Piers Acland scite author profile

Fibroblast growth factors (FGFs) have been implicated in many aspects of cell growth and differentiation both in normal and neoplastic settings. For example, the mouse int-2 gene, which encodes an FGF-related product, is a frequent target of proviral activation in carcinomas induced by mouse mammary tumour virus, but apparently functions at discrete stages of normal embryonic development. Six classes of int-2 messenger RNA have been identified in embryonic cells, each of which is predicted to encode the same 245-amino-acid protein. But all known int-2 transcripts include sequences upstream of the AUG codon presumed to be the initiation codon. Here we report an additional N-terminally extended int-2 gene product initiated at an in-frame CUG codon. In COS-1 cells transiently transfected with appropriate int-2 complementary DNAs, the AUG-initiated product is found predominantly in the secretory pathway, whereas the CUG-initiated form is localized to the nucleus. These data indicate that the Int-2 oncoprotein could influence cellular behaviour by two distinct mechanisms.

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Competition between nuclear localization and secretory signals determines the subcellular fate of a single CUG-initiated form of FGF3.

Kiefer

et al. 1994

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The presumed open reading frame for mouse FGF3, starting at the most 5′ AUG codon, predicts a hydrophobic N‐terminus characteristic of a signal peptide for secretion. However, in reticulocyte lysates and transfected COS‐1 cells, the full‐length Fgf‐3 cDNA is translated almost exclusively from an upstream CUG codon. The resultant products are distributed in both the nucleus and the secretory pathway, implying that the single CUG‐initiated form of FGF3 has dual fates. By analysing a series of deletion and replacement mutants and by linking parts of FGF3 to a heterologous protein, we show that secretion is mediated by cleavage adjacent to the previously defined signal peptide, whereas nuclear localization is determined primarily by a classical but relatively weak bipartite motif. In the context of FGF3, nuclear localization also requires the N‐terminal sequences which lie upstream of the signal peptide. Thus, the subcellular fate of FGF3 is determined by the competing effects of signals for secretion and nuclear localization within the same protein, rather than by alternative initiation or processing.

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Detection and characterization of the fibroblast growth factor-related oncoprotein INT-2.

Dixon¹,

Deed²,

Acland³

et al. 1989

Mol. Cell. Biol.

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Products of the fibroblast growth factor-related proto-oncogene int-2 have been detected by using a monoclonal antibody and polyclonal antisera raised against synthetic peptides predicted from the DNA sequence. COS-1 monkey cells transfected with int-2 DNA linked to the simian virus 40 early promoter contained at least four int-2-specific proteins, presumably representing modified forms of the expected 27-kilodalton primary translation product. The level of expression was increased approximately six- to eightfold by mutation of sequences around the presumed initiation codon, negating their capacity to encode a short oligopeptide in the +1 reading frame. Both tunicamycin inhibition and in vitro translation experiments indicated that some of the modifications correspond to asparagine-linked glycosylation, for which the sequence predicts a single site. In line with the similarities between INT-2 and other fibroblast growth factors, the in vitro translation products functioned as weak mitogens for mammary epithelial cells.

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Expression, Processing, and Properties of int‐2

Dickson

Fuller-Pace

Kiefer

et al. 1991

Annals of the New York Academy of Sciences

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Detection and Characterization of the Fibroblast Growth Factor-Related Oncoprotein INT-2

Dixon

Deed

Acland

et al. 1989

Molecular and Cellular Biology

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Piers Acland

Subcellular fate of the lnt-2 oncoprotein is determined by choice of initiation codon

Competition between nuclear localization and secretory signals determines the subcellular fate of a single CUG-initiated form of FGF3.

Detection and characterization of the fibroblast growth factor-related oncoprotein INT-2.

Expression, Processing, and Properties of int‐2

Detection and Characterization of the Fibroblast Growth Factor-Related Oncoprotein INT-2

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