Abstract
The vitamin A derivative retinoic acid (RA) is a morphogen that patterns the anterior-posterior axis of the vertebrate hindbrain. Cellular retinoic acid-binding proteins (Crabps) transport RA within cells to both its nuclear receptors (RARs) and degrading enzymes (Cyp26s). However, mice lacking Crabps are viable, suggesting that Crabp functions are redundant with those of other fatty acid-binding proteins. Here we show that Crabps in zebrafish are essential for posterior patterning of the hindbrain and that they provide a key feedback mechanism that makes signaling robust as they are able to compensate for changes in RA production. Of the four zebrafish Crabps, Crabp2a is uniquely RA inducible and depletion or overexpression of Crabp2a makes embryos hypersensitive to exogenous RA. Computational models confirm that Crabp2a improves robustness within a narrow concentration range that optimizes a 'robustness index', integrating spatial information along the RA morphogen gradient. Exploration of signaling parameters in our models suggests that the ability of Crabp2a to transport RA to Cyp26 enzymes for degradation is a major factor in promoting robustness. These results demonstrate a previously unrecognized requirement for Crabps in RA signaling and hindbrain development, as well as a novel mechanism for stabilizing morphogen gradients despite genetic or environmental fluctuations in morphogen availability.
Highlights
Morphogen gradients induce different cell fates depending on concentration
A novel requirement for Cellular retinoic acid-binding proteins (Crabps) in Hox gene expression Crabps facilitate interactions between retinoic acid (RA) and RARs in vitro (Aström et al, 1991; Delva et al, 1999; Budhu and Noy, 2002), and bind RA in the cytosol preventing its entry into the nucleus and promoting degradation (Boylan and Gudas, 1991; Boylan and Gudas, 1992; Fiorella and Napoli, 1994; Chen et al, 2003)
Consistent with previous studies (Sharma et al, 2005) of the four zebrafish Crabps, all but crabp1a were detected during gastrulation (6-9 hpf; supplementary material Figs S1, S2). crabp2a and crabp2b remained expressed in the presumptive hindbrain at 10-24 hpf. crabp2a was expressed in the posterior hindbrain up to rhombomere (R) 4 and in the anterior spinal cord. crabp2b was initially expressed throughout the ectoderm during gastrulation and became progressively restricted to the anterior hindbrain ( R2) and somites
Summary
Gradient shape is determined by the source and rate of ligand production, as well as its transport properties and stability (Ben-Zvi and Barkai, 2010; Sample and Shvartsman, 2010; Umulis et al, 2010). Feedback mechanisms such as self-enhanced receptormediated degradation shape morphogen gradients and make them robust (i.e. able to compensate for changes in morphogen availability), as has been demonstrated for growth factors of the TGF , Wingless (Wg) and Hedgehog (Hh) families (Eldar et al, 2003; Lander, 2007; Meinhardt, 2009; Wartlick et al, 2009). How these binding proteins function in modulating RA signaling remains unclear
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