Your search keyword '"Goulielmaki M"' showing total 37 results

1. 21P Peripheral pre-existing T cell immunity as predictive biomarker in cancer immunotherapy for NSCLC patients

Author

Xagara, A., primary, Fortis, S., additional, Goulielmaki, M., additional, Koinis, F., additional, Chantzara, E., additional, Samaras, I., additional, Papadopoulos, V.N., additional, Georgoulias, V., additional, Baxevanis, C.N., additional, and Kotsakis, A., additional

Published

2022

2. Article bromamine T (BAT) exerts stronger anti-cancer properties than taurine (tau)

Author

Baliou, S. Goulielmaki, M. Ioannou, P. Cheimonidi, C. Trougakos, I.P. Nagl, M. Kyriakopoulos, A.M. Zoumpourlis, V.

Abstract

Background: Taurine (Tau) ameliorates cancer pathogenesis. Researchers have focused on the functional properties of bromamine T (BAT), a stable active bromine molecule. Both N-bromotaurine (TauNHBr) and BAT exert potent anti-inflammatory properties, but the landscape remains obscure concerning the anti-cancer effect of BAT. Methods: We used Crystal Violet, colony formation, flow cytometry and Western blot experiments to evaluate the effect of BAT and Tau on the apoptosis and autophagy of cancer cells. Xenograft experiments were used to determine the in vivo cytotoxicity of either agent. Results: We demonstrated that both BAT and Tau inhibited the growth of human colon, breast, cervical and skin cancer cell lines. Among them, BAT exerted the greatest cytotoxic effect on both RKO and MDA-MB-468 cells. In particular, BAT increased the phosphorylation of c-Jun N-terminal kinases (JNK12 ), p38 mitogen-activated protein kinase (MAPK), and extracellular-signal-regulated kinases (ERK12 ), thereby inducing mitochondrial apoptosis and autophagy in RKO cells. In contrast, Tau exerted its cytotoxic effect by upregulating JNK12 forms, thus triggering mitochondrial apoptosis in RKO cells. Accordingly, colon cancer growth was impaired in vivo. Conclusions: BAT and Tau exerted their anti-tumor properties through the induction of (i) mitochondrial apoptosis, (ii) the MAPK family, and iii) autophagy, providing novel anti-cancer therapeutic modalities. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

3. The COVID‑19 pandemic as a scientific and social challenge in the 21st century

Author

Zoumpourlis, V. Goulielmaki, M. Rizos, E. Baliou, S. Spandidos, D.A.

Abstract

The coronavirus disease-2019 (coVid-19) pandemic, caused by the new coronavirus SarS-coV-2, has spread around the globe with unprecedented consequences for the health of millions of people. While the pandemic is still in progress, with new incidents being reported every day, the resilience of the global society is constantly being challenged. under these circumstances, the future seems uncertain. SarS-coV-2 coronavirus has spread panic among civilians and insecurity at all socio-political and economic levels, dramatically disrupting everyday life, global economy, international travel and trade. The disease has also been linked to the onset of depression in many individuals due to the extreme restriction measures that have been taken for the prevention of the rapid spreading of coVid-19. First, the socio-economic, political and psychological implications of the coVid-19 pandemic were explored. Substantial evidence is provided for the consequences of the pandemic on all aspects of everyday life, while at the same time we unravel the role and the pursuits of national regimes during this unforeseen situation. The second goal of this review is related to the scientific aspect of the pandemic. Hence, we explain why SarS-coV-2 is not a so-called ‘invisible enemy’, and also attempt to give insight regarding the origin of the virus, in an effort to reject the conspiracy theories that have arisen during the pandemic. Finally, rational strategies were investigated for successful vaccine development. We are optimistic that this review will complement the knowledge of specialized scientists and inform non‑specialized readers on basic scientific questions, and also on the social and economic implications of the coVid-19 pandemic. © 2020 Spandidos Publications. All rights reserved.

Published

2020

4. The ideological frame of the genetic basis of cancer: The important role of mirnas

Author

Zoumpourlis, V. Skourti, E. Goulielmaki, M. Vlahopoulos, S. Christodoulou, I.

Abstract

The elucidation of the genetic basis of cancer is the result of the research conducted since the beginning of the previous century, which peaked during the decades of 1960s and 1970s. It has been achieved through two different but convergent routes: the first includes the study of oncogenic viruses in rodents and birds and the second includes the use of chemical carcinogens in cells or in animal model systems (mice). Within this framework, the identification of genes that present mutations, alterations in expression levels, and epigenetic modifications has been facilitated through the development of animal carcinogenesis models. One of these models is the well-characterized mouse multistage skin cancer system discussed in this review. In addition, recent evidence shows the great significance that cancer stem cells seem to have in the emergence and progression of carcinogenesis. Finally, herein we discuss the critical role that miRNAs have emerged to play in cancer progression. miRNAs emerged as molecules with an impact on most cancer-related cellular processes, involving cell proliferation, cell death (apoptosis), angiogenesis, migration/motility,and rearrangement of the cytoskeleton. Their discovery has given rise to studies with a focus on miRNAs as key players in crucial oncogenesis-related processes and thus as potential targets in cancer therapeutics. © 2017 by Begell House, Inc.

Published

2017

5. Homeobox gene involvement in normal hematopoiesis and in the pathogenesis of childhood Leukemias

Author

Adamaki, M. Goulielmaki, M. Christodoulou, I. Vlahopoulos, S. Zoumpourlis, V.

Subjects

hemic and lymphatic diseases

Abstract

Homeobox (HOX) genes are a superfamily of highly conserved genes with essential functions in many aspects of mammalian development. Their expression is tightly regulated throughout the duration of definitive hematopoiesis, so the pathogenetic mechanism that leads to leukemia suggests that malignant transformation is directly intertwined with the deregulation of HOX gene expression. Even though HOX gene involvement has been reviewed extensively in adult leukemias, childhood leukemias have received much less attention and mainly in the context of leukemias harboring MLL (mixed-lineage leukemia) gene translocations. In recent years, scientific evidence has highlighted HOX gene involvement in the development of other subtypes of childhood leukemias and added HOX gene family members that were previously unrelated to the pathogenesis of childhood leukemia. This has significant implications when considering both the risk stratification of pediatric patients and potential targets for successful therapy. Through the identification of HOX target genes, their resulting interactions, and the cognate signaling pathways, we hope to gain a better understanding of the molecular mechanism(s) underlying the ectopic activation of these genes in childhood leukemias and subsequently to reveal new molecular targets for successful therapy in cases of poor prognosis or resistant disease. © 2017 by Begell House, Inc.

Published

2017

6. Carbon quantum dots/block copolymer ensembles for metal-ion sensing and bioimaging

Author

Skaltsas, T., primary, Goulielmaki, M., additional, Pintzas, A., additional, Pispas, S., additional, and Tagmatarchis, N., additional

Published

2017

7. Identification of a Novel Immune-Gene Signature with Prognostic Value in Patients with Head and Neck Cancer: A Pilot Study.

Author

Batsaki P, Fortis SP, Gritzapis AD, Razou A, Sakellaridis AC, Grouzi E, Moschandreou D, Koukourakis MI, Zoumpourlis V, Baxevanis CN, and Goulielmaki M

Abstract

The tumor microenvironment has a significant input on prognosis and also for predicting clinical outcomes in various types of cancers. However, tumor tissue is not always available, thus, rendering peripheral blood a preferable alternative in the search for prognostic and predictive gene signatures. Head and neck squamous cell carcinoma (HNSCC) constitutes a quite heterogeneous disease characterized by poor prognosis. Therefore, the discovery of novel therapeutics based on prognostic gene signatures for effective disease governance is of paramount importance. In this study, we report for the first time an immune-gene signature identified in the peripheral blood of HNSCC patients comprising five genes (CLEC4C, IL23A, LCK, LY9, and CD19) which were more than threefold downregulated as compared to healthy individuals and were associated with poor prognosis. By performing analyses of HNSCC tumor samples from The Cancer Genome Atlas (TCGA) database, we discovered that decreased expression of these genes, both as single genes and as a 5-gene signature (5-GS), was significantly correlated with worse overall survival (OS). Our data show that the levels of expression of the 5-GS represent an immune profile predicting OS in patients with HNSCC., Competing Interests: Declarations. Conflict of interest: The authors declare that they have no conflicts of interest. Ethical Approval: The study was conducted in accordance with the Declaration of Helsinki and approved by the Institutional Review Board of the Saint Savas Cancer Hospital (approval no. IRB-ID9387/15-05-2019) and the Ethical Committee of the Medical School of the National and Kapodistrian University of Athens (approval no. ID646/06-06-2022). Consent for Publication: Not applicable. Informed Consent: Written informed consent was obtained from all subjects involved in the study., (© 2025. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2025

8. Pre-Existing Immunity Predicts Response to First-Line Immunotherapy in Non-Small Cell Lung Cancer Patients.

Author

Xagara A, Goulielmaki M, Fortis SP, Kokkalis A, Chantzara E, Christodoulopoulos G, Samaras I, Saloustros E, Tsapakidis K, Papadopoulos V, Pateras IS, Georgoulias V, Baxevanis CN, and Kotsakis A

Abstract

T-cell-mediated anti-tumoral responses may have significant clinical relevance as a biomarker for response to immunotherapy. The value of peripheral blood pre-existing tumor antigen-specific T cells (PreI + ) as a predictive immunotherapy biomarker in NSCLC patients was investigated, along with the frequency of various circulating immune cells. Fifty-two treatment-naïve, stage III/IV NSCLC patients, treated with front-line immune checkpoint inhibitors (ICI)-containing regimens were enrolled. PreI was calculated as the percentages of CD3 + IFNγ + cells after in vitro co-cultures of PBMCs with peptides against four different Tumor-Associated Antigens (TAA). Immunophenotyping of peripheral blood immune cells was performed using multicolor flow cytometry. PreI + T cells were detected in 44% of patients. Median overall survival (OS) was significantly higher in PreI + patients compared to PreI - patients (not reached vs. 321 days, respectively; p = 0.014). PreI + patients had significantly higher numbers of possible exhausted CD3 + CD8 + PD-1 + cells and lower percentages of immunosuppressive Tregs compared to PreI - patients. Additionally, patients with PreI + and low numbers of peripheral blood M-MDSCs had a significant survival advantage compared to the rest of the patients. Thus, combining pre-existing tumor antigen-specific immunity before initiation of ICI in NSCLC patients with selected immune-suppressive cells could identify patients who have a favorable clinical outcome when treated with ICI-containing regimens.

Published

2024

9. Design and Synthesis of Novel 2-Acetamido, 6-Carboxamide Substituted Benzothiazoles as Potential BRAFV600E Inhibitors - In vitro Evaluation of their Antiproliferative Activity.

Author

Batsi Y, Antonopoulou G, Fotopoulou T, Koumaki K, Kritsi E, Potamitis C, Goulielmaki M, Skarmalioraki S, Papalouka C, Poulou-Sidiropoulou E, Kosmidou V, Douna S, Vidali MS, Gkotsi EF, Chatziioannou A, Souliotis VL, Pletsa V, Papadodima O, Zoumpourlis V, Georgiadis P, Zervou M, Pintzas A, and Kostas ID

Subjects

Cell Line, Tumor, Cell Proliferation, Structure-Activity Relationship, Drug Screening Assays, Antitumor, Benzothiazoles pharmacology, Antineoplastic Agents pharmacology

Abstract

The oncogenic BRAFV600E kinase leads to abnormal activation of the MAPK signaling pathway and thus, uncontrolled cellular proliferation and cancer development. Based on our previous virtual screening studies which issued 2-acetamido-1,3 benzothiazole-6-carboxamide scaffold as active pharmacophore displaying selectivity against the mutated BRAF, eleven new substituted benzothiazole derivatives were designed and synthesized by coupling of 2-acetamidobenzo[d]thiazole-6-carboxylic acid with the appropriate amines in an effort to provide even more efficient inhibitors and tackle drug resistance often developed during cancer treatment. All derived compounds bore the benzothiazole scaffold substituted at position-2 by an acetamido moiety and at position-6 by a carboxamide functionality, the NH moiety of which was further linked through an alkylene linker to a sulfonamido (or amino) aryl (or alkyl) functionality or a phenylene linker to a sulfonamido aromatic (or non-aromatic) terminal pharmacophore in the order -C 6 H 4 -NHSO 2 -R or reversely -C 6 H 4 -SO 2 N(H)-R. These analogs were subsequently biologically evaluated as potential BRAFV600E inhibitors and antiproliferative agents in several colorectal cancer and melanoma cell lines. In all assays applied, one analog, namely 2-acetamido-N-[3-(pyridin-2-ylamino)propyl]benzo[d]thiazole-6-carboxamide (22), provided promising results in view of its use in drug development., (© 2023 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published

2023

10. A Blood-Based Immune Gene Signature with Prognostic Significance in Localized Prostate Cancer.

Author

Fortis SP, Batsaki P, Stokidis S, Moschandreou D, Grouzi E, Baxevanis CN, Gritzapis AD, and Goulielmaki M

Abstract

Prostate cancer (PCa) is one of the most common male cancers worldwide and one of the deadliest if unsuccessfully treated. Τhe need for reliable, easily accessible immune-related molecular biomarkers that could be combined with clinically defined criteria, including PSA and Gleason score, to accurately predict PCa patients' clinical outcomes is emerging. Herein, we describe for the first time a blood-identified immune-related gene signature comprising eight upregulated multi-functional genes associated with poor prognosis. Next-generation sequencing (NGS) analysis of PCa patients' peripheral blood samples revealed a more than three-fold upregulation of each of the eight genes as compared to samples originating from healthy donors. The construction of gene and protein interaction networks revealed different extents of the functional implications of these genes in the regulation of cell proliferation and immune responses. Analysis of the available data from The Cancer Genome Atlas (TCGA) regarding gene expression and survival of prostate adenocarcinoma (PRAD) and pan-cancer (PANCAN) patients revealed that intra-tumoral upregulation of this eight-gene signature (8-GS) was associated with poor 5-year progression-free intervals in PCa patients, even in those with high Gleason scores, and also with an unfavorable prognosis for cancer patients irrespective of the cancer type and even in the early stages. These observations suggest that further investigation of the 8-GS prospectively in randomized clinical trials, in which clinical benefit in terms of evaluating time to disease progression can be assessed, is warranted.

Published

2023

11. Correction: Kogionou et al. Radiotherapy-Related Gene Signature in Prostate Cancer. Cancers 2022, 14 , 5032.

Author

Kogionou P, Fortis SP, Goulielmaki M, Aubert N, Batsaki P, Ouzounis S, Cavouras D, Marodon G, Stokidis S, Gritzapis AD, and Baxevanis CN

Abstract

The authors wish to make the following corrections to this paper [...].

Published

2023

12. miRNA-Guided Regulation of Mesenchymal Stem Cells Derived from the Umbilical Cord: Paving the Way for Stem-Cell Based Regeneration and Therapy.

Author

Thomaidou AC, Goulielmaki M, Tsintarakis A, Zoumpourlis P, Toya M, Christodoulou I, and Zoumpourlis V

Subjects

Pregnancy, Female, Infant, Newborn, Humans, Cell Differentiation genetics, Umbilical Cord, Multipotent Stem Cells, MicroRNAs genetics, Mesenchymal Stem Cells

Abstract

The human body is an abundant source of multipotent cells primed with unique properties that can be exploited in a multitude of applications and interventions. Mesenchymal stem cells (MSCs) represent a heterogenous population of undifferentiated cells programmed to self-renew and, depending on their origin, differentiate into distinct lineages. Alongside their proven ability to transmigrate toward inflammation sites, the secretion of various factors that participate in tissue regeneration and their immunoregulatory function render MSCs attractive candidates for use in the cytotherapy of a wide spectrum of diseases and conditions, as well as in different aspects of regenerative medicine. In particular, MSCs that can be found in fetal, perinatal, or neonatal tissues possess additional capabilities, including predominant proliferation potential, increased responsiveness to environmental stimuli, and hypoimmunogenicity. Since microRNA (miRNA)-guided gene regulation governs multiple cellular functions, miRNAs are increasingly being studied in the context of driving the differentiation process of MSCs. In the present review, we explore the mechanisms of miRNA-directed differentiation of MSCs, with a special focus on umbilical cord-derived mesenchymal stem cells (UCMSCs), and we identify the most relevant miRNAs and miRNA sets and signatures. Overall, we discuss the potent exploitations of miRNA-driven multi-lineage differentiation and regulation of UCMSCs in regenerative and therapeutic protocols against a range of diseases and/or injuries that will achieve a meaningful clinical impact through maximizing treatment success rates, while lacking severe adverse events.

Published

2023

13. Frequencies of an Immunogenic HER-2/ neu Epitope of CD8+ T Lymphocytes Predict Favorable Clinical Outcomes in Prostate Cancer.

Author

Goulielmaki M, Stokidis S, Anagnostou T, Voutsas IF, Gritzapis AD, Baxevanis CN, and Fortis SP

Subjects

Humans, Male, Epitopes, Interleukin-8, CD8-Positive T-Lymphocytes, Receptor, ErbB-2 metabolism, Prostatic Neoplasms, Cancer Vaccines

Abstract

HER-2/ neu is the human epidermal growth factor receptor 2, which is associated with the progression of prostate cancer (PCa). HER-2/ neu -specific T cell immunity has been shown to predict immunologic and clinical responses in PCa patients treated with HER-2/ neu peptide vaccines. However, its prognostic role in PCa patients receiving conventional treatment is unknown, and this was addressed in this study. The densities of CD8+ T cells specific for the HER-2/ neu (780-788) peptide in the peripheral blood of PCa patients under standard treatments were correlated with TGF-β/IL-8 levels and clinical outcomes. We demonstrated that PCa patients with high frequencies of HER-2/ neu (780-788) -specific CD8+ T lymphocytes had better progression-free survival (PFS) as compared with PCa patients with low frequencies. Increased frequencies of HER-2/ neu (780-788) -specific CD8+ T lymphocytes were also associated with lower levels of TGF-β and IL-8. Our data provide the first evidence of the predictive role of HER-2/ neu -specific T cell immunity in PCa.

Published

2023

14. Encapsulation of cannabidiol in oil-in-water nanoemulsions and nanoemulsion-filled hydrogels: A structure and biological assessment study.

Author

Demisli S, Galani E, Goulielmaki M, Kyrilis FL, Ilić T, Hamdi F, Crevar M, Kastritis PL, Pletsa V, Nallet F, Savić S, Xenakis A, and Papadimitriou V

Subjects

Humans, Animals, Swine, Hydrogels chemistry, Scattering, Small Angle, Emulsions chemistry, X-Ray Diffraction, Water chemistry, Cannabidiol, Chitosan

Abstract

Hypothesis: Lipophilic cannabidiol can be solubilized in oil-in water nanoemulsions, which can then be impregnated into chitosan hydrogels forming another colloidal system that will facilitate cannabidiol's release. The delivery from both systems was compared, alongside structural and biological studies, to clarify the effect of the two carriers' structure on the release and toxicity of the systems., Experiments: Oil-in-water nanoemulsions (NEs) and the respective nanoemulsion-filled chitosan hydrogels (NE/HGs) were formulated as carriers of cannabidiol (CBD). Size, polydispersity and stability of the NEs were evaluated and then membrane dynamics, shape and structure of both systems were investigated with EPR spin probing, SAXS and microscopy. Biocompatibility of the colloidal delivery systems was evaluated through cytotoxicity tests over normal human skin fibroblasts. An ex vivo permeation protocol using porcine ear skin was implemented to assess the release of CBD and its penetration through the skin., Findings: Incorporation of the NEs in chitosan hydrogels does not significantly affect their structural properties as evidenced through SAXS, EPR and confocal microscopy. These findings indicate the successful development of a novel nanocarrier that preserves the NE structure with the CBD remaining encapsulated in the oil core while providing new rheological properties advantageous over NEs. Moreover, NE/HGs proved to be more efficient as a carrier for the release of CBD. Cell viability assessment revealed high biocompatibility of the proposed colloids., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2023

15. DNA Damage Response Mechanisms in Head and Neck Cancer: Significant Implications for Therapy and Survival.

Author

Papalouka C, Adamaki M, Batsaki P, Zoumpourlis P, Tsintarakis A, Goulielmaki M, Fortis SP, Baxevanis CN, and Zoumpourlis V

Subjects

Humans, Combined Modality Therapy, DNA Damage, Head and Neck Neoplasms genetics, Head and Neck Neoplasms therapy

Abstract

Head and neck cancer (HNC) is a term collectively used to describe a heterogeneous group of tumors that arise in the oral cavity, larynx, nasopharynx, oropharynx, and hypopharynx, and represents the sixth most common type of malignancy worldwide. Despite advances in multimodality treatment, the disease has a recurrence rate of around 50%, and the prognosis of metastatic patients remains poor. HNCs are characterized by a high degree of genomic instability, which involves a vicious circle of accumulating DNA damage, defective DNA damage repair (DDR), and replication stress. Nonetheless, the damage that is induced on tumor cells by chemo and radiotherapy relies on defective DDR processes for a successful response to treatment, and may play an important role in the development of novel and more effective therapies. This review summarizes the current knowledge on the genes and proteins that appear to be deregulated in DDR pathways, their implication in HNC pathogenesis, and the rationale behind targeting these genes and pathways for the development of new therapies. We give particular emphasis on the therapeutic targets that have shown promising results at the pre-clinical stage and on those that have so far been associated with a therapeutic advantage in the clinical setting.

Published

2023

16. The thin red line between the immune system and cancer evolution.

Author

Baxevanis CN, Goulielmaki M, Adamaki M, and Fortis SP

Abstract

The cancer immunoediting theory describes the dual ability of endogenous antitumor immunity to inhibit or promote progressing cancers. Tumor-specific neoantigens arising from somatic mutations serve as targets for the endogenous T-cell-mediated antitumor immunity and therefore possess a crucial role for tumor development. Additionally, targeting these molecules is conceptually appealing because neoantigens are not expressed in healthy tissue and therefore confer less toxicity and greater specificity when used in therapeutic interventions. Moreover, intratumor neo-antigenic heterogeneity is believed to play a pivotal role in the activation of adaptive immunity and in the efficacy of immunotherapies that are based on immune checkpoint inhibition. In this respect, mutual interactions between tumor cells and immune lymphocytes regulate the levels of antitumor immunity, but also shape tumor heterogeneity through the selective outgrowth of tumor subclones. Therefore, the exploration of the mechanistic pathways and the identification of the genomic aberrations underlying the clonal evolution of tumors is considered mandatory for improving the clinical outcomes of therapies, as it will assist in the selection of the appropriate therapeutic decisions so as to delay, avoid, or overcome resistance through the identification of the most effective therapeutic strategies., Competing Interests: Declaration of interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier Inc.)

Published

2023

17. Association between Intratumoral CD8+ T Cells with FoxP3+ and CD163+ Cells: A Potential Immune Intrinsic Negative Feedback Mechanism for Acquired Immune Resistance.

Author

Fortis SP, Sofopoulos M, Goulielmaki M, Arnogiannaki N, Ardavanis A, Perez SA, Gritzapis AD, and Baxevanis CN

Abstract

Acquired immune resistance (AIR) describes a situation in which cancer patients who initially responded clinically to immunotherapies, after a certain period of time, progress with their disease. Considering that AIR represents a feedback response of the tumor against the immune attack generated during the course of immunotherapies, it is conceivable that AIR may also occur before treatment initiation as a mechanism to escape endogenous adaptive antitumor immunity (EAAI). In the present study, we assessed the EAAI in paraffin-embedded breast primary tumor tissue samples and drew correlations with the clinical outcomes. In particular, we analyzed densities of CD8+ cells as elements mediating antitumor cytotoxicity, and of CD163+ and FoxP3+ cells as suppressor elements. We found a direct correlation between the densities of CD8+ cells and of CD163+ and/or FoxP3+ cells in the vast majority of patients' tumors. Importantly, the vast majority of patients whose tumors were overpopulated by CD8+ cells developed AIR, which was characterized by high intratumoral CD163+ and/or FoxP3+ cell densities and reduced overall survival (OS). We also showed that AIR depends on the levels of CD8+ cell-ratios in the tumor center to the invasive margin. Our data suggest that tumors develop AIR only when under a robust endogenous immune pressure.

Published

2022

18. Combination Immunotherapy in Prostate Cancer.

Author

Baxevanis CN, Goulielmaki M, Gritzapis AD, and Fortis SP

Abstract

During the last decade, there has been significant progress in the field of prostate cancer therapeutic treatments based on androgen receptor-axis-targeted therapies, which resulted in improved clinical outcomes [...].

Published

2022

19. Radiotherapy-Related Gene Signature in Prostate Cancer.

Author

Fortis SP, Goulielmaki M, Aubert N, Batsaki P, Ouzounis S, Cavouras D, Marodon G, Stokidis S, Gritzapis AD, and Baxevanis CN

Abstract

Radiotherapy for localized prostate cancer has increased the cure and survival rates of patients. Besides its local tumoricidal effects, ionizing radiation has been linked to mechanisms leading to systemic immune activation, a phenomenon called the abscopal effect. In this study, we performed gene expression analysis on peripheral blood from prostate cancer patients obtained post- radiotherapy and showed that 6 genes, including CCR7 , FCGR2B , BTLA , CD6 , CD3D , and CD3E , were down-regulated by a range of 1.5-2.5-fold as compared to pre-radiotherapy samples. The expression of the signature consisting of these six genes was also significantly lower post- vs. pre-radiotherapy. These genes are involved in various tumor-promoting immune pathways and their down-regulation post-radiotherapy could be considered beneficial for patients. This is supported by the fact that low mRNA expression levels for the 6-gene signature in the prostate tumor tissue was linked to better survival. Importantly, we report that this 6-gene signature strongly correlated with a favorable prognosis regardless of poor standard clinicopathological parameters (i.e., Gleason score ≥ 8 and T3 (including T3a and T3b). Our pioneering data open the possibility that the 6-gene signature identified herein may have a predictive value, but this requires further long-term studies.

Published

2022

20. Promising Biomarkers in Head and Neck Cancer: The Most Clinically Important miRNAs.

Author

Thomaidou AC, Batsaki P, Adamaki M, Goulielmaki M, Baxevanis CN, Zoumpourlis V, and Fortis SP

Subjects

Biomarkers, Biomarkers, Tumor genetics, Humans, Precision Medicine, Head and Neck Neoplasms diagnosis, Head and Neck Neoplasms genetics, MicroRNAs genetics, MicroRNAs metabolism, Papillomavirus Infections

Abstract

Head and neck cancers (HNCs) comprise a heterogeneous group of tumors that extend from the oral cavity to the upper gastrointestinal tract. The principal etiologic factors for oral tumors include tobacco smoking and alcohol consumption, while human papillomavirus (HPV) infections have been accused of a high incidence of pharyngeal tumors. Accordingly, HPV detection has been extensively used to categorize carcinomas of the head and neck. The diverse nature of HNC highlights the necessity for novel, sensitive, and precise biomarkers for the prompt diagnosis of the disease, its successful monitoring, and the timely prognosis of patient clinical outcomes. In this context, the identification of certain microRNAs (miRNAs) and/or the detection of alterations in their expression patterns, in a variety of somatic fluids and tissues, could serve as valuable biomarkers for precision oncology. In the present review, we summarize some of the most frequently studied miRNAs (including miR-21, -375, -99, -34a, -200, -31, -125a/b, -196a/b, -9, -181a, -155, -146a, -23a, -16, -29, and let-7), their role as biomarkers, and their implication in HNC pathogenesis. Moreover, we designate the potential of given miRNAs and miRNA signatures as novel diagnostic and prognostic tools for successful patient stratification. Finally, we discuss the currently ongoing clinical trials that aim to identify the diagnostic, prognostic, or therapeutic utility of miRNAs in HNC.

Published

2022

21. The impact of radiation therapy on the TCR Vβ chain repertoire in patients with prostate cancer.

Author

Goulielmaki M, Davanos N, Kogionou P, Batsaki P, Stokidis S, Adamaki M, Mosa E, Vasilakou E, Zambatis C, Gritzapis AD, Zoumpourlis V, Baxevanis CN, and Fortis SP

Subjects

Humans, Male, Prostatic Neoplasms genetics, Prostatic Neoplasms radiotherapy, Receptors, Antigen, T-Cell, alpha-beta genetics

Abstract

Radiation therapy (RT) is an essential component in the therapeutic treatment of patients with localized prostate cancer (LPCa). Besides its local effects, ionizing radiation has been linked to mechanisms leading to systemic immune activation. The present study explored the effect of RT on the T‑cell receptor variable β (TCR Vβ) chain repertoire of peripheral blood T cells in patients with LPCa. High‑throughput TCR Vβ sequencing was performed on 20 blood samples collected from patients with LPCa at baseline and 3 months post‑RT. The diversity index was altered, as were TCR Vβ clonal evenness and convergence before and post‑RT; however, these findings were not significant. Notably, marked changes in the frequencies among the top 10 TCR Vβ clonotypes were detected and some patients developed new clonotypes of high abundance. These data provided initial evidence that RT in patients with LPCa may induce systemic immune changes, which could be exploited by future therapies for improved clinical results.

Published

2022

22. T-Cell Repertoire in Tumor Radiation: The Emerging Frontier as a Radiotherapy Biomarker.

Author

Baxevanis CN, Gritzapis AD, Voutsas IF, Batsaki P, Goulielmaki M, Adamaki M, Zoumpourlis V, and Fortis SP

Abstract

Radiotherapy (RT) is a therapeutic modality that aims to eliminate malignant cells through the induction of DNA damage in the irradiated tumor site. In addition to its cytotoxic properties, RT also induces mechanisms that result in the promotion of antitumor immunity both locally within the irradiation field but also at distant tumor lesions, a phenomenon that is known as the "abscopal" effect. Because the immune system is capable of sensing the effects of RT, several treatment protocols have been assessing the synergistic role of radiotherapy combined with immunotherapy, collectively referred to as radioimmunotherapy. Herein, we discuss mechanistic insights underlying RT-based immunomodulation, which also enhance our understanding of how RT regulates antitumor T-cell-mediated immunity. Such knowledge is essential for the discovery of predictive biomarkers and for the improvement of clinical trials investigating the efficacy of radio-immunotherapeutic modalities in cancer patients.

Published

2022

23. Suitability of Human Mesenchymal Stem Cells Derived from Fetal Umbilical Cord (Wharton's Jelly) as an Alternative In Vitro Model for Acute Drug Toxicity Screening.

Author

Christodoulou I, Goulielmaki M, Kritikos A, Zoumpourlis P, Koliakos G, and Zoumpourlis V

Subjects

Animals, Humans, Mice, Reproducibility of Results, Umbilical Cord, Drug-Related Side Effects and Adverse Reactions metabolism, Mesenchymal Stem Cells metabolism, Wharton Jelly

Abstract

Preclinical toxicity screening is the first and most crucial test that assesses the safety of new candidate drugs before their consideration for further evaluation in clinical trials. In vitro drug screening using stem cells has lately arisen as a promising alternative to the "gold standard" of animal testing, but their suitability and performance characteristics in toxicological studies have so far not been comprehensively investigated. In this study, we focused on the evaluation of human mesenchymal stem cells isolated from the matrix (Wharton's jelly) of fetal umbilical cord (WJSCs), which bear enhanced in vitro applicability due to their unique biological characteristics. In order to determine their suitability for drug-related cytotoxicity assessment, we adopted a high-throughput methodology that evaluated their sensitivity to a selected panel of chemicals in different culture environments. Cytotoxicity was measured within 48 h by means of MTS and/or NRU viability assays, and was compared directly (in vitro) or indirectly (in silico) to adult human mesenchymal stem cells and to reference cell lines of human and murine origin. Our data clearly suggest that human WJSCs can serve as a robust in vitro alternative for acute drug toxicity screening by uniquely combining rapid and versatile assay setup with high-throughput analysis, good representation of human toxicology, high reproducibility, and low cost.

Published

2022

24. Non-coding RNAs (miRNAs and lncRNAs) and their roles in lymphogenesis in all types of lymphomas and lymphoid malignancies.

Author

Drillis G, Goulielmaki M, Spandidos DA, Aggelaki S, and Zoumpourlis V

Abstract

Contemporary developments in molecular biology have been combined with discoveries on the analysis of the role of all non-coding RNAs (ncRNAs) in human diseases, particularly in cancer, by examining their roles in cells. Currently, included among these common types of cancer, are all the lymphomas and lymphoid malignancies, which represent a diverse group of neoplasms and malignant disorders. Initial data suggest that non-coding RNAs, particularly long ncRNAs (lncRNAs), play key roles in oncogenesis and that lncRNA-mediated biology is an important key pathway to cancer progression. Other non-coding RNAs, termed microRNAs (miRNAs or miRs), are very promising cancer molecular biomarkers. They can be detected in tissues, cell lines, biopsy material and all biological fluids, such as blood. With the number of well-characterized cancer-related lncRNAs and miRNAs increasing, the study of the roles of non-coding RNAs in cancer is bringing forth new hypotheses of the biology of cancerous cells. For the first time, to the best of our knowledge, the present review provides an up-to-date summary of the recent literature referring to all diagnosed ncRNAs that mediate the pathogenesis of all types of lymphomas and lymphoid malignancies., Competing Interests: DAS is the Editor-in-Chief for the journal, but had no personal involvement in the reviewing process, or any influence in terms of adjudicating on the final decision, for this article. The other authors declare that they have no competing interests., (Copyright: © Drillis et al.)

Published

2021

25. Bromamine T, a stable active bromine compound, prevents the LPS‑induced inflammatory response.

Author

Baliou S, Sofopoulos M, Goulielmaki M, Spandidos DA, Ioannou P, Kyriakopoulos AM, and Zoumpourlis V

Subjects

Animals, Anti-Inflammatory Agents pharmacology, Anti-Inflammatory Agents therapeutic use, Bromine pharmacology, Cell Line, Cell Nucleus drug effects, Cell Nucleus metabolism, Disease Models, Animal, Gene Expression Regulation drug effects, Inflammation pathology, Inflammation Mediators metabolism, Lipopolysaccharides, Mice, Inbred C57BL, Phosphorylation drug effects, Protein Transport drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Sulfonamides pharmacology, Taurine pharmacology, Transcription Factor RelA metabolism, Transcription, Genetic drug effects, Mice, Bromine therapeutic use, Inflammation drug therapy, Sulfonamides therapeutic use

Abstract

Inflammation is the most common cause of most acute and chronic debilitating diseases. Towards unveiling novel therapeutic options for patients with such complications, N‑bromotaurine (TauNHBr) has emerged as a potential anti‑inflammatory agent; however, its therapeutic efficacy is hindered due to its relatively poor stability. To address this challenge, the present study focused on examining the effects of a stable active bromine compound, named bromamine T (BAT). The present study examined the protective properties of BAT against lipopolysaccharide (LPS)‑mediated inflammation in vitro , by using LPS‑stimulated murine J774.A1 macrophages (Mφs), as well as in vivo , by using a murine LPS‑mediated air‑pouch model. Additionally, its efficacy was compared with that of taurine, a known potent anti‑inflammatory molecule. In LPS‑stimulated J774A.1 Mφs, BAT and taurine were very effective in reducing the secretion of pro‑inflammatory mediators. The in vitro experiments indicated that LPS‑mediated inflammation was attenuated due to the protective properties of BAT and of taurine, probably through the inhibition of phosphorylated p65 NF‑κB subunit (Ser 536) nuclear translocation. The in vivo experiments also revealed that BAT and taurine inhibited LPS‑mediated inflammation by reducing total cell/polymorphonuclear cell (PMN) infiltration in the air‑pouch and by decreasing pouch wall thickness. The analysis of exudates obtained from pouches highlighted that the inhibitory effects of BAT and taurine on the secretion of pro‑inflammatory cytokines were similar to those observed in vitro . Notably, the effect of BAT at the highest concentration tested was superior to that of taurine at the highest concentration. Taken together, the findings of the present study indicate that BAT prevents the LPS‑induced inflammatory response both in vitro and in vivo .

Published

2021

26. Bromamine T (BAT) Exerts Stronger Anti-Cancer Properties than Taurine (Tau).

Author

Baliou S, Goulielmaki M, Ioannou P, Cheimonidi C, Trougakos IP, Nagl M, Kyriakopoulos AM, and Zoumpourlis V

Abstract

Background: Taurine (Tau) ameliorates cancer pathogenesis. Researchers have focused on the functional properties of bromamine T (BAT), a stable active bromine molecule. Both N-bromotaurine (TauNHBr) and BAT exert potent anti-inflammatory properties, but the landscape remains obscure concerning the anti-cancer effect of BAT., Methods: We used Crystal Violet, colony formation, flow cytometry and Western blot experiments to evaluate the effect of BAT and Tau on the apoptosis and autophagy of cancer cells. Xenograft experiments were used to determine the in vivo cytotoxicity of either agent., Results: We demonstrated that both BAT and Tau inhibited the growth of human colon, breast, cervical and skin cancer cell lines. Among them, BAT exerted the greatest cytotoxic effect on both RKO and MDA-MB-468 cells. In particular, BAT increased the phosphorylation of c-Jun N-terminal kinases (JNK½), p38 mitogen-activated protein kinase (MAPK), and extracellular-signal-regulated kinases (ERK½), thereby inducing mitochondrial apoptosis and autophagy in RKO cells. In contrast, Tau exerted its cytotoxic effect by upregulating JNK½ forms, thus triggering mitochondrial apoptosis in RKO cells. Accordingly, colon cancer growth was impaired in vivo., Conclusions: BAT and Tau exerted their anti-tumor properties through the induction of (i) mitochondrial apoptosis, (ii) the MAPK family, and iii) autophagy, providing novel anti-cancer therapeutic modalities.

Published

2021

27. Historical retrospective of the SRC oncogene and new perspectives (Review).

Author

Simatou A, Simatos G, Goulielmaki M, Spandidos DA, Baliou S, and Zoumpourlis V

Abstract

Since its first discovery as part of the Rous sarcoma virus (RSV) genome, the c- SRC ( SRC ) proto-oncogene has been proved a key regulator of cancer development and progression, and thus it has been highlighted as an attractive target for anti-cancer therapeutic strategies. Though the exact mechanisms of its action are still not fully understood, SRC protein mediates crucial normal cell functions, such as cell development, proliferation and survival, and its dysregulation is considered as an oncogenic signature and a driving force for cancer initiation. In the present review, we present a flashback to the history of the Src research, while focusing on the most important milestones in the field. Moreover, we investigate the proposed regulatory mechanisms and molecules that mediate its action in order to designate putative therapeutic targets and useful prognostic and/or diagnostic tools. Furthermore, we present and discuss existing therapeutic approaches that are explored in clinical settings., (Copyright: © Simatou et al.)

Published

2020

28. [Comment] The COVID‑19 pandemic as a scientific and social challenge in the 21st century.

Author

Zoumpourlis V, Goulielmaki M, Rizos E, Baliou S, and Spandidos DA

Subjects

COVID-19, Humans, Politics, Science, Social Class, Socioeconomic Factors, Viral Vaccines, Coronavirus Infections psychology, Cost of Illness, Pandemics, Pneumonia, Viral psychology

Abstract

The coronavirus disease‑2019 (COVID‑19) pandemic, caused by the new coronavirus SARS‑CoV‑2, has spread around the globe with unprecedented consequences for the health of millions of people. While the pandemic is still in progress, with new incidents being reported every day, the resilience of the global society is constantly being challenged. Under these circumstances, the future seems uncertain. SARS‑CoV‑2 coronavirus has spread panic among civilians and insecurity at all socio‑political and economic levels, dramatically disrupting everyday life, global economy, international travel and trade. The disease has also been linked to the onset of depression in many individuals due to the extreme restriction measures that have been taken for the prevention of the rapid spreading of COVID‑19. First, the socio‑economic, political and psychological implications of the COVID‑19 pandemic were explored. Substantial evidence is provided for the consequences of the pandemic on all aspects of everyday life, while at the same time we unravel the role and the pursuits of national regimes during this unforeseen situation. The second goal of this review is related to the scientific aspect of the pandemic. Hence, we explain why SARS‑CoV‑2 is not a so‑called 'invisible enemy', and also attempt to give insight regarding the origin of the virus, in an effort to reject the conspiracy theories that have arisen during the pandemic. Finally, rational strategies were investigated for successful vaccine development. We are optimistic that this review will complement the knowledge of specialized scientists and inform non‑specialized readers on basic scientific questions, and also on the social and economic implications of the COVID‑19 pandemic.

Published

2020

29. Significance of taurine transporter (TauT) in homeostasis and its layers of regulation (Review).

Author

Baliou S, Kyriakopoulos AM, Goulielmaki M, Panayiotidis MI, Spandidos DA, and Zoumpourlis V

Subjects

Animals, Feces chemistry, Homeostasis, Humans, Hydrogen-Ion Concentration, Kidney chemistry, Mice, Taurine metabolism, Taurine urine, Membrane Glycoproteins metabolism, Membrane Transport Proteins metabolism, Taurine analogs & derivatives

Abstract

Taurine (2‑aminoethanesulfonic acid) contributes to homeostasis, mainly through its antioxidant and osmoregulatory properties. Taurine's influx and efflux are mainly mediated through the ubiquitous expression of the sodium/chloride‑dependent taurine transporter, located on the plasma membrane. The significance of the taurine transporter has been shown in various organ malfunctions in taurine‑transporter‑null mice. The taurine transporter differentially responds to various cellular stimuli including ionic environment, electrochemical charge, and pH changes. The renal system has been used as a model to evaluate the factors that significantly determine the regulation of taurine transporter regulation.

Published

2020

30. DPS-2: A Novel Dual MEK/ERK and PI3K/AKT Pathway Inhibitor with Powerful Ex Vivo and In Vivo Anticancer Properties.

Author

Goulielmaki M, Assimomytis N, Rozanc J, Taki E, Christodoulou I, Alexopoulos LG, Zoumpourlis V, Pintzas A, and Papahatjis D

Abstract

Development of novel bioactive compounds against KRAS and/or BRAF mutant colorectal cancer (CRC) is currently an urgent need in oncology. In addition, single or multitarget kinase inhibitors against MEK/ERK and PI3K/AKT pathways are of potential therapeutic advantage. A new compound based on the benzothiophene nucleus was synthesized, based on previous important outcomes on other pharmaceutical preparations, to be tested as potential anticancer agent. Treatments by 2-5 μM DPS-2 of several CRC and melanoma cell lines bearing either BRAF or KRAS mutations have shown a remarkable effect on cell viability in 2D and 3D cultures. More detailed analysis has shown that DPS-2 can kill cancer cells by apoptosis, reducing at the same time their autophagy properties. After testing activities of several signaling pathways, the compound was found to have a dual inhibition of two major proliferative/survival pathways, MEK/ERK and PI3K/AKT, in both CRC and melanoma, thus providing a mechanistic evidence for its potent anticancer activity. Antitumor activity of DPS-2 was further validated in vivo, as DPS-2 treatment of mouse xenografts of Colo-205 colorectal cancer cells remarkably reduced their tumor formation properties. Our findings suggest that DPS-2 has significant anti-KRAS/ anti-BRAF mutant CRC activity in preclinical models, potentially providing a novel treatment strategy for these difficult-to-treat tumors, which needs to be further exploited., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

31. Mesenchymal stem cells in preclinical cancer cytotherapy: a systematic review.

Author

Christodoulou I, Goulielmaki M, Devetzi M, Panagiotidis M, Koliakos G, and Zoumpourlis V

Subjects

Animals, Humans, Phenotype, Tumor Microenvironment, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells cytology, Neoplasms therapy

Abstract

Mesenchymal stem cells (MSC) comprise a heterogeneous population of rapidly proliferating cells that can be isolated from adult (e.g., bone marrow, adipose tissue) as well as fetal (e.g., umbilical cord) tissues (termed bone marrow (BM)-, adipose tissue (AT)-, and umbilical cord (UC)-MSC, respectively) and are capable of differentiation into a wide range of non-hematopoietic cell types. An additional, unique attribute of MSC is their ability to home to tumor sites and to interact with the local supportive microenvironment which rapidly conceptualized into MSC-based experimental cancer cytotherapy at the turn of the century. Towards this purpose, both naïve (unmodified) and genetically modified MSC (GM-MSC; used as delivery vehicles for the controlled expression and release of antitumorigenic molecules) have been employed using well-established in vitro and in vivo cancer models, albeit with variable success. The first approach is hampered by contradictory findings regarding the effects of naïve MSC of different origins on tumor growth and metastasis, largely attributed to inherent biological heterogeneity of MSC as well as experimental discrepancies. In the second case, although the anti-cancer effect of GM-MSC is markedly improved over that of naïve cells, it is yet apparent that some protocols are more efficient against some types of cancer than others. Regardless, in order to maximize therapeutic consistency and efficacy, a deeper understanding of the complex interaction between MSC and the tumor microenvironment is required, as well as examination of the role of key experimental parameters in shaping the final cytotherapy outcome. This systematic review represents, to the best of our knowledge, the first thorough evaluation of the impact of experimental anti-cancer therapies based on MSC of human origin (with special focus on human BM-/AT-/UC-MSC). Importantly, we dissect the commonalities and differences as well as address the shortcomings of work accumulated over the last two decades and discuss how this information can serve as a guide map for optimal experimental design implementation ultimately aiding the effective transition into clinical trials.

Published

2018

32. Genetically‑modified stem cells in treatment of human diseases: Tissue kallikrein (KLK1)‑based targeted therapy (Review).

Author

Devetzi M, Goulielmaki M, Khoury N, Spandidos DA, Sotiropoulou G, Christodoulou I, and Zoumpourlis V

Subjects

Humans, Disease, Genetic Engineering, Molecular Targeted Therapy, Stem Cell Transplantation, Stem Cells metabolism, Tissue Kallikreins metabolism

Abstract

The tissue kallikrein‑kinin system (KKS) is an endogenous multiprotein metabolic cascade which is implicated in the homeostasis of the cardiovascular, renal and central nervous system. Human tissue kallikrein (KLK1) is a serine protease, component of the KKS that has been demonstrated to exert pleiotropic beneficial effects in protection from tissue injury through its anti‑inflammatory, anti‑apoptotic, anti‑fibrotic and anti‑oxidative actions. Mesenchymal stem cells (MSCs) or endothelial progenitor cells (EPCs) constitute populations of well‑characterized, readily obtainable multipotent cells with special immunomodulatory, migratory and paracrine properties rendering them appealing potential therapeutics in experimental animal models of various diseases. Genetic modification enhances their inherent properties. MSCs or EPCs are competent cellular vehicles for drug and/or gene delivery in the targeted treatment of diseases. KLK1 gene delivery using adenoviral vectors or KLK1 protein infusion into injured tissues of animal models has provided particularly encouraging results in attenuating or reversing myocardial, renal and cerebrovascular ischemic phenotype and tissue damage, thus paving the way for the administration of genetically modified MSCs or EPCs with the human tissue KLK1 gene. Engraftment of KLK1‑modified MSCs and/or KLK1‑modified EPCs resulted in advanced beneficial outcome regarding heart and kidney protection and recovery from ischemic insults. Collectively, findings from pre‑clinical studies raise the possibility that tissue KLK1 may be a novel future therapeutic target in the treatment of a wide range of cardiovascular, cerebrovascular and renal disorders.

Published

2018

33. Drug nanocarriers for cancer chemotherapy based on microemulsions: The case of Vemurafenib analog PLX4720.

Author

Theochari I, Goulielmaki M, Danino D, Papadimitriou V, Pintzas A, and Xenakis A

Subjects

Antineoplastic Agents pharmacology, Cell Line, Tumor, Cell Survival drug effects, Emulsions, HT29 Cells, Humans, Indoles pharmacology, Nanocapsules ultrastructure, Sulfonamides pharmacology, Surface-Active Agents chemistry, Antineoplastic Agents chemistry, Drug Carriers, Indoles chemistry, Nanocapsules chemistry, Polysorbates chemistry, Sulfonamides chemistry, Triacetin chemistry

Abstract

Oil-in-water (O/W) microemulsions based on Tween 80 as the emulsifier and triacetin as the dispersed oil phase were formulated to be used as delivery vehicles of Vemurafenib analog PLX4720. PLX4720 is a lipophilic antitumor drug against various cancer types correlated with the BRAF V600E mutation. The limits of the single-phase region corresponding to O/W microemulsions as described by ternary phase diagrams were examined. Droplet size measurements determined by dynamic light scattering (DLS) showed mean droplet diameters equal to 10±0.1nm both in the presence and in absence of the drug. Cryogenic-transmission electron microscopy (Cryo-TEM) images of the microemulsions showed the existence of small structures with uniform size distribution having also average diameters of approximately 10nm. Electron paramagnetic resonance (EPR) spectroscopy applying the spin probing technique confirmed PLX4720 location in the oil cores excluding its participation in the surfactants monolayer. Furthermore, cell viability assays on colon cancer cell lines Colo-205 and HT29 showed that microemulsions did not exhibit any cytotoxicity when added in ratios between 0.005% v/v and 0.2% v/v. When the cells were treated with encapsulated PLX4720 at two different concentrations (0.063 and 0.12μΜ) the same response as when dissolved in classic DMSO was observed., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

34. Homeobox Gene Involvement in Normal Hematopoiesis and in the Pathogenesis of Childhood Leukemias.

Author

Adamaki M, Goulielmaki M, Christodoulou I, Vlahopoulos S, and Zoumpourlis V

Subjects

Animals, Biomarkers, Tumor metabolism, Cell Transformation, Neoplastic metabolism, Child, Child, Preschool, Humans, Leukemia diagnosis, Leukemia metabolism, Biomarkers, Tumor genetics, Cell Transformation, Neoplastic genetics, Genes, Homeobox physiology, Hematopoiesis physiology, Leukemia genetics

Abstract

Homeobox (HOX) genes are a superfamily of highly conserved genes with essential functions in many aspects of mammalian development. Their expression is tightly regulated throughout the duration of definitive hematopoiesis, so the pathogenetic mechanism that leads to leukemia suggests that malignant transformation is directly intertwined with the deregulation of HOX gene expression. Even though HOX gene involvement has been reviewed extensively in adult leukemias, childhood leukemias have received much less attention and mainly in the context of leukemias harboring MLL (mixed-lineage leukemia) gene translocations. In recent years, scientific evidence has highlighted HOX gene involvement in the development of other subtypes of childhood leukemias and added HOX gene family members that were previously unrelated to the pathogenesis of childhood leukemia. This has significant implications when considering both the risk stratification of pediatric patients and potential targets for successful therapy. Through the identification of HOX target genes, their resulting interactions, and the cognate signaling pathways, we hope to gain a better understanding of the molecular mechanism(s) underlying the ectopic activation of these genes in childhood leukemias and subsequently to reveal new molecular targets for successful therapy in cases of poor prognosis or resistant disease.

Published

2017

35. The Ideological Frame of the Genetic Basis of Cancer: The Important Role of miRNAs.

Author

Zoumpourlis V, Skourti E, Goulielmaki M, Vlahopoulos S, and Christodoulou I

Subjects

Animals, Carcinogenesis genetics, Carcinogenesis metabolism, Cell Proliferation physiology, Humans, Gene Expression Regulation, Neoplastic, MicroRNAs physiology, Neoplasms genetics, Neoplasms metabolism, Neoplastic Stem Cells physiology

Abstract

The elucidation of the genetic basis of cancer is the result of the research conducted since the beginning of the previous century, which peaked during the decades of 1960s and 1970s. It has been achieved through two different but convergent routes: the first includes the study of oncogenic viruses in rodents and birds and the second includes the use of chemical carcinogens in cells or in animal model systems (mice). Within this framework, the identification of genes that present mutations, alterations in expression levels, and epigenetic modifications has been facilitated through the development of animal carcinogenesis models. One of these models is the well-characterized mouse multistage skin cancer system discussed in this review. In addition, recent evidence shows the great significance that cancer stem cells seem to have in the emergence and progression of carcinogenesis. Finally, herein we discuss the critical role that miRNAs have emerged to play in cancer progression. miRNAs emerged as molecules with an impact on most cancer-related cellular processes, involving cell proliferation, cell death (apoptosis), angiogenesis, migration/motility, and rearrangement of the cytoskeleton. Their discovery has given rise to studies with a focus on miRNAs as key players in crucial oncogenesis-related processes and thus as potential targets in cancer therapeutics.

Published

2017

36. BRAF associated autophagy exploitation: BRAF and autophagy inhibitors synergise to efficiently overcome resistance of BRAF mutant colorectal cancer cells.

Author

Goulielmaki M, Koustas E, Moysidou E, Vlassi M, Sasazuki T, Shirasawa S, Zografos G, Oikonomou E, and Pintzas A

Subjects

Apoptosis drug effects, Autophagy drug effects, Beclin-1 metabolism, Caco-2 Cells, Cell Line, Tumor, Class I Phosphatidylinositol 3-Kinases, Colorectal Neoplasms pathology, Extracellular Signal-Regulated MAP Kinases antagonists & inhibitors, HCT116 Cells, HT29 Cells, Humans, Indoles pharmacology, Macrolides pharmacology, Microtubule-Associated Proteins metabolism, Phosphoinositide-3 Kinase Inhibitors, Proto-Oncogene Proteins B-raf genetics, Proto-Oncogene Proteins B-raf metabolism, Proto-Oncogene Proteins c-akt antagonists & inhibitors, Sequestosome-1 Protein metabolism, Sulfonamides pharmacology, TOR Serine-Threonine Kinases antagonists & inhibitors, Antineoplastic Agents pharmacology, Autophagy physiology, Colorectal Neoplasms drug therapy, Phosphatidylinositol 3-Kinases metabolism, Protein Kinase Inhibitors pharmacology, Proto-Oncogene Proteins B-raf antagonists & inhibitors, Proto-Oncogene Proteins p21(ras) metabolism

Abstract

Autophagy is the basic catabolic mechanism that involves cell degradation of unnecessary or dysfunctional cellular components. Autophagy has a controversial role in cancer--both in protecting against tumor progression by isolation of damaged organelles, or by potentially contributing to cancer growth. The impact of autophagy in RAS induced transformation still remains to be further analyzed based on the differential effect of RAS isoforms and tumor cell context. In the present study, the effect of KRAS/BRAF/PIK3CA oncogenic pathways on the autophagic cell properties and on main components of the autophagic machinery like p62 (SQSTM1), Beclin-1 (BECN1) and MAP1LC3 (LC3) in colon cancer cells was investigated. This study provides evidence that BRAF oncogene induces the expression of key autophagic markers, like LC3 and BECN1 in colorectal tumor cells. Herein, PI3K/AKT/MTOR inhibitors induce autophagic tumor properties, whereas RAF/MEK/ERK signalling inhibitors reduce expression of autophagic markers. Based on the ineffectiveness of BRAFV600E inhibitors in BRAFV600E bearing colorectal tumors, the BRAF related autophagic properties in colorectal cancer cells are further exploited, by novel combinatorial anti-cancer protocols. Strong evidence is provided here that pre-treatment of autophagy inhibitor 3-MA followed by its combination with BRAFV600E targeting drug PLX4720 can synergistically sensitize resistant colorectal tumors. Notably, colorectal cancer cells are very sensitive to mono-treatments of another autophagy inhibitor, Bafilomycin A1. The findings of this study are expected to provide novel efficient protocols for treatment of otherwise resistant colorectal tumors bearing BRAFV600E, by exploiting the autophagic properties induced by BRAF oncogene.

Published

2016

37. BRAF vs RAS oncogenes: are mutations of the same pathway equal? Differential signalling and therapeutic implications.

Author

Oikonomou E, Koustas E, Goulielmaki M, and Pintzas A

Subjects

Humans, Neoplasms drug therapy, Genes, ras genetics, Mutation, Neoplasms genetics, Proto-Oncogene Proteins B-raf genetics, Signal Transduction genetics

Abstract

As the increased knowledge of tumour heterogeneity and genetic alterations progresses, it exemplifies the need for further personalized medicine in modern cancer management. Here, the similarities but also the differential effects of RAS and BRAF oncogenic signalling are examined and further implications in personalized cancer diagnosis and therapy are discussed. Redundant mechanisms mediated by the two oncogenes as well as differential regulation of signalling pathways and gene expression by RAS as compared to BRAF are addressed. The implications of RAS vs BRAF differential functions, in relevant tumour types including colorectal cancer, melanoma, lung cancer are discussed. Current therapeutic findings and future viewpoints concerning the exploitation of RAS-BRAF-pathway alterations for the development of novel therapeutics and efficient rational combinations, as well as companion tests for relevant markers of response will be evaluated. The concept that drug-resistant cells may also display drug dependency, such that altered dosing may prevent the emergence of lethal drug resistance posed a major therapy hindrance.

Published

2014