White F P
J Neurosci. 1981 Nov;1(11):1312-9. doi: 10.1523/JNEUROSCI.01-11-01312.1981.
The proteins synthesized in vitro by rat brain, heart, and lung slices were compared by two-dimensional polyacrylamide gel electrophoresis. A protein, P71, which is related to one of the heat shock proteins induced in many cultured cells by hyperthermia and other harsh conditions, was the major protein synthesized by all slices from rats 3 weeks old and older. In vivo synthesis of P71 was not detected in brain, heart, or lung from these animals nor was there any detectable Coomassie brilliant blue-stained protein coinciding with P71 on the gels. P71 thus appears to be a minor protein species in normal unstressed brain, heart, and lung. While both heart and lung slices synthesized large quantities of P71 at all stages of postnatal development, brain slices synthesized little, if any, P71 until 3 weeks postnatal. There was a dramatic decrease in protein synthesis in all tissue slices during postnatal development. During this decrease, the relative abundance of newly synthesized P71 remained almost constant in heart and lung slices, but the relative abundance of P71 increased by approximately 50-fold in brain slices. The cells synthesizing P71 in brain slices were enriched in a microvascular fraction. The increase in P71 synthesis by these cells, occurring between the 3nd and 3rd postnatal week, coincides with the final maturation of brain capillaries and the blood-brain barrier.
通过二维聚丙烯酰胺凝胶电泳比较了大鼠脑、心脏和肺切片在体外合成的蛋白质。一种名为P71的蛋白质,与许多培养细胞在热疗和其他恶劣条件下诱导产生的热休克蛋白之一相关,是3周龄及以上大鼠所有切片合成的主要蛋白质。在这些动物的脑、心脏或肺中未检测到P71的体内合成,凝胶上也没有任何与P71一致的可检测到的考马斯亮蓝染色蛋白。因此,P71在正常未受应激的脑、心脏和肺中似乎是一种次要的蛋白质种类。虽然心脏和肺切片在出生后发育的所有阶段都大量合成P71,但脑切片在出生后3周之前几乎不合成P71(如果有合成的话)。在出生后发育过程中,所有组织切片中的蛋白质合成均显著减少。在这种减少过程中,新合成的P71在心脏和肺切片中的相对丰度几乎保持不变,但在脑切片中P71的相对丰度增加了约50倍。脑切片中合成P71的细胞在微血管部分富集。这些细胞在出生后第2周和第3周之间P71合成的增加,与脑毛细血管和血脑屏障的最终成熟相吻合。