Planarian pharynx regeneration in regenerating tail fragments monitored with cell-specific monoclonal antibodies.

The special morphological features of freshwater planarians make them an attractive and informative model for studying the processes of regeneration and pattern formation. In this work, we investigate pattern formation and maturation of the planarian pharynx during regeneration in tail fragments. Using three monoclonal antibodies (TCAV-1, TF-26 and TMUS-13) specific for epithelial, secretory and muscle cells, respectively, we followed the sequence and timing of differentiation and maturation of these three cell types within the regenerating pharynx. Two of these monoclonal antibodies, TCAV-1 and TMUS-13, also labelled morphologically immature cells that appear to be committed to the differentiation pathway leading to their respective adult cell types. Our results show that the cells forming the new pharynx come from undifferentiated cells through proliferation and differentiation processes rather than from differentiated cells of the old stump. We describe three stages of pharynx regeneration according to the immunoreactivity shown: (1) no immunoreactivity, corresponding to the accumulation of undifferentiated cells that form the pharynx primordium; (2) immunoreactivity to TCAV-1 and TMUS-13, corresponding to the re-building of the pharynx; and (3) immunoreactivity to TF-26, corresponding to a fully mature and functional pharynx. The sequence of differentiation of these three cell types suggests that the pharynx grows by intercalation of new undifferentiated cells coming from the parenchyma between the older pharyngeal cells, in agreement with existing models of pharynx regeneration. Finally, our results suggest an intercalary model for pharynx epithelial cell renewal. [ABSTRACT FROM AUTHOR]