Increased ERCC1 expression is linked to chromosomal aberrations and adverse tumor biology in prostate cancer

Abstract Background Animal model experiments have suggested a role of the DNA repair protein ERCC1 (Excision Repair Cross-Complementation Group 1) in prostate cancer progression. Methods To better understand the impact of ERCC1 protein expression in human prostate cancer, a preexisting tissue microarray (TMA) containing more than 12,000 prostate cancer specimens was analyzed by immunohistochemistry and data were compared with tumor phenotype, PSA recurrence and several of the most common genomic alterations (TMPRSS2:ERG fusions: deletions of PTEN, 6q, 5q, 3p). Results ERCC1 staining was seen in 64.7% of 10,436 interpretable tissues and was considered weak in 37.1%, moderate in 22.6% and strong in 5% of tumors. High-level ERCC1 staining was linked to advanced pT stage, high Gleason grade, positive lymph nodes, high pre-operative serum PSA, and positive surgical margin status (p < 0.0001 each). High ERCC1 expression was strongly associated with an elevated risk of PSA recurrence (p < 0.0001). This was independent of established prognostic features. A subgroup analysis of cancers defined by comparable quantitative Gleason grades revealed that the prognostic impact was mostly driven by low-grade tumors with a Gleason 3 + 3 or 3 + 4 (Gleason 4: ≤5%). High ERCC1 expression was strongly associated with the presence of genomic alterations and expression levels increased with the number of deletions present in the tumor. These latter data suggest a functional relationship of ERCC1 expression with genomic instability. Conclusion The results of our study demonstrate that expression of ERCC1 - a potential surrogate for genomic instability - is an independent prognostic marker in prostate cancer with particular importance in low-grade tumors

Journalistic culture, editorial mission, and news logic: Explaining the factors behind the use of populism in European media

This chapter investigates factors contributing to the levels of populism in media output. The chapter finds that stylistic elements, such as emotionalization, negativity, polarization, and dramatization, increase the occurrence (or likelihood thereof) of populist elements in stories. In addition to the writing style, the thematic context is another influencing factor. If a story combines the themes of immigration and European integration, this makes populism more likely to occur. Contrary to the expectation of the authors, there is no evidence that mass-market newspapers are more prone to using populism than up-market newspapers. A strong influence comes, however, from characteristics of the media system. The more adversarial the journalistic culture in a given country, the more populist the content of news items and commentaries is. The chapter also finds that majoritarian democracies and weak press systems are characterized by higher levels of populism in the press

Candidalysin delivery to the invasion pocket is critical for host epithelial damage induced by <i>Candida albicans</i>

The human pathogenic fungus Candida albicans is a frequent cause of mucosal infections. Although the ability to transition from the yeast to the hypha morphology is essential for virulence, hypha formation and host cell invasion per se are not sufficient for the induction of epithelial damage. Rather, the hypha-associated peptide toxin, candidalysin, a product of the Ece1 polyprotein, is the critical damaging factor. While synthetic, exogenously added candidalysin is sufficient to damage epithelial cells, the level of damage does not reach the same level as invading C. albicans hyphae. Therefore, we hypothesized that a combination of fungal attributes is required to deliver candidalysin to the invasion pocket to enable the full damaging potential of C. albicans during infection. Utilizing a panel of C. albicans mutants with known virulence defects, we demonstrate that the full damage potential of C. albicans requires the coordinated delivery of candidalysin to the invasion pocket. This process requires appropriate epithelial adhesion, hyphal extension and invasion, high levels of ECE1 transcription, proper Ece1 processing, and secretion of candidalysin. To confirm candidalysin delivery, we generated camelid V(H)Hs (nanobodies) specific for candidalysin, and demonstrate localization and accumulation of the toxin only in C. albicans-induced invasion pockets. In summary, a defined combination of virulence attributes and cellular processes is critical for delivering candidalysin to the invasion pocket to enable the full damage potential of C. albicans during mucosal infection