The aggregation behavior of collagen in aqueous solution and its property of stabilizing liposomes in vitro

The aim of this study is to acquire the relationship between the aggregation behavior of collagen in aqueous solution and its property of stabilizing liposomes in vitro. Firstly, we used an intramolecular charge transfer compound 3-methoxy-4-N,N-dimethylamino flavone derivative (DMMF) as a fluorescence probe to detect collagen association in aqueous solution. Results showed that, when collagen concentration was increased to 0.5 mg/ml or above, the fluorescence intensity of DMMF at 465 nm increased dramatically. This indicated that collagen could associate in aqueous solution. The subsequent fluorescence polarization study on the same collagen solutions also proved that the aggregation behavior existed in the aqueous solution of collagen. Secondly, to evaluate the in vitro stability of small unilamellar vesicles (SUV), made from soybean phosphatidylcholine (PC) and coated with collagen, 5(6)-carboxyfluorescein was used as a fluorescence probe to determine the change of their permeability. We found that the coating with a collagen PC weight ratio of 2:1, significantly decreased the permeability of liposomal membranes. The likely weight ratio of collagen and PC was mainly dependent on the critical aggregation concentration of collagen in aqueous solution. In addition, the fluorescence polarization method was also used to study the influence of a coating with collagen at the above ratio on the fluidity of liposomal membranes, employing DMMF as a fluorescence probe. The fluidity of liposomal membranes coated with collagen showed no obvious change, indicating that SUV coated with collagen at an appropriate ratio, could significantly improve the in vitro stability of liposomal membranes without disturbing their fluidity. It is thus clear that collagen self-association behavior is closely correlated to its coating liposomes to improve their stability. (C) 2001 Elsevier Science Ltd. All rights reserved.