TY - JOUR
T1 - Protamine selectively inhibits collagen synthesis by human intestinal smooth muscle cells and other mesenchymal cells
AU - Perr, Hilary A.
AU - Drucker, David E.M.
AU - Cochran, David L.
AU - Diegelmann, Robert F.
AU - Lindblad, William J.
AU - Graham, Martin F.
PY - 1989/9
Y1 - 1989/9
N2 - Collagen synthesis is a major function of human intestinal smooth muscle (HISM) cells and contributes to intestinal fibrosis in chronic inflammatory bowel disease. As an extension of previous in vitro studies of the role of heparin in regulating HISM cell proliferation and collagen synthesis, the effect of protamine sulfate was studied. Protamine decreased collagen production by 50% in confluent and proliferating cultures. This effect was concentration‐dependent and was selective for collagen in that neither noncollagen production nor DNA accumulation in the culture plates was affected. Other human mesenchymal cells which produce collagen, such as dermal fibroblasts and aortic smooth muscle cells, responded to protamine in a similar fashion. Protamine has a strong cationic charge and is rich in lysine and arginine. To determine which of these properties was important in decreasing collagen production, the effect of protamine was compared to that of other polyionic compounds. Poly‐L‐lysine decreased collagen production to a lesser degree than protamine. Poly‐L‐arginine was toxic to the cells. Poly‐L‐glu‐tamic acid, which has an opposite charge to protamine, had no effect. These findings suggest that both the number and the arrangement of lysyl residues, in addition to positive charge, are important. Binding assays demonstrated that protamine did not inhibit collagen production by binding to ascorbate in the culture medium. Electrophoretic separation and chromatography of collagen types expressed following protamine treatment showed that the ratio of type I to type III collagen remained 2:1. This observation suggests that suppression of collagen production is not specific to a particular collagen type. The selective inhibition of collagen production by protamine provides an important tool to study the regulation of collagen production in human cells and may also provide potential therapy of fibrotic disorders.
AB - Collagen synthesis is a major function of human intestinal smooth muscle (HISM) cells and contributes to intestinal fibrosis in chronic inflammatory bowel disease. As an extension of previous in vitro studies of the role of heparin in regulating HISM cell proliferation and collagen synthesis, the effect of protamine sulfate was studied. Protamine decreased collagen production by 50% in confluent and proliferating cultures. This effect was concentration‐dependent and was selective for collagen in that neither noncollagen production nor DNA accumulation in the culture plates was affected. Other human mesenchymal cells which produce collagen, such as dermal fibroblasts and aortic smooth muscle cells, responded to protamine in a similar fashion. Protamine has a strong cationic charge and is rich in lysine and arginine. To determine which of these properties was important in decreasing collagen production, the effect of protamine was compared to that of other polyionic compounds. Poly‐L‐lysine decreased collagen production to a lesser degree than protamine. Poly‐L‐arginine was toxic to the cells. Poly‐L‐glu‐tamic acid, which has an opposite charge to protamine, had no effect. These findings suggest that both the number and the arrangement of lysyl residues, in addition to positive charge, are important. Binding assays demonstrated that protamine did not inhibit collagen production by binding to ascorbate in the culture medium. Electrophoretic separation and chromatography of collagen types expressed following protamine treatment showed that the ratio of type I to type III collagen remained 2:1. This observation suggests that suppression of collagen production is not specific to a particular collagen type. The selective inhibition of collagen production by protamine provides an important tool to study the regulation of collagen production in human cells and may also provide potential therapy of fibrotic disorders.
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U2 - 10.1002/jcp.1041400309
DO - 10.1002/jcp.1041400309
M3 - Article
C2 - 2777885
AN - SCOPUS:0024432309
SN - 0021-9541
VL - 140
SP - 463
EP - 470
JO - Journal of Cellular Physiology
JF - Journal of Cellular Physiology
IS - 3
ER -