Aikaterini Louka scite author profile

Aikaterini Louka

2Publications

7Citation Statements Received

179Citation Statements Given

How they've been cited

How they cite others

137

171

Affiliations

National Technical University of Athens, National and Kapodistrian University of Athens

Publications

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“In the light of evolution:” keratins as exceptional tumor biomarkers

Takan

Karakülah

Louka

et al. 2023

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Keratins (KRTs) are the intermediate filament-forming proteins of epithelial cells, classified, according to their physicochemical properties, into “soft” and “hard” keratins. They have a key role in several aspects of cancer pathophysiology, including cancer cell invasion and metastasis, and several members of the KRT family serve as diagnostic or prognostic markers. The human genome contains both, functional KRT genes and non-functional KRT pseudogenes, arranged in two uninterrupted clusters on chromosomes 12 and 17. This characteristic renders KRTs ideal for evolutionary studies. Herein, comprehensive phylogenetic analyses of KRT homologous proteins in the genomes of major taxonomic divisions were performed, so as to fill a gap in knowledge regarding the functional implications of keratins in cancer biology among tumor-bearing species. The differential expression profiles of KRTs in diverse types of cancers were investigated by analyzing high-throughput data, as well. Several KRT genes, including the phylogenetically conserved ones, were found to be deregulated across several cancer types and to participate in a common protein-protein interaction network. This indicates that, at least in cancer-bearing species, these genes might have been under similar evolutionary pressure, perhaps to support the same important function(s). In addition, semantic relations between KRTs and cancer were detected through extensive text mining. Therefore, by applying an integrative in silico pipeline, the evolutionary history of KRTs was reconstructed in the context of cancer, and the potential of using non-mammalian species as model organisms in functional studies on human cancer-associated KRT genes was uncovered.

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Bioinformatic approaches to the investigation of the atavistic genes implicated in cancer

Louka

Takan

Pavlopoulou

et al. 2021

Front. Biosci. (Landmark Ed)

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Introduction 3. Materials and methods 3.1 Sequence database searching 3.2 Alignment and phylogenetic analysis 3.3 Pathways identification 3.4 Differential gene expression analysis 3.5 Functional network of hubs 4. Results 4.1 Atavistic genes' association with cancer 4.2 Phylogenetic analysis 5. Discussion 6. Conclusions 7. Author contributions 8. Ethics approval and consent to participate 9. Acknowledgment 10. Funding 11. Conflict of interest 12. References

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