Edwina C. Lerner scite author profile

Purpose We determined hepatocyte growth factor (HGF) and c-Met expression and signaling in human head and neck squamous cell carcinoma (HNSCC) cells and primary tissues and tested the ability of c-Met tyrosine kinase inhibitors (TKI) to block HGF-induced biological signaling. Experimental Design Expression and signaling were determined using immunoblotting, ELISA, and immunohistochemistry. Biological end points included wound healing, cell proliferation, and invasion. c-Met TKIs were tested for their ability to block HGF-induced signaling and biological effects in vitro and in xenografts established in nude mice. Results c-Met was expressed and functional in HNSCC cells. HGF was secreted by HNSCC tumor-derived fibroblasts, but not by HNSCC cells. Activation of c-Met promoted phosphorylation of AKT and mitogen-activated protein kinase as well as release of the inflammatory cytokine interleukin-8. Cell growth and wound healing were also stimulated by HGF. c-Met TKIs blocked HGF-induced signaling, interleukin-8 release, and wound healing. Enhanced invasion of HNSCC cells induced by the presence of tumor-derived fibroblasts was completely blocked with a HGF-neutralizing antibody. PF-2341066, a c-Met TKI, caused a 50% inhibition of HNSCC tumor growth in vivo with decreased proliferation and increased apoptosis within the tumors. In HNSCC tumor tissues, both HGF and c-Met protein were increased compared with expression in normal mucosa. Conclusions These results show that HGF acts mainly as a paracrine factor in HNSCC cells, the HGF/c-Met pathway is frequently up-regulated and functional in HNSCC, and a clinically relevant c-Met TKI shows antitumor activity in vivo. Blocking the HGF/c-Met pathway may be clinically useful for the treatment of HNSCC.

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SH3-dependent stimulation of Src-family kinase autophosphorylation without tail release from the SH2 domain in vivo

Lerner

Smithgall

2002

Nat. Struct Biol.

157

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Src family protein-tyrosine kinase activity is suppressed by two intramolecular interactions. These involve binding of the SH2 domain to the phosphorylated C-terminal tail and association of the SH3 domain with a polyproline type II helix formed by the SH2-kinase linker. Here we show that SH3-dependent activation of the Src family member Hck by HIV-1 Nef binding or by SH2-kinase linker mutation does not affect tail tyrosine phosphorylation in fibroblasts. Surprisingly, replacement of the wild type Hck tail with a high-affinity SH2 domain-binding sequence did not affect Hck activation or downstream signaling by these SH3-dependent mechanisms, suggesting that activation through SH3 occurs without SH2-tail dissociation. These results identify SH3-linker interaction as an independent mode of Hck kinase regulation in vivo and suggest that different mechanisms of Src kinase activation may generate distinct output signals because of differences in SH2 or SH3 domain accessibility.

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Src Kinases Mediate STAT Growth Pathways in Squamous Cell Carcinoma of the Head and Neck

Xi¹,

Zhang

Dyer³

et al. 2003

Journal of Biological Chemistry

163

153

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Inhibition of the prenylation of K-Ras, but not H- or N-Ras, is highly resistant to CAAX peptidomimetics and requires both a farnesyltransferase and a geranylgeranyltransferase I inhibitor in human tumor cell lines

et al. 1997

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The farnesyltransferase (FTase) inhibitor FTI-277 is highly e ective at blocking oncogenic H-Ras but not KRas4B processing and signaling. While inhibition of processing and signaling of oncogenic K-Ras4B is more sensitive to the geranylgeranyltransferase I (GGTase I) inhibitor GGTI-286 than it is to FTI-277 in K-Ras4B-transformed NIH3T3 cells, the sensitivity of K-Ras as well as H-and N-Ras to the CAAX peptidomimetics in human tumor cell lines is not known. Here, we report that a panel of ®ve human carcinoma cell lines from pancreatic, pulmonary, and bladder origins all express H-, N-, and K-Ras, and their respective prenylation sensitivities to the FTase and GGTase I inhibitors is variable. In all of the cell lines investigated, the prenylation of N-Ras was highly sensitive to FTI-277, and in two of the cell lines, N-Ras showed slight sensitivity to GGTI-298, an analog of GGTI-286. Although the prenylation of H-Ras was also sensitive to FTI-277, complete inhibition of H-Ras processing even at high concentrations of FTI-277 and/or GGTI-298 was never achieved. The prenylation of K-Ras, on the other hand, was highly resistant to FTI-277 and GGTI-298. Most signi®cantly, treatment of human tumor cell lines with both inhibitors was required for inhibition of K-Ras prenylation. In one cell line, the human lung adenocarcinoma A-549, prenylation of KRas was highly resistant even when co-treated with both inhibitors. Furthermore, soft agar experiments demonstrated that in all the human tumor cell lines tested inhibition of K-Ras prenylation was not necessary for inhibition of anchorage-independent growth. In addition, although GGTI-298 had very little e ect on soft agar growth, the combination of FTI-277 and GGTI-298 resulted in signi®cant growth inhibition. Therefore, the results demonstrate that while FTI-277 inhibits N-Ras and H-Ras processing in the human tumor cell lines evaluated, inhibition of K-Ras processing requires both an FTase inhibitor as well as a GGTase I inhibitor, and that inhibition of human tumor growth in soft agar does not require inhibition of oncogenic K-Ras processing.

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Edwina C. Lerner

Ras CAAX Peptidomimetic FTI-277 Selectively Blocks Oncogenic Ras Signaling by Inducing Cytoplasmic Accumulation of Inactive Ras-Raf Complexes

HGF and c-Met Participate in Paracrine Tumorigenic Pathways in Head and Neck Squamous Cell Cancer

SH3-dependent stimulation of Src-family kinase autophosphorylation without tail release from the SH2 domain in vivo

Src Kinases Mediate STAT Growth Pathways in Squamous Cell Carcinoma of the Head and Neck

Inhibition of the prenylation of K-Ras, but not H- or N-Ras, is highly resistant to CAAX peptidomimetics and requires both a farnesyltransferase and a geranylgeranyltransferase I inhibitor in human tumor cell lines

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