Abstract: | Monkey arterial smooth muscle cells (SMC) which are stimulated to proliferate in the presence of 5% monkey blood serum (MBS) and which remain quiescent in 5% monkey platelet-poor plasma serum (MPPPS) were examined for their ability to synthesize collagen in each of these conditions in culture. Collagen synthesis was measured by determining amounts of newly formed labeled hydroxyproline, following labelling in the presence of 3H]proline and ascorbic acid. Ascorbate requirements of SMC were examined to assure maximal hydroxylation. SMC synthesize the same amount of collagen/cell in 5% whole blood serum (MBS) during the early phase of rapid proliferation as during slow growth in later phases in culture. SMC grown in the presence of serum-lacking platelet factors synthesize 60–90% less collagen and 60–90% less non-collagen protein (per cell or per mg protein) than cells grown in MBS. Non-collagen protein synthesis was measured as incorporation of both 3H]proline and of 3H]leucine, determined as trichloroacetic acid (TCA)-precipitable material. Previous studies indicate that a factor derived from platelets is the principal mitogen present in whole blood serum for diploid cells such as SMC and fibroblasts in culture. Similarly derived factors are potent stimulators of both collagen and non-collagen protein synthesis by SMC. SMC, quiescent in medium lacking platelet derived material (MPPPS), is being used to investigate factors important in SMC proliferation since this is a significant event in atherogenesis in vivo. An increased deposition of collagen also occurs during atherogenesis. Consequently it will be useful to employ similar cultures of quiescent SMC to examine agents which affect production of this connective tissue matrix protein. |