Pentosome--a new connective tissue component--is a subunit of amyloid P.

A new minute connective tissue structure, referred to as "pentosome", has been investigated by electron microscopy and its nature has been examined by immunoperoxidase tests. Pentosomes are 3.5-nm wide, particulate structures that have been observed in the posterior chamber of the eye, the connective tissue spaces of the mouse foot-pad and the matrix of the mouse EHS tumor. They are usually found in the vicinity of microfibrils whether they are free or associated with elastic fibers. They tend to be organized into groups forming a three-dimensional semi-crystalline lattice at 10-nm intervals, but are connected by fine filaments. At high magnification, pentosomes appear as hollow structures composed of two parallel pentagons, which respectively measure 2.7 and 3.5 nm, and are held together by a cross-bar. A series of immunoperoxidase tests has only shown antigenicity against a serum protein, the amyloid P component. However, pentosomes are only about one-third the size of the 8.5-nm wide, disk-like segments of the amyloid P molecule. Since they could be subunits of these molecules, such subunits were prepared and compared with pentosomes; they appeared to be identical. It is concluded that the pentosomes found in connective tissue are AP subunits.