The effects of Hh morphogen source movement on signaling dynamics

Morphogens of the Hh-family trigger gene expression changes of receiving cells in a concentration-dependent manner. The outputs of the pathway include regulation of cell identity, proliferation, death or metabolism, depending on the tissue or organ. This variety of responses relies on a conserved signaling pathway. Its internal logic includes a negative feedback loop involving the Hh receptor Ptc. In this paper, we use experiments and computational models to study and compare the different spatial signaling profiles downstream of Hh in several developing Drosophila organs. We show that the spatial distribution of Ptc and the activator form of the Gli transcription factor, CiA, in wing, antenna and ocellus show similar features, but markedly different from that in the compound eye (CE). We show that these two profile types represent two time points along the signaling dynamics, and that the interplay between the spatial displacement of the Hh source in the CE and the negative feedback loop maintains the receiving cells effectively in an earlier stage of signaling. These results indicate that the dynamics of the Hh source strongly influences the signaling profile Hh elicits in receiving cells, and show how the interaction between spatial and temporal dynamics of signaling and differentiation processes can contribute to the informational versatility of the conserved Hh signaling pathway.