THE ULTRASTRUCTURE OF NORMAL AND PATHOLOGICAL IGM IMMUNOGLOBULINS

doi:10.1084/jem.127.3.399

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ARTICLE

THE ULTRASTRUCTURE OF NORMAL AND PATHOLOGICAL IGM IMMUNOGLOBULINS

B. Chesebro ¹, B. Bloth ¹, and S-E. Svehag Ph.D.¹

¹ From the Department of Immunology, National Bacteriological Laboratory, and the Department of Virus Research, Karolinska Institute School of Medicine, Stockholm 1, Sweden

Free IgM immunoglobulins were examined in the electron microscopeusing the negative contrast technique. Normal human and rabbitIgM and Waldenström macroglobulins were indistinguishablefrom one another and revealed flexible spider-like particleswith five appendages joining a central ring. The average totalspan of the molecules was 300 A. The appendages were about 125x 30 A; the central ring had an outer diameter of approximately100 A and an inner diameter of 40 A.

Some purified 19S IgM preparationstended to form massive aggregates ( $ge$ 50S) which, when examinedin the electron microscope, revealed enormous clumps of IgMmolecules whose appendages were entangled with one another.

Electronmicroscopy of reduced-alkylated IgM revealed total absence ofintact spider-like molecules. The predominating structure observedwas a round electron-dense knob about 50 A in diameter whichin some cases had a fine fiber-like extension with approximatedimensions 100 x 15 A.

Rabbit and human IgM molecules with antibodyactivity to poliovirus dried in sodium tungstosilicate on acarbon film as in preparation for electron microscopy were shownto retain nearly 100% of their poliovirus neutralizing activityafter redissolving in a physiological buffer.

Submitted on September 20, 1967

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