Your search keyword '"Hybrid Cells"' showing total 17,538 results

1. The impact and outcomes of cancer-macrophage fusion

Author

Li, Mengtao, Basile, John R, Mallya, Sanjay, and Lin, Yi-Ling

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Biotechnology, Cancer, Human Genome, Cancer Genomics, Genetics, 2.1 Biological and endogenous factors, Animals, Neoplasms, Hybrid Cells, Cell Fusion, Cell Communication, Macrophages, Cell fusion, Myeloid cells, Stromal cells, Tumorigenicity, Public Health and Health Services, Oncology & Carcinogenesis, Oncology and carcinogenesis, Epidemiology

Abstract

BackgroundCancer's hallmark feature is its ability to evolve, leading to metastasis and recurrence. Although genetic mutations and epigenetic changes have been implicated, they don't fully explain the leukocytic traits that many cancers develop. Cell fusion between cancer and somatic cells, particularly macrophages, has been suggested as an alternative pathway for cancer cells to obtain new traits by acquiring exogenous genetic material.MethodsThis study aims to investigate the potential biological outcomes of tumor-myeloid cell fusion by generating tumor-macrophage hybrid cells. Two clones with markedly different tumorigenicity were selected, and RNA-seq was used to compare their RNA expressions with that of the control cells. Based on the results that the hybrid cells showed differential activation in several upstream regulator pathways that impact their biological behaviors, the hybrid cells' abilities to recruit stromal cells and establish angiogenesis as well as their cell cycle distributions were investigated through in vitro and in vivo studies.ResultsAlthough both hybrid clones demonstrated p53 activation and reduced growth rates, they exhibited distinct cell cycle distributions and ability to grow in vivo. Notably, while one clone was highly tumorigenic, the other showed little tumorigenicity. Despite these differences, both hybrid clones were potent environmental modifiers, exhibiting significant abilities to recruit stromal and immune cells and establish angiogenesis.ConclusionsThe study revealed that tumor-somatic cell fusion is a potent environmental modifier that can modulate tumor survival and evolution, despite its relatively low occurrence. These findings suggest that tumor-somatic cell fusion could be a promising target for developing new cancer therapies. Furthermore, this study provides an experimental animal platform to investigate cancer-myeloid fusion and highlights the potential role of tumor-somatic cell fusion in modulating the tumor environment.

Published

2023

2. Bipotential B-neutrophil progenitors are present in human and mouse bone marrow and emerge in the periphery upon stress hematopoiesis

Author

Shima Shahbaz, Eliana Perez Rosero, Hussain Syed, Mark Hnatiuk, Najmeh Bozorgmehr, Amirhossein Rahmati, Sameera Zia, Jason Plemel, Mohammed Osman, and Shokrollah Elahi

Subjects

Pro B cell, Pre B cell, myeloid plasticity, hybrid cells, GM-CSF, IL-7, Microbiology, QR1-502

Abstract

ABSTRACT Hematopoiesis is a tightly regulated process that gets skewed toward myelopoiesis. This restrains lymphopoiesis, but the role of lymphocytes in this process is not well defined. To unravel the intricacies of neutrophil responses in COVID-19, we performed bulk RNAseq on neutrophils from healthy controls and COVID-19 patients. Principal component analysis revealed distinguishing neutrophil gene expression alterations in COVID-19 patients. ICU and ward patients displayed substantial transcriptional changes, with ICU patients exhibiting a more pronounced response. Intriguingly, neutrophils from COVID-19 patients, notably ICU patients, exhibited an enrichment of immunoglobulin (Ig) and B cell lineage-associated genes, suggesting potential lineage plasticity. We validated our RNAseq findings in a larger cohort. Moreover, by reanalyzing single-cell RNA sequencing (scRNAseq) data on human bone marrow (BM) granulocytes, we identified the cluster of granulocyte-monocyte progenitors (GMP) enriched with Ig and B cell lineage-associated genes. These cells with lineage plasticity may serve as a resource depending on the host’s needs during severe systemic infection. This distinct B cell subset may play a pivotal role in promoting myelopoiesis in response to infection. The scRNAseq analysis of BM neutrophils in infected mice further supported our observations in humans. Finally, our studies using an animal model of acute infection implicate IL-7/GM-CSF in influencing neutrophil and B cell dynamics. Elevated GM-CSF and reduced IL-7 receptor expression in COVID-19 patients imply altered hematopoiesis favoring myeloid cells over B cells. Our findings provide novel insights into the relationship between the B-neutrophil lineages during severe infection, hinting at potential implications for disease pathogenesis.IMPORTANCEThis study investigates the dynamics of hematopoiesis in COVID-19, focusing on neutrophil responses. Through RNA sequencing of neutrophils from healthy controls and COVID-19 patients, distinct gene expression alterations are identified, particularly in ICU patients. Notably, neutrophils from COVID-19 patients, especially in the ICU, exhibit enrichment of immunoglobulin and B cell lineage-associated genes, suggesting potential lineage plasticity. Validation in a larger patient cohort and single-cell analysis of bone marrow granulocytes support the presence of granulocyte-monocyte progenitors with B cell lineage-associated genes. The findings propose a link between B-neutrophil lineages during severe infection, implicating a potential role for these cells in altered hematopoiesis favoring myeloid cells over B cells. Elevated GM-CSF and reduced IL-7 receptor expression in stress hematopoiesis suggest cytokine involvement in these dynamics, providing novel insights into disease pathogenesis.

Published

2024

3. 解读高考题中杂种细胞的筛选.

Author

刘冲

Abstract

Copyright of Biology Teaching is the property of East China Normal University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. A Multifunctional Delivery System for Remodulating Cell Behaviors of Circulating Malignant Cells to Prevent Cell Fusion.

Author

Di Han, Xiao-Yan He, Yun Huang, Min Gao, Tao Guo, Xiao-He Ren, Xin-Ru Liao, Xue-Si Chen, Xuan Pang, and Si-Xue Cheng

Subjects

*CELL fusion, *CANCER cells, *MOLECULAR probes, *PLASMIDS

Abstract

Cell fusion plays a critical role in cancer progression and metastasis. However, effective modulation of the cell fusion behavior and timely evaluation on the cell fusion to provide accurate information for personalized therapy are facing challenges. Here, it demonstrates that the cancer cell fusion behavior can be efficiently modulated and precisely detected through employing a multifunctional delivery vector to realize cancer targeting delivery of a genome editing plasmid and a molecular beacon-based AND logic gate. The multifunctional delivery vector decorated by AS1411 conjugated hyaluronic acid and NLS-GE11 peptide conjugated hyaluronic acid can specifically target circulating malignant cells (CMCs) of cancer patients to deliver the genome editing plasmid for epidermal growth factor receptor (EGFR) knockout. The cell fusion between CMCs and endothelial cells can be detected by the AND logic gate delivered by the multifunctional vector. After EGFR knockout, the edited CMCs exhibit dramatically inhibited cell fusion capability, while unedited CMCs can easily fuse with human umbilical vein endothelial cells (HUVEC) to form hybrid cells. This study provides a new therapeutic strategy for preventing cancer progression and a reliable tool for evaluating cancer cell fusion for precise personalized therapy. [ABSTRACT FROM AUTHOR]

Published

2023

5. Small Molecule Targeting Immune Cells: A Novel Approach for Cancer Treatment.

Author

Singh, Shilpi, Barik, Debashis, Arukha, Ananta Prasad, Prasad, Sujata, Mohapatra, Iteeshree, Singh, Amar, and Singh, Gatikrushna

Subjects

SMALL molecules, CANCER treatment, TUMOR microenvironment, MYELOID-derived suppressor cells, CYTOTOXIC T cells, IMMUNOLOGICAL adjuvants

Abstract

Conventional and cancer immunotherapies encompass diverse strategies to address various cancer types and stages. However, combining these approaches often encounters limitations such as non-specific targeting, resistance development, and high toxicity, leading to suboptimal outcomes in many cancers. The tumor microenvironment (TME) is orchestrated by intricate interactions between immune and non-immune cells dictating tumor progression. An innovative avenue in cancer therapy involves leveraging small molecules to influence a spectrum of resistant cell populations within the TME. Recent discoveries have unveiled a phenotypically diverse cohort of innate-like T (ILT) cells and tumor hybrid cells (HCs) exhibiting novel characteristics, including augmented proliferation, migration, resistance to exhaustion, evasion of immunosurveillance, reduced apoptosis, drug resistance, and heightened metastasis frequency. Leveraging small-molecule immunomodulators to target these immune players presents an exciting frontier in developing novel tumor immunotherapies. Moreover, combining small molecule modulators with immunotherapy can synergistically enhance the inhibitory impact on tumor progression by empowering the immune system to meticulously fine-tune responses within the TME, bolstering its capacity to recognize and eliminate cancer cells. This review outlines strategies involving small molecules that modify immune cells within the TME, potentially revolutionizing therapeutic interventions and enhancing the anti-tumor response. [ABSTRACT FROM AUTHOR]

Published

2023

6. Differential effects of risuteganib and bevacizumab on AMD cybrid cells

Author

Schneider, Kevin, Chwa, Marilyn, Atilano, Shari R, Shao, Zixuan, Park, John, Karageozian, Hampar, Karageozian, Vicken, and Kenney, M Cristina

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurodegenerative, Macular Degeneration, Eye Disease and Disorders of Vision, Aging, 2.1 Biological and endogenous factors, Aetiology, Eye, Aged, Aged, 80 and over, Angiogenesis Inhibitors, Bevacizumab, Blood Platelets, Caspase 3, Caspase 7, Cell Line, DNA, Mitochondrial, Female, Gene Expression Regulation, Humans, Hybrid Cells, Intracellular Signaling Peptides and Proteins, Male, Membrane Potential, Mitochondrial, Oxidative Stress, Peptides, Reactive Oxygen Species, Real-Time Polymerase Chain Reaction, Retinal Pigment Epithelium, Vascular Endothelial Growth Factor A, Wet Macular Degeneration, Risuteganib, Age-related macular degeneration, Cybrids, Medical Biochemistry and Metabolomics, Neurosciences, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeIntravitreal injections of anti-vascular endothelial growth factor (VEGF) treatments are currently used to treat wet age-related macular degeneration (AMD), diabetic retinopathy, and macular edema. Chronic, repetitive treatments with anti-VEGF may have unintended consequences beyond the inhibition of angiogenesis. Most recently, clinical trials have been conducted with risuteganib (RSG, Luminate®), which is anti-angiogenic and has neuroprotective and anti-inflammatory properties. Mitochondrial damage and dysfunction play a major role in development of AMD. Transmitochondrial cybrids are cell lines established by fusing human retinal pigment epithelial (RPE) cells that are Rho0 (lacking mtDNA) with platelets isolated from AMD subjects or age-matched normal subjects. Cybrid cell lines have identical nuclei but mitochondria from different subjects, enabling investigation of the functional consequences of damaged AMD mitochondria. The present study compares the responses of AMD cybrids treated with bevacizumab (Bmab, Avastin®) versus risuteganib (RSG, Luminate®).MethodsCybrids were created by fusing mtDNA depleted ARPE-19 cells with platelets from AMD or age-matched normal patients. AMD (n = 5) and normal (n = 3) cybrids were treated for 48 h with or without 1x clinical dose of 1.25 mg/50 μl (25,000 μg/ml) of Bmab or 1.0 mg/50 μl (20,000 μg/ml) of RSG. Cultures were analyzed for levels of cleaved caspase 3/7 and NucLight Rapid Red staining (IncuCyte® Live Cell Imager), mitochondrial membrane potential (ΔΨm, JC1 assay) or reactive oxygen species (ROS, H2DCFDA assay). Expression levels of genes related to the following pathways were analyzed with qRT-PCR: Apoptosis (BAX, BCL2L13, CASP-3, -7, -9); angiogenesis (VEGFA, HIF1α, PDGF); integrins (ITGB-1, -3, -5, ITGA-3, -5, -V); mitochondrial biogenesis (PGC1α, POLG); oxidative stress (SOD2, GPX3, NOX4); inflammation (IL-6, -18, -1β, IFN-β1); and signaling (P3KCA, PI3KR1). Statistical analyses were performed using GraphPad Prism software.ResultsThe untreated AMD cybrids had significantly higher levels of cleaved caspase 3/7 compared to the untreated normal cybrids. The Bmab-treated AMD cybrids showed elevated levels of cleaved caspase 3/7 compared to untreated AMD or RSG-treated AMD cybrids. The Bmab-treated cybrids had lower ΔΨm compared to untreated AMD or RSG-treated AMD cybrids. The ROS levels were not changed with Bmab or RSG treatment. Results showed that Bmab-treated cybrids had higher expression levels of inflammatory (IL-6, IL1-β), oxidative stress (NOX4) and angiogenesis (VEGFA) genes compared to untreated AMD, while RSG-treated cybrids had lower expression levels of apoptosis (BAX), angiogenesis (VEGFA) and integrin (ITGB1) genes.ConclusionsThese data suggest that the mechanism(s) of action of RSG, an integrin regulator, and Bmab, a recombinant monoclonal antibody, affect the AMD RPE cybrid cells differently, with the former having more anti-apoptosis properties, which may be desirable in treating degenerative ocular diseases.

Published

2021

7. Fusion with type 2 macrophages induces melanoma cell heterogeneity that potentiates immunological escape from cytotoxic T lymphocytes.

Author

Minowa, Tomoyuki, Hirohashi, Yoshihiko, Murata, Kenji, Sasaki, Kenta, Handa, Toshiya, Nakatsugawa, Munehide, Mizue, Yuka, Murai, Aiko, Kubo, Terufumi, Kanaseki, Takayuki, Tsukahara, Tomohide, Iwabuchi, Sadahiro, Hashimoto, Shinichi, Ishida‐Yamamoto, Akemi, Uhara, Hisashi, and Torigoe, Toshihiko

Subjects

CYTOTOXIC T cells, MELANOMA, CELL fusion, MACROPHAGES, GENE expression

Abstract

Evasion from immunity is a major obstacle to the achievement of successful cancer immunotherapy. Hybrids derived from cell–cell fusion are theoretically associated with tumor heterogeneity and progression by conferring novel properties on tumor cells, including drug resistance and metastatic capacity; however, their impact on immune evasion remains unknown. Here, we investigated the potency of tumor–macrophage hybrids in immune evasion. Hybrids were established by co‐culture of a melanoma cell line (A375 cells) and type 2 macrophages. The hybrids showed greater migration ability and greater tumorigenicity than the parental melanoma cells. The hybrids showed heterogeneous sensitivity to New York esophageal squamous cell carcinoma‐1 (NY‐ESO‐1)‐specific T‐cell receptor‐transduced T (TCR‐T) cells and two out of four hybrid clones showed less sensitivity to TCR‐T compared with the parental cells. An in vitro tumor heterogeneity model revealed that the TCR‐T cells preferentially killed the parental cells compared with the hybrids and the survival rate of the hybrids was higher than that of the parental cells, indicating that the hybrids evade killing by TCR‐T cells efficiently. Analysis of a single‐cell RNA sequencing dataset of patients with melanoma revealed that a few macrophages expressed RNA encoding melanoma differentiation antigens including melan A, tyrosinase, and premelanosome protein, which indicated the presence of hybrids in primary melanoma. In addition, the number of potential hybrids was correlated with a poorer response to immune checkpoint blockade. These results provide evidence that melanoma–macrophage fusion has a role in tumor heterogeneity and immune evasion. © 2023 The Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2023

8. Human CardioChimeras: Creation of a Novel “Next‐Generation” Cardiac Cell

Author

Firouzi, Fareheh, Choudhury, Sarmistha Sinha, Broughton, Kathleen, Salazar, Adriana, Bailey, Barbara, and Sussman, Mark A

Subjects

Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Heart Disease, Regenerative Medicine, Biotechnology, Stem Cell Research - Nonembryonic - Non-Human, Cardiovascular, 5.2 Cellular and gene therapies, Development of treatments and therapeutic interventions, Aetiology, 2.1 Biological and endogenous factors, Animals, Biomarkers, Cell Fusion, Cell Proliferation, Cell Survival, Cells, Cultured, Coculture Techniques, Diploidy, Humans, Hybrid Cells, Mesenchymal Stem Cells, Myocardium, Myocytes, Cardiac, Phenotype, Proto-Oncogene Proteins c-kit, Rats, Time Factors, cardiac, cardiac interstitial cells, cell fusion, human, mesenchymal stromal cells, Cardiorespiratory Medicine and Haematology

Abstract

Background CardioChimeras produced by fusion of murine c-kit+ cardiac interstitial cells with mesenchymal stem cells promote superior structural and functional recovery in a mouse model of myocardial infarction compared with either precursor cell alone or in combination. Creation of human CardioChimeras (hCCs) represents the next step in translational development of this novel cell type, but new challenges arise when working with c-kit+ cardiac interstitial cells isolated and expanded from human heart tissue samples. The objective of the study was to establish a reliable cell fusion protocol for consistent optimized creation of hCCs and characterize fundamental hCC properties. Methods and Results Cell fusion was induced by incubating human c-kit+ cardiac interstitial cells and mesenchymal stem cells at a 2:1 ratio with inactivated Sendai virus. Hybrid cells were sorted into 96-well microplates for clonal expansion to derive unique cloned hCCs, which were then characterized for various cellular and molecular properties. hCCs exhibited enhanced survival relative to the parent cells and promoted cardiomyocyte survival in response to serum deprivation in vitro. Conclusions The generation of hCC is demonstrated and validated in this study, representing the next step toward implementation of a novel cell product for therapeutic development. Feasibility of creating human hybrid cells prompts consideration of multiple possibilities to create novel chimeric cells derived from cells with desirable traits to promote healing in pathologically damaged myocardium.

Published

2020

9. Stable retention of chloramphenicol-resistant mtDNA to rescue metabolically impaired cells

Author

Dawson, Emma R, Patananan, Alexander N, Sercel, Alexander J, and Teitell, Michael A

Subjects

Biochemistry and Cell Biology, Biological Sciences, Genetics, Generic health relevance, Animals, Cell Line, Tumor, Chloramphenicol, DNA, Mitochondrial, Gene Transfer Techniques, HEK293 Cells, Humans, Hybrid Cells, Mice, Mitochondria

Abstract

The permanent transfer of specific mtDNA sequences into mammalian cells could generate improved models of mtDNA disease and support future cell-based therapies. Previous studies documented multiple biochemical changes in recipient cells shortly after mtDNA transfer, but the long-term retention and function of transferred mtDNA remains unknown. Here, we evaluate mtDNA retention in new host cells using 'MitoPunch', a device that transfers isolated mitochondria into mouse and human cells. We show that newly introduced mtDNA is stably retained in mtDNA-deficient (ρ0) recipient cells following uridine-free selection, although exogenous mtDNA is lost from metabolically impaired, mtDNA-intact (ρ+) cells. We then introduced a second selective pressure by transferring chloramphenicol-resistant mitochondria into chloramphenicol-sensitive, metabolically impaired ρ+ mouse cybrid cells. Following double selection, recipient cells with mismatched nuclear (nDNA) and mitochondrial (mtDNA) genomes retained transferred mtDNA, which replaced the endogenous mutant mtDNA and improved cell respiration. However, recipient cells with matched mtDNA-nDNA failed to retain transferred mtDNA and sustained impaired respiration. Our results suggest that exogenous mtDNA retention in metabolically impaired ρ+ recipients depends on the degree of recipient mtDNA-nDNA co-evolution. Uncovering factors that stabilize exogenous mtDNA integration will improve our understanding of in vivo mitochondrial transfer and the interplay between mitochondrial and nuclear genomes.

Published

2020

10. Superresolution microscopy reveals linkages between ribosomal DNA on heterologous chromosomes

Author

Potapova, Tamara A, Unruh, Jay R, Yu, Zulin, Rancati, Giulia, Li, Hua, Stampfer, Martha R, and Gerton, Jennifer L

Subjects

Biological Sciences, Genetics, Human Genome, Generic health relevance, Anaphase, Animals, Cell Line, Cell Nucleolus, Chromosomes, Human, DNA Topoisomerases, Type II, DNA, Ribosomal, Humans, Hybrid Cells, Induced Pluripotent Stem Cells, Mice, Microscopy, Pol1 Transcription Initiation Complex Proteins, Polyploidy, Protein Binding, Proto-Oncogene Proteins c-myc, Telomerase, Topoisomerase Inhibitors, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

The spatial organization of the genome is enigmatic. Direct evidence of physical contacts between chromosomes and their visualization at nanoscale resolution has been limited. We used superresolution microscopy to demonstrate that ribosomal DNA (rDNA) can form linkages between chromosomes. We observed rDNA linkages in many different human cell types and demonstrated their resolution in anaphase. rDNA linkages are coated by the transcription factor UBF and their formation depends on UBF, indicating that they regularly occur between transcriptionally active loci. Overexpression of c-Myc increases rDNA transcription and the frequency of rDNA linkages, further suggesting that their formation depends on active transcription. Linkages persist in the absence of cohesion, but inhibition of topoisomerase II prevents their resolution in anaphase. We propose that linkages are topological intertwines occurring between transcriptionally active rDNA loci spatially colocated in the same nucleolar compartment. Our findings suggest that active DNA loci engage in physical interchromosomal connections that are an integral and pervasive feature of genome organization.

Published

2019

11. Fusion Cell Markers in Circulating Tumor Cells from Patients with High-Grade Ovarian Serous Carcinoma.

Author

Ruano, Anna Paula Carreta, Gadelha Guimarães, Andrea Paiva, Braun, Alexcia C., Flores, Bianca C. T. C. P., Tariki, Milena Shizue, Abdallah, Emne A., Torres, Jacqueline Aparecida, Nunes, Diana Noronha, Tirapelli, Bruna, de Lima, Vladmir C. Cordeiro, Fanelli, Marcello Ferretti, Colombo, Pierre-Emmanuel, da Costa, Alexandre André Balieiro Anastácio, Alix-Panabières, Catherine, and Chinen, Ludmilla Thomé Domingos

Subjects

*TUMOR markers, *CELL membranes, *OVARIAN cancer, *CARCINOMA, *CD45 antigen, *CELL fusion

Abstract

Cancer is primarily a disease in which late diagnosis is linked to poor prognosis, and unfortunately, detection and management are still challenging. Circulating tumor cells (CTCs) are a potential resource to address this disease. Cell fusion, an event discovered recently in CTCs expressing carcinoma and leukocyte markers, occurs when ≥2 cells become a single entity (hybrid cell) after the merging of their plasma membranes. Cell fusion is still poorly understood despite continuous evaluations in in vitro/in vivo studies. Blood samples from 14 patients with high-grade serous ovarian cancer (A.C. Camargo Cancer Center, São Paulo, Brazil) were collected with the aim to analyze the CTCs/hybrid cells and their correlation to clinical outcome. The EDTA collected blood (6 mL) from patients was used to isolate/identify CTCs/hybrid cells by ISET. We used markers with possible correlation with the phenomenon of cell fusion, such as MC1-R, EpCAM and CD45, as well as CEN8 expression by CISH analysis. Samples were collected at three timepoints: baseline, after one month (first follow-up) and after three months (second follow-up) of treatment with olaparib (total sample = 38). Fourteen patients were included and in baseline and first follow-up all patients showed at least one CTC. We found expression of MC1-R, EpCAM and CD45 in cells (hybrid) in at least one of the collection moments. Membrane staining with CD45 was found in CTCs from the other cohort, from the other center, evaluated by the CellSearch® system. The presence of circulating tumor microemboli (CTM) in the first follow-up was associated with a poor recurrence-free survival (RFS) (5.2 vs. 12.2 months; p = 0.005). The MC1-R expression in CTM in the first and second follow-ups was associated with a shorter RFS (p = 0.005). CEN8 expression in CTCs was also related to shorter RFS (p = 0.035). Our study identified a high prevalence of CTCs in ovarian cancer patients, as well as hybrid cells. Both cell subtypes demonstrate utility in prognosis and in the assessment of response to treatment. In addition, the expression of MC1-R and EpCAM in hybrid cells brings new perspectives as a possible marker for this phenomenon in ovarian cancer. [ABSTRACT FROM AUTHOR]

Published

2022

12. Small Molecule Targeting Immune Cells: A Novel Approach for Cancer Treatment

Author

Shilpi Singh, Debashis Barik, Ananta Prasad Arukha, Sujata Prasad, Iteeshree Mohapatra, Amar Singh, and Gatikrushna Singh

Subjects

immunotherapy, tumor microenvironment, innate-like cells, killer innate-like T cells, hybrid cells, tissue-resident memory T cells, Biology (General), QH301-705.5

Abstract

Conventional and cancer immunotherapies encompass diverse strategies to address various cancer types and stages. However, combining these approaches often encounters limitations such as non-specific targeting, resistance development, and high toxicity, leading to suboptimal outcomes in many cancers. The tumor microenvironment (TME) is orchestrated by intricate interactions between immune and non-immune cells dictating tumor progression. An innovative avenue in cancer therapy involves leveraging small molecules to influence a spectrum of resistant cell populations within the TME. Recent discoveries have unveiled a phenotypically diverse cohort of innate-like T (ILT) cells and tumor hybrid cells (HCs) exhibiting novel characteristics, including augmented proliferation, migration, resistance to exhaustion, evasion of immunosurveillance, reduced apoptosis, drug resistance, and heightened metastasis frequency. Leveraging small-molecule immunomodulators to target these immune players presents an exciting frontier in developing novel tumor immunotherapies. Moreover, combining small molecule modulators with immunotherapy can synergistically enhance the inhibitory impact on tumor progression by empowering the immune system to meticulously fine-tune responses within the TME, bolstering its capacity to recognize and eliminate cancer cells. This review outlines strategies involving small molecules that modify immune cells within the TME, potentially revolutionizing therapeutic interventions and enhancing the anti-tumor response.

Published

2023

13. Developing Advanced Chimeric Cell Therapy for Duchenne Muscular Dystrophy.

Author

Budzynska K, Bozyk KT, Jarosinska K, Ziemiecka A, Siemionow K, and Siemionow M

Subjects

Humans, Polyethylene Glycols chemistry, Hybrid Cells, Cell Survival, Cells, Cultured, Muscular Dystrophy, Duchenne therapy, Muscular Dystrophy, Duchenne genetics, Myoblasts metabolism, Myoblasts cytology, Dystrophin genetics, Dystrophin metabolism, Cell- and Tissue-Based Therapy methods, Cell Fusion methods

Abstract

Duchenne Muscular Dystrophy (DMD) is a lethal, X-linked disorder leading to muscle degeneration and premature death due to cardiopulmonary complications. Currently, there is no cure for DMD. We previously confirmed the efficacy of human Dystrophin-Expressing Chimeric (DEC) cells created via the fusion of myoblasts from normal and DMD-affected donors. The current study aimed to optimize the development of DEC therapy via the polyethylene glycol (PEG)-mediated fusion protocol of human myoblasts derived from normal, unrelated donors. The optimization of cell fusion assessed different factors influencing fusion efficacy, including myoblast passage number, the efficacy of PKH myoblast staining, the ratio of the single-stained myoblasts in the MIX, and PEG administration time. Additionally, the effect of PEG fusion procedure on cell viability was assessed. A correlation was found between the number of cells used for PKH staining and staining efficacy. Furthermore, the ratio of single-stained myoblasts in the MIX and PEG administration time correlated with fusion efficacy. There was no correlation found between the myoblast passage number and fusion efficacy. This study successfully optimized the myoblast fusion protocol for creation of human DEC cells, introducing DEC as a new Advanced Therapy Medicinal Product (ATMP) for DMD patients.

Published

2024

14. Chimeric Cell Therapy Transfers Healthy Donor Mitochondria in Duchenne Muscular Dystrophy.

Author

Siemionow M, Bocian K, Bozyk KT, Ziemiecka A, and Siemionow K

Subjects

Humans, Animals, Mice, Cell- and Tissue-Based Therapy methods, Male, Mice, Inbred mdx, Hybrid Cells, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Cell Fusion, Muscular Dystrophy, Duchenne therapy, Muscular Dystrophy, Duchenne genetics, Muscular Dystrophy, Duchenne metabolism, Muscular Dystrophy, Duchenne pathology, Mitochondria metabolism, Dystrophin genetics, Dystrophin metabolism, Myoblasts metabolism, Myoblasts cytology, Myoblasts transplantation

Abstract

Duchenne muscular dystrophy (DMD) is a severe X-linked disorder characterized by dystrophin gene mutations and mitochondrial dysfunction, leading to progressive muscle weakness and premature death of DMD patients. We developed human Dystrophin Expressing Chimeric (DEC) cells, created by the fusion of myoblasts from normal donors and DMD patients, as a foundation for DT-DEC01 therapy for DMD. Our preclinical studies on mdx mouse models of DMD revealed enhanced dystrophin expression and functional improvements in cardiac, respiratory, and skeletal muscles after systemic intraosseous DEC administration. The current study explored the feasibility of mitochondrial transfer and fusion within the created DEC cells, which is crucial for developing new therapeutic strategies for DMD. Following mitochondrial staining with MitoTracker Deep Red and MitoTracker Green dyes, mitochondrial fusion and transfer was assessed by Flow cytometry (FACS) and confocal microscopy. The PEG-mediated fusion of myoblasts from normal healthy donors (MB N /MB N ) and normal and DMD-affected donors (MB N /MB DMD ), confirmed the feasibility of myoblast and mitochondrial fusion and transfer. The colocalization of the mitochondrial dyes MitoTracker Deep Red and MitoTracker Green confirmed the mitochondrial chimeric state and the creation of chimeric mitochondria, as well as the transfer of healthy donor mitochondria within the created DEC cells. These findings are unique and significant, introducing the potential of DT-DEC01 therapy to restore mitochondrial function in DMD patients and in other diseases where mitochondrial dysfunction plays a critical role., (© 2024. The Author(s).)

Published

2024

15. Reports from Tottori University Highlight Recent Research in Hybridomas (Developing a workflow for the isolation of hybridoma cells producing fully human antigen-specific antibodies using a surface IgG detection method).

Published

2024

16. Researchers Submit Patent Application, "Antibodies Targeting Intracellular Tumor Antigens And Methods For Identifying Both", for Approval (USPTO 20240329048).

Subjects

B cell receptors, MONONUCLEAR leukocytes, TRANSCRIPTION factors, THERAPEUTICS, TUMOR antigens

Abstract

Researchers have submitted a patent application for "Antibodies Targeting Intracellular Tumor Antigens And Methods For Identifying Both" to the USPTO. The application focuses on isolating tumor-related antibodies and discovering tumor antigens for targeted immunotherapies and diagnostics. The methods involve screening and isolating immortalized tumor-associated B cells to identify monoclonal antibodies targeted to intracellular tumor antigens, which can be used for therapeutic and diagnostic applications. The patent application highlights the need for high-throughput functional screening for tumor-targeting antibodies and their specific antigens to address the unmet need in cancer treatment. [Extracted from the article]

Published

2024

17. Vellore Institute of Technology (VIT) Researchers Publish New Data on Hybridomas (Implementation of a Macroporous Polyhydroxyethylmethacrylate Cryogel-Based Mini-Bioreactor System to Improve Monoclonal Antibody Production).

Abstract

A study conducted by researchers at Vellore Institute of Technology (VIT) in India focuses on the production of monoclonal antibodies (mAbs) using a mini-bioreactor system. The researchers developed a gelatin-immobilized polyhydroxyethylmethacrylate-based cryogel material and used it to culture hybridoma cells that produce mAbs continuously. The study found that the cryogel reactor was able to efficiently produce mAbs, with a cumulative amount of 246 g/mL produced in 25 days, which was 7.7 times higher than traditional batch cultivation methods. This research demonstrates the potential for using cryogel-based mini-bioreactor systems to improve mAb production. [Extracted from the article]

Published

2024

18. New Melanoma Research Has Been Reported by a Researcher at McGill University Health Centre Research Institute (The Phenotypical Characterization of Dual-Nature Hybrid Cells in Uveal Melanoma).

Abstract

A recent study conducted by researchers at McGill University Health Centre Research Institute in Montreal, Canada, has shed light on the nature of cells involved in the metastasis of uveal melanoma (UM). The study found that circulating hybrid cells with combined tumor and immune cell features in the blood were predictive of metastasis and may correspond to dual-nature cells (DNC) in the primary tumor. The researchers also discovered that CD8+ T-cells and macrophages are capable of DNC formation, which could provide insights into metastatic dissemination and potential therapeutic avenues. This research contributes to a better understanding of UM and its progression. [Extracted from the article]

Published

2024

19. Patent Application Titled "Bed Bugs Detection Device" Published Online (USPTO 20240302357).

Abstract

The US Patent and Trademark Office has published a patent application for a "Bed Bugs Detection Device." The inventors have created a system and method that uses a detection device to identify the presence of bed bugs. The device employs a lateral flow assay test, comparing the results to stored pest profiles to determine if bed bugs are present. The goal of this invention is to offer a more effective and accurate means of detecting and identifying bed bug infestations. The patent application provides comprehensive information on the test strip's composition, configuration, and usage methods. [Extracted from the article]

Published

2024

20. Hybrid/Atypical Forms of Circulating Tumor Cells: Current State of the Art.

Author

Kaigorodova, Evgeniya V., Kozik, Alexey V., Zavaruev, Ivan S., and Grishchenko, Maxim Yu.

Subjects

*CELL fusion, *CANCER cells, *CANCER invasiveness, *TUMOR markers, *VIRUS diseases

Abstract

Cancer is one of the most common diseases worldwide, and its treatment is associated with many challenges such as drug and radioresistance and formation of metastases. These difficulties are due to tumor heterogeneity, which has many causes. One may be the cell fusion, a process that is relevant to both physiological (e.g., wound healing) and pathophysiological (cancer and viral infection) processes. This literature review aimed to summarize the existing data on the hybrid/atypical forms of circulating cancer cells and their role in tumor progression. For that, the bioinformatics search in universal databases, such as PubMed, NCBI, and Google Scholar was conducted by using the keywords "hybrid cancer cells", "cancer cell fusion", etc. In this review the latest information related to the hybrid tumor cells, theories of their genesis, characteristics of different variants with data from our own researches are presented. Many aspects of the hybrid cell research are still in their infancy. However, with the level of knowledge already accumulated, circulating hybrids such as CAML and CHC could be considered as promising biomarkers of cancerous tumors, and even more as a new approach to cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2022

21. Genetic screening reveals a link between Wnt signaling and antitubulin drugs

Author

Khan, AH, Bloom, JS, Faridmoayer, E, and Smith, DJ

Subjects

Biotechnology, Genetics, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Animals, Antineoplastic Agents, Cell Line, Cell Survival, Colchicine, Cricetinae, Humans, Hybrid Cells, Paclitaxel, Quantitative Trait Loci, Signal Transduction, Tubulin Modulators, Ubiquitin-Protein Ligases, Wnt Proteins, Pharmacology and Pharmaceutical Sciences, Pharmacology & Pharmacy

Abstract

The antitubulin drugs, paclitaxel (PX) and colchicine (COL), inhibit cell growth and are therapeutically valuable. PX stabilizes microtubules, while COL promotes their depolymerization. But, the drug concentrations that alter tubulin polymerization are hundreds of times higher than their clinically useful levels. To map genetic targets for drug action at single-gene resolution, we used a human radiation hybrid panel. We identified loci that affected cell survival in the presence of five compounds of medical relevance. For PX and COL, the zinc and ring finger 3 (ZNRF3) gene dominated the genetic landscape at therapeutic concentrations. ZNRF3 encodes an R-spondin regulated receptor that inhibits Wingless/Int (Wnt) signaling. Overexpression of the ZNRF3 gene shielded cells from antitubulin drug action, while small interfering RNA knockdowns resulted in sensitization. Further a potent pharmacological inhibitor of Wnt signaling, Wnt-C59, protected cells from PX and COL. Our results suggest that the antitubulin drugs perturb microtubule dynamics, thereby influencing Wnt signaling.

Published

2016

22. Nanosilver‐Particles Integrated Ni3Sn2S2‐CoS Composite as an Advanced Electrode for High Energy Density Hybrid Cell.

Author

Sekhar, S. Chandra, Ramulu, Bhimanaboina, Arbaz, Shaik Junied, Jin, Sung Hun, Oh, Hyung Suk, and Yu, Jae Su

Subjects

*ENERGY density, *ENERGY harvesting, *ELECTRODES, *ENERGY storage, *ELECTRONIC equipment, *SOLAR cells, *COBALT

Abstract

An ion‐exchange process is a promising approach to design advanced electrode materials for high‐performance energy storage devices. Herein, a nanostructured Ni3Sn2S2‐CoS (NSS‐CS) composite is fabricated by successive hydrothermal and ion‐exchange processes. Since the incorporation of redox‐rich cobalt element enables the NSS‐CS composite to be more electrochemically active, its impact on the electrochemical performance is therefore extensively studied. Particularly, the NSS‐CS‐0.2 g electrode material delivered a high areal capacity of 830.4 µAh cm−2 at 5 mA cm−2. Additionally, a room‐temperature wet‐chemical approach is employed to anchor nanosilver (nAg)‐particles on the NSS‐CS‐0.2 g (nAg@NSS‐CS‐0.2 g) to further exalt its electrokinetics. Consequently, the nAg@NSS‐CS‐0.2 g electrode shows a higher areal capacity of 948.5 µAh cm−2 (193.5 mAh g−1) than that of the NSS‐CS‐0.2 g. Furthermore, its practicability is also examined by assembling a hybrid cell. The assembled hybrid cell delivers a high areal capacity of 969.2 µAh cm−2 (49.2 mAh g−1) at 7 mA cm−2 and maximum areal energies and power densities of 0.784 mWh cm−2 (40.8 Wh kg−1) and 45 mW cm−2 (2347.4 W kg−1), respectively. The efficiency of the hybrid cells is also tested by harvesting solar energy, followed by energizing electronic components. This work can pave the way for significant attraction in designing advanced electrodes for energy‐related fields. [ABSTRACT FROM AUTHOR]

Published

2021

23. Bipotential B-neutrophil progenitors are present in human and mouse bone marrow and emerge in the periphery upon stress hematopoiesis.

Author

Shahbaz S, Rosero EP, Syed H, Hnatiuk M, Bozorgmehr N, Rahmati A, Zia S, Plemel J, Osman M, and Elahi S

Subjects

Humans, Animals, Mice, B-Lymphocytes immunology, B-Lymphocytes virology, SARS-CoV-2 genetics, Bone Marrow virology, Cell Lineage, Male, Female, Middle Aged, Single-Cell Analysis, Myelopoiesis genetics, Sequence Analysis, RNA, COVID-19 immunology, COVID-19 virology, Neutrophils immunology, Neutrophils virology, Hematopoiesis

Abstract

Hematopoiesis is a tightly regulated process that gets skewed toward myelopoiesis. This restrains lymphopoiesis, but the role of lymphocytes in this process is not well defined. To unravel the intricacies of neutrophil responses in COVID-19, we performed bulk RNAseq on neutrophils from healthy controls and COVID-19 patients. Principal component analysis revealed distinguishing neutrophil gene expression alterations in COVID-19 patients. ICU and ward patients displayed substantial transcriptional changes, with ICU patients exhibiting a more pronounced response. Intriguingly, neutrophils from COVID-19 patients, notably ICU patients, exhibited an enrichment of immunoglobulin (Ig) and B cell lineage-associated genes, suggesting potential lineage plasticity. We validated our RNAseq findings in a larger cohort. Moreover, by reanalyzing single-cell RNA sequencing (scRNAseq) data on human bone marrow (BM) granulocytes, we identified the cluster of granulocyte-monocyte progenitors (GMP) enriched with Ig and B cell lineage-associated genes. These cells with lineage plasticity may serve as a resource depending on the host's needs during severe systemic infection. This distinct B cell subset may play a pivotal role in promoting myelopoiesis in response to infection. The scRNAseq analysis of BM neutrophils in infected mice further supported our observations in humans. Finally, our studies using an animal model of acute infection implicate IL-7/GM-CSF in influencing neutrophil and B cell dynamics. Elevated GM-CSF and reduced IL-7 receptor expression in COVID-19 patients imply altered hematopoiesis favoring myeloid cells over B cells. Our findings provide novel insights into the relationship between the B-neutrophil lineages during severe infection, hinting at potential implications for disease pathogenesis., Importance: This study investigates the dynamics of hematopoiesis in COVID-19, focusing on neutrophil responses. Through RNA sequencing of neutrophils from healthy controls and COVID-19 patients, distinct gene expression alterations are identified, particularly in ICU patients. Notably, neutrophils from COVID-19 patients, especially in the ICU, exhibit enrichment of immunoglobulin and B cell lineage-associated genes, suggesting potential lineage plasticity. Validation in a larger patient cohort and single-cell analysis of bone marrow granulocytes support the presence of granulocyte-monocyte progenitors with B cell lineage-associated genes. The findings propose a link between B-neutrophil lineages during severe infection, implicating a potential role for these cells in altered hematopoiesis favoring myeloid cells over B cells. Elevated GM-CSF and reduced IL-7 receptor expression in stress hematopoiesis suggest cytokine involvement in these dynamics, providing novel insights into disease pathogenesis., Competing Interests: The authors declare no conflict of interest.

Published

2024

24. Inter-subspecies mouse F1 hybrid embryonic stem cell lines newly established for studies of allelic imbalance in gene expression.

Author

Saito A, Tahara R, Hirose M, Kadota M, Hasegawa A, Kondo S, Kato H, Amano T, Yoshiki A, Ogura A, and Kiyosawa H

Subjects

Animals, Mice, Mice, Inbred C57BL, Alleles, Gene Expression genetics, Cell Line, Phosphatidylinositol-3,4,5-Trisphosphate 5-Phosphatases genetics, Polymorphism, Genetic, Mouse Embryonic Stem Cells cytology, Mouse Embryonic Stem Cells metabolism, Hybrid Cells, Embryonic Stem Cells, Female, Species Specificity, Male, Allelic Imbalance genetics

Abstract

Allele-specific monoallelic gene expression is a unique phenomenon and a great resource for analyzing gene regulation. To study this phenomenon, we established new embryonic stem (ES) cell lines derived from F1 hybrid blastocysts from crosses between four mouse subspecies (Mus musculus domesticus, C57BL/6; M. musculus molossinus, MSM/Ms; M. musculus musculus, PWK; M. musculus castaneus, HMI/Ms) and analyzed the expression levels of undifferentiated pluripotent stem cell markers and karyotypes of each line. To demonstrate the utility of our cell lines, we analyzed the allele-specific expression pattern of the Inpp5d gene as an example. The allelic expression depended on the parental alleles; this dependence could be a consequence of differences in compatibility between cis- and trans-elements of the Inpp5d gene from different subspecies. The use of parental mice from four subspecies greatly enhanced genetic polymorphism. The F1 hybrid ES cells retained this polymorphism not only in the Inpp5d gene, but also at a genome-wide level. As we demonstrated for the Inpp5d gene, the established cell lines can contribute to the analysis of allelic expression imbalance based on the incompatibility between cis- and trans-elements and of phenotypes related to this incompatibility.

Published

2024

25. Researchers Submit Patent Application, "Antibodies Binding To Cd30 And Cd3", for Approval (USPTO 20240228641).

Abstract

A patent application has been submitted for antibodies that target CD30 and CD3 proteins. These antibodies have the potential to be used in cancer therapies, specifically for treating classical Hodgkin lymphoma and anaplastic large cell lymphoma. The application describes the characteristics of the antibodies, including their binding regions, and their potential use in cancer treatment. It also discusses the production methods and diagnostic compositions related to these antibodies. [Extracted from the article]

Published

2024

26. Researchers Submit Patent Application, "Methods And Compositions For Inducible Extracellular Membrane Capture Of Monoclonal Immunoglobulins Secreted By Hybridomas", for Approval (USPTO 20240191207).

Abstract

A patent application has been submitted for a new method of capturing monoclonal immunoglobulins secreted by hybridomas. The current process is time-consuming and expensive, but the new method aims to streamline it by using an Anchor-Linker complex to adhere the target protein to the cell surface. This could have implications for the rapid generation of new anti-viral drugs and more efficient identification of cells and their secreted proteins for diagnostic and therapeutic purposes. The patent application also includes claims related to nucleic acid molecules encoding the Anchor, vectors containing the nucleic acid molecules, and cells expressing the Anchor on their outer plasma membrane surface. [Extracted from the article]

Published

2024

27. Researchers from University of Jinan Report Findings in Biosensors (Screening High Affinity Monoclonal Antibody Producing Hybridomas Using a Graphene Oxide-based Fluorescence Biosensor).

Abstract

Researchers from the University of Jinan in Guangzhou, China have developed a novel graphene oxide-based fluorescence biosensor for screening high affinity monoclonal antibody (mAb) producing hybridomas. The biosensor combines biosensing and flow cytometry to create a rapid and high-throughput method for screening mAb producing clones. The sensor utilizes a FITC-labeled peptide that is adsorbed on the surface of graphene oxide, resulting in fluorescence quenching. The specific mAb competitively binds to the peptide, causing fluorescence recovery. The sensor is simple, inexpensive, highly specific, and can be used for cell sort assay and screening other mAb hybridomas libraries. [Extracted from the article]

Published

2024

28. New Hybridomas Research from King Abdulaziz University Discussed (Development and characterization of three novel mouse monoclonal antibodies targeting spike protein S1 subunit of Middle East Respiratory Syndrome Corona Virus).

Abstract

A study conducted at King Abdulaziz University in Saudi Arabia has developed and characterized three novel mouse monoclonal antibodies that target the spike protein S1 subunit of the Middle East Respiratory Syndrome Coronavirus (MERS-CoV). The antibodies were generated using hybridoma technology and were found to exhibit strong reactivity against MERS-CoV antigens in enzyme-linked immunosorbent assays (ELISA) and dot ELISA assays. While the antibodies did not show in vitro reactivity against MERS-CoV in a neutralization assay, they have potential applications in MERS-CoV research and diagnosis. [Extracted from the article]

Published

2024

29. Fusion Cell Markers in Circulating Tumor Cells from Patients with High-Grade Ovarian Serous Carcinoma

Author

Anna Paula Carreta Ruano, Andrea Paiva Gadelha Guimarães, Alexcia C. Braun, Bianca C. T. C. P. Flores, Milena Shizue Tariki, Emne A. Abdallah, Jacqueline Aparecida Torres, Diana Noronha Nunes, Bruna Tirapelli, Vladmir C. Cordeiro de Lima, Marcello Ferretti Fanelli, Pierre-Emmanuel Colombo, Alexandre André Balieiro Anastácio da Costa, Catherine Alix-Panabières, and Ludmilla Thomé Domingos Chinen

Subjects

circulating tumor cells, cell fusion, hybrid cells, CD45, ovarian cancer, in situ hybridization, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cancer is primarily a disease in which late diagnosis is linked to poor prognosis, and unfortunately, detection and management are still challenging. Circulating tumor cells (CTCs) are a potential resource to address this disease. Cell fusion, an event discovered recently in CTCs expressing carcinoma and leukocyte markers, occurs when ≥2 cells become a single entity (hybrid cell) after the merging of their plasma membranes. Cell fusion is still poorly understood despite continuous evaluations in in vitro/in vivo studies. Blood samples from 14 patients with high-grade serous ovarian cancer (A.C. Camargo Cancer Center, São Paulo, Brazil) were collected with the aim to analyze the CTCs/hybrid cells and their correlation to clinical outcome. The EDTA collected blood (6 mL) from patients was used to isolate/identify CTCs/hybrid cells by ISET. We used markers with possible correlation with the phenomenon of cell fusion, such as MC1-R, EpCAM and CD45, as well as CEN8 expression by CISH analysis. Samples were collected at three timepoints: baseline, after one month (first follow-up) and after three months (second follow-up) of treatment with olaparib (total sample = 38). Fourteen patients were included and in baseline and first follow-up all patients showed at least one CTC. We found expression of MC1-R, EpCAM and CD45 in cells (hybrid) in at least one of the collection moments. Membrane staining with CD45 was found in CTCs from the other cohort, from the other center, evaluated by the CellSearch® system. The presence of circulating tumor microemboli (CTM) in the first follow-up was associated with a poor recurrence-free survival (RFS) (5.2 vs. 12.2 months; p = 0.005). The MC1-R expression in CTM in the first and second follow-ups was associated with a shorter RFS (p = 0.005). CEN8 expression in CTCs was also related to shorter RFS (p = 0.035). Our study identified a high prevalence of CTCs in ovarian cancer patients, as well as hybrid cells. Both cell subtypes demonstrate utility in prognosis and in the assessment of response to treatment. In addition, the expression of MC1-R and EpCAM in hybrid cells brings new perspectives as a possible marker for this phenomenon in ovarian cancer.

Published

2022

30. Interspecies cell fusion between mouse embryonic stem cell and porcine pluripotent cell.

Author

Bou, Gerelchimeg, Guo, Jia, Fang, Yuan, Li, Xuechun, Wei, Renyue, Li, Yan, and Liu, Zhonghua

Subjects

*EMBRYONIC stem cells, *CELL fusion, *EPIBLAST, *STEM cell research, *SOMATIC cells, *MICE

Abstract

In the area of stem cell research, fusion of somatic cells into pluripotent cells such as mouse embryonic stem (ES) cells induces reprogramming of the somatic nucleus and can be used to study the effect of trans‐acting factors from the pluripotent cell on the pluripotent state of somatic nucleus. As many other groups, we previously established a porcine pluripotent cell line at a low potential. Therefore, here, we performed experiments to investigate if the fusion with mouse ES cell could improve the pluripotent state of porcine pluripotent cell. Our data showed that resultant mouse–porcine interspecies fused cells are AP positive, and could be passaged up to 20 passages. Different degrees of increases in expression of porcine pluripotent genes proved that pig‐origin gene network can be programmed by mouse ES. Further differentiation study also confirmed these fused cells' potential to form three germ layers. However, unexpectedly, we found that chromosome loss and aberrant (especially in porcine chromosomes) is severe after the cell fusion, implying that interspecies cell fusion may be not suitable to study porcine pluripotency without additional supportive conditions for genome stabilization. [ABSTRACT FROM AUTHOR]

Published

2021

31. Molecular and bioenergetic differences between cells with African versus European inherited mitochondrial DNA haplogroups: implications for population susceptibility to diseases.

Author

Chwa, Marilyn, Falatoonzadeh, Payam, Ramirez, Claudio, Malik, Deepika, Tarek, Mohamed, Del Carpio, Javier, Nesburn, Anthony, Boyer, David, Vawter, Marquis, Jazwinski, S, Miceli, Michael, Wallace, Douglas, Udar, Nitin, Kuppermann, Baruch, Kenney, Maria, and Atilano, Shari

Subjects

ABI, ARPE-19, ATP, Adenosine triphosphate, Applied Biosystems, C1s, C3, C4B, CFH, Carbonyl Cyanide 4-trifluoromethoxy-phenylhydrazone, Complement activation, Complement component 1, s subcomponent, Complement component 3, Complement component 4B, Complement factor H, Cybrid, DMEM, DNA, Deoxyribonucleic acid, Dulbeccos modified Eagles medium, ECAR, EDTA, ETC, Electron transport chain, Ethylenediaminetetracetic acid, Extracellular acidification rate, FCCP, Haplogroup, Innate immunity, MT-CO1, MT-CO2, MT-CO3, MT-CYB, MT-ND1, MT-ND3, MT-ND5, Maximal oxygen uptake, MicroMolar, Mitochondria encoded NADH dehydrogenase 1, Mitochondria encoded NADH dehydrogenase 3, Mitochondria encoded NADH dehydrogenase 5, Mitochondria encoded cytochrome B, Mitochondria encoded cytochrome oxidase 1, Mitochondria encoded cytochrome oxidase 2, Mitochondria encoded cytochrome oxidase 3, Mitochondrion, OCR, OXPHOS, Oxidative phosphorylation, Oxygen consumption rate, Q-PCR, Quantitative polymerase chain reaction, Retina, Retinal pigmented epithelium cell line, SEM, SNPs, Single nucleotide polymorphisms, Standard error mean, UCLA, University of California, Los Angeles, VO2(max), μM, Adenosine Triphosphate, Adult, Black People, Cell Line, Cell Proliferation, DNA, Mitochondrial, Energy Metabolism, Gene Dosage, Gene Expression Profiling, Genes, Mitochondrial, Genetic Predisposition to Disease, Haplotypes, Humans, Hybrid Cells, Lactates, Middle Aged, Oligonucleotide Array Sequence Analysis, Polymorphism, Single Nucleotide, Reactive Oxygen Species, Reverse Transcriptase Polymerase Chain Reaction, White People

Abstract

The geographic origins of populations can be identified by their maternally inherited mitochondrial DNA (mtDNA) haplogroups. This study compared human cybrids (cytoplasmic hybrids), which are cell lines with identical nuclei but mitochondria from different individuals with mtDNA from either the H haplogroup or L haplogroup backgrounds. The most common European haplogroup is H while individuals of maternal African origin are of the L haplogroup. Despite lower mtDNA copy numbers, L cybrids had higher expression levels for nine mtDNA-encoded respiratory complex genes, decreased ATP (adenosine triphosphate) turnover rates and lower levels of reactive oxygen species production, parameters which are consistent with more efficient oxidative phosphorylation. Surprisingly, GeneChip arrays showed that the L and H cybrids had major differences in expression of genes of the canonical complement system (5 genes), dermatan/chondroitin sulfate biosynthesis (5 genes) and CCR3 (chemokine, CC motif, receptor 3) signaling (9 genes). Quantitative nuclear gene expression studies confirmed that L cybrids had (a) lower expression levels of complement pathway and innate immunity genes and (b) increased levels of inflammation-related signaling genes, which are critical in human diseases. Our data support the hypothesis that mtDNA haplogroups representing populations from different geographic origins may play a role in differential susceptibilities to diseases.

Published

2014

32. Molecular and bioenergetic differences between cells with African versus European inherited mitochondrial DNA haplogroups: Implications for population susceptibility to diseases

Author

Kenney, M Cristina, Chwa, Marilyn, Atilano, Shari R, Falatoonzadeh, Payam, Ramirez, Claudio, Malik, Deepika, Tarek, Mohamed, Del Carpio, Javier Cáceres, Nesburn, Anthony B, Boyer, David S, Kuppermann, Baruch D, Vawter, Marquis P, Jazwinski, S Michal, Miceli, Michael V, Wallace, Douglas C, and Udar, Nitin

Subjects

Genetics, Aetiology, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Underpinning research, Generic health relevance, Adenosine Triphosphate, Adult, Blacks, Cell Line, Cell Proliferation, DNA, Mitochondrial, Energy Metabolism, Gene Dosage, Gene Expression Profiling, Genes, Mitochondrial, Genetic Predisposition to Disease, Haplotypes, Humans, Hybrid Cells, Lactates, Middle Aged, Oligonucleotide Array Sequence Analysis, Polymorphism, Single Nucleotide, Reactive Oxygen Species, Reverse Transcriptase Polymerase Chain Reaction, Whites, Mitochondrion, Complement activation, Innate immunity, Haplogroup, Cybrid, Retina, White People, Black People, ABI, ARPE-19, ATP, Adenosine triphosphate, Applied Biosystems, C1s, C3, C4B, CFH, Carbonyl Cyanide 4-trifluoromethoxy-phenylhydrazone, Complement component 1, s subcomponent, Complement component 3, Complement component 4B, Complement factor H, DMEM, DNA, Deoxyribonucleic acid, Dulbecco's modified Eagle's medium, ECAR, EDTA, ETC, Electron transport chain, Ethylenediaminetetracetic acid, Extracellular acidification rate, FCCP, MT-CO1, MT-CO2, MT-CO3, MT-CYB, MT-ND1, MT-ND3, MT-ND5, Maximal oxygen uptake, MicroMolar, Mitochondria encoded NADH dehydrogenase 1, Mitochondria encoded NADH dehydrogenase 3, Mitochondria encoded NADH dehydrogenase 5, Mitochondria encoded cytochrome B, Mitochondria encoded cytochrome oxidase 1, Mitochondria encoded cytochrome oxidase 2, Mitochondria encoded cytochrome oxidase 3, OCR, OXPHOS, Oxidative phosphorylation, Oxygen consumption rate, Q-PCR, Quantitative polymerase chain reaction, Retinal pigmented epithelium cell line, SEM, SNPs, Single nucleotide polymorphisms, Standard error mean, UCLA, University of California, Los Angeles, VO2(max), μM, Physical Sciences, Biological Sciences

Abstract

The geographic origins of populations can be identified by their maternally inherited mitochondrial DNA (mtDNA) haplogroups. This study compared human cybrids (cytoplasmic hybrids), which are cell lines with identical nuclei but mitochondria from different individuals with mtDNA from either the H haplogroup or L haplogroup backgrounds. The most common European haplogroup is H while individuals of maternal African origin are of the L haplogroup. Despite lower mtDNA copy numbers, L cybrids had higher expression levels for nine mtDNA-encoded respiratory complex genes, decreased ATP (adenosine triphosphate) turnover rates and lower levels of reactive oxygen species production, parameters which are consistent with more efficient oxidative phosphorylation. Surprisingly, GeneChip arrays showed that the L and H cybrids had major differences in expression of genes of the canonical complement system (5 genes), dermatan/chondroitin sulfate biosynthesis (5 genes) and CCR3 (chemokine, CC motif, receptor 3) signaling (9 genes). Quantitative nuclear gene expression studies confirmed that L cybrids had (a) lower expression levels of complement pathway and innate immunity genes and (b) increased levels of inflammation-related signaling genes, which are critical in human diseases. Our data support the hypothesis that mtDNA haplogroups representing populations from different geographic origins may play a role in differential susceptibilities to diseases.

Published

2014

33. Investigation of the mixed origins of the MGC-803 cell line reveals that it is a hybrid cell line derived from HeLa.

Author

Yang M, He J, Xia S, Wang Y, Xiong J, Liao C, Li N, Qu S, and Shen C

Subjects

Humans, HeLa Cells, Clone Cells, Alleles, Hybrid Cells, Cell Line, Tumor, Adenocarcinoma

Abstract

Human cancer cell lines have an essential role in cancer research, but only authentic cell lines should be used as biological models. Authentication testing using short tandem repeat (STR) loci has shown that MGC-803 cells, which were reported to come from gastric adenocarcinoma, are similar to HeLa. In this study, we confirmed that the MGC-803 cell line contains genetic material from HeLa, including genetic sequence from human papilloma virus 18 (HPV18). Additional alleles were present on STR analysis that remained stable after extensive passaging and generation of mono-clones. This behavior is consistent with a hybrid cell line arising from cell-cell fusion. Further genetic analysis revealed that MGC-803 originated from donors with different genetic ancestries, one African (HeLa) and the other Asian. Transcriptomic analysis demonstrated that MGC-803 closely resembles HeLa and another nasopharyngeal-HeLa hybrid cell line CNE-2. Based on these findings, we conclude that MGC-803 is a hybrid cell line derived from HeLa and other cells, the latter derived from a different patient with Asian genetic ancestry., (© 2023. The Author(s) under exclusive licence to Japan Human Cell Society.)

Published

2024

34. Interspecies Microbial Fusion and Large-Scale Exchange of Cytoplasmic Proteins and RNA in a Syntrophic Clostridium Coculture

Author

Kamil Charubin, Shannon Modla, Jeffrey L. Caplan, and Eleftherios Terry Papoutsakis

Subjects

Clostridium ljungdahlii, Clostridium acetobutylicum, syntrophy, heterologous cell fusion, hybrid cells, protein exchange, Microbiology, QR1-502

Abstract

ABSTRACT Microbial syntrophy is universal in nature, profoundly affecting the composition and function of microbiomes. We have recently reported data suggesting direct cell-to-cell interactions leading to electron and material exchange between the two microbes in the syntrophy between Clostridium ljungdahlii and C. acetobutylicum. Here, transmission electron microscopy and electron tomography demonstrated cell wall and membrane fusions between the two organisms, whereby C. ljungdahlii appears to invade C. acetobutylicum pole to pole. Correlative fluorescence transmission electron microscopy demonstrated large-scale exchange of proteins. Flow cytometry analysis captured the extent and dynamic persistence of these interactions. Dividing hybrid cells were identified containing stained proteins from both organisms, thus demonstrating persistence of cells with exchanged cellular components. Fluorescence microscopy and flow cytometry of one species with stained RNA and the other tagged with a fluorescent protein demonstrated extensive RNA exchange and identified hybrid cells, some of which continued to divide, while some were in an advanced C. acetobutylicum sporulation form. These data demonstrate that cell fusion enables large-scale cellular material exchange between the two organisms. Although unanticipated and never previously reported, these phenomena are likely widely distributed in nature, have profound implications for species evolution and the function of microbial communities, and could find utility in biotechnology. They may shed new light onto little-understood phenomena, such as antibiotic heteroresistance of pathogens, pathogen invasion of human tissues, and the evolutionary trajectory and persistence of unculturable bacteria. IMPORTANCE We report that two different bacterial organisms engage in heterologous cell fusion that leads to massive exchange of cellular material, including proteins and RNA, and the formation of persistent hybrid cells. The interspecies cell fusion observed here involves a syntrophic microbial system, but these heterologous cell fusions were observed even under nonstrict syntrophic conditions, leaving open the possibility that strict syntrophy may not be necessary for interspecies cell fusion and cellular material exchange. Formation of hybrid cells that contain proteins and RNA from both organisms is unexpected and unprecedented. Such fusion events are likely widely distributed in nature, but have gone undetected. The implications are profound and may shed light onto many unexplained phenomena in human health, natural environments, evolutionary biology, and biotechnology.

Published

2020

35. Enhanced metastatic capacity of breast cancer cells after interaction and hybrid formation with mesenchymal stroma/stem cells (MSC)

Author

Catharina Melzer, Juliane von der Ohe, and Ralf Hass

Subjects

Mesenchymal stem cells, Breast cancer, Tumor microenvironment, Cell fusion, Hybrid cells, Medicine, Cytology, QH573-671

Abstract

Abstract Background Fusion of breast cancer cells with tumor-associated populations of the microenvironment including mesenchymal stroma/stem-like cells (MSC) represents a rare event in cell communication whereby the metastatic capacity of those hybrid cells remains unclear. Methods Functional changes were investigated in vitro and in vivo following spontaneous fusion and hybrid cell formation between primary human MSC and human MDA-MB-231 breast cancer cells. Thus, lentiviral eGFP-labeled MSC and breast cancer cells labeled with mcherry resulted in dual-fluorescing hybrid cells after co-culture. Results Double FACS sorting and single cell cloning revealed two different aneuploid male hybrid populations (MDA-hyb1 and MDA-hyb2) with different STR profiles, pronounced telomerase activities, and enhanced proliferative capacities as compared to the parental cells. Microarray-based mRNA profiling demonstrated marked regulation of genes involved in epithelial-mesenchymal transition and increased expression of metastasis-associated genes including S100A4. In vivo studies following subcutaneous injection of the breast cancer and the two hybrid populations substantiated the in vitro findings by a significantly elevated tumor growth of the hybrid cells. Moreover, both hybrid populations developed various distant organ metastases in a much shorter period of time than the parental breast cancer cells. Conclusion Together, these data demonstrate spontaneous development of new tumor cell populations exhibiting different parental properties after close interaction and subsequent fusion of MSC with breast cancer cells. This formation of tumor hybrids contributes to continuously increasing tumor heterogeneity and elevated metastatic capacities.

Published

2018

36. Characterization of high affinity IgM and IgG monoclonal antibodies against norovirus variants GII.4 and GII.17 (Updated May 14, 2024).

Abstract

This article discusses a study on the development of monoclonal antibodies against two strains of norovirus, GII.4 and GII.17. The researchers immunized mice with virus-like capsid particles and used hybridoma technology to generate hybridoma cells that produce antibodies against these strains. The study found that IgM antibodies require multivalent binding for efficient binding to norovirus, while IgG antibodies achieve high affinity even with monovalent binding. The researchers suggest that the high density of antigen protrusion domain in the norovirus capsid facilitates efficient binding of IgM antibodies. This preprint has not yet undergone peer review. [Extracted from the article]

Published

2024

37. Researchers' from University Medical Center Schleswig-Holstein Report Details of New Studies and Findings in the Area of Hybridomas (Combining Cellular Immunization and Phage Display Screening Results in Novel, FcgRI-Specific Antibodies).

Abstract

A recent study conducted by researchers at the University Medical Center Schleswig-Holstein in Germany has focused on the development of antibodies that specifically bind to human fragment crystallizable g receptors (FcgRs). These antibodies are of interest for studying immune cell functions and for use in cancer therapy. The researchers used a combination of cellular immunization and phage display screening to generate seven new FcgRI-specific antibody sequences. These antibodies showed FcgRI-restricted specificity and were produced as Fc-silent antibodies. This research provides valuable insights into the development of novel antibodies for various applications in the field of immunology. [Extracted from the article]

Published

2024

38. Patent Issued for Monoclonal antibody targeting a unique sialoglycosylated cancer-associated epitope of CD43 (USPTO 11965033).

Abstract

A patent has been issued for a monoclonal antibody that targets a specific sialoglycosylated cancer-associated epitope of CD43. The antibody, called UMG1, binds to a subset of lymphocytes in healthy human donors and T-ALL cell lines. It does not bind to breast cancer cells but does bind to cellular immune infiltrates in lung cancer, colorectal cancer, and breast cancer tumors. The patent also includes claims for the CD43 binding protein and a chimeric antigen receptor (CAR) that incorporates the UMG1 antibody. [Extracted from the article]

Published

2024

39. Researchers Submit Patent Application, "Antibodies Binding To Cd30 And Cd3", for Approval (USPTO 20240132607).

Abstract

A patent application has been submitted for antibodies that target CD30-positive cancers, such as classical Hodgkin lymphoma and anaplastic large cell lymphoma. These antibodies bind to CD30 and CD3 proteins and have strong binding and cytotoxicity in a bispecific format. The application includes claims for multispecific antibodies, nucleic acid constructs, expression vectors, recombinant host cells, and pharmaceutical compositions for cancer treatment. The application also discusses the use of these antibodies in treating Hodgkin's lymphoma and Non-Hodgkin's lymphoma, as well as methods for producing the antibodies and diagnostic compositions. [Extracted from the article]

Published

2024

40. "Antibodies Having Specificity For Btn2 And Uses Thereof" in Patent Application Approval Process (USPTO 20240117041).

Abstract

This patent application discusses the potential uses of antibodies that target a protein called butyrophilin-2 (BTN2). These antibodies have the ability to inhibit the production of certain cytokines, inhibit the cytolytic function of specific T cells, and inhibit the proliferation of certain T cells. The application provides specific examples of these antibodies and their compositions. The antibodies have the potential to be used as immunosuppressive agents for the treatment of autoimmune diseases and to prevent transplant rejection. The application also mentions various autoimmune and inflammatory disorders that could potentially be treated with these antibodies, including rheumatoid arthritis, diabetes, multiple sclerosis, Crohn's disease, and lupus. [Extracted from the article]

Published

2024

41. Patent Issued for Methods and compositions for inducible extracellular membrane capture of monoclonal immunoglobulins secreted by hybridomas (USPTO 11946074).

Abstract

A patent has been issued for methods and compositions that allow for the capture of monoclonal immunoglobulins secreted by hybridomas. Hybridoma methods involve fusing B cells with a fusion partner cell line to create stable cell lines that secrete antibodies. However, the process of identifying which cells secrete the desired antibodies is time-consuming and costly. The patented methods and compositions aim to streamline this process by using an Anchor-Linker complex to adhere the target protein to the cell surface upon secretion. This technology has potential applications in the production of therapeutic antibodies and the rapid discovery of anti-viral drugs. [Extracted from the article]

Published

2024

42. Patent Issued for Bed bugs detection device (USPTO 11913943).

Abstract

Redcoat Solutions Inc. has been issued a patent for a bed bug detection device. The device uses a lateral flow assay test to determine the presence of bed bugs in a test fluid. It utilizes monoclonal antibodies or antigen-binding fragments to bind to bed bug antigens and produce a reaction that can be detected by optical sensors. The device compares the testing results to stored pest profiles to determine if bed bugs are present. This invention aims to provide a more effective and accurate method for detecting and identifying bed bug infestations. [Extracted from the article]

Published

2024

43. Data on Food Science and Technology Detailed by Researchers at University of Canterbury (Interdisciplinary Methods for Analysing Food Matrix Structures of Hybrid Cell-based Meats: a Review).

Subjects

FOOD science, RESEARCH personnel, DATA science, MEAT

Abstract

A recent report from researchers at the University of Canterbury in Christchurch, New Zealand, explores the challenges of achieving sensory equivalence in hybrid cell-based meats. The study focuses on the relationship between food matrix structure and functionality in designing desirable hybrid cell-based meats. The researchers review current techniques used to study multiscale food matrix structures in animal-origin meats and plant-based meats, and consider their application in engineering hybrid cell-based meat food matrices. The goal of the research is to improve the organoleptic properties of hybrid foods and mimic animal-origin meats. [Extracted from the article]

Published

2024

44. Cellular reprogramming by single‐cell fusion with mouse embryonic stem cells in pig.

Author

Fang, Yuan, Guo, Jia, Wu, Shuang, Li, Xuechun, Zhao, Jianchao, Li, Yan, Guo, Shimeng, Mu, Yanshuang, Kong, Qingran, and Liu, Zhonghua

Subjects

*EMBRYONIC stem cells, *CELL fusion, *SOMATIC cells, *TRANSFORMING growth factors-beta, *PLURIPOTENT stem cells, *SWINE, *ALKALINE phosphatase

Abstract

Fusion of differentiated somatic cells with pluripotent stem cells can be used for cellular reprogramming, but the efficiency to obtain hybrid cells is extremely low. Here, we explored a novel cell fusion system, termed single‐cell fusion, the efficiency was significantly improved verified by fusion of mouse embryonic stem cells (mESCs), comparing to traditional polyethylene glycol fusion. Then, we employed the optimized system to perform cell fusion of porcine embryonic fibroblasts (PEFs) and porcine pluripotent stem cells (pPSCs) with mESCs. The hybrid cells showed both red and green fluorescence and expressed species‐specific genes of mouse and pig to evidence that the fusion was successful. The hybrid cells displayed characteristics similar with mESCs, including colony morphology, alkaline phosphatase positive and formation of embryoid body, and the expressions of core pluripotent factors OCT4, NANOG, and SOX2 of the pig were induced in the mESC/PEF hybrid cells. The results indicate PEFs and pPSCs could be reprogrammed by mESCs via the single‐cell fusion. Taking advantage of the hybrid cells to investigate the signaling pathways depended on the pluripotency of pig, we suggest the transforming growth factor‐β signaling pathways may play important roles. In summary, the single‐cell fusion is highly efficient, and we believe in the future it will be widely used in the application and fundamental research. [ABSTRACT FROM AUTHOR]

Published

2020

45. Transcriptomic profiling of gamma ray induced mutants from the CGL1 human hybrid cell system reveals novel insights into the mechanisms of radiation-induced carcinogenesis.

Author

Pirkkanen, Jake, Tharmalingam, Sujeenthar, Morais, Igor H., Lam-Sidun, Daniel, Thome, Christopher, Zarnke, Andrew M., Benjamin, Laura V., Losch, Adam C., Borgmann, Anthony J., Sinex, Helen Chin, Mendonca, Marc S., and Boreham, Douglas R.

Subjects

*MICROARRAY technology, *GAMMA rays, *DNA microarrays, *TUMOR suppressor genes, *HYBRID systems, *SOMATIC hybrids, *CYCLIC adenylic acid

Abstract

Somatic cell hybrid systems generated by combining cancerous with non-cancerous cells provide useful model systems to study neoplastic transformation. Combined with recent advances in omics-based technologies, novel molecular signatures that drive radiation-induced carcinogenesis can be analyzed at an exceptional global level. Here, we present a complete whole-transcriptome analysis of gamma-induced mutants (GIM) and gamma irradiated control (CON) segregants isolated from the CGL1 (HeLa x normal fibroblast) human hybrid cell-system exposed to high doses of radiation. Using the Human Transcriptome Array 2.0 microarray technology and conservative discrimination parameters, we have elucidated 1067 differentially expressed genes (DEGs) between tumorigenic and non-tumorigenic cells. Gene ontology enrichment analysis revealed that tumorigenic cells demonstrated shifts in extracellular matrix (ECM) and cellular adhesion profiles, dysregulation of cyclic AMP (cAMP) signaling, and alterations in nutrient transport and cellular energetics. Furthermore, putative upstream master regulator analysis demonstrated that loss of TGFβ1 signaling due to reduced SMAD3 expression is involved in radiation-induced carcinogenesis. Taken together, this study presents novel insights into specific gene expression and pathway level differences that contribute to radiation-induced carcinogenesis in a human cell-based model. This global transcriptomic analysis and our published tumor suppressor gene deletion loci analyses will allow us to identify and functionally test candidate nexus upstream tumor suppressor genes that are deleted or silenced after exposure to radiation. Image 1 • Whole transcriptome and gene ontology enrichment analysis was performed on independently isolated radiation-induced tumorigenic segregants of CGL1 human hybrid cells (GIMs) versus irradiated but nontumorigenic CONs. Radiation-induced carcinogenesis resulted in: • Shifts in extracellular matrix, cellular adhesion, cyclic AMP signaling, nutrient transport and cellular energetics now classified as hallmarks of cancer. • Loss of TGF-β1 signaling due to reduced SMAD3 expression. • Changes in gene expression that agreed with extensive published phenotypic alterations observed in these radiation-induced tumorigenic GIM segregants. • Identification specific gene expression and pathway level differences that contribute to radiation-induced carcinogenesis in a human cell-based model. • Global transcriptomic and tumor suppressor gene deletion loci analyses will allow us to functionally test candidate nexus upstream tumor suppressor genes involved in radiation carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2019

46. Fine mapping of regulatory loci for mammalian gene expression using radiation hybrids

Author

Park, Christopher C, Ahn, Sangtae, Bloom, Joshua S, Lin, Andy, Wang, Richard T, Wu, Tongtong, Sekar, Aswin, Khan, Arshad H, Farr, Christine J, Lusis, Aldons J, Leahy, Richard M, Lange, Kenneth, and Smith, Desmond J

Subjects

Biological Sciences, Genetics, Biotechnology, Human Genome, Generic health relevance, Animals, Cricetinae, Dosage Compensation, Genetic, Gene Expression Profiling, Gene Expression Regulation, Genes, Genome, Genotype, Hybrid Cells, Mice, Nucleic Acid Hybridization, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction, Quantitative Trait Loci, Radiation Hybrid Mapping, X Chromosome, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology

Abstract

We mapped regulatory loci for nearly all protein-coding genes in mammals using comparative genomic hybridization and expression array measurements from a panel of mouse-hamster radiation hybrid cell lines. The large number of breaks in the mouse chromosomes and the dense genotyping of the panel allowed extremely sharp mapping of loci. As the regulatory loci result from extra gene dosage, we call them copy number expression quantitative trait loci, or ceQTLs. The -2log10P support interval for the ceQTLs was 4, including 13 hotspots each regulating >100 genes in trans. Further, this work identifies 2,761 trans ceQTLs harboring no known genes, and provides evidence for a mode of gene expression autoregulation specific to the X chromosome.

Published

2008

47. Techniques in Somatic Cell Genetics

Author

Jerry W. Shay and Jerry W. Shay

Subjects

Cytogenetics--Technique, Cytological technics, Cytogenetics, Hybrid cells

Abstract

Somatic cell genetics is an exciting and rapidly expanding field of research. Since descriptions of the major experimental techniques in the field are scattered throughout various journals and other publications, there is a real need for a single reference source for both established investigators and students in the field. In addition, technical reports are frequently abridged such that many researchers are discouraged from attempting to adopt the appropriate methodology. This book, therefore, describes in detail the many recent technical advances in such areas of somatic cell genetics as transfer mediated by liposomes, erythrocyte ghosts, chromosomes, micro cells, mito­ chondria, and isolated nuclear DNA. These techniques have increased our understanding of the organization and regulation of eukaryotic cells. The production of antibiotic-resistant cell lines and their use in studying cytoplasmic inheritance are also included. Evidence for the cytoplasmic regulation of nuclear gene expression in eukaryotic cells is rapidly accumu­ lating following the characterization of cytoplasmic mutations. The produc­ tion of nuclear-coded mutations, their use in standard cell hybridization, and recent advances in techniques for fusing whole cells or cell components are also described.

Published

2013

48. A role for chromosomal instability in the development of and selection for radioresistant cell variants

Author

Limoli, CL, Corcoran, JJ, Jordan, R, Morgan, WF, and Schwartz, JL

Subjects

Genetics, Cancer, Aetiology, 2.1 Biological and endogenous factors, Animals, CHO Cells, Chromosome Fragility, Chromosomes, Human, Pair 4, Cricetinae, DNA Damage, DNA Repair, Genetic Variation, Genome, Humans, Hybrid Cells, Phenotype, Radiation Tolerance, Selection, Genetic, Tumor Cells, Cultured, chromosome instability, radioresistance, DNA repair, radiation therapy, NASA Discipline Radiation Health, Non-NASA Center, Oncology and Carcinogenesis, Public Health and Health Services, Oncology & Carcinogenesis

Abstract

Chromosome instability is a common occurrence in tumour cells. We examined the hypothesis that the elevated rate of mutation formation in unstable cells can lead to the development of clones of cells that are resistant to the cancer therapy. To test this hypothesis, we compared chromosome instability to radiation sensitivity in 30 independently isolated clones of GM10115 human-hamster hybrid cells. There was a broader distribution of radiosensitivity and a higher mean SF(2)in chromosomally unstable clones. Cytogenetic and DNA double-strand break rejoining assays suggest that sensitivity was a function of DNA repair efficiency. In the unstable population, the more radioresistant clones also had significantly lower plating efficiencies. These observations suggest that chromosome instability in GM10115 cells can lead to the development of cell variants that are more resistant to radiation. In addition, these results suggest that the process of chromosome breakage and recombination that accompanies chromosome instability might provide some selective pressure for more radioresistant variants.

Published

2001

49. Cell-type-specific cis -regulatory divergence in gene expression and chromatin accessibility revealed by human-chimpanzee hybrid cells.

Author

Wang B, Starr AL, and Fraser HB

Subjects

Humans, Animals, Hybrid Cells, Motor Neurons, Gene Expression, Chromatin genetics, Pan troglodytes

Abstract

Although gene expression divergence has long been postulated to be the primary driver of human evolution, identifying the genes and genetic variants underlying uniquely human traits has proven to be quite challenging. Theory suggests that cell-type-specific cis -regulatory variants may fuel evolutionary adaptation due to the specificity of their effects. These variants can precisely tune the expression of a single gene in a single cell-type, avoiding the potentially deleterious consequences of trans -acting changes and non-cell type-specific changes that can impact many genes and cell types, respectively. It has recently become possible to quantify human-specific cis -acting regulatory divergence by measuring allele-specific expression in human-chimpanzee hybrid cells-the product of fusing induced pluripotent stem (iPS) cells of each species in vitro . However, these cis -regulatory changes have only been explored in a limited number of cell types. Here, we quantify human-chimpanzee cis -regulatory divergence in gene expression and chromatin accessibility across six cell types, enabling the identification of highly cell-type-specific cis -regulatory changes. We find that cell-type-specific genes and regulatory elements evolve faster than those shared across cell types, suggesting an important role for genes with cell-type-specific expression in human evolution. Furthermore, we identify several instances of lineage-specific natural selection that may have played key roles in specific cell types, such as coordinated changes in the cis -regulation of dozens of genes involved in neuronal firing in motor neurons. Finally, using novel metrics and a machine learning model, we identify genetic variants that likely alter chromatin accessibility and transcription factor binding, leading to neuron-specific changes in the expression of the neurodevelopmentally important genes FABP7 and GAD1 . Overall, our results demonstrate that integrative analysis of cis -regulatory divergence in chromatin accessibility and gene expression across cell types is a promising approach to identify the specific genes and genetic variants that make us human., Competing Interests: BW, AS, HF No competing interests declared, (© 2023, Wang, Starr et al.)

Published

2024

50. Generation of transmitochondrial cybrids in cancer cells.

Author

Soler-Agesta R, Ripollés-Yuba C, Marco-Brualla J, Moreno-Loshuertos R, Sato A, Beltrán-Visiedo M, Galluzzi L, and Anel A

Subjects

Humans, Cell Line, Tumor, Hybrid Cells, Genome, Mitochondrial, Mitochondria metabolism, Mitochondria genetics, Neoplasms pathology, Neoplasms genetics, DNA, Mitochondrial genetics

Abstract

At odds with historical views suggesting that mitochondrial functions are largely dispensable for cancer cells, it is now clear that mitochondria have a major impact on malignant transformation, tumor progression and response to treatment. Mitochondria are indeed critical for neoplastic cells not only as an abundant source of ATP and other metabolic intermediates, but also as gatekeepers of apoptotic cell death and inflammation. Interestingly, while mitochondrial components are mostly encoded by nuclear genes, mitochondria contain a small, circular genome that codes for a few mitochondrial proteins, ribosomal RNAs and transfer RNAs. Here, we describe a straightforward method to generate transmitochondrial cybrids, i.e., cancer cells depleted of their mitochondrial DNA and reconstituted with intact mitochondria from another cellular source. Once established, transmitochondrial cybrids can be stably propagated and are valuable to dissect the specific impact of the mitochondrial genome on cancer cell functions., Competing Interests: Competing interests L.G. is/has been holding research contracts with Lytix Biopharma, Promontory and Onxeo, has received consulting/advisory honoraria from Boehringer Ingelheim, AstraZeneca, AbbVie, OmniSEQ, Onxeo, The Longevity Labs, Inzen, Imvax, Sotio, Promontory, Noxopharm, EduCom, and the Luke Heller TECPR2 Foundation, and holds Promontory stock options. The other authors have no conflicts of interest to declare., (Copyright © 2024 Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.)

Published

2024