Matthias Spiess scite author profile

Overcoming cellular growth restriction, including the evasion of cellular senescence, is a hallmark of cancer. We report that PAK4 is overexpressed in all human breast cancer subtypes and associated with poor patient outcome. In mice, MMTV-PAK4 overexpression promotes spontaneous mammary cancer, while PAK4 gene depletion delays MMTV-PyMT driven tumors. Importantly, PAK4 prevents senescence-like growth arrest in breast cancer cells in vitro, in vivo and ex vivo, but is not needed in non-immortalized cells, while PAK4 overexpression in untransformed human mammary epithelial cells abrogates H-RAS-V12-induced senescence. Mechanistically, a PAK4 – RELB - C/EBPβ axis controls the senescence-like growth arrest and a PAK4 phosphorylation residue (RELB-Ser151) is critical for RELB-DNA interaction, transcriptional activity and expression of the senescence regulator C/EBPβ. These findings establish PAK4 as a promoter of breast cancer that can overcome oncogene-induced senescence and reveal a selective vulnerability of cancer to PAK4 inhibition.

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Over-Expression Analysis of All Eight Subunits of the Molecular Chaperone CCT in Mammalian Cells Reveals a Novel Function for CCTdelta

Spiess

Echbarthi

Svanström

et al. 2015

Journal of Molecular Biology

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Chaperonin containing tailless complex polypeptide 1 (CCT) forms a classical chaperonin barrel structure where two rings of subunits surround a central cavity. Each ring consists of eight distinct subunits, creating a complex binding interface that makes CCT unique among the chaperonins. In addition to acting as a multimeric chaperonin, there is increasing evidence indicating that the CCT subunits, when monomeric, possess additional functions. Here we assess the role of the CCT subunits individually, using a GFP (green fluorescent protein) tagging approach to express each of the subunits in their monomeric form in cultured mammalian cells. Over-expression of CCTdelta, but not the other seven CCT subunits, results in the appearance of numerous protrusions at the cell surface. Two point mutations, one in the apical domain and one in the ATP binding pocket of CCTdelta, that abolish protrusion formation have been identified, consistent with the apical domain containing a novel interaction site that is influenced by the ATPase activity in the equatorial domain. Structured illumination microscopy, together with sub-cellular fractionation, reveals that only the wild-type CCTdelta is associated with the plasma membrane, thus connecting spatial organization with surface protrusion formation. Expression of the equivalent subunit in yeast, GFP-Cct4, rescues growth of the temperature-sensitive strain cct4-1 at the non-permissive temperature, indicative of conserved subunit-specific activities for CCTdelta.

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A novel function of the monomeric CCTε subunit connects the serum response factor pathway to chaperone-mediated actin folding

Elliott

Svanström

Spiess

et al. 2015

MBoC

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Yeast Rsp5 ubiquitin ligase affects the actin cytoskeleton in vivo and in vitro

Kamińska

Spiess

Stawiecka-Mirota

et al. 2011

European Journal of Cell Biology

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Matthias Spiess

Active and inactive β1 integrins segregate into distinct nanoclusters in focal adhesions

PAK4 suppresses RELB to prevent senescence-like growth arrest in breast cancer

Over-Expression Analysis of All Eight Subunits of the Molecular Chaperone CCT in Mammalian Cells Reveals a Novel Function for CCTdelta

A novel function of the monomeric CCTε subunit connects the serum response factor pathway to chaperone-mediated actin folding

Yeast Rsp5 ubiquitin ligase affects the actin cytoskeleton in vivo and in vitro

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