Taenia crassiceps: temperature, polycations, polyanions, and cysticercal endocytosis

The effect of various temperatures, poly-L-lysine, and poly-L-glutamic acid on endocytosis of smooth micropinocytotic vesicles (pinosomes) in the tegument of the cysticercus of Taenia crassiceps has been investigated stereologically. The temperature regimes used were 0, 5, 10, 20, 30, and 40 C. Maximum volume, surface density, and number per unit volume were found at 40 C, and minimum surface-to-volume ratio and numbers at 10 C. At 10 C, mean pinosome volume and mean surface area per pinosome were maximal, but volume and surface density did not differ significantly from 40 C. It is proposed that this anomalous finding for 10 C incubations was due to this being a critical temperature at which a slower rate of pinosome formation was compensated for by the formation of larger individual pinosomes. Poly-L-lysine was shown to be a stimulant of pinosome formation, leading to a significant increase in numbers per unit volume. However, volume and surface density, surface-to-volume ratio, mean volume, and mean surface area per pinosome were not significantly different in poly-L-lysine-incubated samples, when compared to controls (fresh from the mouse) or incubations in medium only or samples returned to medium after poly-L-lysine incubation, the only exception being surface to volume ratio and mean volume of pinosomes in the 75-min incubation. These anomalous results were explained by a marked reduction in the form ellipse values, which indicated the production of more elliptical-shaped pinosomes under poly-L-lysine stimulation. Incubation in poly-L-glutamine acid did not have any significant effect at any incubation time.