Opsahl W P, Ehrhart L A
Biochem J. 1987 Apr 1;243(1):137-44. doi: 10.1042/bj2430137.
Rates of collagen and non-collagen protein synthesis in rabbit arterial smooth muscle cells (SMC) were determined by using the specific (radio)activity of [3H]proline in the extracellular, intracellular, and prolyl-tRNA pools. The intracellular free proline specific activity was only 25% of the extracellular value in cultures incubated for 12 h in 0.25 mM-proline. The specific activity of prolyl-tRNA was less than 10% of the extracellular specific activity. Increasing the extracellular proline concentration 10-fold (to 2.5 mM), while keeping the extracellular specific activity of proline constant, resulted in equilibration of the specific activities of intracellular and extracellular free proline, but the specific activity of prolyl-tRNA remained at less than 10% of the extracellular specific activity. Therefore, calculated rates of collagen and non-collagen protein synthesis were greatly underestimated using the intracellular or extracellular specific activity of proline. SMC were also incubated with 0.1 mM-[14C]ornithine in 0.25 nM or 2.5 mM non-labelled proline to examine synthesis de novo of proline and prolyl-tRNA from ornithine. In SMC cultures containing 0.25 mM unlabelled proline, the specific activity of intracellular ornithine was approx. 45% of the extracellular specific activity, due to the production of unlabelled ornithine. The specific activity of ornithine-derived intracellular free proline in SMC incubated with 2.5 mM-proline was significantly lower than in SMC incubated in 0.25 mM-proline, due to the influx of unlabelled proline. However, a corresponding difference in the specific activity of [14C]prolyl-tRNA between SMC in 0.25 mM- or 2.5 mM-proline was not observed. Ornithine-derived [14C]proline was incorporated into proteins in a manner different from that of exogenously added radiolabelled proline. A much higher proportion of the proline synthesized de novo was channelled into collagen synthesis relative to total protein synthesis. Together, these results show that intracellular proline pools are highly compartmentalized in arterial SMC. They also suggest that proline synthesized from ornithine may enter a prolyl-tRNA pool separate from that of proline entering from the extracellular medium.
通过测定细胞外、细胞内和脯氨酰 - tRNA库中[³H]脯氨酸的比活性,来确定兔动脉平滑肌细胞(SMC)中胶原蛋白和非胶原蛋白的合成速率。在含有0.25 mM脯氨酸的培养基中培养12小时的细胞中,细胞内游离脯氨酸的比活性仅为细胞外值的25%。脯氨酰 - tRNA的比活性低于细胞外比活性的10%。将细胞外脯氨酸浓度提高10倍(至2.5 mM),同时保持脯氨酸的细胞外比活性不变,可使细胞内和细胞外游离脯氨酸的比活性达到平衡,但脯氨酰 - tRNA的比活性仍低于细胞外比活性的10%。因此,使用脯氨酸的细胞内或细胞外比活性计算胶原蛋白和非胶原蛋白的合成速率会被大大低估。还将SMC在含有0.25 nM或2.5 mM未标记脯氨酸的培养基中与0.1 mM [¹⁴C]鸟氨酸一起孵育,以研究从鸟氨酸从头合成脯氨酸和脯氨酰 - tRNA的情况。在含有0.25 mM未标记脯氨酸的SMC培养物中,由于未标记鸟氨酸的产生,细胞内鸟氨酸的比活性约为细胞外比活性的45%。在含有2.5 mM脯氨酸的培养基中孵育的SMC中,鸟氨酸衍生的细胞内游离脯氨酸的比活性显著低于在含有0.25 mM脯氨酸的培养基中孵育的SMC,这是由于未标记脯氨酸的流入。然而,未观察到在含有0.25 mM或2.5 mM脯氨酸的SMC中[¹⁴C]脯氨酰 - tRNA的比活性存在相应差异。鸟氨酸衍生的[¹⁴C]脯氨酸以与外源添加的放射性标记脯氨酸不同的方式掺入蛋白质中。相对于总蛋白质合成,从头合成的脯氨酸中更高比例被用于胶原蛋白合成。总之,这些结果表明动脉SMC中的细胞内脯氨酸池高度分隔。它们还表明,由鸟氨酸合成的脯氨酸可能进入一个与从细胞外培养基进入的脯氨酸不同的脯氨酰 - tRNA池。