Flagellum retraction and axoneme depolymerisation during the transformation of flagellates to amoebae inPhysarum

Summary The transformation ofPhysarum polycephalum flagellates to myxamoebae is characterised by disappearance of the flagellum. This transition, from the flagellate to the myxamoeba was observed by phase contrast light microscopy and recorded by time lapse video photography to determine whether flagellates shed their flagella or they are absorbed within the cell. In addition, the kinetics of flagellum disappearance were also studied. Our observations indicate that the flagellum was absorbed within the cell; the process occurred within seconds. Flagellum resorbtion was preceded by typical morphological cell changes. The shape of the nucleus altered and its mobility within the cell decreased. It was not possible to observe the flagellum within the cell with phase contrast video recordings. Thin section electron microscopy was used to study this intracellular phenomenon. Several stages of flagellum dissolution could be identified within the cell. The two most important stages were: an axoneme surrounded by the flagellar membrane within a plasma membrane lined pocket or vacuole and the naked axoneme without its membrane, free within the cell cytoplasm. The existence of cytoplasmic microtubules prevented identification of any further dissolution stages of the flagellum. A group of microtubules adjacent to the flagellum but within the cytoplasm was observed in flagellates and also in those cells which possesed enveloped axonemes. The flagellum did not dissociate from the kinetosomes before resorbtion.Immunofluorescence studies with the 6-11-B-1 monoclonal antibody indicated that acetylated microtubules exist in myxamoebae after transformation from flagellates for up to 40 min. Acetylated tubulin is not limited to the centrioles in these cells.