The dorso-ventral (DV) organization of limb morphology is crucial for its function but little is known about how it is implemented during morphogenesis. Lmx1b is the key regulator of DV patterning as it is both necessary and sufficient to specify dorsal fates, but its regulation remains poorly known. Recently, we reported that Lmx1b is subject to a complex and autoregulatory mode of transcriptional regulation mediated by two limb-specific enhancers termed LARM1 and LARM2. Interestingly, these enhancers display anterior-posterior (AP) spatial modularity with LARM1 controlling Lmx1b expression in the anterior and LARM2 in the posterior half of the limb. To investigate the regulatory logic of the Lmx1b locus in higher detail, we have dissected the LARM1 enhancer and explored the functional contribution of two Lmx1b associated lncRNAs. The results confirm the presence of a functional repressor and underscore the AP positional specificity of the LARM sequences. Conjointly, the data suggests that Lmx1b transcription uses different regulatory elements in different positions probably reflecting the integration of the local transcriptional environment. Finally, since the double-ventral limbs of dLARM1/2 mutants fail to support locomotion, we hypothesized that the elaboration of the DV axis, possible driven by changes in the regulatory genome, had to accompany the fin transition towards appendages capable of lifting the body weight. In this direction, we have identified orthologs of the LARM sequences from chondrichthyans. All these sequences show activity in the pectoral fin in zebrafish reporter assays, revealing the deep roots of Lmx1b regulation.

Trabajo presentado en la 16th International Conference on Limb Development, regeneration, and evolution, celebrada en Cambridge (Estados Unidos) del 08 al 11 de agosto de 2022.