Endocytosis and exocytosis of phytohemagglutinin (PHA) cell surface receptors of human lymphocytes during blast transformation

Abstract

The ultrastructural distribution of T lymphocyte surface membrane receptors for phytohemag-glutinin (PHA) during blast transformation is examined using PHA covalently coupled to ferritin (PHA-Fe). Human peripheral blood lymphocytes from normal donors were enriched for T cells by nylon wool elution and cultured in vitro with PHA-Fe at a concentration known to cause maximal stimulation of DNA synthesis as measured by [ 3H]thymidine incorporation. Over the course of a 72 h incubation period, cell samples were harvested at regular intervals and examined by transmission electron microscopy. Within several minutes of culture at 37 °C the majority of the ferritin (Fe)-labeled PHA surface receptors on almost all cells undergo rapid endocytosis; some Fe label remains at the cell surface. After several hours, endocytotic vesicles containing Fe-labeled receptors coalesce and undergo condensation. Within 36–48 h, most endocytotic vesicles transform into multivesicular bodies (MVBs). After 48–72 h, 70–80% of the cells had the ultrastructural appearance of blast transformation as characterized by increased size, euchromatic nuclei, nucleolonema and polyribosomes. In 40 % of the blast cells the Fe-labeled MVBs are exocytosed to the cell surface; cytoplasmic MVBs in the remaining portion of the blasts and non-blast lymphocytes do not appear to undergo exocytosis. Although endocytosis and exocytosis of lymphocyte surface receptors during mitogen-induced blast transformation are observed, the role and significance of receptor redistribution to cell activation remains unclear.