Research on solid tumors has had limited emphasis on interactions between transformed cells and their neighbors within the epithelium. Leung and Brugge (2012) use cultured breast cancer acini to demonstrate the importance of local interactions between normal and transformed epithelial cells, with important implications for our understanding of epithelial cancers
SummaryPolyploidization is a natural process that frequently accompanies differentiation; its deregu...
La transition épithélio-mésenchymateuse (EMT) confère un phénotype agressif aux cancers du sein avec...
Epithelial tubes provide the compartmentalization required for processes such as fluid and gas excha...
SummaryPolyploidization can precede the development of aneuploidy in cancer. Polyploidization in meg...
Cytokinesis in normal cell division requires RhoA-regulated actomyosin contraction of the cleavage f...
AbstractEpithelial-to-mesenchymal transition (EMT) facilitates the escape of epithelial cancer cells...
Metastasis of epithelial tumors critically depends on acquisition of a disseminating phenotype that ...
SummaryBackgroundCancers develop in a complex mutational landscape. Interaction of genetically abnor...
According to the sequential metastasis model, aggressive mesenchymal (M) metastasis-initiating cells...
SummaryThe recent discovery that normal and neoplastic epithelial cells re-enter the stem cell state...
Epithelial-to-mesenchymal transition (EMT) facilitates the escape of epithelial cancer cells from th...
According to the sequential metastasis model, aggressive mesenchymal (M) metastasis-initiating cells...
During the initial stages of carcinogenesis, neoplastic transformation occurs in single epithelial c...
Targeting breast cancer stem cells promises to eliminate the root of metastasis and recurrence and t...
AbstractApoptosis plays a key role in the development of cancer and the response of tumor cells to t...
SummaryPolyploidization is a natural process that frequently accompanies differentiation; its deregu...
La transition épithélio-mésenchymateuse (EMT) confère un phénotype agressif aux cancers du sein avec...
Epithelial tubes provide the compartmentalization required for processes such as fluid and gas excha...
SummaryPolyploidization can precede the development of aneuploidy in cancer. Polyploidization in meg...
Cytokinesis in normal cell division requires RhoA-regulated actomyosin contraction of the cleavage f...
AbstractEpithelial-to-mesenchymal transition (EMT) facilitates the escape of epithelial cancer cells...
Metastasis of epithelial tumors critically depends on acquisition of a disseminating phenotype that ...
SummaryBackgroundCancers develop in a complex mutational landscape. Interaction of genetically abnor...
According to the sequential metastasis model, aggressive mesenchymal (M) metastasis-initiating cells...
SummaryThe recent discovery that normal and neoplastic epithelial cells re-enter the stem cell state...
Epithelial-to-mesenchymal transition (EMT) facilitates the escape of epithelial cancer cells from th...
According to the sequential metastasis model, aggressive mesenchymal (M) metastasis-initiating cells...
During the initial stages of carcinogenesis, neoplastic transformation occurs in single epithelial c...
Targeting breast cancer stem cells promises to eliminate the root of metastasis and recurrence and t...
AbstractApoptosis plays a key role in the development of cancer and the response of tumor cells to t...
SummaryPolyploidization is a natural process that frequently accompanies differentiation; its deregu...
La transition épithélio-mésenchymateuse (EMT) confère un phénotype agressif aux cancers du sein avec...
Epithelial tubes provide the compartmentalization required for processes such as fluid and gas excha...
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