 85:4760-4764, 1988; A. Simeone, D. Acampora, V. Nigro, A. Faiella, M. D'Esposito, A. Stornaiuolo, F. Mavilio, and E. Boncinelli, Mech. Dev. 33:215-228, 1991). Using transient expression assays, we showed that luciferase reporter gene constructs carrying genomic sequences located upstream of Hox-4.2 responded to RA in murine P19 EC cells. A 402-bp NcoI fragment was necessary for the RA responsiveness of reporter constructs. This fragment contained a regulatory element, 5'-AGGTGA(N)5AGGTCA-3', that closely resembles the consensus sequence for an RA response element. The Hox-4.2 RA response element was critical for the RA induction and specifically bound RARs. In addition, the response to RA could be inhibited by expressing a dominant negative form of RAR alpha in transfected P19 EC cells. These results suggested that Hox-4.2 is a target for RAR-mediated regulation by RA.     

Isolation and analysis of embryonic expression of Hox-4.9, a member of the murine labial-like gene family.

Two members of the murine labial (lab) subfamily of Antennapedia-like homeobox-containing genes, Hox-1.6 and Hox-2.9, have been identified previously. Here we describe a third member genetically linked to the Hox-4 cluster on chromosome 2. This gene, designated Hox-4.9, is similar in structure to the other lab subfamily members. However, little coding sequence other than the homeobox and sequences immediately upstream of it have been conserved. By in situ hybridization analysis, Hox-4.9 mRNA is first detected at the end of the late streak stage (E7.75) in presumptive lateral and extraembryonic mesoderm. During early neurogenesis (E8.0-8.5), Hox-4.9 is detected solely in lateral mesoderm; its lack of expression in somitic mesoderm and the neural tube makes it unique among the Hox genes. By late neurogenesis and through mid-gestation (E9.0-E11.5), Hox-4.9 is no longer detected in lateral mesoderm but is found instead in a restricted region of presumed trunk neural crest and in the dermatome. These data are discussed in comparison with what is known about expression of the other members of the lab subfamily.