rasH mutants deficient in GTP binding.

Der, Channing J.; Pan, Bin-Tao; Cooper, Geoffrey M.

doi:10.1128/mcb.6.9.3291

Cited by 98 publications

(57 citation statements)

References 38 publications

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“…Mutations at H-Ras codon 117 have been previously described in chemically induced liver tumors in mice (Anna et al, 1994;Stanley et al, 1994). The observed substitution disrupts a consensus sequence of Asn-Lys-X-Asp (Ras residues 116-119) commonly found in GTP-binding proteins (Der et al, 1986). This region contains the segment of the guanine nucleotide binding pocket including amino acid 117 that interacts with the guanine ring (Figure 7).…”

Section: Discussionmentioning

confidence: 87%

An unusual H-Ras mutant isolated from a human multiple myeloma line leads to transformation and factor-independent cell growth

et al. 2003

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Section: Discussionmentioning

confidence: 87%

An unusual H-Ras mutant isolated from a human multiple myeloma line leads to transformation and factor-independent cell growth

et al. 2003

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“…In the present study, we used the same approach to examine the possible role of a Golgi-localized Rab protein, Rab6, in the secretory and amyloidogenic processing of ␤APP. By analogy to other members of the Ras superfamily (46,47) WT or Myc-Rab6 N126I ranged from 3-to 5-fold over the endogenous Rab6, as determined by immunoblot analysis with an affinity-purified antibody against Rab6 (not shown). Expression levels of ␤APP 751 were approximately 40-fold over the endogenous ␤APP in 293 cells, so that measurements of products derived from ␤APP (i.e.…”

Section: N121imentioning

confidence: 98%

Differential Effects of a Rab6 Mutant on Secretory Versus Amyloidogenic Processing of Alzheimer's β-Amyloid Precursor Protein

McConlogue

Castellano

deWit

et al. 1996

Journal of Biological Chemistry

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The Ras-related GTP-binding protein, Rab6, is localized in late Golgi compartments where it mediates intraGolgi vesicular trafficking. Herein we report that coexpression of Alzheimer's ␤-amyloid precursor protein (␤APP 751 ) with a dominant-negative Rab6 mutant (Rab6 The 4-kDa amyloid ␤-peptide (A␤) 1 has been implicated in the pathogenesis of Alzheimer's disease (1, 2). A␤ is formed as the result of intracellular proteolytic processing of ␤-amyloid precursor proteins (␤APP 695 , ␤APP 751 , and ␤APP 770 ). The biogenesis of A␤ begins when ␤APP is cleaved by an enzymatic activity termed ␤-secretase, releasing a soluble NH 2 -terminal exodomain (s-APP␤), which is secreted from the cell, and leaving a membrane-anchored COOH-terminal fragment containing the intact A␤ sequence (3-6). A␤ is released when the latter fragment is further trimmed by another proteolytic activity currently referred to as ␥-secretase (7, 8). While amyloidogenic processing of ␤APP is known to occur at low levels ubiquitously, cells that produce ␤APP direct the substantial proportion of the precursor protein to the constitutive secretory pathway, where it is processed via a non-amyloidogenic mechanism. The latter entails initial cleavage of ␤APP within the A␤ domain by an enzymatic activity termed ␣-secretase, releasing a soluble exodomain (s-APP␣) containing part of the A␤ sequence (3, 9 -11). Because the residual COOH-terminal stump lacks an intact A␤ domain, it cannot give rise to A␤ when cleaved by ␥-secretase.The mechanisms by which cells control the flux of ␤APP into the amyloidogenic versus non-amyloidogenic pathways are poorly understood. It has been particularly difficult to determine the precise subcellular sites of the various processing events because the relevant proteases have not yet been isolated. However, there is sufficient evidence to suggest that ␣-secretase acts on the mature form of ␤APP at the cell surface or in a late compartment of the default secretory pathway, after it has undergone tyrosine sulfation (10,(12)(13)(14)(15). Less is known about the subcellular sites of the amyloidogenic processing of ␤APP by ␤-secretase and ␥-secretase. A number of studies have indicated that events occurring in acidic compartments (e.g. endosomes or vesicles of the trans-Golgi network) are involved in the biogenesis of A␤ (16 -19). In particular, a recent study suggests that ␤-secretase cleavage of ␤APP containing the Swedish mutation occurs within transitional vesicles between the trans-Golgi compartment and the cell surface (20).To elucidate the steps involved in intracellular trafficking and processing of ␤APP, we have adopted a novel strategy, which is based on mutagenesis and expression of GTP-binding proteins encoded by the rab gene family. There are currently more than 30 distinct Rab proteins, which are localized in discrete organelles and vesicles, where they play key roles in protein trafficking between specific donor and acceptor compartments along the exocytic or endocytic routes (21-23). Like other Ras-related proteins, R...

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“…Although the mechanism by which v-Abl activates Ras remains unknown, it has been suggested that v-Abl can interact directly with Shc thereby initiating the formation of a complex with Grb2-mSos and ensuing Ras-Raf activation (49). A mutationally activated form of Ras, most commonly G12V, is found in up to 30% of all human tumors (53)(54)(55)(56)(57)(58)(59)(60)(61).…”

Section: Caveolin-1 Expression Inhibits Ras-mediated Transcriptional mentioning

confidence: 99%

Recombinant Expression of Caveolin-1 in Oncogenically Transformed Cells Abrogates Anchorage-independent Growth

Engelman¹,

Wykoff²,

Yasuhara³

et al. 1997

Journal of Biological Chemistry

345

336

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Caveolae are plasma membrane-attached vesicular organelles. Caveolin-1, a 21-24-kDa integral membrane protein, is a principal component of caveolae membranes in vivo. Both caveolae and caveolin are most abundantly expressed in terminally differentiated cells: adipocytes, endothelial cells, and muscle cells. Conversely, caveolin-1 mRNA and protein expression are lost or reduced during cell transformation by activated oncogenes such as v-abl and H-ras (G12V); caveolae are absent from these cell lines. However, its remains unknown whether down-regulation of caveolin-1 protein and caveolae organelles contributes to their transformed phenotype.Here, we have expressed caveolin-1 in oncogenically transformed cells under the control of an inducible-expression system. Regulated induction of caveolin-1 expression was monitored by Western blot analysis and immunofluorescence microscopy. Our results indicate that caveolin-1 protein is expressed well using this system and correctly localizes to the plasma membrane. Induction of caveolin-1 expression in v-Abl-transformed and H-Ras (G12V)-transformed NIH 3T3 cells abrogated the anchorage-independent growth of these cells in soft agar and resulted in the de novo formation of caveolae as seen by transmission electron microscopy. Consistent with its antagonism of Ras-mediated cell transformation, caveolin-1 expression dramatically inhibited both Ras/MAPK-mediated and basal transcriptional activation of a mitogen-sensitive promoter. Using an established system to detect apoptotic cell death, it appears that the effects of caveolin-1 may, in part, be attributed to its ability to initiate apoptosis in rapidly dividing cells. In addition, we find that caveolin-1 expression levels are reversibly down-regulated by two distinct oncogenic stimuli. Taken together, our results indicate that down-regulation of caveolin-1 expression and caveolae organelles may be critical to maintaining the transformed phenotype in certain cell populations.

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rasH mutants deficient in GTP binding.

Cited by 98 publications

References 38 publications

An unusual H-Ras mutant isolated from a human multiple myeloma line leads to transformation and factor-independent cell growth

An unusual H-Ras mutant isolated from a human multiple myeloma line leads to transformation and factor-independent cell growth

Differential Effects of a Rab6 Mutant on Secretory Versus Amyloidogenic Processing of Alzheimer's β-Amyloid Precursor Protein

Recombinant Expression of Caveolin-1 in Oncogenically Transformed Cells Abrogates Anchorage-independent Growth

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