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3. Advanced detection of cervical cancer biomarkers using engineered filamentous phage nanofibers.

Author

Zhou, Xu, Wang, Yicun, Bao, Meijing, Chu, Yuqing, Liu, Ruixue, Chen, Qi, and Lin, Yang

Abstract

Cervical cancer is a major global health concern, characterized by its high incidence and mortality rates. The detection of tumor markers is crucial for managing cancer, making treatment decisions, and monitoring disease progression. Vascular endothelial growth factor (VEGF) and programmed death-ligand 1 (PDL-1) are key targets in cervical cancer therapy and valuable biomarkers in predicting treatment response and prognosis. In this study, we found that combining the measurement of VEGF and soluble PDL-1 can be used for diagnosing and evaluating the progression of cervical cancer. To explore a more convenient approach for detecting and assessing cervical cancer, we designed and prepared an engineered fd bacteriophage, a human-safe viral nanofiber, equipped with two peptides targeting VEGF and PD-L1. The dual-display phage nanofiber specifically recognizes and binds to both proteins. Utilizing this nanofiber as a novel capture agent, we developed a new enzyme-linked immunosorbent assay (ELISA) method. This method shows significantly enhanced detection sensitivity compared to conventional ELISA methods, which use either anti-VEGF or anti-PD-L1 antibodies as capture agents. Therefore, the phage dual-display nanofiber presents significant potential in detecting cancer markers, evaluating medication efficacy, and advancing immunotherapy drug development. Key points: • The combined measurement of VEGF and soluble Programmed Death-Ligand 1(sPD-L1) demonstrates an additive effect in the diagnosis of cervical cancer. Fd phage nanofibers have been ingeniously engineered to display peptides that bind to VEGF and PD-L1, enabling the simultaneous detection of both proteins within a single assay • Genetically engineered phage nanofibers, adorned with two distinct peptides, can be utilized for the diagnosis and prognosis of cancer and can be mass-produced cost-effectively through bacterial infections • Employing dual-display fd phage nanofibers as capture probes, the phage ELISA method exhibited significantly enhanced detection sensitivity compared to traditional sandwich ELISA. Furthermore, phage ELISA facilitates the detection of a single protein or the simultaneous detection of multiple proteins, rendering them powerful tools for protein analysis and diagnosis across various fields, including cancer research [ABSTRACT FROM AUTHOR]

Published
2024
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4. Key players in the regulation of iron homeostasis at the host-pathogen interface.

Author

Ullah, Inam and Minglin Lang

Subjects
IRON in the body, IRON, SIDEROPHORES, TRANSFERRIN, LACTOFERRIN
Abstract

Iron plays a crucial role in the biochemistry and development of nearly all living organisms. Iron starvation of pathogens during infection is a striking feature utilized by a host to quell infection. In mammals and some other animals, iron is essentially obtained from diet and recycled from erythrocytes. Free iron is cytotoxic and is readily available to invading pathogens. During infection, most pathogens utilize host iron for their survival. Therefore, to ensure limited free iron, the host’s natural system denies this metal in a process termed nutritional immunity. In this fierce battle for iron, hosts win over some pathogens, but others have evolved mechanisms to overdrive the host barriers. Production of siderophores, heme iron thievery, and direct binding of transferrin and lactoferrin to bacterial receptors are some of the pathogens’ successful strategies which are highlighted in this review. The intricate interplay between hosts and pathogens in iron alteration systems is crucial for understanding host defense mechanisms and pathogen virulence. This review aims to elucidate the current understanding of host and pathogen iron alteration systems and propose future research directions to enhance our knowledge in this field. [ABSTRACT FROM AUTHOR]

Published
2023
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5. FTH1 indicates poor prognosis and promotes metastasis in head and neck squamous cell carcinoma.

Author

Qingyun Liao, Jing Yang, Zhaoyi Lu, Qingshan Jiang, Yongqian Gong, Lijun Liu, Hong Peng, Qin Wang, Xin Zhang, and Zhifeng Liu

Subjects
SQUAMOUS cell carcinoma, LYMPHATIC metastasis, NECK, PROGNOSIS, METASTASIS, PROGRESSION-free survival
Abstract

Background. Currently, ferritin heavy chain (FTH1) has been increasingly found to play a crucial role in cancer as a core regulator of ferroptosis, while its role of non-ferroptosis in head and neck squamous cell carcinoma (HNSCC) is still unclear. Methods. Herein, we analyzed the expression level of FTH1 in HNSCC using TCGA database, and FTH1 protein in HNSCC tissues and cell lines was determined by immunohistochemistry (IHC) and western blotting, respectively. Then, its prognostic value and relationship with clinical parameters were investigated in HNSCC patients. Additionally, the biological function of FTH1 in HNSCC was explored. Results. The current study showed that FTH1 is significantly overexpressed in HNSCC tissues and related to poor prognosis and lymph node metastasis of HNSCC. FTH1 knockdown could suppress the metastasis and epithelial-mesenchymal transition (EMT) process of HNSCC. Conclusion. Our findings indicate that FTH1 plays a critical role in the progression and metastasis of HNSCC and can serve as a promising prognostic factor and therapeutic target in HNSCC. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Specific aspects of human immunoglobulin interactions with Fe3O4/≡Si(CH2)3NH2 nanocomposite surface.

Author

Kusiak, Nataliia, Marcin Behunova, Dominika, Yankovych, Halyna, Kusyak, Andrii, Findoráková, Lenka, and Melnyk, Inna

Subjects
LANGMUIR isotherms, SOCIAL interaction, NANOCOMPOSITE materials, ZETA potential, AMINO group, DEIONIZATION of water
Abstract

In a one-step process, nanoscale magnetite was modified with 3-aminopropyltriethoxysilane to introduce amino groups onto its surface. The resulting nanocomposite exhibited a particle size of approximately 13.6 nm, with agglomerates measuring 150 nm in size. The nanoparticles were densely packed, creating gaps (pores) between them of up to 13 nm and a specific surface area of 114 m2⋅g−1. The nanocomposite possessed approximately 0.8 mmol⋅g−1 of amino groups. Electrokinetic potential data confirmed the presence of basic groups, and the isoelectric point was observed at pH 10. The adsorption of human immunoglobulin in a 0.9% NaCl solution was investigated using the synthesized nanoparticles, with a maximum adsorption capacity reaching 40.5 mg⋅g−1. Infrared spectroscopy data of the Ig-loaded sample and the fitting of the adsorption isotherm using the Langmuir adsorption model indicated chemisorption of the immunoglobulin on the surface of the Fe3O4/≡Si(CH2)3NH2 particles. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Does insulin make breast cancer cells resistant to doxorubicin toxicity?

Author

Lykhova, Oleksandra, Zavelevich, Michael, Philchenkov, Alex, Vidasov, Nazar, Kozak, Tamara, Lozovska, Yulia, Andrusyshyna, Iryna, Bishayee, Anupam, Borikun, Tetiana, Lukianova, Natalia, and Chekhun, Vasyl

Subjects
ATOMIC emission spectroscopy, INSULIN, CANCER cells, BREAST cancer, DOXORUBICIN, MAGNESIUM
Abstract

The effects of insulin on the doxorubicin (Dox) sensitivity of breast cancer cell line MCF-7 and its Dox-resistant counterpart MCF-7/Dox were studied and glucose metabolism, content of essential minerals, and the expression of several microRNAs in these cells upon exposure to insulin and Dox were compared. Cell viability colorimetric assay, colorimetric enzymatic technique, flow cytometry, immunocytochemical techniques, inductively-coupled plasma atomic emission spectroscopy, and quantitative polymerase chain reaction were used in the study. We found that insulin in high concentration significantly suppressed Dox toxicity, especially in parental MCF-7 cell line. The increase in proliferative activity triggered by insulin in MCF-7 but not MCF-7/Dox cells occurred in the setting of the increased level of specific binding sites for insulin and increased glucose uptake. Insulin treatment of MCF-7 cells in low and high concentrations resulted in the increase of Mg, Ca, and Zn content while in DOX-resistant cells, only Mg content increased upon exposure to insulin. High concentration of insulin increased the expression of kinase Akt1, P-glycoprotein 1 (P-gp1) and DNA excision repair protein ERCC-1 in MCF-7 cells, while in MCF-7/Dox cells, Akt1 expression decreased, and cytoplasmic expression of P-gp1 increased. In addition, insulin treatment affected expression of miR-122-5p, miR-133a-3p, miR-200b-3p, and miR-320a-3p. The decreased manifestation of biological effects of insulin in Dox-resistant cells could be partly explained by the different patterns of energy metabolism in MCF-7 cells and their Dox-resistant counterpart. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Overexpression of ferritin light chain as a poor prognostic factor for breast cancer.

Author

Tang, Chunxiao, Zhang, Baojian, Yang, Yang, Lin, Zhenhua, and Liu, Yanqun

Abstract

Background: Ferritin light chain (FTL) is involved in tumor progression, but the specific molecular processes by which FTL affects the development of breast cancer (BRCA) have remained unknown. In this research, the clinicopathological significance of FTL overexpression in BRCA was investigated. Methods: To investigate the role of FTL in BRCA, we utilized multiple online databases to analyse FTL expression levels in BRCA. Next, we reviewed the expression and localization of the FTL protein in BRCA by immunohistochemistry (IHC), Western blot (WB) and immunofluorescence (IF) staining. To assess the impact of FTL on patient prognosis, we conducted Kaplan‒Meier, univariate and multivariate survival analyses. The relationship between FTL and immune infiltration in BRCA was also analysed in the TISCH and SangerBox databases. MTT, malondialdehyde (MDA) and reactive oxygen species (ROS) assays were carried out to investigate the molecular mechanisms of FTL action in BRCA cells. Results: FTL was significantly upregulated in BRCA compared to normal tissues. Its expression significantly linked to histological grade (P = 0.038), PR expression (P = 0.021), Her2 expression (P = 0.012) and Ki-67 expression (P = 0.040) in patients with BRCA. Furthermore, the expression of the FTL protein was higher in the BRCA cell lines than in the normal breast cells and mainly localized in the cytoplasm. Compared to patients with a low level of FTL expression, patients with a high level of FTL expression showed lower overall survival (OS). More convincingly, univariate and multivariate statistical analyses revealed that FTL expression (P = 0.000), ER expression (P = 0.036) and Her2 expression (P = 0.028) were meaningful independent prognostic factors in patients with BRCA. FTL was associated with immune infiltration in BRCA. Functional experiments further revealed that FTL knockdown inhibited the capacity of proliferation and increased the level of oxidative stress in BRCA cells. Conclusions: Overexpression of FTL was associated with the progression of BRCA. FTL overexpression may become a biomarker for the evaluation of poor prognosis in patients with BRCA. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Synergistic combination of doxorubicin with hydralazine, and disulfiram against MCF-7 breast cancer cell line.

Author

Lafi, Zainab, Alshaer, Walhan, Gharaibeh, Lobna, Alqudah, Dana A., AlQuaissi, Baidaa, Bashaireh, Banan, and Ibrahim, Abed Alqader

Subjects
DISULFIRAM, CELL lines, CANCER cells, BREAST cancer, CHEMOTHERAPY complications
Abstract

Disulfiram and hydralazine have recently been reported to have anti-cancer action, and repositioned to be used as adjuvant in cancer therapy. Chemotherapy combined with other medications, such as those that affect the immune system or epigenetic cell profile, can overcome resistance with fewer adverse effects compared to chemotherapy alone. In the present study, a combination of doxorubicin (DOX) with hydrazine (Hyd) and disulfiram (Dis), as a triple treatment, was evaluated against wild-type and DOX-resistant MCF-7 breast cancer cell line. Both wild-type MCF-7 cell line (MCF-7_WT) and DOX-resistant MCF-7 cell line (MCF-7_DoxR) were treated with different combination ratios of DOX, Dis, and Hyd followed by measuring the cell viability using the MTT assay. Synergism was determined using a combination index, isobologram analysis, and dose-reducing index. The anti-proliferation activity and mechanism of the triple combination were investigated by apoptosis analysis. The results showed a reduction in the IC50 values of DOX in MCF-7_WT cells (from 0.24 μM to 0.012 μM) and MCF-7_DoxR cells (from 1.13 μM to 0.44 μM) when treated with Dis (0.03μM), and Hyd (20μM) combination. Moreover, The triple combination DOX/Hyd/Dis induced significant apoptosis in both MCF-7_WT and MCF-7_DoxR cells compared to DOX alone. The triple combination of DOX, Dis, and Hyd showed a synergistic drugs combination to decrease the DOX dose needed to kill both MCF-7_WT and MCF-7_DoxR cancer cells and enhanced chemosensitivity to DOX. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Understanding and targeting resistance mechanisms in cancer.

Author

Zi-Ning Lei, Qin Tian, Qiu-Xu Teng, Wurpel, John N. D., Yihang Pan, Zhe-Sheng Chen, and Leli Zeng

Subjects
DRUG resistance, CANCER treatment, DRUG design, DNA repair, TUMOR microenvironment
Abstract

Resistance to cancer therapies has been a commonly observed phenomenon in clinical practice, which is one of the major causes of treatment failure and poor patient survival. The reduced responsiveness of cancer cells is a multifaceted phenomenon that can arise from genetic, epigenetic, and microenvironmental factors. Various mechanisms have been discovered and extensively studied, including drug inactivation, reduced intracellular drug accumulation by reduced uptake or increased efflux, drug target alteration, activation of compensatory pathways for cell survival, regulation of DNA repair and cell death, tumor plasticity, and the regulation from tumor microenvironments (TMEs). To overcome cancer resistance, a variety of strategies have been proposed, which are designed to enhance the effectiveness of cancer treatment or reduce drug resistance. These include identifying biomarkers that can predict drug response and resistance, identifying new targets, developing new targeted drugs, combination therapies targeting multiple signaling pathways, and modulating the TME. The present article focuses on the different mechanisms of drug resistance in cancer and the corresponding tackling approaches with recent updates. Perspectives on polytherapy targeting multiple resistance mechanisms, novel nanoparticle delivery systems, and advanced drug design tools for overcoming resistance are also reviewed. [ABSTRACT FROM AUTHOR]

Published
2023
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12. ABCB1-mediated docetaxel resistance reversed by erastin in prostate cancer.

Author

Chen F, Wu S, Kuang N, Zeng Y, Li M, and Xu C

Subjects
Male, Humans, Animals, Mice, Cell Line, Tumor, Mice, Nude, Apoptosis drug effects, Prostatic Neoplasms, Castration-Resistant drug therapy, Prostatic Neoplasms, Castration-Resistant pathology, Prostatic Neoplasms, Castration-Resistant metabolism, Prostatic Neoplasms, Castration-Resistant genetics, Ferroptosis drug effects, Ferroptosis genetics, Antineoplastic Agents pharmacology, Cell Proliferation drug effects, Gene Expression Regulation, Neoplastic drug effects, Prostatic Neoplasms drug therapy, Prostatic Neoplasms pathology, Prostatic Neoplasms metabolism, Prostatic Neoplasms genetics, Drug Synergism, Mice, Inbred BALB C, Docetaxel pharmacology, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B metabolism, Xenograft Model Antitumor Assays, Piperazines pharmacology
Abstract

Docetaxel (Doc) currently serves as the primary first-line treatment for patients with castrate-resistant prostate cancer (CRPC). Erastin, a small molecule compound, can trigger inhibition of the cystine-glutamate reverse transport system and other pathways, leading to iron-dependent cell death (ferroptosis). Beyond its role in inducing cancer cell death, erastin demonstrates potential when combined with chemotherapy drugs to heighten cancer cell drug susceptibility. However, the augmentation by erastin of the effects of Doc treatment on prostate cancer, and the underlying mechanisms involved, remain unclear. In the present study, we determined the role and the underlying molecular mechanism of erastin against CRPC. The results showed that CRPC cell lines were resistant to Doc, and the expression of ferroptosis-related factors in drug-resistant cell lines was downregulated. Erastin, in synergy with Doc, exerts a pro-apoptotic effect. Erastin significantly inhibited the activity of ATP-binding cassette subfamily B member 1 (ABCB1) but did not change its protein expression and localization. Finally, in mice, erastin treatment dramatically reduced tumor growth in vivo. Taken together, our findings demonstrate that erastin enhances Doc-induced apoptosis to a certain extent and reverses Doc resistance in prostate cancer by inhibiting the activity of multidrug-resistant protein ABCB1., (© 2024 Federation of European Biochemical Societies.)

Published
2024
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14. Lipid metabolism in ferroptosis and ferroptosis-based cancer therapy.

Author

Yonghao Sun, Zuoxing Xue, Tao Huang, Xiangyu Che, and Guangzhen Wu

Subjects
LIPID metabolism, CANCER treatment, CELLULAR signal transduction, PEROXIDATION, LIPIDS
Abstract

Ferroptosis refers to iron-dependent, specialized, and regulated-necrosis mediated by lipid peroxidation, which is closely related to a variety of diseases, including cancer. Tumor cells undergo extensive changes in lipid metabolism, including lipid peroxidation and ferroptosis. Changes in lipid metabolism are critical for the regulation of ferroptosis and thus have important roles in cancer therapy. In this review, we introduce the characteristics of ferroptosis and briefly analyze the links between several metabolic mechanisms and ferroptosis. The effects of lipid peroxides, several signaling pathways, and the molecules and pathways involved in lipid metabolism on ferroptosis were extensively analyzed. Finally, our review highlights some ferroptosis-based treatments and presents some methods and examples of how these treatments can be combined with other treatments. [ABSTRACT FROM AUTHOR]

Published
2022
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15. The Role of miRNAs in the Resistance of Anthracyclines in Breast Cancer: A Systematic Review.

Author

Si, Zihan, Zhong, Yan, Lao, Sixian, Wu, Yufeng, Zhong, Guoping, and Zeng, Weiwei

Subjects
ANTHRACYCLINES, TRIPLE-negative breast cancer, BREAST cancer, MICRORNA, CANCER chemotherapy, PATHOLOGIC neovascularization
Abstract

Breast cancer has been reported as the most common cancer in women globally, with 2.26 million new cases in 2020. While anthracyclines are the first-line drug for breast cancer, they cause a variety of adverse reactions and drug resistance, especially for triple-negative breast cancer, which can lead to poor prognosis, high relapse, and mortality rate. MicroRNAs (miRNAs) have been shown to be important in the initiation, development and metastasis of malignancies and their abnormal transcription levels may influence the efficacy of anthracyclines by participating in the pathologic mechanisms of breast cancer. Therefore, it is essential to understand the exact role of miRNAs in the treatment of breast cancer with anthracyclines. In this review, we outline the mechanisms and signaling pathways involved in miRNAs in the treatment of breast cancer using anthracyclines. The role of miRNA in the diagnosis, prognosis and treatment of breast cancer patients is discussed, along with the involvement of miRNAs in chemotherapy for breast cancer. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Development and application of novel BiFC probes for cell sorting based on epigenetic modification.

Author

Mendonca, Agnes, Sánchez, Oscar, Zhao, Han, Lin, Li, Min, Alan, and Yuan, Chongli

Abstract

The epigenetic signature of cancer cells varies with disease progression and drug treatment, necessitating the study of these modifications with single cell resolution over time. The rapid detection and sorting of cells based on their underlying epigenetic modifications by flow cytometry can enable single cell measurement and tracking to understand tumor heterogeneity and progression warranting the development of a live‐cell compatible epigenome probes. In this work, we developed epigenetic probes based on bimolecular fluorescence complementation (BiFC) and demonstrated their capabilities in quantifying and sorting cells based on their epigenetic modification contents. The sorted cells are viable and exhibit distinctive responses to chemo‐therapy drugs. Notably, subpopulations of MCF7 cells with higher H3K9me3 levels are more likely to develop resistance to Doxorubicin. Subpopulations with higher 5mC levels, on the other hand, tend to be more responsive. Overall, we report for the first time, the application of novel split probes in flow cytometry application and elucidated the potential role of 5mC and H3K9me3 in determining drug responses. [ABSTRACT FROM AUTHOR]

Published
2022
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17. RNA-seq of nine canine prostate cancer cell lines reveals diverse therapeutic target signatures.

Author

Packeiser, Eva-Maria, Taher, Leila, Kong, Weibo, Ernst, Mathias, Beck, Julia, Hewicker-Trautwein, Marion, Brenig, Bertram, Schütz, Ekkehard, Murua Escobar, Hugo, and Nolte, Ingo

Subjects
CELL lines, PROSTATE cancer, DRUG target, EPITHELIAL-mesenchymal transition, TRANSITIONAL cell carcinoma
Abstract

Background: Canine prostate adenocarcinoma (PAC) and transitional cell carcinoma (TCC) are typically characterized by metastasis and chemoresistance. Cell lines are important model systems for developing new therapeutic strategies. However, as they adapt to culturing conditions and undergo clonal selection, they can diverge from the tissue from which they were originally derived. Therefore, a comprehensive characterization of cell lines and their original tissues is paramount. Methods: This study compared the transcriptomes of nine canine cell lines derived from PAC, PAC metastasis and TCC to their respective original primary tumor or metastasis tissues. Special interests were laid on cell culture-related differences, epithelial to mesenchymal transition (EMT), the prostate and bladder cancer pathways, therapeutic targets in the PI3K-AKT signaling pathway and genes correlated with chemoresistance towards doxorubicin and carboplatin. Results: Independent analyses for PAC, PAC metastasis and TCC revealed 1743, 3941 and 463 genes, respectively, differentially expressed in the cell lines relative to their original tissues (DEGs). While genes associated with tumor microenvironment were mostly downregulated in the cell lines, patient-specific EMT features were conserved. Furthermore, examination of the prostate and bladder cancer pathways revealed extensive concordance between cell lines and tissues. Interestingly, all cell lines preserved downstream PI3K-AKT signaling, but each featured a unique therapeutic target signature. Additionally, resistance towards doxorubicin was associated with G2/M cell cycle transition and cell membrane biosynthesis, while carboplatin resistance correlated with histone, m- and tRNA processing. Conclusion: Comparative whole-transcriptome profiling of cell lines and their original tissues identifies models with conserved therapeutic target expression. Moreover, it is useful for selecting suitable negative controls, i.e., cell lines lacking therapeutic target expression, increasing the transfer efficiency from in vitro to primary neoplasias for new therapeutic protocols. In summary, the dataset presented here constitutes a rich resource for canine prostate and bladder cancer research. [ABSTRACT FROM AUTHOR]

Published
2022
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