Abstract: A cell culture substrate is coated with a composition containing a cell adhesion promoter in a salt solution. A substrate such as plastic, glass or microporous fibers is coated with a composition containing about 5 .mu.g/ml to about 1000 .mu.g/ml of poly-D-lysine in an 0.005 M to about 0.5 M citrate or sulfate salt solution to provide about 50 .mu.l to about 500 .mu.l of the composition per cm.sup.2 of substrate, and the coated substrate is rinsed to remove extraneous materials and dried to obtain a coated substrate having increased shelf-life and/or stability. The coated substrate may be sterilized by rinsing with a sterilizing medium such as ethanol.

Abstract: Cell culture substrates comprising dried films of native fibrillar collagen produced by a method in which collagen fibers are hydrolyzed in acid, solubilized, and reformed as gels on porous surfaces under non-physiologic salt conditions to produce large fibers with the striations characteristic of collagen fibers found in vivo. The gels are collapsed onto the porous surfaces by drawing the interfibril fluid out of the gel through the underside of the porous surface and then dried to form films. Dried collagen films made in this manner retain native fibrillar collagen structure and excellent diffusion characteristics. Native fibrillar collagen films produced according to the methods of the invention are useful as cell culture substrates. They have particularly advantageous properties for growth and differentiation of epithelial cells. This effect is synergistically enhanced by addition of butyric acid as a differentiation inducing agent.

Abstract: Cell culture substrates made of dried films of native fibrillar collagen produced by a method in which collagen fibers are hydrolyzed in acid, solubilized, and reformed as gels on porous surfaces under non-physiologic salt conditions to produce large fibers with the striations characteristic of collagen fibers found in vivo. The gels are collapsed onto the porous surfaces by drawing the interfibril fluid out of the gel through the underside of the porous surface and then dried to form films. Dried collagen films made in this manner retain native fibrillar collagen structure and excellent diffusion characteristics. Native fibrillar collagen films produced according to the methods of the invention are useful as cell culture substrates. They have particularly advantageous properties for growth and differentiation of epithelial cells. This effect is synergistically enhanced by addition of butyric acid as a differentiation inducing agent.

Abstract: Cell culture substrates comprising dried films of native fibrillar collagen produced by a method in which collagen fibers are hydrolyzed in acid, solubilized, and reformed as gels on porous surfaces under non-physiologic salt conditions to produce large fibers with the striations characteristic of collagen fibers found in vivo. The gels are collapsed onto the porous surfaces by drawing the interfibril fluid out of the gel through the underside of the porous surface and then dried to form films. Dried collagen films made in this manner retain native fibrillar collagen structure and excellent diffusion characteristics. Native fibrillar collagen films produced according to the methods of the invention are useful as cell culture substrates. They have particularly advantageous properties for growth and differentiation of epithelial cells. This effect is synergistically enhanced by addition of butyric acid as a differentiation inducing agent.

Abstract: Cell culture substrates comprising dried films of native fibrillar collagen produced by a method in which collagen fibers are hydrolyzed in acid, solubilized, and reformed as gels on porous surfaces under non-physiologic salt conditions to produce large fibers with the striations characteristic of collagen fibers found in vivo. The gels are collapsed onto the porous surfaces by drawing the interfibril fluid out of the gel through the underside of the porous surface and then dried to form films. Dried collagen films made in this manner retain native fibrillar collagen structure and excellent diffusion characteristics. Native fibrillar collagen films produced according to the methods of the invention are useful as cell culture substrates. They have particularly advantageous properties for growth and differentiation of epithelial cells. This effect is synergistically enhanced by addition of butyric acid as a differentiation inducing agent.