Your search keyword '"cancer antigen"' showing total 8 results

1. Structure-Based Multi-Targeted Molecular Docking and Dynamic Simulation of Soybean-Derived Isoflavone Genistin as a Potential Breast Cancer Signaling Proteins Inhibitor.

Author

Elkhalifa, Abd Elmoneim O., Al-Shammari, Eyad, Kuddus, Mohammed, Adnan, Mohd, Sachidanandan, Manojkumar, Awadelkareem, Amir Mahgoub, Qattan, Malak Yahia, Khan, Mohammad Idreesh, Abduljabbar, Sanaa Ismael, Sarwar Baig, Mirza, and Ashraf, Syed Amir

Subjects

*EPIDERMAL growth factor receptors, *MOLECULAR docking, *DYNAMIC simulation, *BREAST cancer, *DRUG discovery, *ESTROGEN receptors, *ORGANS (Anatomy)

Abstract

Globally, breast cancer (BC), the second-biggest cause of cancer death, occurs due to unregulated cell proliferation leading to metastasis to other parts of the human organ. Recently, the exploration of naturally derived anticancer agents has become popular due to their fewer adverse effects. Among the natural products, soybean is a very well-known legume that contains important bioactive compounds such as diadazine, glycetin, genistein, and genistin. Therefore, keeping its therapeutic potential in mind, multi-targeted molecular docking and simulation studies were conducted to explore the potential role of soybean-derived isoflavone genistin against several breast cancer-signaling proteins (ER-alpha, ER-Beta, collapsin response mediator protein 2, CA 15-3, human epidermal growth factor receptor 2). A comparative study of the genistin-protein docked complex was explored to investigate its potential role in BC. The molecular binding energy (∆G) of the docked complex was calculated along with ADMET properties. The molecular docking score of genistin with ubiquitin-like protein activation complex-a type of Cancer Antigen (CA) 15.3 (PDB ID-2NVU, 5T6P, and 1YX8) showed the highest binding energy, ranging from −9.5 to −7.0 Kcal/mol, respectively. Furthermore, the highest docking scores of the complex were additionally put through molecular dynamics (MD) simulation analysis. MD simulations of the selected complex were performed at 100 ns to study the stability of the genistin-ubiquitin-like protein CA 15.3 complex, which appeared to be quite stable. Additionally, the ADMET study demonstrated that genistin complies with all drug-likeness standards, including Lipinski, Egan, Veber, Ghose, and Muegge. Therefore, based on the results, genistin can be considered as one of the potential drugs for the management and treatment of BC. In addition, the obtained results suggest that genistin could pave the way for new drug discovery to manage breast cancer and has potential in the development of nutraceuticals. [ABSTRACT FROM AUTHOR]

Published

2023

2. Ex Vivo Model of Neuroblastoma Plasticity.

Author

Schäfer, Paula, Muhs, Stefanie, Turnbull, Lucas, Garwal, Palwasha, Maar, Hanna, Yorgan, Timur A., Tolosa, Eva, Lange, Tobias, and Windhorst, Sabine

Subjects

*INTERLEUKINS, *NEUROBLASTOMA, *XENOGRAFTS, *CELL culture, *STAINS & staining (Microscopy), *ANIMAL experimentation, *WESTERN immunoblotting, *MICROSCOPY, *NEUROPLASTICITY, *HEALTH outcome assessment, *GENE expression, *T-test (Statistics), *GENE expression profiling, *MESSENGER RNA, *DESCRIPTIVE statistics, *RESEARCH funding, *POLYMERASE chain reaction, *TUMOR antigens, *MICE

Abstract

Simple Summary: The complexity of tumor cell plasticity is still poorly understood. In particular, cellular changes during the metastatic process are difficult to monitor. This is a descriptive study of cell lines derived from primary tumors of xenografted LAN-1 cells and the corresponding three generations of bone metastases. Our results of ex vivo analysis of the cell lines depict the ability of tumor cells to adapt and survive in different microenvironments undergoing significant cellular alterations. The cell lines show strong phenotypical and biochemical changes and even an altered response to immune cells and chemotherapy. In conclusion, this mouse model allows to analyze the complex changes in tumor cell populations during metastasis and can be adapted to cell lines from different tumor origins. Tumor plasticity is essential for adaptation to changing environmental conditions, in particular during the process of metastasis. In this study, we compared morphological and biochemical differences between LAN-1 neuroblastoma (NB) cells recovered from a subcutaneous xenograft primary tumor (PT) and the corresponding three generations of bone metastasis (BM I–III). Moreover, growth behavior, as well as the response to chemotherapy and immune cells were assessed. For this purpose, F-actin was stained, mRNA and protein expression assessed, and lactate secretion analyzed. Further, we measured adhesion to collagen I, the growth rate of spheroids in the presence and absence of vincristine, and the production of IL-6 by peripheral blood mononuclear cells (PBMCs) co-incubated with PT or BM I–III. Analysis of PT and the three BM generations revealed that their growth rate decreased from PT to BM III, and accordingly, PT cells reacted most sensitively to vincristine. In addition, morphology, adaption to hypoxic conditions, as well as transcriptomes showed strong differences between the cell lines. Moreover, BM I and BM II cells exhibited a significantly different ability to stimulate human immune cells compared to PT and BM III cells. Interestingly, the differences in immune cell stimulation corresponded to the expression level of the cancer-testis antigen MAGE-A3. In conclusion, our ex vivo model allows to analyze the adaption of tumor populations to different microenvironments and clearly demonstrates the strong alteration of tumor cell populations during this process. [ABSTRACT FROM AUTHOR]

Published

2023

3. Delivery of Drugs into Cancer Cells Using Antibody–Drug Conjugates Based on Receptor-Mediated Endocytosis and the Enhanced Permeability and Retention Effect.

Author

Tashima, Toshihiko

Subjects

*ANTIBODY-drug conjugates, *CANCER cells, *PERMEABILITY, *MULTIDRUG resistance, *ENDOCYTOSIS

Abstract

Innumerable people worldwide die of cancer every year, although pharmaceutical therapy has actualized many benefits in human health. For background, anti-cancer drug development is difficult due to the multifactorial pathogenesis and complicated pathology of cancers. Cancer cells excrete hydrophobic low-molecular anti-cancer drugs by overexpressed efflux transporters such as multiple drug resistance 1 (MDR1) at the apical membrane. Mutation-driven drug resistance is also developed in cancer. Moreover, the poor distribution of drug to cancer cells is a serious problem, because patients suffer from off-target side effects. Thus, highly selective and effective drug delivery into solid cancer cells across the membrane should be established. It is known that substances (10–100 nm in diameter) such as monoclonal antibodies (mAbs) (approximately 14.2 nm in diameter) or nanoparticles spontaneously gather in solid tumor stroma or parenchyma through the capillary endothelial fenestration, ranging from 200–2000 nm, in neovasculatures due to the enhanced permeability and retention (EPR) effect. Furthermore, cancer antigens, such as HER2, Nectin-4, or TROP2, highly selectively expressed on the surface of cancer cells act as a receptor for receptor-mediated endocytosis (RME) using mAbs against such antigens. Thus, antibody–drug conjugates (ADCs) are promising anti-cancer pharmaceutical agents that fulfill accurate distribution due to the EPR effect and due to antibody–antigen binding and membrane permeability owing to RME. In this review, I introduce the implementation and possibility of highly selective anti-cancer drug delivery into solid cancer cells based on the EPR effect and RME using anti-cancer antigens ADCs with payloads through suitable linkers. [ABSTRACT FROM AUTHOR]

Published

2022

4. Vaccination against Cancer or Infectious Agents during Checkpoint Inhibitor Therapy

Author

Tahseen H. Nasti and Christiane S. Eberhardt

Subjects

Oncology, medicine.medical_specialty, Immune checkpoint inhibitors, Immunology, Target population, Review, Immune system, Internal medicine, Drug Discovery, medicine, Pharmacology (medical), preventive vaccines, Pharmacology, Potential impact, business.industry, therapeutic vaccines, Cancer, medicine.disease, Cancer antigen, Vaccination, Infectious Diseases, Medicine, Cancer vaccine, business, influenza, hormones, hormone substitutes, and hormone antagonists, cancer vaccines, COVID vaccines

Abstract

The use of immune checkpoint inhibitors (ICI) has substantially increased the overall survival of cancer patients and has revolutionized the therapeutic situation in oncology. However, not all patients and cancer types respond to ICI, or become resistant over time. Combining ICIs with therapeutic cancer vaccines is a promising option as vaccination may help to overcome resistance to immunotherapies while immunotherapies may increase immune responses to the particular cancer vaccine by reinvigorating exhausted T cells. Thus, it would be possible to reprogram a response with appropriate vaccines, using a particular cancer antigen and a corresponding ICI. Target populations include currently untreatable cancer patients or those who receive treatment regimens with high risk of serious side effects. In addition, with the increased use of ICI in clinical practice, questions arise regarding safety and efficacy of administration of conventional vaccines, such as influenza or COVID-19 vaccines, during active ICI treatment. This review discusses the main principles of prophylactic and therapeutic cancer vaccines, the potential impact on combining therapeutic cancer vaccines with ICI, and briefly summarizes the current knowledge of safety and effectiveness of influenza and COVID-19 vaccines in ICI-treated patients.

Published

2021

5. Utility of Comprehensive Serum Glycopeptide Spectra Analysis (CSGSA) for the Detection of Early Stage Epithelial Ovarian Cancer

Author

Masae Ikeda, Masaru Hayashi, Takeshi Hirasawa, Hiroshi Yoshida, Masako Shida, Kazuhiro Tanabe, Koji Matsuo, Kenji Sato, Mikio Mikami, Hiroko Machida, Miwa Yasaka, and Tadashi Imanishi

Subjects

0301 basic medicine, epithelial ovarian cancer, Cancer Research, endocrine system diseases, comprehensive serum glycopeptide spectra analysis, lcsh:RC254-282, 03 medical and health sciences, 0302 clinical medicine, Medicine, human epididymis protein 4, Screening tool, Epithelial ovarian cancer, orthogonal partial least-squares discriminant analysis, Stage (cooking), business.industry, Brief Report, screening, Epididymis, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Glycopeptide, female genital diseases and pregnancy complications, cancer antigen 125, Cancer antigen, 030104 developmental biology, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Cancer research, business

Abstract

Comprehensive serum glycopeptide spectra analysis (CSGSA) evaluates >10,000 serum glycopeptides and identifies unique glycopeptide peaks and patterns via supervised orthogonal partial least-squares discriminant modeling. CSGSA was more accurate than cancer antigen 125 (CA125) or human epididymis protein 4 (HE4) for detecting early stage epithelial ovarian cancer. Combined CSGSA, CA125, and HE4 had improved diagnostic performance. Thus, CSGSA may be a useful screening tool for detecting early stage epithelial ovarian cancer.

Published

2020

6. Untargeted Assessment of Tumor Fractions in Plasma for Monitoring and Prognostication from Metastatic Breast Cancer Patients Undergoing Systemic Treatment

Author

Nadia Dandachi, Erkan Ercan, Martina Auer, Verena Tiran, Ram H. Datar, Marija Balic, Ellen Heitzer, Richard J. Cote, Iva Brcic, Florian Posch, Peter Ulz, Hannah Deborah Mueller, and Christoph Suppan

Subjects

0301 basic medicine, Oncology, mFAST-SeqS, Cancer Research, medicine.medical_specialty, Treatment response, circulating tumor cells (CTCs), lcsh:RC254-282, Article, 03 medical and health sciences, 0302 clinical medicine, Circulating tumor cell, Carcinoembryonic antigen, Internal medicine, medicine, Overall survival, biology, business.industry, treatment response, cell free circulating tumor DNA (ctDNA), lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, metastatic breast cancer (MBC), prognosis, Predictive value, Metastatic breast cancer, 3. Good health, Cancer antigen, 030104 developmental biology, 030220 oncology & carcinogenesis, Cohort, biology.protein, business

Abstract

The aim of this study was to assess the prognostic and predictive value of an untargeted assessment of tumor fractions in the plasma of metastatic breast cancer patients and to compare circulating tumor DNA (ctDNA) with circulating tumor cells (CTC) and conventional tumor markers. In metastatic breast cancer patients (n = 29), tumor fractions in plasma were assessed using the untargeted mFAST-SeqS method from 127 serial blood samples. Resulting z-scores for the ctDNA were compared to tumor fractions established with the recently published ichorCNA algorithm and associated with the clinical outcome. We observed a close correlation between mFAST-SeqS z-scores and ichorCNA ctDNA quantifications. Patients with mFAST-SeqS z-scores above three (34.5%) showed significantly worse overall survival (p = 0.014) and progression-free survival (p = 0.018) compared to patients with lower values. Elevated z-score values were clearly associated with radiologically proven progression. The baseline CTC count, carcinoembryonic antigen (CEA), and cancer antigen (CA)15-5 had no prognostic impact on the outcome of patients in the analyzed cohort. This proof of principle study demonstrates the prognostic impact of ctDNA levels detected with mFAST-SeqS as a very fast and cost-effective means to assess the ctDNA fraction without prior knowledge of the genetic landscape of the tumor. Furthermore, mFAST-SeqS-based ctDNA levels provided an early means of measuring treatment response.

Published

2019

7. Highly Sensitive and Cost-Effective Portable Sensor for Early Gastric Carcinoma Diagnosis.

Author

Oo, Saw-Lin, Venkatesh, Shishir, Karthikeyan, Vaithinathan, Arava, Clement Manohar, Pathikonda, Spoorthy, Yu, Peter K. N., Lau, Terrence C. K., Chen, Xianfeng, and Roy, Vellaisamy A. L.

Subjects

*STOMACH cancer, *EARLY detection of cancer, *RNA modification & restriction, *POLYCARBONATES, *DETECTORS, *DIAGNOSIS

Abstract

Facile and efficient early detection of cancer is a major challenge in healthcare. Herein we developed a novel sensor made from a polycarbonate (PC) membrane with nanopores, followed by sequence-specific Oligo RNA modification for early gastric carcinoma diagnosis. In this design, the gastric cancer antigen CA72-4 is specifically conjugated to the Oligo RNA, thereby inhibiting the electrical current through the PC membrane in a concentration-dependent manner. The device can determine the concentration of cancer antigen CA72-4 in the range from 4 to 14 U/mL, possessing a sensitivity of 7.029 µAU−1mLcm−2 with a linear regression (R2) of 0.965 and a lower detection limit of 4 U/mL. This device has integrated advantages including high specificity and sensitivity and being simple, portable, and cost effective, which collectively enables a giant leap for cancer screening technologies towards clinical use. This is the first report to use RNA aptamers to detect CA72-4 for gastric carcinoma diagnosis. [ABSTRACT FROM AUTHOR]

Published

2021

8. Humanized Mice as an Effective Evaluation System for Peptide Vaccines and Immune Checkpoint Inhibitors.

Author

Kametani, Yoshie, Ohno, Yusuke, Ohshima, Shino, Tsuda, Banri, Yasuda, Atsushi, Seki, Toshiro, Ito, Ryoji, and Tokuda, Yutaka

Subjects

*HLA histocompatibility antigens, *PROGRAMMED cell death 1 receptors, *VACCINES, *T cells, *ANTIBODY formation, *BLOOD cells

Abstract

Peptide vaccination was developed for the prevention and therapy of acute and chronic infectious diseases and cancer. However, vaccine development is challenging, because the patient immune system requires the appropriate human leukocyte antigen (HLA) recognition with the peptide. Moreover, antigens sometimes induce a low response, even if the peptide is presented by antigen-presenting cells and T cells recognize it. This is because the patient immunity is dampened or restricted by environmental factors. Even if the immune system responds appropriately, newly-developed immune checkpoint inhibitors (ICIs), which are used to increase the immune response against cancer, make the immune environment more complex. The ICIs may activate T cells, although the ratio of responsive patients is not high. However, the vaccine may induce some immune adverse effects in the presence of ICIs. Therefore, a system is needed to predict such risks. Humanized mouse systems possessing human immune cells have been developed to examine human immunity in vivo. One of the systems which uses transplanted human peripheral blood mononuclear cells (PBMCs) may become a new diagnosis strategy. Various humanized mouse systems are being developed and will become good tools for the prediction of antibody response and immune adverse effects. [ABSTRACT FROM AUTHOR]

Published

2019