Maria Galluzzo scite author profile

Hypoxia unleashes the invasive and metastatic potential of tumor cells by largely unknown mechanisms. The Met tyrosine kinase, a high affinity receptor for hepatocyte growth factor (HGF), plays a crucial role in controlling invasive growth and is often overexpressed in cancer. Here we show that: (1) hypoxia activates transcription of the met protooncogene, resulting in higher levels of Met; (2) hypoxic areas of tumors overexpress Met; (3) hypoxia amplifies HGF signaling; (4) hypoxia synergizes with HGF in inducing invasion; (5) the proinvasive effects of hypoxia are mimicked by Met overexpression; and (6) inhibition of Met expression prevents hypoxia-induced invasive growth. These data show that hypoxia promotes tumor invasion by sensitizing cells to HGF stimulation, providing a molecular basis to explain Met overexpression in cancer.

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A High Affinity Hepatocyte Growth Factor-binding Site in the Immunoglobulin-like Region of Met

Basilico

Arnesano

Galluzzo

et al. 2008

Journal of Biological Chemistry

115

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Hepatocyte growth factor (HGF) and its high affinity receptor, the tyrosine kinase Met, play a key role in embryo development and tumor invasion. Both HGF and Met are established targets for cancer therapy. However, the mechanism of their interaction is complex and remains elusive. HGF is secreted as a monomeric precursor (pro-HGF) that binds to but does not activate Met. Mature HGF is a α/β heterodimer containing a high affinity Met-binding site in the α-chain (HGF-α) and a low affinity Met-binding site in the β-chain (HGF-β). The extracellular portion of Met contains a semaphorin (Sema) domain, a cysteine-rich hinge (plexin-semaphorin-integrin), and four immunoglobulin-like domains (immunoglobulin-like regions in plexins and transcription factors (IPT) 1-4). HGF-β binds to Sema through a low affinity contact. The domain of Met responsible for high affinity binding to HGF-α has not been identified yet. Here we show that this long sought after binding site lies in the immunoglobulin-like region of Met and more precisely in IPT 3 and 4. We also show that IPT 3 and 4 are sufficient to transmit the signal for kinase activation to the cytoplasm, although the lack of Sema makes the receptor equally sensitive to mature HGF and pro-HGF. Finally, we provide evidence that soluble Met-derived proteins containing either the low affinity or high affinity HGF-binding site antagonize HGF-induced invasive growth both in vitro and in xenografts. These data suggest that the immunoglobulin-like region of Met cooperates with the Sema domain in binding to HGF and in controlling Met kinase activity. Although the IPT-HGF-α interaction provides binding strength, the Sema-HGF-β contact confers selective sensitivity to the active form of the ligand.

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Monovalency Unleashes the Full Therapeutic Potential of the DN-30 Anti-Met Antibody

Pacchiana

Chiriaco

Stella

et al. 2010

Journal of Biological Chemistry

108

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Maria Galluzzo

Hypoxia promotes invasive growth by transcriptional activation of the met protooncogene

A High Affinity Hepatocyte Growth Factor-binding Site in the Immunoglobulin-like Region of Met

Monovalency Unleashes the Full Therapeutic Potential of the DN-30 Anti-Met Antibody

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