Abstract
Lhx3 is a LIM-homeodomain (LIM-HD) transcription factor that regulates neural cell subtype specification and pituitary development in vertebrates, and mutations in this protein cause combined pituitary hormone deficiency syndrome (CPHDS). The recently published structures of Lhx3 in complex with each of two key protein partners, Isl1 and Ldb1, provide an opportunity to understand the effect of mutations and posttranslational modifications on key protein-protein interactions. Here, we use small-angle X-ray scattering of an Ldb1-Lhx3 complex to confirm that in solution the protein is well represented by our previously determined NMR structure as an ensemble of conformers each comprising two well-defined halves (each made up of LIM domain from Lhx3 and the corresponding binding motif in Ldb1) with some flexibility between the two halves. NMR analysis of an Lhx3 mutant that causes CPHDS, Lhx3(Y114C), shows that the mutation does not alter the zinc-ligation properties of Lhx3, but appears to cause a structural rearrangement of the hydrophobic core of the LIM2 domain of Lhx3 that destabilises the domain and/or reduces the affinity of Lhx3 for both Ldb1 and Isl1. Thus the mutation would affect the formation of Lhx3-containing transcription factor complexes, particularly in the pituitary gland where these complexes are required for the production of multiple pituitary cell types and hormones.
Highlights
Lhx3 (LIM homeobox protein 3) is essential for specification of many pituitary and neural cell types [1,2,3]
small angle X-ray scattering (SAXS) Data are Consistent with NMR Data for Ldb1-Lhx3 Our previously determined NMR structure of Ldb1-Lhx3 is elongated, with members of the NMR ensemble comprising two LIM modules (LIM1 and LIM2, each with the contacting region of Ldb1LID) but with angles at the ‘‘hinge’’/’’spacer’’ between the two modules that vary by up to,30u, and the tether between Ldb1 and Lhx3 and residues at the C-terminus of the construct are unstructured (Figure 2A and B) [13]
Spacer was suggested for a related LIM-only protein 2 (Lmo2)Ldb1LID complex [47], and is consistent with SAXS data for Lhx3/4-Isl1/2 complexes [26]
Summary
Lhx (LIM homeobox protein 3) is essential for specification of many pituitary and neural cell types [1,2,3]. The C-terminal portion of LIM-homeodomain proteins is generally poorly characterized but in Lhx is reported to contain an activation domain [10]. The LIM domains from Lhx make well-characterized interactions with Ldb (LIM domain binding protein 1) and Isl (Islet 1) [2,12,13,14,15] and have been reported to bind PIT-1 (pituitary-specific transcription factor 1) [16] and SLB (selective LIM domain binding protein) [17]. Disease-causing mutations or post-translational modifications, including phosphorylation, of the LIM domains are likely to affect the biological activity of Lhx by modulating protein-protein interactions and modulating binding to DNA targets [5,6,10]
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