Atypical PKCι contributes to poor prognosis through loss of apical-basal polarity and Cyclin E overexpression in ovarian cancer

Eder, Astrid; Sui, Xiaomei; Rosen, Daniel; Nolden, Laura K.; Cheng, Kwai Wa; Lahad, John; Kango‐Singh, Madhuri; Lu, Karen H.; Warneke, Carla L.; Atkinson, Edward M.; Bedrosian, Isabelle; Keyomarsi, Khandan; Kuo, Wen Lin; Gray, Joe W.; Yin, Jingyi; Liu, Jinsong; Halder, Georg; Mills, Gordon B.

doi:10.1073/pnas.0505641102

Cited by 227 publications

(241 citation statements)

References 41 publications

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“…Translocation of activated PKCε to the membrane upon TPA treatment has been shown in other studies [42,55] and alteration of TJs by translocation of PKCε has been shown previously in epithelial cells [42]. Various isoforms of PKC have been implicated in ovarian tumorigenesis and drug resistance [56][57][58][59][60][61][62]. Involvement of PKCε in tumor development, invasion, and metastasis have been shown in other tissues [50,[63][64][65][66][67].…”

Section: Discussionmentioning

confidence: 91%

Phosphorylation of claudin-4 by PKCε regulates tight junction barrier function in ovarian cancer cells

D’Souza

Indig

Morin

2007

Experimental Cell Research

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Claudin proteins belong to a large family of transmembrane proteins essential to the formation and maintenance of tight junctions (TJs). In ovarian cancer, TJ protein claudin-4 is frequently overexpressed and may have roles in survival and invasion, but the molecular mechanisms underlying its regulation are poorly understood. In this report, we show that claudin-4 can be phosphorylated by protein kinase C (PKC) at Thr189 and Ser194 in ovarian cancer cells and overexpression of a claudin-4 mutant protein mimicking the phosphorylated state results in the disruption of the barrier function. Furthermore, upon phorbol ester-mediated PKC activation of OVCA433 cells, TJ strength is decreased and claudin-4 localization is altered. Analyses using PKC inhibitors and siRNA suggest that PKCε, an isoform typically expressed in ovarian cancer cells, may be important in the TPAmediated claudin-4 phosphorylation and weakening of the TJs. Furthermore, immunofluorescence studies showed that claudin-4 and PKCε are co-localized at the TJs in these cells. The modulation of claudin-4 activity by PKCε may not only provide a mechanism for disrupting TJ function in ovarian cancer, but may also be important in the regulation of TJ function in normal epithelial cells.

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Section: Discussionmentioning

confidence: 91%

Phosphorylation of claudin-4 by PKCε regulates tight junction barrier function in ovarian cancer cells

D’Souza

Indig

Morin

2007

Experimental Cell Research

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“…Subsequent interaction of PAR1 with 14-3-3 dissociates PAR1 from the plasma membrane, thereby preventing the distribution of PAR1 to the apical membrane domain. Gene amplification and elevated activity of aPKC, which downregulates PAR1 functions, have also been reported in ovarian, lung and colon carcinomas (Murray et al, 2004;Eder et al, 2005;Regala et al, 2005).…”

Section: Function Of Par1 In Carcinogenesismentioning

confidence: 92%

Linking epithelial polarity and carcinogenesis by multitasking Helicobacter pylori virulence factor CagA

Hatakeyama

2008

Oncogene

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“…Gene amplification and elevated constitutive activity of aPKC has been correlated with poor prognosis in ovarian, lung and colon cancer, suggesting that this protein may behave as an oncogene (Murray et al, 2004;Eder et al, 2005;Regala et al, 2005a, b). Tumors with elevated levels of aPKC display loss of polarity, in agreement with the known role of this kinase in regulating epithelial polarity at normal expression levels.…”

Section: Hijacking Of the Domain-identity Machinerymentioning

confidence: 99%

The epithelial polarity program: machineries involved and their hijacking by cancer

2008

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The Epithelial Polarity Program (EPP) adapts and integrates three ancient cellular machineries to construct an epithelial cell. The polarized trafficking machinery adapts the cytoskeleton and ancestral secretory and endocytic machineries to the task of sorting and delivering different plasma membrane (PM) proteins to apical and basolateral surface domains. The domain-identity machinery builds a tight junctional fence (TJ) between apical and basolateral PM domains and adapts ancient polarity proteins and polarity lipids on the cytoplasmic side of the PM, which have evolved to perform a diversity of polarity tasks across cells and species, to provide 'identity' to each epithelial PM domain. The 3D organization machinery utilizes adhesion molecules as positional sensors of other epithelial cells and the basement membrane and small GTPases as integrators of positional information with the activities of the domain-identity and polarized trafficking machineries. Cancer is a disease mainly of epithelial cells (90% of human cancers are carcinomas that derive from epithelial cells) that hijacks the EPP machineries, resulting in loss of epithelial polarity, which often correlates in extent with the aggressiveness of the tumor. Here, we review how the EPP integrates its three machineries and the strategies used by cancer to hijack them.

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Atypical PKCι contributes to poor prognosis through loss of apical-basal polarity and Cyclin E overexpression in ovarian cancer

Cited by 227 publications

References 41 publications

Phosphorylation of claudin-4 by PKCε regulates tight junction barrier function in ovarian cancer cells

Phosphorylation of claudin-4 by PKCε regulates tight junction barrier function in ovarian cancer cells

Linking epithelial polarity and carcinogenesis by multitasking Helicobacter pylori virulence factor CagA

The epithelial polarity program: machineries involved and their hijacking by cancer

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