Your search keyword '"KESESIDIS, NIKOLAOS"' showing total 7 results

1. A Novel Dhillonvirus Phage against Escherichia coli Bearing a Unique Gene of Intergeneric Origin.

Author

Vasileiadis, Anastasios, Bozidis, Petros, Konstantinidis, Konstantinos, Kesesidis, Nikolaos, Potamiti, Louiza, Kolliopoulou, Anna, Beloukas, Apostolos, Panayiotidis, Mihalis I., Havaki, Sophia, Gorgoulis, Vassilis G., Gartzonika, Konstantina, and Karakasiliotis, Ioannis

Published

2024

2. West Nile Virus Subgenomic RNAs Modulate Gene Expression in a Neuronal Cell Line.

Author

Bampali, Maria, Kouvela, Adamantia, Kesesidis, Nikolaos, Kassela, Katerina, Dovrolis, Nikolas, and Karakasiliotis, Ioannis

Subjects

WEST Nile virus, GENE expression, RNA viruses, CELL lines, POST-translational modification, DNA repair

Abstract

Subgenomic flaviviral RNAs (sfRNAs) are small non-coding products of the incomplete degradation of viral genomic RNA. They accumulate during flaviviral infection and have been associated with many functional roles inside the host cell. Studies so far have demonstrated that sfRNA plays a crucial role in determining West Nile virus (WNV) pathogenicity. However, its modulatory role on neuronal homeostasis has not been studied in depth. In this study, we investigated the mechanism of sfRNA biosynthesis and its importance for WNV replication in neuronal cells. We found that sfRNA1 is functionally redundant for both replication and translation of WNV. However, the concurrent absence of sfRNA1 and sfRNA2 species is detrimental for the survival of the virus. Differential expression analysis on RNA-seq data from WT and ΔsfRNA replicon cell lines revealed transcriptional changes induced by sfRNA and identified a number of putative targets. Overall, it was shown that sfRNA contributes to the viral evasion by suppressing the interferon-mediated antiviral response. An additional differential expression analysis among replicon and control Neuro2A cells also clarified the transcriptional changes that support WNV replication in neuronal cells. Increased levels of translation and oxidative phosphorylation, post-translational modification processes, and activated DNA repair pathways were observed in replicon cell lines, while developmental processes such as axonal growth were deficient. [ABSTRACT FROM AUTHOR]

Published

2024

3. Next-Generation Sequencing Analysis of Mutations in Circulating Tumor DNA from the Plasma of Patients with Head–Neck Cancer Undergoing Chemo-Radiotherapy Using a Pan-Cancer Cell-Free Assay.

Author

Koukourakis, Michael I., Xanthopoulou, Erasmia, Koukourakis, Ioannis M., Fortis, Sotirios P., Kesesidis, Nikolaos, Kakouratos, Christos, Karakasiliotis, Ioannis, and Baxevanis, Constantin N.

Subjects

CIRCULATING tumor DNA, HEAD & neck cancer, NUCLEOTIDE sequencing, SEQUENCE analysis, CANCER patients, CHEMORADIOTHERAPY, GENETIC mutation

Abstract

Using next-generation sequencing (NGS), we investigated DNA mutations in the plasma tumor cell-free circulating DNA (ctDNA) of 38 patients with inoperable squamous cell head neck cancer (SCHNC) before and after the completion of chemoradiotherapy (CRT). Baseline mutations of the TP53 were recorded in 10/38 (26.3%) and persisted in 4/10 patients after CRT. ΤP53 mutations were further detected post CRT in 7/38 additional patients with undetectable mutations at baseline (overall rate 44.7%). Furthermore, 4/38 patients exhibited baseline mutations of the EGFR, AR, FGFR3, and FBXW3, and four new gene mutations were detected after CRT (MTOR, EGFR3, ALK, and SF3B1). Τ4 stage was related with a significantly higher rate of mutations (TP53 and overall). Mutations were observed in 8/30 (26.6%) responders (complete/partial response) vs. in 6/8 (75%) of the rest of the patients (p = 0.03). Significant poorer LRFS was noted for patients with mutations detected before and after CRT (p = 0.02). Patients who had detectable mutations either before or after CRT had significantly worse DMFS (p = 0.04 overall, and p = 0.02 for TP53 mutations). It was concluded that assessment of mutations before and after the end of CRT is essential to characterize patients with a high risk of locoregional recurrence or metastatic progression. [ABSTRACT FROM AUTHOR]

Published

2023

4. Circulating Plasma Cell-free DNA (cfDNA) as a Predictive Biomarker for Radiotherapy: Results from a Prospective Trial in Head and Neck Cancer.

Author

KOUKOURAKIS, MICHAEL I., XANTHOPOULOU, ERASMIA, KOUKOURAKIS, IOANNIS M., FORTIS, SOTIRIOS P., KESESIDIS, NIKOLAOS, KARAKASILIOTIS, IOANNIS, and BAXEVANIS, CONSTANTIN N.

Subjects

CIRCULATING tumor DNA, CELL-free DNA, PATIENT selection, CANCER cell proliferation, SQUAMOUS cell carcinoma, BIOMARKERS

Abstract

Background/Aim: The plasma levels of cell-free DNA (cfDNA) in cancer patients increase due to rapid cancer cell proliferation and death. Therefore, cfDNA can be used to study specific tumor-DNA features. In addition, the non-specific cfDNA concentration may be an important biomarker of cancer prognosis. Patients and Methods: We prospectively examined the predictive role of cfDNA levels and the kinetics in the outcome of chemo-radiotherapy (CRT) in a cohort of 47 patients with locally advanced squamous cell head-neck cancer (SCHNC) treated with definitive chemo-radiotherapy. Results: Increased cfDNA levels after therapy completion (after/before treatment ratio; A/B-ratio >1) were found in 26/47 patients (55.3%). Locally advanced T4-stage was significantly associated with higher cfDNA levels after CRT (3.3 ng/µl in T4-stage vs. 1.3 ng/µl in T1-3 stages, p=0.007). Patients who responded to CRT (partial/complete response) had significantly lower cfDNA levels before therapy (mean values 1.2 ng/µl vs. 2.7 ng/µl, p=0.03). A significantly worse locoregional progression-free survival in patients with an A/B-ratio >1 was documented (p=0.01; hazard ratio 3.5, 95%CI=1.2-9.7). This was also confirmed in multivariate analysis, where the A/B-ratio was an independent predictive variable of locoregional relapse (p=0.03, hazard ratio 3.9, 95%CI=1.2-13). Conclusion: High post-CRT cfDNA levels could be an early biomarker for the immediate recruitment of patients with SCHNC in consolidation chemo-immunotherapy protocols. [ABSTRACT FROM AUTHOR]

Published

2023

5. Emergence of Clonally-Related South Asian Clade I Clinical Isolates of Candida auris in a Greek COVID-19 Intensive Care Unit.

Author

Katsiari, Maria, Mavroidi, Angeliki, Kesesidis, Nikolaos, Palla, Eleftheria, Zourla, Konstantina, Ntorlis, Kyriakos, Konstantinidis, Konstantinos, Laskou, Maria, Strigklis, Konstantinos, Sakkalis, Anastasios, Nikolaou, Charikleia, Platsouka, Evangelia D., Karakasiliotis, Ioannis, Vrioni, Georgia, and Tsakris, Athanasios

Subjects

ECHINOCANDINS, INTENSIVE care units, RNA polymerase II, COVID-19 pandemic, COVID-19, NUCLEAR proteins, ROOT rots, ANTIFUNGAL agents

Abstract

Candida auris has recently emerged as a multidrug-resistant yeast implicated in various healthcare-associated invasive infections and hospital outbreaks. In the current study, we report the first five intensive care unit (ICU) cases affected by C. auris isolates in Greece, during October 2020–January 2022. The ICU of the hospital was converted to a COVID-19 unit on 25 February 2021, during the third wave of COVID-19 in Greece. Identification of the isolates was confirmed by Matrix Assisted Laser Desorption Ionization Time of Flight mass spectroscopy (MALDI-TOF]. Antifungal susceptibility testing was performed by the EUCAST broth microdilution method. Based on the tentative CDC MIC breakpoints, all five C. auris isolates were resistant to fluconazole (≥32 μg/mL), while three of them exhibited resistance to amphotericin B (≥2 μg/mL). The environmental screening also revealed the dissemination of C. auris in the ICU. Molecular characterization of C. auris clinical and environmental isolates was performed by MultiLocus Sequence Typing (MLST) of a set of four genetic loci, namely ITS, D1/D2, RPB1 and RPB2, encoding for the internal transcribed spacer region (ITS) of the ribosomal subunit, the large ribosomal subunit region and the RNA polymerase II largest subunit, respectively. MLST analysis showed that all isolates possessed identical sequences in the four genetic loci and clustered with the South Asian clade I strains. Additionally, PCR amplification and sequencing of the CJJ09_001802 genetic locus, encoding for the "nucleolar protein 58" that contains clade-specific repeats was performed. Sanger sequence analysis of the TCCTTCTTC repeats within CJJ09_001802 locus also assigned the C. auris isolates to the South Asian clade I. Our study confirms that C. auris is an emerging yeast pathogen in our region, especially in the setting of the ongoing COVID-19 worldwide pandemic. Adherence to strict infection control is needed to restrain further spread of the pathogen. [ABSTRACT FROM AUTHOR]

Published

2023

6. p-cymene impairs SARS-CoV-2 and Influenza A (H1N1) viral replication: In silico predicted interaction with SARS-CoV-2 nucleocapsid protein and H1N1 nucleoprotein.

Author

Panagiotopoulos, Athanasios, Tseliou, Melpomeni, Karakasiliotis, Ioannis, Kotzampasi, Danai-Maria, Daskalakis, Vangelis, Kesesidis, Nikolaos, Notas, George, Lionis, Christos, Kampa, Marilena, Pirintsos, Stergios, Sourvinos, George, and Castanas, Elias

Subjects

SARS-CoV-2, RABIES, INFLUENZA, VIRAL replication, COVID-19 treatment, COVID-19, COVID-19 pandemic, NUCLEAR proteins

Abstract

Therapeutic regimens for the COVID-19 pandemics remain unmet. In this line, repurposing of existing drugs against known or predicted SARS-CoV-2 protein actions have been advanced, while natural products have also been tested. Here, we propose that p-cymene, a natural monoterpene, can act as a potential novel agent for the treatment of SARS-CoV-2-induced COVID-19 and other RNA-virus-induced diseases (influenza, rabies, Ebola). We show by extensive molecular simulations that SARS-CoV-2 C-terminal structured domain contains a nuclear localization signal (NLS), like SARS-CoV, on which p-cymene binds with low micromolar affinity, impairing nuclear translocation of this protein and inhibiting viral replication, as verified by preliminary in vitro experiments. A similar mechanism may occur in other RNA-viruses (influenza, rabies and Ebola), also verified in vitro for influenza, by interaction of p-cymene with viral nucleoproteins, and structural modification of their NLS site, weakening its interaction with importin A. This common mechanism of action renders therefore p-cymene as a possible antiviral, alone, or in combination with other agents, in a broad spectrum of RNA viruses, from SARS-CoV-2 to influenza A infections. [ABSTRACT FROM AUTHOR]

Published

2021

7. Disruption of LEDGF/p75-directed integration derepresses antisense transcription of the HIV-1 genome.

Author

Tedbury PR, Mahboubi D, Puray-Chavez M, Shah R, Ukah OB, Wahoski CC, Fadel HJ, Poeschla EM, Gao X, McFadden WM, Gaitanidou M, Kesesidis N, Kirby KA, Vanderford TH, Kvaratskhelia M, Achuthan V, Behrens RT, Engelman AN, and Sarafianos SG

Abstract

Disruption of HIV-1 Integrase (IN) interactions with the host-factor Lens Epithelium-Derived Growth Factor (LEDGF)/p75 leads to decreased, random integration, increased latent infection, and described here, accumulation of HIV-1 antisense RNA (asRNA). asRNA increase was observed following interruptions of IN-LEDGF/p75 interactions either through pharmacologic perturbations of IN-LEDGF/p75 by treatment with allosteric HIV-1 integrase inhibitors (ALLINIs) or in cell lines with LEDGF genetic knockout. Additionally, by impairing Tat-dependent HIV transcription, asRNA abundance markedly increases. Illumina sequencing characterization of asRNA transcripts in primary T cells infected in the presence of ALLINIs showed that most initiate from within the HIV-1. Overall, loss of IN-LEDGF/p75 interactions increase asRNA abundance. Understanding the relationship between ALLINIs, integration sites, asRNA, and latency could aid in future therapeutic strategies., Competing Interests: Competing interests: Authors declare that they have no competing interests.

Published

2024