Fluorescent-labeled collagen: Age-related differences and fluorescence changes during the lag phase of fibril formation

Acid-soluble collagens isolated from young and old rat tail tendon were fluorescent-labeled with dansyl hydrazine, which is capable of reacting with aldehyde groups in collagen. The dansyl fluorescence of aged collagen exhibited a weak peak at 525 nm, whereas that of young collagen had a stronger broad peak at 500 nm. Fibril formation in vitro was partially inhibited in these dansylated collagens. During the turbidity lag phase, the dansyl fluorescence was found to increase (30–50%), also shifting to 485 nm. These changes reveal the telopeptide conformation changes occurring during this period. A new fluorescence peak at 420 nm also increased during fibril formation. When the dansylated collagen was irradiated in air with uv light (340 nm), a rapid decrease of the dansyl fluorescence with a concurrent shift to 490 nm occurred. Also, the formation of fibrils was further inhibited. With increasing temperature, the dansyl fluorescence of young collagen decreased, whereas that of old collagen substantially increased, particularly at the denaturation temperature around 38°C. After denaturation, both fluorescences became similar in their intensity and position (490 nm). These findings are discussed in connection with both age-related structural changes of collagen and the mechanism of fibril formation.