Isolation of a cDNA clone encoding rat insulin-like growth factor-II precursor

Insulin-like growth factor-I (IGF-I) and IGF-II are mitogenic polypeptides of relative molecular mass (Mr) approximately 7,500 isolated from human plasma each containing four peptide domains in a single chain and identical at more than 60% of their amino acid loci. The B- and A-domains of the IGFs are approximately 40% identical to the B- and A-chains of human insulin. IGF-I and IGF-II have similar in vitro biological activities and receptor reactivity, but are immunologically distinct. IGF-I appears to mediate the effects of growth hormone on cartilage to promote skeletal growth whereas IGF-II may have a special role in fetal development and in the central nervous system. To investigate the in vivo role of IGF-II, we have studied IGF-II biosynthesis in the BRL-3A rat liver cell line. BRL-3A cells synthesize and secrete a 7,484 Mr protein 93% identical to human IGF-II and representing rat IGF-II (rIGF-II). Rat IGF-II is synthesized as a approximately 22,000 Mr prepro-rIGF-II (ref. 12) from 12 S poly(A)+mRNA. In addition, approximately 20,000 Mr pro-rIGF-II has been identified in lysates of biosynthetically labelled intact BRL-3A cells. We report here the isolation of an almost complete cDNA clone for rIGF-II. Our results indicate that pro-rIGF-II is synthesized as a 156 amino acid peptide precursor (17,619 Mr) containing mature rIGF-II 1-67 at its amino-terminus and an 89-residue carboxy-terminal peptide extension.     

Use of a cDNA clone to identify a supposed precursor protein containing valosin

Valosin, a novel 25-amino-acid peptide isolated recently from pig intestine, has several effects on the digestive system of dogs. We report here that the valosin-specific complementary DNA clone from pigs codes for a polypeptide unlike most precursors of biologically active peptides. The predicted protein lacks a characteristic amino-terminal hydrophobic signal sequence and contains no processing signals of the type acted upon by endopeptidases to generate other active peptides from precursors. Antibodies to synthetic valosin have been used to show that nearly all valosin immunoreactivity is in the cytoplasm and that the protein detected (valosin-containing protein, VCP), although smaller than the predicted product of the cDNA sequence, is much larger than valosin. Valosin-specific messenger RNA is found in extracts from many pig tissues, which contrasts with the restricted occurrence expected of a biologically active peptide. We conclude that valosin is an artefact of the purification procedure and does not occur in vivo.     

Binding of a specific ligand inhibits import of a purified precursor protein into mitochondria

Methotrexate, a folate antagonist, blocks import into mitochondria of mouse dihydrofolate reductase fused to a mitochondrial presequence. Methotrexate does not mask the presequence, but stabilizes the dihydrofolate reductase moiety. It does not inhibit import of the authentic precursor from which the presequence is derived. This suggests that dihydrofolate reductase must at least partly unfold in order to be transported across mitochondrial membranes.     

mRNA sequence for human cardiodilatin-atrial natriuretic factor precursor and regulation of precursor mRNA in rat atria

The mammalian cardiac atrium has recently been shown to contain numerous peptides that exert marked effects on kidney function and vascular resistance. With one exception, the peptides have potent natriuretic and diuretic activities, and sequence similarities suggest that they may be derived from a common atrial natriuretic factor (ANF) precursor. The exception, cardiodilatin (CDD), differs from the ANF peptides in possessing potent vasorelaxant activity, but not natriuretic and diuretic activities. Here we report the cloning and sequence analysis of the cDNA for the human precursor protein (preproCDD-ANF) containing both the CDD and ANF sequences. The CDD sequence represents the N-terminal sequence preceded directly by a signal peptide, while the ANF sequence is present at the C-terminal end of the protein. Using hybridization analysis, we further show that the amount of rat preproCDD-ANF mRNA, which is synthesized selectively in the atria but not the ventricles, markedly decreases on water deprivation, suggesting that the water-electrolyte balance may be an important factor in the regulation of the expression of the preproCDD-ANF gene.     

新型雌激素受体ERα36在张氏肝细胞和人肝癌细胞中的表达比较分析

研究新型雌激素受体ERα36在人肝细胞和肝癌细胞系中的差异表达具有重要的意义.以张氏肝(Chang Liv-er)、Caveolin-1基因沉默细胞株CAV7、人肝癌细胞系SMMC-7721和HepG2为实验材料,通过免疫印迹杂交法观察了不同细胞内ERα36蛋白的表达情况,并与典型雌激素受体亚型ERα66蛋白的表达进行了比较.结果发现:(1)几种细胞中均有ERα36蛋白的表达;(2)与张氏肝细胞相比,Caveolin-1基因沉默时ERα36表达明显增加(P0.01);(3)ERα36在SMMC-7721中表达水平较低,而在HepG2细胞中表达水平较高,与ERα66和Caveolin-1的表达水平相关.提示新型雌激素受体ERα36可能参与Caveolin-1介导的雌激素信号转导,而在肝细胞的恶性增殖过程中发挥一定的作用.     

The yeast ubiquitin gene: head-to-tail repeats encoding a polyubiquitin precursor protein

Ubiquitin, a 76-residue protein, occurs in cells either free or covalently joined to a variety of protein species, from chromosomal histones to cytoplasmic proteins. Conjugation of ubiquitin to proteolytic substrates is essential for the selective degradation of intracellular proteins in higher eukaryotes. We show here that a protein homologous to human ubiquitin exists in the yeast Saccharomyces cerevisiae, and that yeast extracts conjugate human ubiquitin to a variety of endogenous proteins in an ATP-dependent reaction. We have isolated the S. cerevisiae ubiquitin gene and found it to contain six consecutive ubiquitin-coding repeats in a found it to contain six consecutive ubiquitin-coding repeats in a head-to-tail arrangement. This apparently unique gene organization suggests that yeast ubiquitin is generated by processing of a precursor protein in which several exact repeats of the ubiquitin amino acid sequence are joined directly via Gly-Met peptide bonds between the last and first residues of mature ubiquitin, respectively. Ubiquitin-coding yeast DNA repeats are restricted to a single genomic locus; although the sequenced repeats differ in up to 27 of 228 bases per repeat, they encode identical amino acid sequences. As this predicted amino acid sequence differs in only 3 of 76 residues from that of ubiquitin in higher eukaryotes, ubiquitin is apparently the most conserved of known proteins.     

The precursor of Alzheimer's disease amyloid A4 protein resembles a cell-surface receptor

Alzheimer's disease is characterized by a widespread functional disturbance of the human brain. Fibrillar amyloid proteins are deposited inside neurons as neurofibrillary tangles and extracellularly as amyloid plaque cores and in blood vessels. The major protein subunit (A4) of the amyloid fibril of tangles, plaques and blood vessel deposits is an insoluble, highly aggregating small polypeptide of relative molecular mass 4,500. The same polypeptide is also deposited in the brains of aged individuals with trisomy 21 (Down's syndrome). We have argued previously that the A4 protein is of neuronal origin and is the cleavage product of a larger precursor protein. To identify this precursor, we have now isolated and sequenced an apparently full-length complementary DNA clone coding for the A4 polypeptide. The predicted precursor consists of 695 residues and contains features characteristic of glycosylated cell-surface receptors. This sequence, together with the localization of its gene on chromosome 21, suggests that the cerebral amyloid deposited in Alzheimer's disease and aged Down's syndrome is caused by aberrant catabolism of a cell-surface receptor.