ULTRASTRUCTURE OF PAPAIN AND PEPSIN DIGESTION FRAGMENTS OF HUMAN IgM GLOBULINS

Abstract

The ultrastructure of papain and pepsin-digested products of human IgM globulins has been analyzed. Papain digestion was performed both in the presence and absence of cysteine. The Fcmicro fragment was found to represent the central ring structure in the intact IgM molecule, plus a minor part of the appendages extending from the ring. The Fcmicro ring structure was occasionally seen to be composed of dimers of short rods, probably identical with the endpieces of two micro-chains. Such dimeric structures, released from the intact Fcmicro rings, had a tendency to aggregate sidewise, producing complexes of varying size. The dimensions of the Fcmicro fragments were: outer diameter approximately 85 A, inner diameter about 40 A. The length of the protrusions varied from 20-30 A. The Fabmicro preparations contained long strands of sidewise aggregated, short rod-shaped fragments. No aggregates were seen in the F(ab'')(2)micro preparations. The two Fab''micro units in the dimeric F(ab'')(2)micro fragments were usually parallel to each other. The dimensions of the Fabmicro and F(ab'')(2)micro fragments were 50-80 A x 30 A and 75-80 A x 55 A, respectively. These findings provide morphological evidence that the C-terminal ends of the micro-chains (the Fcmicro fragment) make up the central ring structure in the IgM molecule. They further indicate that the F(ab'')(2)micro fragments constitute about (3/4) of the appendages extending from this ring structure.