Lhx9 and Lhx9alpha LIM-homeodomain factors: genomic structure, expression patterns, chromosomal localization, and phylogenetic analysis.

Lhx9 is a LIM-homeodomain (LIM-hd) transcription factor expressed in the embryonic mouse brain. We report the isolation of Lhx9alpha, a cDNA encoding a truncated isoform of Lhx9 that lacks the recognition helix of the homeodomain and differs from Lhx9 cDNA in its 3'-coding and 3'-UTR sequences. Isolation of the Lhx9 gene showed that Lhx9 and Lhx9alpha are coded by six exons spanning 10 kb of genomic sequence and that Lhx9alpha is an isoform generated by alternative splicing of the fifth exon. Lhx9 was mapped to the subtelomeric region of chromosome 1. Further molecular analysis showed that Lhx9 is a new candidate gene for the unidentified dreher (dr) mutation in mouse. The comparison of genomic structure and molecular phylogenetic analysis led to the identification of six groups of LIM-hd proteins, a basis for further classification and knowledge of their evolutionary relationships. To investigate a possible role for Lhx9alpha, the expression patterns of Lhx9 and Lhx9alpha were compared during embryogenesis. Lhx9alpha was expressed at lower levels than Lhx9, with a similar but distinct pattern in the brain, especially in the neocortex. We suggest that Lhx9alpha could function as an endogenous dominant-negative form of Lhx9 during development, both to regulate in space and time the transcriptional effects of Lhx9 and to add a degree of refinement to the LIM-hd code.

Lhx9: a novel LIM-homeodomain gene expressed in the developing forebrain.

A novel LIM-homeodomain gene, Lhx9, was isolated by degenerate RT-PCR followed by mouse embryonic library screening. Lhx9 cDNA encodes a protein that is most closely related to Drosophila apterous and rodent Lhx2 proteins. The Lhx9 spatiotemporal pattern of expression during embryogenesis was similar but distinct from Lhx2. Highest expression levels were found in the diencephalon, telencephalic vesicles, and dorsal mesencephalon. Domains of expression respected the proposed neuromeric boundaries (). Lhx9 was also expressed in the spinal cord, forelimb and hindlimb mesenchyme, and urogenital system. Although Lhx9 expression was sustained in diencephalon and mesencephalon from embryonic day 10.5 (E10.5) to postnatal stages, it was transient in the future cerebral cortex, where it was turned off between E14.5 and E16.5. Lhx9 expression was highest if not exclusively located (depending on the region of interest) in the intermediate and mantle zones, as opposed to the mitotic ventricular zone. Lhx9 protein was tested for interaction with the recently discovered cofactors of LIM-homeodomain proteins and was found to interact strongly both with CLIM1 and CLIM2. The expression pattern and structural characteristics of Lhx9 suggest that it encodes a transcription factor that might be involved in the control of cell differentiation of several neural cell types. Furthermore, Lhx9 protein could act in a combinatorial manner with other LIM-homeodomain factors expressed in overlapping pattern.