LIGAND-INDUCED MOVEMENT OF LYMPHOCYTE MEMBRANE MACROMOLECITLES: II. MAPPING OF SURFACE MOIETIES

doi:10.1084/jem.136.4.907

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ARTICLE

LIGAND-INDUCED MOVEMENT OF LYMPHOCYTE MEMBRANE MACROMOLECITLES : II. MAPPING OF SURFACE MOIETIES

Morris J. Karnovsky ¹, Emil R. Unanue ¹, and Monika Leventhal ¹

¹ From the Department of Pathology, Harvard Medical School, Boston, Massachusetts 02115

Anti-immunoglobulin (Ig) coupled to ferritin or hemocyaninwas used to map the distribution of Ig molecules on lymphocytesderived from bone marrow (B lymphocytes) by freeze-etching.The labeled anti-Ig was distributed all over the membrane inthe form of random interconnected patches forming a lacy, continuousnetwork. This was the pattern of lymphocytes labeled at 4°Cwith the anti-Ig. After warming at 37°C, the labeled moleculesconcentrated into a single area of the cell (forming the cap)and were rapidly internalized in small vesicles Freeze-etchingshowed close packing of the labeled molecules in the cap area.There was evidence that in the cap area the Ig molecules wereexfoliated from the plane of the membrane, suggesting that theIg may be superficial to the bilipid layer, or weakly anchoredto the membrane.

Similar studies were made using antibodiesto histocompatibility antigens. Thymocytes were labeled withanti-H-2 and ferritin anti-Ig at 4°C. Freeze-etching showedlarge patches scattered over the membrane and separated fromeach other by several thousand angstroms. This distributionmay, in part, explain why H-2 antigens do not readily form acap; the large patches are beyond the reach of even a doubleligand (sandwich) reaction.

The antigens that reacted with heterologousanti-lymphocyte globulin (ALG) were found in small noninterconnectedclusters a few hundred angstroms apart. Such clusters presumablycannot be linked by a single antibody but can by a sandwich(ligand to ligand-antigen) reaction. In previous studies itwas found that ALG antigens form a cap only after a sandwichreaction. Finally, the receptors for concanavalin A (Con A)were found in a lacy, irregular interconnected, random network.The spatial distribution of these moieties on the membrane may,in great part, determine their movement after reaction withone or two ligands.

Submitted on May 8, 1972

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