Abstract
Alx4 is a paired class homeodomain protein involved in defining anterior/posterior polarity in the developing limb bud. The paired class of homeodomain proteins cooperatively bind palindromic DNA elements as homodimers or as heterodimers with other paired homeodomain proteins. Previous characterization demonstrates that the strength of the cooperativity as well as the preference for targets is dictated largely by the identity of amino acid 50 of the homeodomain. Here we compare and contrast the DNA binding properties of a glutamine 50 paired homeodomain protein, Alx4, and a lysine 50 paired homeodomain protein, Goosecoid. We demonstrate that Alx4 homodimers, Gsc homodimers, and Alx4/Gsc heterodimers each have distinct DNA binding properties, and each can discriminate between highly related palindromic elements. Using reporter gene assays, we show that Alx4 activates transcription in a site-specific manner, and that Gsc is capable of antagonizing Alx4-mediated activation only from promoter elements that support heterodimer formation. These data demonstrate that paired homeodomain proteins with different DNA binding properties are able to form heterodimeric complexes with unique DNA binding and transcriptional activities. Thus, heterodimerization regulates the DNA binding specificity of these transcription factors and may partially explain how paired homeodomain proteins direct specific developmental functions.
Highlights
The mechanisms involved in vertebrate limb patterning serve as a model for understanding pattern formation throughout the body plan
The ZPA was initially defined by studies in which explants of cells from various regions of a donor limb bud were grafted to the anterior margin of a recipient limb bud
1) Sonic hedgehog (Shh) expression coincides with cells that have polarizing activity, both in the limb and in other tissues; and 2) direct application of Shh to the anterior margin of a limb bud results in digit duplications in a dose-dependent fashion [4, 5]
Summary
It seems implausible that this mode of DNA binding can accommodate the diverse functional specificity implied by the genetic data (for a review, see Ref. 14; for an alternative view, see Ref. 15). The Ser-50 subclass of prd HD proteins preferentially dimerizes on P elements in which the palindromic half-sites are separated by two intervening nucleotides (5Ј-TAAT NN ATTA3Ј; P2 sites) Representative members of this subclass are encoded by the paired (prd) gene from Drosophila [26] and the vertebrate Pax genes [27]. One unexplored possibility is that members of separate prd HD subclasses form heterodimeric complexes with distinct DNA binding and transcriptional properties The presence of both activators and repressors within the prd HD class could add further complexity to such a mechanism. The selective homo- and heterodimerization of prd HD proteins converts the generic P3 element into a family of related elements, each capable of providing unique transcriptional responses in the presence of Gln-50 and Lys-50 prd HD proteins These results have implications for understanding the developmental specificity demonstrated by prd HD proteins
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