Yoshiaki Kubo scite author profile

The nuclear factor NF-kappaB and oncogenic Ras can alter proliferation in epidermis, the most common site of human cancer. These proteins are implicated in epidermal squamous cell carcinoma in mice, however, the potential effects of altering their function are uncertain. Whereas inhibition of NF-kappaB enhances apoptosis in certain tumours, blockade of NF-kappaB predisposes murine skin to squamous cell carcinoma. Because therapeutics inhibiting Ras and NF-kappaB pathways are being developed to treat human cancer, it is essential to assess the effects of altering these regulators. The medical relevance of murine studies is limited, however, by differences between mouse and human skin, and by the greater ease of transforming murine cells. Here we show that in normal human epidermal cells both NF-kappaB and oncogenic Ras trigger cell-cycle arrest. Growth arrest triggered by oncogenic Ras can be bypassed by IkappaBalpha-mediated blockade of NF-kappaB, generating malignant human epidermal tissue resembling squamous cell carcinoma. Human cell tumorigenesis is dependent on laminin 5 and alpha6beta4 integrin. Thus, IkappaBalpha circumvents restraints on growth promotion induced by oncogenic Ras and can act with Ras to induce invasive human tissue neoplasia.

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CDK4 coexpression with Ras generates malignant human epidermal tumorigenesis

Lazarov

Kubo

Cai

et al. 2002

Nat Med

192

166

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Ras acts with other proteins to induce neoplasia. By itself, however, strong Ras signaling can suppress proliferation of normal cells. In primary epidermal cells, we found that oncogenic Ras transiently decreases cyclin-dependent kinase (CDK) 4 expression in association with cell cycle arrest in G1 phase. CDK4 co-expression circumvents Ras growth suppression and induces invasive human neoplasia resembling squamous cell carcinoma. Tumorigenesis is dependent on CDK4 kinase function, with cyclin D1 required but not sufficient for this process. In facilitating escape from G1 growth restraints, Ras and CDK4 alter the composition of cyclin D and cyclin E complexes and promote resistance to growth inhibition by INK4 cyclin-dependent kinase inhibitors. These data identify a new role for oncogenic Ras in CDK4 regulation and highlight the functional importance of CDK4 suppression in preventing uncontrolled growth.

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A germline insertion in the tuberous sclerosis (Tsc2) gene gives rise to the Eker rat model of dominantly inherited cancer

et al. 1995

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The Eker rat hereditary renal carcinoma (RC) is an excellent example of a mendelian dominant predisposition to a specific cancer in an experimental animal. We have previously established a new conserved linkage group on rat chromosome 10q and human chromosome 16p13.3, and shown that the Eker mutation is tightly linked to the tuberous sclerosis (Tsc2) gene. We now describe a germline mutation in the gene encoding Tsc2 caused by the insertion of an approximately 5 kilobase DNA fragment in the Eker rat, resulting in aberrant RNA expression from the mutant allele. The phenotype of tuberous sclerosis in humans differs from that of the Eker rat, except for the occurrence of renal tumours. The Eker rat may therefore provide insights into species-specific differences in tumourigenesis and/or phenotype-specific mutations.

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Yoshiaki Kubo

NF-κB blockade and oncogenic Ras trigger invasive human epidermal neoplasia

CDK4 coexpression with Ras generates malignant human epidermal tumorigenesis

A germline insertion in the tuberous sclerosis (Tsc2) gene gives rise to the Eker rat model of dominantly inherited cancer

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