Anna Maria Curatola scite author profile

The signaling pathways linking integrins to nuclear events are incompletely understood. We have examined intracellular signaling by the α6β4 integrin, a laminin receptor expressed in basal keratinocytes and other cells. Ligation of α6β4 in primary human keratinocytes caused tyrosine phosphorylation of Shc, recruitment of Grb2, activation of Ras and stimulation of the MAP kinases Erk and Jnk. In contrast, ligation of the laminin‐ and collagen‐binding integrins α3β1 and α2β1 did not cause these events. While the stimulation of Erk by α6β4 was suppressed by dominant‐negative Shc, Ras and RhoA, the activation of Jnk was inhibited by dominant‐negative Ras and Rac1 and by the phosphoinositide 3‐kinase inhibitor Wortmannin. Adhesion mediated by α6β4induced transcription from the Fos serum response element and promoted cell cycle progression in response to mitogens. In contrast, α3β1‐ and α2β1‐dependent adhesion did not induce these events. These findings suggest that the coupling of α6β4 integrin to the control of cell cycle progression mediated by Shc regulates the proliferation of basal keratinocytes and possibly other cells which are in contact with the basement membrane in vivo.

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EGF-R signaling through Fyn kinase disrupts the function of integrin α6β4 at hemidesmosomes

Mariotti

et al. 2001

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We have examined the mechanism and functional significance of hemidesmosome disassembly during normal epithelial cell migration and squamous carcinoma invasion. Our findings indicate that a fraction of EGF receptor (EGF-R) combines with the hemidesmosomal integrin α6β4 in both normal and neoplastic keratinocytes. Activation of the EGF-R causes tyrosine phosphorylation of the β4 cytoplasmic domain and disruption of hemidesmosomes. The Src family kinase inhibitors PP1 and PP2 prevent tyrosine phosphorylation of β4 and disassembly of hemidesmosomes without interfering with the activation of EGF-R. Coimmunoprecipitation experiments indicate that Fyn and, to a lesser extent, Yes combine with α6β4. By contrast, Src and Lck do not associate with α6β4 to a significant extent. A dominant negative form of Fyn, but not Src, prevents tyrosine phosphorylation of β4 and disassembly of hemidesmosomes. These observations suggest that the EGF-R causes disassembly of hemidesmosomes by activating Fyn, which in turn phosphorylates the β4 cytoplasmic domain. Neoplastic cells expressing dominant negative Fyn display increased hemidesmosomes and migrate poorly in vitro in response to EGF. Furthermore, dominant negative Fyn decreases the ability of squamous carcinoma cells to invade through Matrigel in vitro and to form lung metastases following intravenous injection in nude mice. These results suggest that disruption of hemidesmosomes mediated by Fyn is a prerequisite for normal keratinocyte migration and squamous carcinoma invasion.

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Processing, secretion, and biological properties of a novel growth factor of the fibroblast growth factor family with oncogenic potential.

Delli-Bovi¹,

Curatola²,

Newman³

et al. 1988

Mol. Cell. Biol.

160

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We recently reported that the protein encoded in a novel human oncogene isolated from Kaposi sarcoma DNA was a growth factor with significant homology to basic and acidic fibroblast growth factors (FGFs). To study the properties of this growth factor (referred to as K-FGF) and the mechanism by which the K-fgf oncogene transforms cells, we have studied the production and processing of K-FGF in COS-1 cells transfected with a plasmid encoding the K-fgf cDNA. The results show that, unlike basic and acidic FGFs, the K-FGF protein is cleaved after a signal peptide, glycosylated, and efficiently secreted as a mature protein of 176 or 175 amino acids. Inhibition of glycosylation impaired secretion, and the stability of the secreted K-FGF was greatly enhanced by the presence of heparin in the cultured medium. We have used the conditioned medium from transfected COS-1 cells to test K-FGF biological activity. Similar to basic FGF, the K-FGF protein was mitogenic for fibroblasts and endothelial cells and induced the growth of NIH 3T3 mouse cells in serum-free medium. Accordingly, K-fgf-transformed NIH 3T3 cells grew in serum-free medium, consistent with an autocrine mechanism of growth. We have also expressed the protein encoded in the K-fgf protooncogene in COS-1 cells, and it was indistinguishable in its molecular weight, glycosylation, secretion, and biological activity from K-FGF. Taken together, these results suggest that the mechanism of activation of this oncogene is due to overexpression rather than to mutations in the coding sequences.

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Rapid Degradation of AU-Rich Element (ARE) mRNAs Is Activated by Ribosome Transit and Blocked by Secondary Structure at Any Position 5′ to the ARE

Curatola

Nadal

Schneider

1995

Molecular and Cellular Biology

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The 3' noncoding region (NCR) AU-rich element (ARE) selectively confers rapid degradation on many mRNAs via a process requiring translation of the message. The role of cotranslation in destabilization of ARE mRNAs was examined by insertion of translation-blocking stable secondary structure at different sites in test mRNAs containing either the granulocyte-macrophage colony-stimulating factor (GM-CSF) ARE or a control sequence. A strong (-80 kcal/mol [1 kcal = 4.184 kJ]) but not a moderate (-30 kcal/mol) secondary structure prevented destabilization of mRNAs when inserted at any position upstream of the ARE, including in the 3' NCR. Surprisingly, a strong secondary structure did not block rapid mRNA decay when placed immediately downstream of the ARE. Studies are also presented showing that the turnover of mRNAs containing control or ARE sequences is not altered by insertion of long (1,000-nucleotide) intervening segments between the stop codon and the ARE or between the ARE and poly(A) tail. Characterization of ARE-containing mRNAs in polyadenylated and whole cytoplasmic RNA fractions failed to find evidence for decay intermediates degraded to the site of strong secondary structure from either the 5' or 3' end. From these and other data presented, this study demonstrates that complete translation of the coding region is essential for activation of rapid mRNA decay controlled by the GM-CSF ARE and that the structure of the 3' NCR can strongly influence activation. The results are consistent with activation of ARE-mediated decay by possible entry of translation-linked decay factors into the 3' NCR or translation-coupled changes in 3' NCR ribonucleoprotein structure or composition.

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