ccl19 and ccl21 affect cell movements and differentiation in early Xenopus development.

We characterized Xenopus laevis C-C motif chemokine ligand 19.L (ccl19.L) and C-C motif chemokine ligand 21.L (ccl21.L) during early Xenopus embryogenesis. The temporal and spatial expression patterns of ccl19.L and ccl21.L tended to show an inverse correlation, except that the expression level was higher in the dorsal side at the gastrula stage. For example, even at the dorsal sector of the gastrulae, ccl19.L was expressed in the axial region and ccl21.L was expressed in the paraxial region. Dorsal overexpression of ccl19.L and ccl21.L and knockdown of Ccl19.L and Ccl21.L inhibited gastrulation, but their functions were different in cell behaviors during morphogenesis. Observation of Keller sandwich explants revealed that the overexpression of both ccl19.L and ccl21.L mRNA and knockdown of Ccl21.L inhibited the convergent extension movements, while knockdown of Ccl19.L did not. ccl19.L-overexpressing explants attracted cells at a distance and ccl21.L-overexpressing explants attracted neighboring cells. Ventral overexpression of ccl19.L and ccl21.L induced secondary axis-like structures and chrd.1 expression at the ventral side. Upregulation of chrd.1 by ligand mRNAs were induced through ccr7.S. Knockdown of Ccl19.L and Ccl21.L inhibited gastrulation and downregulated chrd.1 expression at the dorsal side. The collective findings indicate that ccl19.L and ccl21.L might contribute to important roles in morphogenesis and dorsal-ventral patterning during Xenopus early embryogenesis.