Thickness and volume constants and ultrastructural organization of basement membrane (lens capsule).

1. The basement membrane of the crystalline lens of the rat has been found to have the following elastic constants: a Young's Modulus of elasticity of 0.56 +/‐ 0.38 x 10(6) Nm‐2 at low stress and 11.3 +/‐ 1.9 x 10(6) Nm‐2 at rupture, an ultimate stress of 28.8 +/‐ 4.5 x 10(5) Nm‐2, and a maximum percentage elongation of 41.3 +/‐ 5.8. 2. The ratio of initial thickness of the membrane to the thickness at the point of rupture is 0.271 +/‐ 0.02 while the similar ratio for volume is 0.461 +/‐ 0.031. 3. Electron microscopic observations of ultrasonicated fragments of the entire membrane show long filaments in parallel arrays and sheets. The filaments show a periodicity of 3.7 nm and a spacing of 3.5 nm. 4. Electron microscopic observations of collagenase‐treated membrane show a poorly staining matrix associated with separate short straight non‐periodic filaments some 2.5 nm in diameter. In addition strands project from the ends of the filaments with a diameter of between 0.5 and 1.0 nm. 5. A model is proposed which consists of these filaments, composed of between three and five parallel strands, some 0.8 nm in diameter, wound in a superhelix. 6. The model predicts satisfactorily thickness and volume changes in the membrane when subjected to stress, and also indicates that the filaments would have a similar Young's Modulus of elasticity and ultimate stress to those of collagen. 7. If the basement membrane of the smallest retinal capillaries is subjected to a change of pressure of only 5 mmHg within the vessel lumen, then the membrane is likely to undergo some 30% reduction in thickness.