Hydrostatic pressure-induced internalization of flagellar axonemes, disassembly, and reutilization during flagellar regeneration in Polytomella

Exposure of the quadriflagellate Polytomella to hydrostatic pressure was shown to result in the internalization of intact flagellar axonemes. During recovery from the pressure treatment the axonemes were disassembled concurrent with flagellar regeneration. When flagella were amputated partial regeneration occurred in the presence of cycloheximide, suggesting the presence of a limiting available pools of flagellar precursors. After a second amputation in the continued presence of cycloheximide little or no regeneration occurred, indicating depletion of the pool. However, if internalized axonemes were available, as well as the precursor pool, full-length flagella regenerated in cycloheximide. When the pool had been depleted and internalized axonemes were present, flagella regenerated to a length equal to the initial length of the internalized axonemes. We conclude that materials resulting from the disassembly of the pressure internalized axonemes are reutilized in regenerating new flagella.