THE ELASTIC FIBER: I. The Separation and Partial Characterization of its Macromolecular Components

doi:10.1083/jcb.40.2.366

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ARTICLE

THE ELASTIC FIBER

: I. The Separation and Partial Characterization of its Macromolecular Components

Russell Ross ¹ and Paul Bornstein ¹

¹ From the Departments of Pathology, Medicine, and Biochemistry, University of Washington, Seattle, Washington 98105

The two morphologically different constituents of the matureelastic fiber, the central amorphous and the peripheral microfibrillarcomponents, have been separated and partially characterized.A pure preparation of elastic fibers was obtained from fetalbovine ligamentum nuchae by extraction of the homogenized ligamentwith 5 M guanidine followed by digestion with collagenase. Theresultant preparation consisted of elastic fibers which weremorphologically identical with those seen in vivo. The microfibrillarcomponents of these elastic fibers were removed either by proteolyticenzymes or by reduction of disulfide bonds with dithioerythritolin 5 M guanidine. The microfibrils solubilized by both methodswere rich in polar, hydroxy, and sulfur-containing amino acidsand contained less glycine, valine, and proline than the amorphouscomponent of the elastic fiber. In contrast, the amino acidcomposition of the amorphous component was identical with thatpreviously described for elastin. This component demonstratedselective susceptibility to elastase digestion, but was relativelyresistant to the action of other proteolytic enzymes and toreduction. These observations establish that the microfibrilsconsist of a different connective tissue protein (or proteins)that is neither collagen nor elastin. During embryologic developmentthe microfibrils form an aggregate structure before the amorphouscomponent is secreted. These microfibrils may therefore playa primary role in the morphogenesis of the elastic fiber.

Submitted on July 22, 1968
Revised on September 23, 1968

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