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Query: UNIPROT:P06889 (Mol)
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Expression of GTPase-deficient Gi2 alpha subunit (alpha i2) mutant polypeptides and overexpression of the wild-type alpha i2 polypeptide in Rat 1a, Swiss 3T3, and NIH 3T3 fibroblasts altered normal growth regulation and induced a loss of contact inhibition. In Rat 1a cells (but not in NIH 3T3 or Swiss 3T3 cells), expression of the GTPase-deficient alpha i2 mutant polypeptides allowed colony formation in soft agar, which correlated with a loss in anchorage dependence and a decreased serum requirement. The altered growth regulatory properties of Rat 1a cells induced by expression of alpha i2 mutant polypeptides was not significantly inhibited by cotransfection with a dominant negative Ha-ras mutant polypeptide (Asn-17rasH), indicating that the activated Gi2 membrane signal transduction protein is uniquely capable of altering the regulation of Rat 1a cell growth by a predominantly c-ras-independent mechanism. The results show that GTPase-deficient alpha i2 mutant polypeptides have the properties of an oncogene that can induce the phenotypic characteristics of transformation in Rat 1a cells but that only a subset of these changes is observed with NIH 3T3 and Swiss 3T3 cells.
Mol Cell Biol 1992 Jan
PMID:Analysis of the fibroblast transformation potential of GTPase-deficient gip2 oncogenes. 172 98

The Saccharomyces cerevisiae ras-like gene RSR1 is particularly closely related to the mammalian gene Krev-1 (also known as smg21A and rap1A). RSR1 was originally isolated as a multicopy suppressor of a cdc24 mutation, which causes an inability to bud or establish cell polarity. Deletion of RSR1 itself does not affect growth but causes a randomization of bud position. We have now constructed mutant alleles of RSR1 encoding proteins with substitutions of Val for Gly at position 12 (analogous to constitutively activated Ras proteins) or Asn for Lys at position 16 (analogous to a dominant-negative Ras protein). rsr1Val-12 could not restore a normal budding pattern to an rsr1 deletion strain but could suppress a cdc24 mutation when overexpressed. rsr1Asn-16 could randomize the budding pattern of a wild-type strain even in low copy number but was not lethal even in high copy number. These and other results suggest that Rsr1p functions only in bud site selection and not in subsequent events of polarity establishment and bud formation, that this function involves a cycling between GTP-bound and GDP-bound forms of the protein, and that the suppression of cdc24 involves direct interaction between Rsr1p[GTP] and Cdc24p. Functional homology between Rsr1p and Krev-1 p21 was suggested by the observations that expression of the latter protein in yeast cells could both suppress a cdc24 mutation and randomize the budding pattern of wild-type cells. As Krev-1 overexpression can suppress ras-induced transformation of mammalian cells, we looked for effects of RSR1 on the S. cerevisiae Ras pathway. Although no suppression of the activated RAS2Val-19 allele was observed, overexpression of rsr1Val-12 suppressed the lethality of strains lacking RAS gene function, apparently through a direct activation of adenyl cyclase. This interaction of Rsr1p with the effector of Ras in S. cerevisiae suggests that Krev-1 may revert ras-induced transformation of mammalian cells by affecting the interaction of ras p21 with its effector.
Mol Cell Biol 1992 Feb
PMID:RSR1, a ras-like gene homologous to Krev-1 (smg21A/rap1A): role in the development of cell polarity and interactions with the Ras pathway in Saccharomyces cerevisiae. 173 42

An investigation is described of the expression of the cysteine proteinase cathepsin L during placental development. In addition, whether cathepsin L expression is linked to c-rasHa expression in development, as it is in metastatic cells, is examined. Large amounts of cathepsin L and its transcript are present in the mouse placenta, more than six times more than in adult kidney and liver. Throughout gestation, cathepsin L and its transcript are located in the giant cells and spongiotrophoblasts of the placenta. Several forms of different mobility on denaturing gels are found in the placenta. Their apparent molecular weights, as determined from the gels, are 43,000, 39,000, 29,000, and 20,000. The 39-kDa form is procathepsin L. The 29-kDa and 20-kDa forms are lysosomal cathepsin Ls. The 39-kDa procathepsin L and the 20-kDa mature cathepsin L are the most abundant species in the placenta and are present in about equal amounts throughout gestation. At any time during gestation, placental minces synthesize and secrete only procathepsin L. The amniotic fluid of the fetus contains the 43-kDa form of cathepsin L and procathepsin L, but no detectable amounts of mature cathepsin L. By contrast, serum from nonpregnant or pregnant mice contains three forms of cathepsin L (i.e., the 43-kDa form, procathepsin L, and mature cathepsin L). Cathepsin L and the rasHa oncogene are expressed in two coincident waves corresponding to periods during which the placenta is invasive and just before parturition. The presence of large amounts of cathepsin L in the placenta suggests that the proteinase has a significant function there. Expression of cathepsin L in the placenta is potentially under the control of the ras gene product p21; both are under developmental control.
Mol Reprod Dev 1991 Dec
PMID:Developmental expression of cathepsin L and c-rasHa in the mouse placenta. 175 Oct 32

1. Dimethylsulfoxide-induced differentiated neuroblastoma express high levels of membrane 21 to 23-kDa carboxyl methylated proteins. Relationships among methylation, isoprenylation, and GTP binding in these proteins were investigated. Protein carboxyl methylation, protein isoprenylation, and [alpha-32P]GTP binding were determined in the electrophoretically separated proteins of cells labeled with the methylation precursor [methyl-3H]methionine or with an isoprenoid precursor [3H]mevalonate. 2. A broad band of GTP-binding proteins, which overlaps with the methylated 21 to 23-kDa proteins, was detected in [alpha-32P]GTP blot overlay assays. This band of proteins was separated in two-dimensional gels into nine methylated proteins, of which four bound GTP. 3. The carboxyl-methylated 21 to 23-kDa proteins incorporated [3H]mevalonate metabolites with characteristics of protein isoprenylation. The label was not removed by organic solvents or destroyed by hydroxylamine. Incorporation of radioactivity from [3H]mevalonate was enhanced when endogenous levels of mevalonate were reduced by lovastatin, an inhibitor of mevalonate synthesis. Lovastatin blocked methylation of the 21 to 23-kDa proteins as well (greater than 70%). 4. Methylthioadenosine, a methylation inhibitor, inhibited methylation of these proteins (greater than 80%) but did not affect their labeling by [3H]mevalonate. The results suggest that methylation of the 21 to 23-kDa proteins depends on, and is subsequent to, isoprenylation. The sequence of events may be similar to that known in ras proteins, i.e., carboxyl methylation of a C-terminal cysteine that is isoprenylated. 5. Lovastatin reduced the level of small GTP-binding proteins in the membranes and increased GTP binding in the cytosol. Methylthioadensoine blocked methylation without affecting GTP binding. 6. Thus, isoprenylation appears to precede methylation and to be important for membrane association, while methylation is not required for GTP binding or membrane association. The role of methylation remains to be determined but might be related to specific interactions of the small GTP-binding proteins with other proteins.
Cell Mol Neurobiol 1991 Aug
PMID:Relationship among methylation, isoprenylation, and GTP binding in 21- to 23-kDa proteins of neuroblastoma. 175 64

Three G proteins from human brain membranes were purified to near homogeneity by conventional techniques including preparative electrophoresis. These G proteins were characterized by their ability to bind GTP, GDP and GTP analogs. Two of these proteins have molecular weights of 50,000 (G50) and 36,000 (G36), as determined on SDS-gels. G36 was ADP-ribosylated by pertussis toxin. Thus, G50 could represent a Gs alpha subunit, whereas G36 could be Gi alpha or Go alpha. G50 was phosphorylated by cAMP dependent protein kinase and protein kinase C. G36 was phosphorylated by a protein kinase independent of calcium and phospholipid, a proteolytic product of protein kinase C, analogous to protein kinase M. Phosphorylation of G36 by this protein kinase induced a dramatic decrease in its GTPase activity. The third G protein, of molecular weight 22,000 probably belongs to the group of monomeric G proteins possessing functional similarities with ras gene products. The regulation of G proteins involving calcium-dependent and independent pathways is delineated.
Mol Cell Biochem 1991 Sep 18
PMID:Purification and characterization of G proteins from human brain: modification of GTPase activity upon phosphorylation. 178 75

In this study, we analyzed 10 human squamous cell carcinomas (SCCs) for alterations in the p53 tumor suppressor gene in exons 4 through 9 by single-strand conformation polymorphism (SSCP) analysis. We found that 2 of 10 SCCs displayed unusual SSCP alleles at exon 7 of the p53 gene. Subsequent cloning and sequencing of PCR-amplified exon 7 DNA from these two tumors revealed that one had a G----A transition at the first position of codon 244, predicting a glycine-to-serine amino acid change, while the other tumor exhibited a G----T base change at the second nucleotide of codon 248, predicting an arginine-to-leucine substitution. Because the mutations in the p53 tumor suppressor gene in both tumors were located opposite potential pyrimidine dimer sites (C-C), it is consistent with these mutations having been induced by the ultraviolet radiation present in sunlight. These studies demonstrate that inactivation of the p53 tumor suppressor gene, as well as activation of ras oncogenes, may be involved in the pathogenesis of some human skin cancers.
Mol Carcinog 1991
PMID:Mutations in the p53 tumor suppressor gene in human cutaneous squamous cell carcinomas. 179 82

Point mutations of c-ras genes were investigated in human angiosarcomas of the liver associated with occupational exposure to vinyl chloride. DNA prepared from either frozen or paraffin-embedded tissues was amplified by the polymerase chain reaction, and putative point mutations at codons 12, 13, and 61 of c-Ha-ras, c-Ki-ras, and N-ras were analyzed by dot-blot hybridization with allele-specific oligonucleotides. A G.C----A.T transition in the second nucleotide at codon 13 of the c-Ki-ras-2 gene was detected in 5 of 6 tumors. This mutation is likely a consequence of vinyl chloride-DNA adduct formation. It leads to the substitution of glycine by aspartic acid in the resulting p21 protein, a consistent amino acid substitution found so far in all types of human cancer exhibiting a codon 13-mutated Ki-ras gene.
Mol Carcinog 1991
PMID:Activation of Ki-ras gene by point mutation in human liver angiosarcoma associated with vinyl chloride exposure. 179 83

A high frequency of point mutations at codon 12 of the Ki-ras gene has previously been reported for rat kidney mesenchymal tumors induced by methylating N-nitroso compounds. In this study, we analyzed renal tumors with divergent histogenesis, i.e., mesenchymal tumors (sarcomas), cortical epithelial tumors (carcinomas), and embryonal tumors (nephroblastomas). Renal mesenchymal tumors and carcinomas were induced in juvenile or young adult Wistar rats by a single dose of N-nitrosodimethylamine (NDMA) while nephroblastomas were induced in Nb hooded rats by a single transplacental dose of N-nitrosoethylurea (NEU). Nephroblastomas developing spontaneously in WAB/Not rats were also examined. Amplification of Ki-ras sequences from formalin-fixed, paraffin-embedded tissue by the polymerase chain reaction was followed by direct DNA sequencing. GGT----GAT point mutations at codon 12 of the Ki-ras gene were found in 9 of 12 (75%) renal mesenchymal tumors and in 9 of 12 (75%) cortical epithelial tumors induced by NDMA. Even higher incidences were observed in nephroblastomas (8/8; 100%) induced by NEU and in spontaneous nephroblastomas (10/11; 91%). These results indicate that Ki-ras mutations are frequent events during the development of kidney tumors irrespective of their histogenesis and suggest that they may play an important role in renal carcinogenesis in rats. These data further indicate that mutational activation of Ki-ras proto-oncogenes in carcinogen-induced rat kidney tumors occurs in a tissue-specific, rather than cell-specific, manner.
Mol Carcinog 1991
PMID:Ki-ras mutations in spontaneous and chemically induced renal tumors of the rat. 179 84

Transient overexpression of ras, mos, or fos transcribed from various inducible promoters in NIH 3T3 cells causes significant increases in the frequency of chromosomal aberrations and, as shown for fos, in gene mutations. Under the experimental conditions of exponential growth and full serum supply, overexpression of the oncogenes does not increase the proliferation rate of cells. The generation of ras- and mos-induced chromosomal aberrations was suppressed in cells that had been deprived of fos protein by antisense c-fos oligodeoxynucleotides. The induction of chromosomal aberrations by ultraviolet irradiation is also suppressed by antisense c-fos oligodeoxynucleotides. The data suggest that fos protein alone, or a transcription factor that contains fos protein as a subunit, activates or induces the synthesis of one or several mutator functions. Oncogene-driven mutagenesis could account for the accumulation of additional mutations after the activation of an oncogene, which may furnish a mechanistic basis for tumor promotion and tumor progression.
Mol Carcinog 1991
PMID:Involvement of fos in spontaneous and ultraviolet light-induced genetic changes. 179 85

Although the rules which describe the atomic basis of structure-function relationships of proteins have yet to be deciphered, they are nevertheless coded within the framework of the amino acid and nucleotide sequence. The objectives of the present investigations were to document a composite, new approach for the evaluation of the structure-function dependencies of proteins based on the analysis of the informational content of the primary amino acid sequence as well as the topological and functional regions of a protein. This approach is validated with the example of the p21 Ha-ras oncogene family of proteins. Using this approach, amino acids crucial for p21 transforming activity have been identified and these amino acid residue assignments compared with experimental data.
J Mol Recognit
PMID:'Hot spot' amino acid distribution in Ha-ras oncogene product p21: relationship to guanine binding site. 181 Mar 47

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