Summary
In the present report the functional morphology of the planarian gastrodermal phagocytic cells is examined in feeding animals. A functional interpretation of some of the morphological findings is given. The events in the fine-structure modifications of the phagocytic cells in the course of phagocytosis and intracellular digestion of food particles were followed through five post-feeding stages in the planarian Dugesia gonocephala. Light and electron microscopical observations demonstrate that there is preliminary intraluminal digestion of food particles; their phagocytosis takes place quickly.
Beef hepatocytes that served as food are found engulfed at first in food vacuoles near the apical border of the phagocytic cells, and are clearly recognizable. The vacuoles increase in number to occupy most of the cytoplasm of these cells. Progressive breakdown and disappearance of phagocytosed hepatocytes occurs. In time the vacuoles move deeper into the cells, their contents lose their identity, and condense to homogeneous or heterogeneous residual bodies. These are returned to the distal surface of the cells, and then voided into the intestinal lumen. At the same time, synthesis and accumulation of numerous lipid droplets occurs, probably as a final product resulting from metabolism of the digested material. When feeding is over, the phagocytic cells are filled with lipid droplets, acquiring their typical appearance.
It is suggested that disintegration of phagocytic cells during starvation is balanced by proliferation and differentiation of neoblasts into new phagocytic cells during the feeding-starvation cycle.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Baguñá J (1974) Dramatic mitotic response in planarian after feeding, and a hypothesis for the control mechanism. J Exp Zool 190:117–122
Bowen ID (1980) Phagocytosis in Polycelis tenuis. In: Smith DC, Tyffon Y (eds) Nutrition in the Lower Metazoa. Pergamon Press, Oxford, New York, pp 1–14
Bowen ID, Ryder TA, Thompson JA (1974) The fine structure of the planarian Polycelis tenuis Ijima: II. The intestine and gastrodermal phagocytosis. Protoplasma 79:1–17
Gamo J, Garcia-Corrales P (1985) The ultrastructure of the pharyngeal gland cells of the freshwater planarian Dugesia gonocephala s.l.. J Submicrosc Cytol 17:621–630
Gamo J, Garcia-Corrales P (1987) Ultrastructural changes in the gastrodermal phagocytic cells of the freshwater planarian Dugesia gonocephala s.l. during starvation. J Submicrosc Cytol 19:291–302
Garcia-Corrales P, Gamo J (1986) The ultrastructure of the gastrodermal gland cells in the freshwater planarian Dugesia gonocephala s.l. Acta Zool (Stockh) 67:43–51
Hori I (1985) Further observations on the fine structure of intact and regenerating gastrodermis of the planarian Dugesia japonica (Turbellaria). J Submicrosc Cytol 17:569–581
Hyman LH, Willier BH, Rifenburgh SA (1924) Physiological studies on planaria: VI. A respiratory and histochemical investigation of the source of increased metabolism after feeding. J Exp Zool 40:473–494
Ishii S (1972) Electron microscopic observations on intracellular digestion in the gastroderm of the lower invertebrate, Bdellocephala brunnea. Fukushima J Med Sci 18:91–139
Jennings JB (1957) Studies on feeding, digestion and food storage in free-living flatworms (Platyhelminthes: Turbellaria). Biol Bull 112:63–80
Jennings JB (1959) Observations on the nutrition of the land planarian Orthodemus terrestris (O.F. Müller). Biol Bull 122:63–72
Jennings JB (1962) Further studies on feeding and digestion in triclad Turbellaria. Biol Bull 123:571–581
Jennings JB (1968) Platyhelminthes: Nutrition and Digestion. In: Florkin M, Scheer BT (eds) Chemical zoology, vol 2. Academic Press, New York, pp 303–326
Jennings JB (1974) Digestive physiology of the Turbellaria. In: Riser NW, Morse MP (eds) Biology of the Turbellaria. McGraw-Hill, New York, pp 173–197
Kelley EG (1931) The intracellular digestion of thymus nucleoprotein in triclads flatworms. Physiol Zool 4:515–541
Novikoff AB (1973) Lysosomes, a personal account. In: Hers HG, van Hoof F (eds) Lysosomes and storage disease. Academic Press, New York, pp 1–41
Novikoff PM, Novikoff AB, Quintana N, Hauw JJ (1971) Golgi apparatus, GERL, and lysosomes of neurons in rat dorsal root ganglia, studied by thick section and thin section cytochemistry. J Cell Biol 50:859–886
Osborne PJ, Miller JR (1963) Acid and alkaline Phosphatase changes associated with feeding, starvation and regeneration in planarians. Biol Bull 124:285–292
Pascolini R, Gargiulo AM (1975) Ultrastructural modifications of cells in the intestine of Dugesia lugubris. Boll Zool 42:123–131
Rosenbaum RM, Rolon C (1960) Intracellular digestion and hydrolytic enzymes in the phagocytes of planarians. Biol Bull 118:315–323
Sorokin SP (1983) Dynamics of lysosomal elements in pulmonary alveolar macrophages: II. Transitory intracytoplasmic events in activated cells. Anat Res 206:145–170
Willier BH, Hyman LH, Rifenburg SA (1925) A histochemical study of intracellular digestion in triclad flatworms. J Morphol Physiol 40:299–340
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Garcia-Corrales, P., Gamo, J. Ultrastructural changes in the gastrodermal phagocytic cells of the planarian Dugesia gonocephala s.l. during food digestion (Plathelminthes). Zoomorphology 108, 109–117 (1988). https://doi.org/10.1007/BF00539786
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00539786