Schmiedeknecht G, Kerkhoff C, Orsó E, Stöhr J, Aslanidis C, Nagy G M, Knuechel R, Schmitz G
Institute of Clinical Chemistry and Laboratory Medicine, University of Regensburg, Germany.
Eur J Biochem. 1996 Dec 1;242(2):339-51. doi: 10.1111/j.1432-1033.1996.0339r.x.
A trichloroacetic-acid-soluble 14.5-kDa protein (p14.5) has been isolated from human mononuclear phagocytes (MNP) by a combination of trichloroacetic acid extraction, preparative electrophoresis and hydrophobic affinity chromatography; five tryptic peptides were subjected to protein sequencing. The full-length cDNA of the protein was cloned and sequenced from a lambda gt11 human liver library. The cDNA showed a remarkable similarity to a rat protein preferentially expressed in hepatocytes and renal tubular epithelial cells. The encoded protein is 137 amino acids long and similar to members of a new hypothetical family of small proteins with presently unknown function, named YER057c/YJGF. Human recombinant p14.5 inhibits in vitro protein synthesis in a rabbit reticulocyte lysate system. Unlike other inhibitors of protein synthesis, p14.5 is not phosphorylated despite the presence of putative phosphorylation sites. The p14.5 mRNA is weakly expressed in freshly isolated monocytes but is significantly upregulated when these monocytes are subjected to differentiation. This is also reflected by a differentiation-dependent increase in the protein concentration as demonstrated by immunoblots from cytosolic fractions and fluorescence-activated flow cytometry of permeabilized cells. A differentiation-dependent mRNA and protein expression of p14.5 is further suggested by the observation of a low expression in a variety of liver and kidney tumor cells and a high expression in fully differentiated cells as assessed by immunohistochemistry and northern blots. The highest mRNA expression was found in hepatocytes and renal distal tubular epithelial cells and only weak expression was found in other human tissues as evaluated by northern blot analysis. The preferential localization of the immunoreaction product seemed to be cytoplasmatic but, in less differentiated cells, nuclear labeling was occasionally visible. Immunoblotting of subcellular fractions confirmed these data. The high degree of evolutionary conservation of p14.5, the considerable upregulation during cellular differentiation and its potential role as a translational inhibitor may reflect an involvement in basic cellular mechanisms, e.g. a differentiation-dependent regulation of protein synthesis in hepatocytes, renal tubular epithelial cells, smooth muscle cells and MNP.
通过三氯乙酸萃取、制备电泳和疏水亲和色谱相结合的方法,从人单核吞噬细胞(MNP)中分离出一种三氯乙酸可溶性14.5 kDa蛋白(p14.5);对五个胰蛋白酶肽段进行了蛋白质测序。从λgt11人肝脏文库中克隆并测序了该蛋白的全长cDNA。该cDNA与一种在肝细胞和肾小管上皮细胞中优先表达的大鼠蛋白具有显著相似性。编码的蛋白长137个氨基酸,与一个新的功能未知的小蛋白假想家族成员相似,该家族名为YER057c/YJGF。人重组p14.5在兔网织红细胞裂解物系统中抑制体外蛋白质合成。与其他蛋白质合成抑制剂不同,尽管存在假定的磷酸化位点,p14.5仍未被磷酸化。p14.5 mRNA在新鲜分离的单核细胞中弱表达,但当这些单核细胞进行分化时会显著上调。细胞质部分的免疫印迹和通透细胞的荧光激活流式细胞术显示,蛋白质浓度的分化依赖性增加也反映了这一点。通过免疫组织化学和Northern印迹评估,在各种肝脏和肾脏肿瘤细胞中p14.5表达较低,而在完全分化的细胞中表达较高,这进一步提示了p14.5的mRNA和蛋白质表达具有分化依赖性。通过Northern印迹分析评估,在肝细胞和肾远端小管上皮细胞中发现mRNA表达最高,而在其他人体组织中仅发现弱表达。免疫反应产物的优先定位似乎在细胞质中,但在分化程度较低的细胞中,偶尔可见核标记。亚细胞组分的免疫印迹证实了这些数据。p14.5的高度进化保守性、细胞分化过程中的显著上调及其作为翻译抑制剂的潜在作用可能反映了它参与基本细胞机制,例如肝细胞、肾小管上皮细胞、平滑肌细胞和MNP中蛋白质合成的分化依赖性调节。
