Tamar Feinberg scite author profile

Genome-wide copy number analyses of human cancers identified a frequent 5p13 amplification in multiple solid tumor types, including lung (56%), ovarian (38%), breast (32%), prostate (37%) and melanoma (32%). Integrative analysis of the region identifies a Golgi protein, GOLPH3, as a candidate targeted for amplification. Gain- and loss-of-function studies in vitro and in vivo validated GOLPH3 as a potent oncogene. Physically, GOLPH3 localizes to the trans-Golgi network and interacts with components of the retromer complex, which in yeast has been linked to TOR signaling. Mechanistically, GOLPH3 regulates cell size, enhances growth factor-induced mTOR signaling in human cancer cells and alters response to mTOR inhibitor in vivo. Thus, reinforcing genomic and genetic, biological, functional and biochemical data in yeast and humans establish GOLPH3 as a novel oncogene that is commonly targeted for amplification in human cancer and capable of modulating the response to rapamycin, a cancer drug in clinical use.

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Snail/Slug binding interactions with YAP/TAZ control skeletal stem cell self-renewal and differentiation

Tang

et al. 2016

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Bone marrow-derived skeletal stem/stromal cell (SSC) self-renewal and function are critical to skeletal development, homeostasis and repair. Nevertheless, the mechanisms controlling SSC behavior, particularly bone formation, remain ill-defined. Using knockout mouse models that target the zinc-finger transcription factors, Snail, Slug or Snail and Slug combined, a regulatory axis has been uncovered wherein Snail and Slug cooperatively control SSC self-renewal, osteoblastogenesis and bone formation. Mechanistically, Snail/Slug regulate SSC function by forming complexes with the transcriptional co-activators, YAP and TAZ, in tandem with the inhibition of the Hippo pathway-dependent regulation of YAP/TAZ signaling cascades. In turn, the Snail/Slug-YAP/TAZ axis activates a series of YAP/TAZ/TEAD and Runx2 downstream targets that control SSC homeostasis and osteogenesis. Together, these results demonstrate that SSCs mobilize Snail/Slug-YAP/TAZ complexes to control stem cell function.

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Proinvasion Metastasis Drivers in Early-Stage Melanoma Are Oncogenes

et al. 2011

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SUMMARY Clinical and genomic evidence suggests that the metastatic potential of a primary tumor may be dictated by pro-metastatic events that have additional oncogenic capability. To test this deterministic hypothesis, we adopted a comparative oncogenomics-guided function-based strategy involving (i) comparison of global transcriptomes of two genetically engineered mouse models with contrasting metastatic potential, (ii) genomic and transcriptomic profiles of human melanoma, (iii) functional genetic screen for enhancers of cell invasion and (iv) evidence of expression selection in human melanoma tissues. This integrated effort identified 6 genes that are potently pro-invasive and oncogenic. Further, we show that one such gene, ACP5, confers spontaneous metastasis in vivo, engages a key pathway governing metastasis and is prognostic in human primary melanomas.

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Snail1-dependent p53 repression regulates expansion and activity of tumour-initiating cells in breast cancer

et al. 2016

Nat Cell Biol

103

121

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The zinc-finger transcription factor Snail1 is inappropriately expressed in breast cancer and associated with poor prognosis. While interrogating human databases, we uncovered marked decreases in relapse-free survival of breast cancer patients expressing high Snail1 levels in tandem with wild-type, but not mutant, p53. Using a Snail1 conditional knockout model of mouse breast cancer that maintains wild-type p53, we find that Snail1 plays an essential role in tumour progression by controlling the expansion and activity of tumour-initiating cells in preneoplastic glands and established tumours, whereas it is not required for normal mammary development. Growth and survival of preneoplastic as well as neoplastic mammary epithelial cells is dependent on the formation of a Snail1/HDAC1/p53 tri-molecular complex that deacetylates active p53, thereby promoting its proteasomal degradation. Our findings identify Snail1 as a molecular bypass that suppresses the anti-proliferative and pro-apoptotic effects exerted by wild-type p53 in breast cancer.

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Osteoclast-mediated bone resorption is controlled by a compensatory network of secreted and membrane-tethered metalloproteinases

et al. 2020

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Osteoclasts actively remodel both the mineral and proteinaceous components of bone during normal growth and development as well as pathologic states ranging from osteoporosis to bone metastasis. The cysteine proteinase cathepsin K confers osteoclasts with potent type I collagenolytic activity; however, cathepsin K–null mice, as well as cathepsin K–mutant humans, continue to remodel bone and degrade collagen by as-yet-undefined effectors. Here, we identify a cathepsin K–independent collagenolytic system in osteoclasts that is composed of a functionally redundant network of the secreted matrix metalloproteinase MMP9 and the membrane-anchored matrix metalloproteinase MMP14. Unexpectedly, whereas deleting either of the proteinases individually leaves bone resorption intact, dual targeting of Mmp9 and Mmp14 inhibited the resorptive activity of mouse osteoclasts in vitro and in vivo and human osteoclasts in vitro. In vivo, Mmp9/Mmp14 conditional double-knockout mice exhibited marked increases in bone density and displayed a highly protected status against either parathyroid hormone– or ovariectomy-induced pathologic bone loss. Together, these studies characterize a collagenolytic system operative in mouse and human osteoclasts and identify the MMP9/MMP14 axis as a potential target for therapeutic interventions for bone-wasting disease states.

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Tamar Feinberg

GOLPH3 modulates mTOR signalling and rapamycin sensitivity in cancer

Snail/Slug binding interactions with YAP/TAZ control skeletal stem cell self-renewal and differentiation

Proinvasion Metastasis Drivers in Early-Stage Melanoma Are Oncogenes

Snail1-dependent p53 repression regulates expansion and activity of tumour-initiating cells in breast cancer

Osteoclast-mediated bone resorption is controlled by a compensatory network of secreted and membrane-tethered metalloproteinases

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