Your search keyword '"tumorigenicity"' showing total 1,971 results

1. Atomoxetine suppresses radioresistance in glioblastoma via circATIC/miR-520d-5p/Notch2-Hey1 axis.

Author

Seok, Hyun Jeong, Choi, Jae Yeon, Lee, Dong Hyeon, Shin, Incheol, and Bae, In Hwa

Subjects

*CANCER relapse, *TUMOR growth, *ATOMOXETINE, *GLIOBLASTOMA multiforme, *CANCER treatment

Abstract

Background: Resistance acquired after radiotherapy is directly related to the failure of various cancer treatments, including GBM. Because the mechanism for overcoming radioresistance has not yet been clearly identified, the development of diagnostic and therapeutic markers to treat radioresistance is necessary. Since increased expression of stemness- and EMT-related markers are reported to be closely correlated with radioresistance, research is underway to develop new drugs targeting these factors. Methods: To develop an anticancer drug that overcomes radioresistance, a library of drugs already approved by the FDA was used. After treating radioresistant GBM cells with each drug, the expression of stemness- and EMT-related markers was confirmed by qRT-PCR, and as a result, Atomoxetine (ATX) was selected. It was confirmed that radioresistance-induced cell migratory, invasive, sphere formation abilities, and tumor growth using a xenograft mouse model were suppressed upon ATX treatment. Using a miRNA prediction tool, we discovered miR-520d-5p, which targets Notch2 and Hey1, key factors in radioresistance, and discovered circATIC targeting this miRNA, revealing its relationship with ATX. We demonstrated the expression regulation mechanism and signaling mechanism between circATIC, miR-520d-5p, Notch2, and Hey1 factors using a luciferase reporter assay. In addition, the results at the cellular level were clinically verified by confirming the correlation between radiation, miR-520d-5p, and circATIC using patient plasma by qRT-PCR. Results: ATX showed potential as a treatment for radioresistance by suppressing the malignant phenotype by regulating the circATIC/miR-520d-5p/Notch2-Hey1 signaling mechanism in vitro and in vivo using radioresistant GBM cells. Conclusions: This study revealed that ATX suppresses radioresistance through the circATIC/miR-520d-5p/Notch2-Hey1 signaling pathway. These results showed the potential of ATX as a new drug that can overcome radioresistance, a major challenge in cancer treatment, and the signaling factors identified in this mechanism suggest the possibility of use as potential targets for the diagnosis and treatment of radioresistance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Carcinoembryonic antigen‐related cell adhesion molecule 1 in cancer: Blessing or curse?

Author

Götz, Lisa, Rueckschloss, Uwe, Najjar, Sonia M., Ergün, Süleyman, and Kleefeldt, Florian

Subjects

*CELL adhesion molecules, *BLESSING & cursing, *TUMOR microenvironment, *METASTASIS, *INFLAMMATION

Abstract

The Carcinoembryonic antigen‐related cell adhesion molecule 1 (CEACAM1, also CD66a), a transmembrane glycoprotein of the immunoglobulin superfamily, is a pivotal mediator of various physiological and pathological processes, including oncologic disorders. However, its precise role in tumorigenicity is contradictory discussed by several clinical studies. This review aims to elucidate the clinical significance of CEACAM1 in different cancer entities focusing on tumour formation, progression and metastasis as well as on CEACAM1‐mediated treatment resistance. Furthermore, we discuss the contribution of CEACAM1 to cancer immunity and modulation of the inflammatory microenvironment and finally provide a comprehensive review of treatment regimens targeting this molecule. [ABSTRACT FROM AUTHOR]

Published

2024

3. Epidermal Growth Factor Receptor Emerges as a Viable Target for Reducing Tumorigenicity of MDCK Cells.

Author

Yang, Di, Liao, Yuejiao, Huang, Lingwei, Shi, Jiachen, Wang, Jiamin, Qiao, Zilin, Ma, Zhongren, and Yu, Sijiu

Subjects

*EPIDERMAL growth factor receptors, *TUMOR proteins, *CYCLIN-dependent kinases, *CELLULAR signal transduction, *INFLUENZA vaccines

Abstract

The MDCK cell line is perceived as better than the embryos of hen eggs for the production of influenza vaccines, but the tumorigenicity of these cells is concerning. Epidermal growth factor receptor (EGFR) is likely to be a crucial target that contributes to the tumorigenicity of MDCK cells. In this study, EGFR-knockdown and EGFR-overexpression cell lines were established. EGFR's influence on cell growth, migration, clonogenic ability, and flu virus susceptibility was evaluated in vitro, and its role in cell tumorigenicity was examined in nude mice. GST pull-down coupled with mass spectrometry (MS) and bioinformatics analysis identified EGFR-interacting proteins. The expression levels of these proteins, as well as those of PI3K–AKT- and MAPK–ERK-signaling-pathway-related molecules, were confirmed at both gene and protein levels. The result indicates that EGFR overexpression can enhance cell proliferation, migration, and clonal formation; EGFR knockdown could effectively curtail tumorigenesis and amplify the titers of influenza viruses in MDCK cells. An analysis of the underlying mechanism identified a total of 21 interacting proteins implicated in tumor formation, and among these, AKT1, CDK4, GNB2, and MAPK8 were confirmed at both gene and protein levels. EGFR can activate key factors of the PI3K–AKT signaling pathway, AKT and PI3K, and promote their phosphorylation levels. Consequently, we concluded that EGFR interacts with GNB2, facilitating transmembrane signal transduction, activating the PI3K–AKT signaling cascade, controlling cell cycle alterations, stimulating cell proliferation, and promoting tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Glioblastoma stem cell metabolism and immunity.

Author

Hawly, Joseph, Murcar, Micaela G., Schcolnik-Cabrera, Alejandro, and Issa, Mark E.

Abstract

Despite enormous efforts being invested in the development of novel therapies for brain malignancies, there remains a dire need for effective treatments, particularly for pediatric glioblastomas. Their poor prognosis has been attributed to the fact that conventional therapies target tumoral cells, but not glioblastoma stem cells (GSCs). GSCs are characterized by self-renewal, tumorigenicity, poor differentiation, and resistance to therapy. These characteristics represent the fundamental tools needed to recapitulate the tumor and result in a relapse. The mechanisms by which GSCs alter metabolic cues and escape elimination by immune cells are discussed in this article, along with potential strategies to harness effector immune cells against GSCs. As cellular immunotherapy is making significant advances in a variety of cancers, leveraging this underexplored reservoir may result in significant improvements in the treatment options for brain malignancies. [ABSTRACT FROM AUTHOR]

Published

2024

5. Atomoxetine suppresses radioresistance in glioblastoma via circATIC/miR-520d-5p/Notch2-Hey1 axis

Author

Hyun Jeong Seok, Jae Yeon Choi, Dong Hyeon Lee, Incheol Shin, and In Hwa Bae

Subjects

Glioblastoma, Radioresistance, Atomoxetine, Tumorigenicity, miR-520d-5p, circATIC, Medicine, Cytology, QH573-671

Abstract

Abstract Background Resistance acquired after radiotherapy is directly related to the failure of various cancer treatments, including GBM. Because the mechanism for overcoming radioresistance has not yet been clearly identified, the development of diagnostic and therapeutic markers to treat radioresistance is necessary. Since increased expression of stemness- and EMT-related markers are reported to be closely correlated with radioresistance, research is underway to develop new drugs targeting these factors. Methods To develop an anticancer drug that overcomes radioresistance, a library of drugs already approved by the FDA was used. After treating radioresistant GBM cells with each drug, the expression of stemness- and EMT-related markers was confirmed by qRT-PCR, and as a result, Atomoxetine (ATX) was selected. It was confirmed that radioresistance-induced cell migratory, invasive, sphere formation abilities, and tumor growth using a xenograft mouse model were suppressed upon ATX treatment. Using a miRNA prediction tool, we discovered miR-520d-5p, which targets Notch2 and Hey1, key factors in radioresistance, and discovered circATIC targeting this miRNA, revealing its relationship with ATX. We demonstrated the expression regulation mechanism and signaling mechanism between circATIC, miR-520d-5p, Notch2, and Hey1 factors using a luciferase reporter assay. In addition, the results at the cellular level were clinically verified by confirming the correlation between radiation, miR-520d-5p, and circATIC using patient plasma by qRT-PCR. Results ATX showed potential as a treatment for radioresistance by suppressing the malignant phenotype by regulating the circATIC/miR-520d-5p/Notch2-Hey1 signaling mechanism in vitro and in vivo using radioresistant GBM cells. Conclusions This study revealed that ATX suppresses radioresistance through the circATIC/miR-520d-5p/Notch2-Hey1 signaling pathway. These results showed the potential of ATX as a new drug that can overcome radioresistance, a major challenge in cancer treatment, and the signaling factors identified in this mechanism suggest the possibility of use as potential targets for the diagnosis and treatment of radioresistance.

Published

2024

6. The role of dsRNA A-to-I editing catalyzed by ADAR family enzymes in the pathogeneses

Author

Wanqing Liu, Yufan Wu, Tong Zhang, Xiaobo Sun, Dean Guo, and Zizhao Yang

Subjects

Double Stranded RNA (dsRNA) Adenosine-to-Inosine (A-to-I) Editing, Adenosine Deaminases (ADAR) Enzyme, Pathogenesis, RNA Modification, Tumorigenicity, Genetics, QH426-470

Abstract

The process of adenosine deaminase (ADAR)-catalyzed double-stranded RNA (dsRNA) Adenosine-to-Inosine (A-to-I) editing is essential for the correction of pathogenic mutagenesis, as well as the regulation of gene expression and protein function in mammals. The significance of dsRNA A-to-I editing in disease development and occurrence is explored using inferential statistics and cluster analyses to investigate the enzymes involved in dsRNA editing that can catalyze editing sites across multiple biomarkers. This editing process, which occurs in coding or non-coding regions, has the potential to activate abnormal signalling pathways that contributes to disease pathogenesis. Notably, the ADAR family enzymes play a crucial role in initiating the editing process. ADAR1 is upregulated in most diseases as an oncogene during tumorigenesis, whereas ADAR2 typically acts as a tumour suppressor. Furthermore, this review also provides an overview of small molecular inhibitors that disrupt the expression of ADAR enzymes. These inhibitors not only counteract tumorigenicity but also alleviate autoimmune disorders, neurological neurodegenerative symptoms, and metabolic diseases associated with aberrant dsRNA A-to-I editing processes. In summary, this comprehensive review offers detailed insights into the involvement of dsRNA A-to-I editing in disease pathogenesis and highlights the potential therapeutic roles for related small molecular inhibitors. These scientific findings will undoubtedly contribute to the advancement of personalized medicine based on dsRNA A-to-I editing.

Published

2024

7. Attenuated Salmonella typhimurium L forms suppress tumor growth and promote apoptosis in murine ovarian tumors

Author

Yunjie Zhang, Ziqing Tang, Yidan Shao, Xiaoli Yue, Yifan Chu, and Dengyu Chen

Subjects

Salmonella typhimurium, ST, L forms, Epithelial ovarian cancer, Tumorigenicity, Apoptosis, Medicine, Science

Abstract

Abstract To study the effects of attenuated Salmonella typhimurium L forms on the in vivo tumorigenicity and apoptosis of murine epithelial ovarian cancer cells, as well as the related mechanisms. Attenuated Salmonella typhimurium VNP20009 was induced into bacterial L forms by using antibiotic ceftriaxone. CCK-8 cell proliferation assay showed that attenuated S. typhimurium L forms can inhibit the proliferation of murine ovarian epithelial cancer ID8 cells. Attenuated ST L forms can induce apoptosis and inhibit invasion ability of epithelial ovarian cancer cells in vitro. TUNEL assay showed that attenuated ST L forms can induce apoptosis of ID8 cells in murine ovarian tumors. Meanwhile, attenuated ST L forms inhibit tumor growth in murine ovarian tumors. The tumorigenicity-related proteins of xenograft tumors detected by immunohistochemistry and fluorescence quantitative RT-PCR assays showed that attenuated ST L forms can reduce the expression of proteins that promote tumor growth and metastasis, such as Lgals9 and MMP9. This study confirmed that attenuated ST L forms can suppress tumor growth and promote apoptosis in murine ovarian tumors. Attenuated ST L forms may serve as a novel biological agent for bacterial-mediated tumor therapy in epithelial ovarian cancer.

Published

2024

8. A comprehensive review on lncRNA LOXL1-AS1: molecular mechanistic pathways of lncRNA LOXL1-AS1 in tumorigenicity of cancer cells.

Author

Yousefnia, Saghar

Subjects

LINCRNA, GENE expression, CANCER cells, PROTEIN binding, PROGNOSIS, TRANSCRIPTION factors

Abstract

Long non-coding RNAs (lncRNAs) are versatile RNAs that regulate various cellular processes, such as gene regulation, by acting as signals, decoys, guides, and scaffolds. A novel recognized lncRNA, LOXL1-antisense RNA 1 (LOXL1-AS1), is dysregulated in some diseases, including cancer, and acts as an oncogenic lncRNA in many types of cancer cells. Upregulation of LOXL1-AS1 has been involved in proliferation, migration, metastasis, and EMT, as well as inhibiting apoptosis in cancer cells. Most importantly, the malignant promoting activity of LOXL1-AS1 can be mostly mediated by sequestering specific miRNAs and inhibiting their binding to the 3UTR of their target mRNAs, thereby indirectly regulating gene expression. Additionally, LOXL1-AS1 can decoy transcription factors and proteins and prevent their binding to their regulatory regions, inhibiting their mechanistic activity on the regulation of gene expression and signaling pathways. This review presents the mechanistic pathways of the oncogenic role of LOXL1-AS1 by modulating its target miRNAs and proteins in various cancer cells. Having information about the molecular mechanisms regulated by LOXL1-AS1 in cancer cells can open ways to find out particular prognostic biomarkers, as well as discover novel therapeutic approaches for different types of cancer. [ABSTRACT FROM AUTHOR]

Published

2024

9. Attenuated Salmonella typhimurium L forms suppress tumor growth and promote apoptosis in murine ovarian tumors.

Author

Zhang, Yunjie, Tang, Ziqing, Shao, Yidan, Yue, Xiaoli, Chu, Yifan, and Chen, Dengyu

Subjects

*SALMONELLA typhimurium, *TUMOR growth, *OVARIAN tumors, *OVARIAN epithelial cancer, *APOPTOSIS, *OVARIAN follicle

Abstract

To study the effects of attenuated Salmonella typhimurium L forms on the in vivo tumorigenicity and apoptosis of murine epithelial ovarian cancer cells, as well as the related mechanisms. Attenuated Salmonella typhimurium VNP20009 was induced into bacterial L forms by using antibiotic ceftriaxone. CCK-8 cell proliferation assay showed that attenuated S. typhimurium L forms can inhibit the proliferation of murine ovarian epithelial cancer ID8 cells. Attenuated ST L forms can induce apoptosis and inhibit invasion ability of epithelial ovarian cancer cells in vitro. TUNEL assay showed that attenuated ST L forms can induce apoptosis of ID8 cells in murine ovarian tumors. Meanwhile, attenuated ST L forms inhibit tumor growth in murine ovarian tumors. The tumorigenicity-related proteins of xenograft tumors detected by immunohistochemistry and fluorescence quantitative RT-PCR assays showed that attenuated ST L forms can reduce the expression of proteins that promote tumor growth and metastasis, such as Lgals9 and MMP9. This study confirmed that attenuated ST L forms can suppress tumor growth and promote apoptosis in murine ovarian tumors. Attenuated ST L forms may serve as a novel biological agent for bacterial-mediated tumor therapy in epithelial ovarian cancer. [ABSTRACT FROM AUTHOR]

Published

2024

10. Protocol improvement and multisite validation of a digital soft agar colony formation assay for tumorigenic transformed cells intermingled in cell therapy products.

Author

Bando, Kiyoko, Kusakawa, Shinji, Adachi, Hideki, Yamamoto, Mika, Iwata, Miki, Kitanaka, Atsushi, Ogimura, Eiichiro, Osada, Tomoharu, Tamura, Maya, Terai, Orie, Watanabe, Takeshi, Yoda, Tomomi, Yotsumoto, Takafumi, Zaizen, Kinuko, and Sato, Yoji

Subjects

*CELLULAR therapy, *HELA cells, *CANCER cells, *STROMAL cells, *DETECTION limit

Abstract

The administration of human cell-processed therapeutic products (hCTPs) is associated with a risk of tumorigenesis due to the transformed cellular contaminants. To mitigate this risk, these impurities should be detected using sensitive and validated assays. The digital soft agar colony formation (D-SAC) assay is an ultrasensitive in vitro test for detecting tumorigenic transformed cells in hCTPs. Methods : In this study, we first evaluated the colony formation efficiency (CFE) precision of tumorigenic reference cells in positive control samples according to a previously reported D-SAC assay protocol (Protocol I) from multiple laboratories. However, the CFE varied widely among laboratories. Thus, we improved and optimized the test protocol as Protocol II to reduce variability in the CFE of tumorigenic reference cells. Subsequently, the improved protocol was validated at multiple sites. Human mesenchymal stromal cells (hMSCs) were used as model cells, and positive control samples were prepared by spiking them with HeLa cells. Results: Based on the previously reported protocol, the CFE was estimated using an ultra-low concentration (0.0001%) of positive control samples in multiple plates. Next, we improved the protocol to reduce the CFE variability. Based on the CFE results, we estimated the sample size as the number of wells (Protocol II) and assessed the detectability of 0.0001% HeLa cells in hMSCs to validate the protocol at multiple sites. Using Protocol I yielded low CFEs (mean: 30%) and high variability between laboratories (reproducibility coefficient of variance [CV]: 72%). In contrast, Protocol II, which incorporated a relatively high concentration (0.002%) of HeLa cells in the positive control samples, resulted in higher CFE values (mean: 63%) and lower variability (reproducibility CV: 18%). Moreover, the sample sizes for testing were estimated as the number of wells per laboratory (314–570 wells) based on the laboratory-specific CFE (42–76%). Under these conditions, all laboratories achieved a detection limit of 0.0001% HeLa cells in hMSCs in a predetermined number of wells. Moreover, colony formation was not observed in the wells seeded with hMSCs alone. The D-SAC assay is a highly sensitive and robust test for detecting malignant cells as impurities in hCTPs. In addition, optimal assay conditions were established to test tumorigenic impurities in hCTPs with high sensitivity and an arbitrary false negative rate. [ABSTRACT FROM AUTHOR]

Published

2024

11. 1 株悬浮培养的 Vero 细胞驯化及其生物学特性研究.

Author

付兰博, 阮朝列, 陈昶旭, 高 羽, 鲍晓琳, 刘伯川, 周 健, and 李卫东

Abstract

Objective To domesticate adherently cultured Vero cells into suspension-cultured cells and investigate their biological characteristics. Methods Cell culture was optimized using serum-free media and the "shaker adaptation method." Additionally, tumorigenicity, short tandem repeat ( STR) profiles, morphological characters under transmission electron microscope (TEM）, and influenza virus sensitivity were analyzed in these cells. Results Suspension cell line Vero-S was successfully established. The growth period of Vero-S cells ranged from 24 to 72 hours, with a plateau phase between 108 and 144 hours, and a decline phase after 144 hours. The population doubling time (PDT) was 36 hours, and cell density ranged from 14.01 to 14.88 × 108 cells/L. Average cell roundness ranged from 0.73 to 0.75, and cell diameter ranged from 12.12 to 14.44 µm. Vero-S cells formed tumors subcutaneously in nude mice, while Vero cells before suspension culture did not exhibit tumorigenicity. STR analysis indicated a primate origin of the cell line. Under electron microscopy, cell structure appeared intact. VeroS cells showed insensitivity to influenza virus infection. Conclusion The established suspension cell line Vero-S exhibiting growth patterns similar to adherent cells, with uniform cell size and high-density growth supported by the established suspension culture medium. STR results demonstrated complete genetic stability of suspended Vero cells, with no apparent differences observed under transmission electron microscopy compared to adherent Vero cells. This study provides reference for suspension culture domestication techniques and can be applied in mechanistic studies of cell tumorigenicity. [ABSTRACT FROM AUTHOR]

Published

2024

12. Remodelin delays non‐small cell lung cancer progression by inhibiting NAT10 via the EMT pathway.

Author

Guo, Quanwei, Yu, Weijun, Tan, Jianfeng, Zhang, Jianhua, Chen, Jin, Rao, Shuan, Guo, Xia, and Cai, Kaican

Subjects

*NON-small-cell lung carcinoma, *CANCER invasiveness, *LYMPHATIC metastasis, *RNA modification & restriction, *LUNG cancer

Abstract

Background: Lung cancer remains the foremost reason of cancer‐related mortality, with invasion and metastasis profoundly influencing patient prognosis. N‐acetyltransferase 10 (NAT10) catalyzes the exclusive N (4)‐acetylcytidine (ac4C) modification in eukaryotic RNA. NAT10 dysregulation is linked to various diseases, yet its role in non‐small cell lung cancer (NSCLC) invasion and metastasis remains unclear. Our study delves into the clinical significance and functional aspects of NAT10 in NSCLC. Methods: We investigated NAT10's clinical relevance using The Cancer Genome Atlas (TCGA) and a group of 98 NSCLC patients. Employing WB, qRT‐PCR, and IHC analyses, we assessed NAT10 expression in NSCLC tissues, bronchial epithelial cells (BECs), NSCLC cell lines, and mouse xenografts. Further, knockdown and overexpression techniques (siRNA, shRNA, and plasmid) were employed to evaluate NAT10's effects. A series of assays were carried out, including CCK‐8, colony formation, wound healing, and transwell assays, to elucidate NAT10's role in proliferation, invasion, and metastasis. Additionally, we utilized lung cancer patient‐derived 3D organoids, mouse xenograft models, and Remodelin (NAT10 inhibitor) to corroborate these findings. Results: Our investigations revealed high NAT10 expression in NSCLC tissues, cell lines and mouse xenograft models. High NAT10 level correlated with advanced T stage, lymph node metastasis and poor overall survive. NAT10 knockdown curtailed proliferation, invasion, and migration, whereas NAT10 overexpression yielded contrary effects. Furthermore, diminished NAT10 levels correlated with increased E‐cadherin level whereas decreased N‐cadherin and vimentin expressions, while heightened NAT10 expression displayed contrasting results. Notably, Remodelin efficiently attenuated NSCLC proliferation, invasion, and migration by inhibiting NAT10 through the epithelial‐mesenchymal transition (EMT) pathway. Conclusions: Our data underscore NAT10 as a potential therapeutic target for NSCLC, presenting avenues for targeted intervention against lung cancer through NAT10 inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

13. FAXC interacts with ANXA2 and SRC in mitochondria and promotes tumorigenesis in cholangiocarcinoma.

Author

Fujimori, Haruna, Shima‐Nakamura, Mao, Kanno, Shin‐Ichiro, Shibuya‐Takahashi, Rie, Mochizuki, Mai, Mizuma, Masamichi, Unno, Michiaki, Wakui, Yuta, Abue, Makoto, Iwai, Wataru, Fukushi, Daisuke, Satoh, Kennich, Yamaguchi, Kazunori, Shindo, Norihisa, Yasuda, Jun, and Tamai, Keiichi

Abstract

Cholangiocarcinoma (CCA) is one of the most difficult malignancies to treat as the therapeutic options are limited. Although several driver genes have been identified, most remain unknown. In this study, we identified a failed axon connection homolog (FAXC), whose function is unknown in mammals, by analyzing serially passaged CCA xenograft models. Knockdown of FAXC reduced subcutaneous tumorigenicity in mice. FAXC was bound to annexin A2 (ANXA2) and c‐SRC, which are tumor‐promoting genes. The FAXC/ANXA2/c‐SRC complex forms in the mitochondria. FAXC enhances SRC‐dependent ANXA2 phosphorylation at tyrosine‐24, and the C‐terminal amino acid residues (351–375) of FAXC are required for ANXA2 phosphorylation. Transcriptome data from a xenografted CCA cell line revealed that FAXC correlated with epithelial–mesenchymal transition, hypoxia, and KRAS signaling genes. Collectively, these findings advance our understanding of CCA tumorigenesis and provide candidate therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2024

14. miR-10b-5p promotes tumor growth by regulating cell metabolism in liver cancer via targeting SLC38A2

Author

Mingzhi Xia, Jie Chen, Yingyun Hu, Bin Qu, Qianqian Bu, and Haoming Shen

Subjects

Primary liver cancer, tumorigenicity, SLC38A2, metabolic reprogramming, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

ABSTRACTMetabolic reprogramming plays a critical role in hepatocarcinogenesis. However, the mechanisms regulating metabolic reprogramming in primary liver cancer (PLC) are unknown. Differentially expressed miRNAs between PLC and normal tissues were identified using bioinformatic analysis. RT-qPCR was used to determine miR-10b-5p and SCL38A2 expression levels. IHC, WB, and TUNEL assays were used to assess the proliferation and apoptosis of the tissues. The proliferation, migration, invasion, and apoptosis of PLC cells were determined using the CCK-8 assay, Transwell assay, and flow cytometry. The interaction between miR-10b-5p and SLC38A2 was determined using dual-luciferase reporter assay. A PLC xenograft model in BALB/c nude mice was established, and tumorigenicity and SLC38A2 expression were estimated. Finally, liquid chromatography – mass spectrometry (LC-MS) untargeted metabolomics was used to analyze the metabolic profiles of xenograft PLC tissues in nude mice. miR-10b-5p was a key molecule in the regulation of PLC. Compared with para-carcinoma tissues, miR-10b-5p expression was increased in tumor tissues. miR-10b-5p facilitated proliferation, migration, and invasion of PLC cells. Mechanistically, miR-10b-5p targeted SLC38A2 to promote PLC tumor growth. Additionally, miR-10b-5p altered the metabolic features of PLC in vivo. Overexpression of miR-10b-5p resulted in remarkably higher amounts of lumichrome, folic acid, octanoylcarnitine, and Beta-Nicotinamide adenine dinucleotide, but lower levels of 2-methylpropanal, glycyl-leucine, and 2-hydroxycaproic acid. miR-10b-5p facilitates the metabolic reprogramming of PLC by targeting SLC38A2, which ultimately boosts the proliferation, migration, and invasion of PLC cells. Therefore, miR-10b-5p and SLC38A2 are potential targets for PLC diagnosis and treatment.

Published

2024

15. 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

16. Downregulation of lncRNA MIR17HG reduced tumorigenicity and Treg‐mediated immune escape of non‐small‐cell lung cancer cells through targeting the miR‐17‐5p/RUNX3 axis.

Author

Zheng, Guanghua, Ye, Hui, Bai, Junjun, and Zhang, Xia

Subjects

NON-small-cell lung carcinoma, TRANSFORMING growth factors-beta, TRANSFORMING growth factors, VASCULAR endothelial growth factors, CANCER cells, REGULATORY T cells, SYNCRIP protein

Abstract

Long noncoding RNA MIR17HG was involved with the progression of non‐small‐cell lung cancer (NSCLC), but specific mechanisms of MIR17HG‐mediated immune escape of NSCLC cells were still unknown. The present study investigated the function of MIR17HG on regulatory T cell (Treg)‐mediated immune escape and the underlying mechanisms in NSCLC. Expression of MIR17HG and miR‐17‐5p in NSCLC tissue samples were detected using quantitative real‐time PCR (qRT‐PCR). A549 and H1299 cells were transfected with sh‐MIR17HG, miR‐17‐5p inhibitor, or sh‐MIR17HG + miR‐17‐5p inhibitor, followed by cocultured with Tregs. Cell proliferation was measured using 5‐ethynyl‐20‐deoxyuridine (Edu) staining assay and cell counting kit‐8 (CCK‐8) assay. Flow cytometry was used for determining positive numbers of FOXP3+CD4+/CD25+/CD8+ Tregs. Through subcutaneous injection with transfected A549 cells, a xenograft nude mouse model was established. Weights and volumes of xenograft tumors were evaluated. Additionally, the expressions of immune‐related factors including transforming growth factor beta (TGF‐β), vascular endothelial growth factor A (VEGF‐A), interleukin‐10 (IL‐10), IL‐4, and interferon‐gamma (IFN‐γ) in cultured cells, were evaluated by enzyme‐linked immunosorbent assay and western blot analysis. Then, miR‐17‐5p was decreased and MIR17HG was enhanced in both NSCLC tissues and cell lines. MIR17HG knockdown significantly suppressed cell proliferation, tumorigenicity, and immune capacity of Tregs in A549 and H1299 cells, whereas sh‐MIR17HG significantly reduced expression levels of VEGF‐A, TGF‐β, IL‐4, and IL‐10 but promoted the IFN‐γ level in vitro and in vivo. Moreover, downregulation of miR‐17‐5p significantly reversed the effects of sh‐MIR17HG. Additionally, we identified that runt‐ related transcription factor 3 (RUNX3) was a target of miR‐17‐5p, and sh‐MIR17HG and miR‐17‐5p mimics downregulated RUNX3 expression. In conclusion, downregulation of MIR17HG suppresses tumorigenicity and Treg‐mediated immune escape in NSCLC through downregulating the miR‐17‐5p/RUNX3 axis, indicating that this axis contains potential biomarkers for NSCLC. [ABSTRACT FROM AUTHOR]

Published

2024

17. Investigating the Effects of Chordoma Cell-Derived Exosomes on the Tumorigenicity of Nucleus Pulposus Cells.

Author

Aydemir, Esra, Yılmaz, Nur Zübeyda, Bayrak, Ömer Faruk, and Sahin, Fikrettin

Subjects

*NUCLEUS pulposus, *EXOSOMES, *CHORDOMA, *EXTRACELLULAR vesicles, *CELL cycle

Abstract

Objective Interaction of tumor cells with the surrounding environment is essential for tumor growth and progression that eventually leads to metastasis. Growing evidence shows that extracellular vesicles also known as exosomes play a crucial role in signaling between the tumor and its microenvironment. Tumor-derived exosomes have generally protumorigenic effects such as metastasis, hypoxia, angiogenesis, and epithelial-mesenchymal transition. Methods In this study, exosomes were isolated from a chordoma cell line, MUG-Chor1, and characterized subsequently. The number of exosomes was determined and introduced into the healthy nucleus pulposus (NP) cells for 140 days. The protumorigenic effects of a chordoma cell line-derived exosomes that initiate the tumorigenesis on NP cells were investigated. The impact of tumor-derived exosomes on various cellular events including cell cycle, migration, proliferation, apoptosis, and viability has been studied by treating NP cells with chordoma cell-line-derived exosomes cells. Results Upon treatment with exosomes, the NP cells not only gained a chordoma-like morphology but also molecular characteristics such as alterations in the levels of certain gene expressions. The migratory and angiogenic capabilities of NP cells increased after treatment with chordoma-derived exosomes. Conclusion Based on our findings, we can conclude that exosomes carry information from tumor cells and may exert tumorigenic effects on nontumorous cells. [ABSTRACT FROM AUTHOR]

Published

2024

18. Preclinical assessments of safety and tumorigenicity of very high doses of allogeneic human umbilical cord mesenchymal stem cells.

Author

Chin, Sze-Piaw, Saffery, Nik Syazana, Then, Kong-Yong, and Cheong, Soon-Keng

Abstract

Human umbilical cord-mesenchymal stem cells (hUC-MSCs) have been widely investigated as a new therapeutic agent to treat injuries and inflammatory-mediated and autoimmune diseases. Previous studies have reported on the safety of low-dose infusion of hUC-MSCs, but information on the cell behaviour at higher doses and frequency of injection of the cells remains uncertain. The aim of the present study was to demonstrate the safety and efficacy of hUC-MSCs by Cytopeutics® (Selangor, Malaysia) from low to an extremely high dose in different monitoring periods in healthy BALB/c mice as well as assessing the tumorigenicity of the cells in B-NDG SCID immunocompromised mice. Umbilical cord from two healthy human newborns was obtained and the isolation of the hUC-MSCs was performed based on previous established method. Assessment of the cells at different doses of single or multiple administrations was performed on healthy BALB/c mice in dose range finding, sub-acute (7 d and 28 d) and sub-chronic periods (90 d). Tumorigenicity potential of Cytopeutics® hUC-MSCs was also evaluated on B-NDG immunocompromised mice for 26 wk. Single or multiple administrations of Cytopeutics® hUC-MSCs up to 40 × 106 cells per kilogramme of body weight (kg BW) were found to have no adverse effect in terms of clinical symptoms, haematology and other laboratory parameters, and histology examination in healthy BALB/c mice. hUC-MSCs were also found to reduce pro-inflammatory cytokines (IL-6 and TNF-α) in a dose-dependent manner. No sign of tumor formation was observed in B-NDG mice in the 26-wk tumorigenicity assessment. Single or multiple administration of allogenic Cytopeutics® hUC-MSCs was safe even at very high doses, is non-tumorigenic and did not cause adverse effects in mice throughout the evaluation periods. In addition, Cytopeutics® hUC-MSCs exhibited immunomodulatory effect in a dose-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2024

19. Human Metastatic Melanoma Cell Lines Panel for In Vitro and In Vivo Investigations.

Author

Kosobokova, Ekaterina N., Kalinina, Nadezhda A., Konoplina, Ksenia M., Malchenkova, Anastasiia A., Evdokimova, Alexandra E., Piniugina, Marina V., Khan, Irina I., Kislyak, Ilya A., Basharina, Anna A., Grishanina, Anna N., Rudakova, Anna A., Varaksa, Pavel O., Baryshnikova, Maria A., Pokrovsky, Vadim S., Bogush, Tatiana A., and Kosorukov, Vyacheslav S.

Subjects

*MELANOMA diagnosis, *XENOGRAFTS, *KARYOTYPES, *GENE expression, *CELL lines

Abstract

The melanoma origin of cell lines obtained from the axillary lymph node (mel Kas, mel Pet, and mel Lap from patients with a verified diagnosis) was confirmed by the detection of the Melan A melanocyte marker expression. A hyperdiploid (2n+) for the mel Kas line; near-diploid (2n), and in some cells near-tertaploid (4n), and even hypo-octaploid (8n) set (172–179 chromosomes) in the mel Pet cell line; and a hypotetraploid (4n−) for the mel Lap line were detected by karyotypic analysis. All three cell lines are tumorigenic; however, mel Pet demonstrates tumor growth in Balb/c nude mice only in the presence of matrigel. All three lines showed a high expression of TUBB3 and PD-L1 markers, while ERa was low (minimum for mel Pet). Significant differences in the expression level were shown for the Cyt molecular marker. In the transplantation of cells to Balb/c nude mice, a stable expression level is observed only for TUBB3. For the rest of the markers, a decrease in their expression level of varying degrees was noted when the cells were growing in solid tumors in vivo. Mutations were detected in oncogenes (BRAF, EZH2, KIT, KRAS, NRAS, ROS1) and tumor suppressor genes (CDKN2A, FAT4, KMT2C, LRP1B, PTEN, PTPRB, TP53). The detailed characterization of the cell lines makes them valuable for various scientific and regulatory experiments, particularly those involving preclinical data on antiproliferative drugs for malignant melanoma or investigations into melanoma cell properties and progression. [ABSTRACT FROM AUTHOR]

Published

2024

20. Safety assessment of rat embryonic fraction for in vivo regenerative therapy

Author

Sivarama Prasad Darsi, Somorita Baishya, Veerababu Nagati, Kala Kumar Bharani, Satyanarayana Swamy Cheekatla, Sujesh Kumar Darsi, Adi Reddy Kamireddy, Ram Reddy Barra, Ashok Kumar Devarasetti, Sreedhar Surampudi, Jayaram Reddy Singireddy, Siva Kumar Kandula, and Anil Kumar Pasupulati

Subjects

embryonic protein fraction, regenerative therapy, immunogenicity, tumorigenicity, proteomic analysis, Science, Biology (General), QH301-705.5

Published

2024

21. A comprehensive review on lncRNA LOXL1-AS1: molecular mechanistic pathways of lncRNA LOXL1-AS1 in tumorigenicity of cancer cells

Author

Saghar Yousefnia

Subjects

long noncoding RNAs (lncRNAs), LOXL1-antisense RNA 1 (LOXL1-AS1), MicroRNA (miRNA), cancer, Tumorigenicity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Long non-coding RNAs (lncRNAs) are versatile RNAs that regulate various cellular processes, such as gene regulation, by acting as signals, decoys, guides, and scaffolds. A novel recognized lncRNA, LOXL1-antisense RNA 1 (LOXL1-AS1), is dysregulated in some diseases, including cancer, and acts as an oncogenic lncRNA in many types of cancer cells. Upregulation of LOXL1-AS1 has been involved in proliferation, migration, metastasis, and EMT, as well as inhibiting apoptosis in cancer cells. Most importantly, the malignant promoting activity of LOXL1-AS1 can be mostly mediated by sequestering specific miRNAs and inhibiting their binding to the 3´UTR of their target mRNAs, thereby indirectly regulating gene expression. Additionally, LOXL1-AS1 can decoy transcription factors and proteins and prevent their binding to their regulatory regions, inhibiting their mechanistic activity on the regulation of gene expression and signaling pathways. This review presents the mechanistic pathways of the oncogenic role of LOXL1-AS1 by modulating its target miRNAs and proteins in various cancer cells. Having information about the molecular mechanisms regulated by LOXL1-AS1 in cancer cells can open ways to find out particular prognostic biomarkers, as well as discover novel therapeutic approaches for different types of cancer.

Published

2024

22. Human Metastatic Melanoma Cell Lines Panel for In Vitro and In Vivo Investigations

Author

Ekaterina N. Kosobokova, Nadezhda A. Kalinina, Ksenia M. Konoplina, Anastasiia A. Malchenkova, Alexandra E. Evdokimova, Marina V. Piniugina, Irina I. Khan, Ilya A. Kislyak, Anna A. Basharina, Anna N. Grishanina, Anna A. Rudakova, Pavel O. Varaksa, Maria A. Baryshnikova, Vadim S. Pokrovsky, Tatiana A. Bogush, and Vyacheslav S. Kosorukov

Subjects

melanoma cell culture, melanoma xenograft model, karyotype, tumorigenicity, gene expression, mutation, Pathology, RB1-214

Abstract

The melanoma origin of cell lines obtained from the axillary lymph node (mel Kas, mel Pet, and mel Lap from patients with a verified diagnosis) was confirmed by the detection of the Melan A melanocyte marker expression. A hyperdiploid (2n+) for the mel Kas line; near-diploid (2n), and in some cells near-tertaploid (4n), and even hypo-octaploid (8n) set (172–179 chromosomes) in the mel Pet cell line; and a hypotetraploid (4n−) for the mel Lap line were detected by karyotypic analysis. All three cell lines are tumorigenic; however, mel Pet demonstrates tumor growth in Balb/c nude mice only in the presence of matrigel. All three lines showed a high expression of TUBB3 and PD-L1 markers, while ERa was low (minimum for mel Pet). Significant differences in the expression level were shown for the Cyt molecular marker. In the transplantation of cells to Balb/c nude mice, a stable expression level is observed only for TUBB3. For the rest of the markers, a decrease in their expression level of varying degrees was noted when the cells were growing in solid tumors in vivo. Mutations were detected in oncogenes (BRAF, EZH2, KIT, KRAS, NRAS, ROS1) and tumor suppressor genes (CDKN2A, FAT4, KMT2C, LRP1B, PTEN, PTPRB, TP53). The detailed characterization of the cell lines makes them valuable for various scientific and regulatory experiments, particularly those involving preclinical data on antiproliferative drugs for malignant melanoma or investigations into melanoma cell properties and progression.

Published

2024

23. In vivo safety and biodistribution profile of Klotho-enhanced human urine-derived stem cells for clinical application

Author

Sang-Heon Kim, Sung-Hoon Lee, Jeong-Ah Jin, Hyung-Joon So, Jae-Ung Lee, Min-Jae Ji, Eun-Joong Kwon, Pyo-Sung Han, Hong-Ki Lee, and Tae-Wook Kang

Subjects

Urine-derived stem cells (UDSCs), Safety, Toxicity, Distribution, Tumorigenicity, Klotho, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Urine-derived stem cells (UDSCs) can be easily isolated from urine and possess excellent stem cell characteristics, making them a promising source for cell therapeutics. Due to their kidney origin specificity, UDSCs are considered a superior therapeutic alternative for kidney diseases compared to other stem cells. To enhance the therapeutic potential of UDSCs, we developed a culture method that effectively boosts the expression of Klotho, a kidney-protective therapeutic factor. We also optimized the Good Manufacturing Practice (GMP) system to ensure stable and large-scale production of clinical-grade UDSCs from patient urine. In this study, we evaluated the in vivo safety and distribution of Klotho-enhanced UDSCs after intravenous administration in accordance with Good Laboratory Practice (GLP) regulations. Methods Mortality and general symptoms were continuously monitored throughout the entire examination period. We evaluated the potential toxicity of UDSCs according to the administration dosage and frequency using clinical pathological and histopathological analyses. We quantitatively assessed the in vivo distribution and retention period of UDSCs in major organs after single and repeated administration using human Alu-based qPCR analysis. We also conducted long-term monitoring for 26 weeks to assess the potential tumorigenicity. Results Klotho-enhanced UDSCs exhibited excellent homing potential, and recovered Klotho expression in injured renal tissue. Toxicologically harmful effects were not observed in all mice after a single administration of UDSCs. It was also verified that repeated administration of UDSCs did not induce significant toxicological or immunological adverse effects in all mice. Single and repeated administrated UDSCs persisted in the blood and major organs for approximately 3 days and cleared in most organs, except the lungs, within 2 weeks. UDSCs that remained in the lungs were cleared out in approximately 4–5 weeks. There were no significant differences according to the variation of sex and administration frequency. The tumors were found in the intravenous administration group but they were confirmed to be non-human origin. Based on these results, it was clarified that UDSCs have no tumorigenic potential. Conclusions Our results demonstrate that Klotho-enhanced UDSCs can be manufactured as cell therapeutics through an optimized GMP procedure, and they can be safely administered without causing toxicity and tumorigenicity.

Published

2023

24. Umbilical cord mesenchymal stromal cells in serum-free defined medium display an improved safety profile

Author

Xiaoyun Wu, Zhijie Ma, Yuxiao Yang, Yongxu Mu, and Daocheng Wu

Subjects

Immunogenicity, Mesenchymal stromal cells, Serum free, Safety, Tumorigenicity, Umbilical cord, Medicine (General), R5-920, Biochemistry, QD415-436

Abstract

Abstract Background Safety evaluations in preclinical studies are needed to confirm before translating a cell-based product into clinical application. We previously developed a serum-free, xeno-free, and chemically defined media (S&XFM–CD) for the derivation of clinical-grade umbilical cord-derived MSCs (UCMSCs), and demonstrated that intraperitoneal administration of UCMSCs in S&XFM–CD (UCMSCS&XFM−CD) exhibited better therapeutic effects than UCMSCs in serum-containing media (SCM, UCMSCSCM). However, a comprehensive investigation of the safety of intraperitoneal UCMSCS&XFM−CD treatment should be performed before clinical applications. Methods In this study, the toxicity, immunogenicity and biodistribution of intraperitoneally transplanted UCMSCS&XFM−CD were compared with UCMSCSCM in rats via general vital signs, blood routine, blood biochemistry, subsets of T cells, serum cytokines, pathology of vital organs, antibody production and the expression of human-specific gene. The tumorigenicity and tumor-promoting effect of UCMSCS&XFM−CD were compared with UCMSCSCM in nude mice. Results We confirmed that intraperitoneally transplanted UCMSCS&XFM−CD or UCMSCSCM did not cause significant changes in body weight, temperature, systolic blood pressure, diastolic blood pressure, heart rate, blood routine, T lymphocyte subsets, and serum cytokines, and had no obvious histopathology change on experimental rats. UCMSCS&XFM−CD did not produce antibodies, while UCMSCSCM had very high chance of antibody production to bovine serum albumin (80%) and apolipoprotein B-100 (60%). Furthermore, intraperitoneally injected UCMSCS&XFM−CD were less likely to be blocked by the lungs and migrated more easily to the kidneys and colon tissue than UCMSCSCM. In addition, UCMSCS&XFM−CD or UCMSCSCM showed no obvious tumorigenic activity. Finally, UCMSCS&XFM−CD extended the time of tumor formation of KM12SM cells, and decreased tumor incidence than that of UCMSCSCM. Conclusions Taken together, our data indicate that UCMSCS&XFM−CD display an improved safety performance and are encouraged to use in future clinical trials.

Published

2023

25. LncRNA HOTAIR down-expression inhibits the invasion and tumorigenicity of epithelial ovarian cancer cells by suppressing TGF-β1 and ZEB1

Author

Yufu Zhou, Yunjie Zhang, Yidan Shao, Xiaoli Yue, Yifan Chu, Cuiping Yang, and Dengyu Chen

Subjects

Epithelial ovarian cancer, lncRNA HOTAIR, Tumorigenicity, TGF-β1, ZEB1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Epithelial ovarian cancer (EOC) is a pathological type with a higher mortality rate among gynecological cancers today. Long-chain noncoding RNAs (lncRNAs) can regulate the transcription and expression of cellular genes. However, the downstream molecules regulated by lncRNA HOTAIR have not been well studied. The effects of downregulated lncRNA HOTAIR on EOC invasiveness and tumorigenicity in nude mice, along with TGF- β1 and ZEB1 in epithelial ovarian cancer cells, need to be investigated in further research. Results RT-qPCR was used to detect lncRNA HOTAIR and TGF-β1 and ZEB1 mRNA expression in EOC SKOV3 cells. The expression of lncRNA HOTAIR in SKOV3 cells transfected with the recombinant shHOTAIR interference plasmid was significantly lower than that of the negative control. Compared with the negative control, the matrix gel invasion ability of shHOTAIR SKOV3 cells in vitro and their tumorigenicity in nude mice were significantly reduced. Moreover, compared with the control, the expression of ZEB1 protein in shHOTAIR-SKOV3 xenograft tumors was significantly reduced. Downregulation of lncRNA HOTAIR expression significantly reduced TGF-β1 and ZEB1 mRNA expression, but increased the expression of E-cadherin mRNA. In summary, downregulated lncRNA HOTAIR in EOC SKOV3 cells transfected with shHOTAIR can inhibit TGF-β1, reduce ZEB1, increase E-cadherin, and significantly reduce the invasiveness and tumorigenicity of ovarian epithelial cancer SKOV3 cells. Conclusions These results suggest that the lncRNA HOTAIR may be an effective target for the treatment of human EOC.

Published

2023

26. Assessment of Genetic Stability in Human Induced Pluripotent Stem Cell-Derived Cardiomyocytes by Using Droplet Digital PCR.

Author

Park, Ji Won, Bae, Su Ji, Yun, Jun Ho, Kim, Sunhee, and Park, Misun

Subjects

*INDUCED pluripotent stem cells, *EXOMES, *GENETIC variation, *GENETIC testing, *GENETIC mutation

Abstract

Unintended genetic modifications that occur during the differentiation and proliferation of human induced pluripotent stem cells (hiPSCs) can lead to tumorigenicity. This is a crucial concern in the development of stem cell-based therapies to ensure the safety and efficacy of the final product. Moreover, conventional genetic stability testing methods are limited by low sensitivity, which is an issue that remains unsolved. In this study, we assessed the genetic stability of hiPSCs and hiPSC-derived cardiomyocytes using various testing methods, including karyotyping, CytoScanHD chip analysis, whole-exome sequencing, and targeted sequencing. Two specific genetic mutations in KMT2C and BCOR were selected from the 17 gene variants identified by whole-exome and targeted sequencing methods, which were validated using droplet digital PCR. The applicability of this approach to stem cell-based therapeutic products was further demonstrated with associated validation according to the International Council for Harmonisation (ICH) guidelines, including specificity, precision, robustness, and limit of detection. Our droplet digital PCR results showed high sensitivity and accuracy for quantitatively detecting gene mutations, whereas conventional qPCR could not avoid false positives. In conclusion, droplet digital PCR is a highly sensitive and precise method for assessing the expression of mutations with tumorigenic potential for the development of stem cell-based therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

27. Linc-NSC affects cell differentiation, apoptosis and proliferation in mouse neural stem cells and embryonic stem cells in vitro and in vivo.

Author

Guo, Lili, Zou, Dan, Qiu, Wenqiao, Fei, Fan, Chen, Lihua, Chen, Wenjin, Xiong, Huan, Li, Xinda, Wang, Yangyang, Gao, Mingjun, Zhu, Jianwei, Zhang, Jin, He, Yunsen, Gao, Mou, and Xu, Ruxiang

Abstract

Background: Stem cell therapy is a promising therapeutic strategy. In a previous study, we evaluated tumorigenicity by the stereotactic transplantation of neural stem cells (NSCs) and embryonic stem cells (ESCs) from experimental mice. Twenty-eight days later, there was no evidence of tumor formation or long-term engraftment in the NSCs transplantation group. In contrast, the transplantation of ESCs caused tumor formation; this was due to their high proliferative capacity. Based on transcriptome sequencing, we found that a long intergenic non-coding RNA (named linc-NSC) with unknown structure and function was expressed at 1100-fold higher levels in NSCs than in ESCs. This finding suggested that linc-NSC is negatively correlated with stem cell pluripotency and tumor development, but positively correlated with neurogenesis. In the present study, we investigated the specific role of linc-NSC in NSCs/ESCs in tumor formation and neurogenesis. Methods: Whole transcriptome profiling by RNA sequencing and bioinformatics was used to predict lncRNAs that are widely associated with enhanced tumorigenicity. The expression of linc-NSC was assessed by quantitative real-time PCR. We also performed a number of in vitro methods, including cell proliferation assays, differentiation assays, immunofluorescence assays, flow cytometry, along with in vivo survival and immunofluorescence assays to investigate the impacts of linc-NSC on tumor formation and neurogenesis in NSCs and ESCs. Results: Following the knockdown of linc-NSC in NSCs, NSCs cultured in vitro and those transplanted into the cortex of mice showed stronger survival ability (P < 0.0001), enhanced proliferation(P < 0.001), and reduced apoptosis (P < 0.05); the opposite results were observed when linc-NSC was overexpressed in ESCs. Furthermore, the overexpression of linc-NSC in ECSs induced enhanced apoptosis (P < 0.001) and differentiation (P < 0.01), inhibited tumorigenesis (P < 0.05) in vivo, and led to a reduction in tumor weight (P < 0.0001). Conclusions: Our analyses demonstrated that linc-NSC, a promising gene-edited target, may promote the differentiation of mouse NSCs and inhibit tumorigenesis in mouse ESCs. The knockdown of linc-NSC inhibited the apoptosis in NSCs both in vitro and in vivo, and prevented tumor formation, revealing a new dimension into the effect of lncRNA on low survival NSCs and providing a prospective gene manipulation target prior to transplantation. In parallel, the overexpression of linc-NSC induced apoptosis in ESCs both in vitro and in vivo and attenuated the tumorigenicity of ESCs in vivo, but did not completely prevent tumor formation. [ABSTRACT FROM AUTHOR]

Published

2024

28. Pathogenesis of chemically induced nasal cavity tumors in rodents: contribution to adverse outcome pathway.

Author

Akiyoshi Nishikawa, Kasuke Nagano, Hajime Kojima, Shoji Fukushima, and Kumiko Ogawa

Subjects

*NASAL tumors, *NASAL cavity, *RATS, *RODENTS, *PATHOGENESIS, *SQUAMOUS cell carcinoma

Abstract

The pathogenesis of nasal cavity tumors induced in rodents has been critically reviewed. Chemical substances that induce nasal cavity tumors in rats, mice, and hamsters were searched in the National Toxicology Program (NTP), International Agency for Research on Cancer (IARC), and Japan Bioassay Research Center (JBRC) databases, in addition to PubMed. Detailed data such as animal species, administration routes, and histopathological types were extracted for induced nasal cavity tumors. Data on non-neoplastic lesions were also extracted. The relationship between the tumor type and non-neoplastic lesions at equivalent sites was analyzed to evaluate tumor pathogenesis. Genotoxicity data were also analyzed. Squamous cell carcinoma was the most frequent lesion, regardless of the dosing route, and its precursor lesions were squamous metaplasia and/or respiratory epithelial hyperplasia, similar to squamous cell papilloma. The precursor lesions of adenocarcinoma, the second most frequent tumor type, were mainly olfactory epithelial hyperplasia, whereas those of adenoma were respiratory epithelial lesions. These pathways were consistent among species. Our results suggest that the responsible lesions may be commonly linked with chemically-induced cytotoxicity in each tumor type, irrespective of genotoxicity, and that the pathways may largely overlap between genotoxic and non-genotoxic carcinogens. These findings may support the documentation of adverse outcome pathways (AOPs), such as cytotoxicity, leading to nasal cavity tumors and the integrated approaches to testing and assessment (IATA) for non-genotoxic carcinogens. [ABSTRACT FROM AUTHOR]

Published

2024

29. The Human Soluble NKG2D Ligand Differentially Impacts Tumorigenicity and Progression in Temporal and Model-Dependent Modes.

Author

Serritella, Anthony V., Saenz-Lopez Larrocha, Pablo, Dhar, Payal, Liu, Sizhe, Medd, Milan M., Jia, Shengxian, Cao, Qi, and Wu, Jennifer D.

Subjects

TUMOR growth, KILLER cells, T cells, TUMOR markers, CANCER invasiveness, PROGRAMMED cell death 1 receptors

Abstract

NKG2D is an activating receptor expressed by all human NK cells and CD8 T cells. Harnessing the NKG2D/NKG2D ligand axis has emerged as a viable avenue for cancer immunotherapy. However, there is a long-standing controversy over whether soluble NKG2D ligands are immunosuppressive or immunostimulatory, originating from conflicting data generated from different scopes of pre-clinical investigations. Using multiple pre-clinical tumor models, we demonstrated that the impact of the most characterized human solid tumor-associated soluble NKG2D ligand, the soluble MHC I chain-related molecule (sMIC), on tumorigenesis depended on the tumor model being studied and whether the tumor cells possessed stemness-like properties. We demonstrated that the potential of tumor formation or establishment depended upon tumor cell stem-like properties irrespective of tumor cells secreting the soluble NKG2D ligand sMIC. Specifically, tumor formation was delayed or failed if sMIC-expressing tumor cells expressed low stem-cell markers; tumor formation was rapid if sMIC-expressing tumor cells expressed high stem-like cell markers. However, once tumors were formed, overexpression of sMIC unequivocally suppressed tumoral NK and CD8 T cell immunity and facilitated tumor growth. Our study distinguished the differential impacts of soluble NKG2D ligands in tumor formation and tumor progression, cleared the outstanding controversy over soluble NKG2D ligands in modulating tumor immunity, and re-enforced the viability of targeting soluble NKG2D ligands for cancer immunotherapy for established tumors. [ABSTRACT FROM AUTHOR]

Published

2024

30. Umbilical cord mesenchymal stromal cells in serum-free defined medium display an improved safety profile.

Author

Wu, Xiaoyun, Ma, Zhijie, Yang, Yuxiao, Mu, Yongxu, and Wu, Daocheng

Subjects

*STROMAL cells, *UMBILICAL cord, *SERUM-free culture media, *HEART beat, *DIASTOLIC blood pressure, *SYSTOLIC blood pressure, *BLOOD pressure, *IMMUNOGLOBULINS, *T cells

Abstract

Background: Safety evaluations in preclinical studies are needed to confirm before translating a cell-based product into clinical application. We previously developed a serum-free, xeno-free, and chemically defined media (S&XFM–CD) for the derivation of clinical-grade umbilical cord-derived MSCs (UCMSCs), and demonstrated that intraperitoneal administration of UCMSCs in S&XFM–CD (UCMSCS&XFM−CD) exhibited better therapeutic effects than UCMSCs in serum-containing media (SCM, UCMSCSCM). However, a comprehensive investigation of the safety of intraperitoneal UCMSCS&XFM−CD treatment should be performed before clinical applications. Methods: In this study, the toxicity, immunogenicity and biodistribution of intraperitoneally transplanted UCMSCS&XFM−CD were compared with UCMSCSCM in rats via general vital signs, blood routine, blood biochemistry, subsets of T cells, serum cytokines, pathology of vital organs, antibody production and the expression of human-specific gene. The tumorigenicity and tumor-promoting effect of UCMSCS&XFM−CD were compared with UCMSCSCM in nude mice. Results: We confirmed that intraperitoneally transplanted UCMSCS&XFM−CD or UCMSCSCM did not cause significant changes in body weight, temperature, systolic blood pressure, diastolic blood pressure, heart rate, blood routine, T lymphocyte subsets, and serum cytokines, and had no obvious histopathology change on experimental rats. UCMSCS&XFM−CD did not produce antibodies, while UCMSCSCM had very high chance of antibody production to bovine serum albumin (80%) and apolipoprotein B-100 (60%). Furthermore, intraperitoneally injected UCMSCS&XFM−CD were less likely to be blocked by the lungs and migrated more easily to the kidneys and colon tissue than UCMSCSCM. In addition, UCMSCS&XFM−CD or UCMSCSCM showed no obvious tumorigenic activity. Finally, UCMSCS&XFM−CD extended the time of tumor formation of KM12SM cells, and decreased tumor incidence than that of UCMSCSCM. Conclusions: Taken together, our data indicate that UCMSCS&XFM−CD display an improved safety performance and are encouraged to use in future clinical trials. [ABSTRACT FROM AUTHOR]

Published

2023

31. In vivo safety and biodistribution profile of Klotho-enhanced human urine-derived stem cells for clinical application.

Author

Kim, Sang-Heon, Lee, Sung-Hoon, Jin, Jeong-Ah, So, Hyung-Joon, Lee, Jae-Ung, Ji, Min-Jae, Kwon, Eun-Joong, Han, Pyo-Sung, Lee, Hong-Ki, and Kang, Tae-Wook

Subjects

*HUMAN stem cells, *CURRENT good manufacturing practices, *CLINICAL medicine, *STEM cells, *INTRAVENOUS therapy, *DIABETIC nephropathies

Abstract

Background: Urine-derived stem cells (UDSCs) can be easily isolated from urine and possess excellent stem cell characteristics, making them a promising source for cell therapeutics. Due to their kidney origin specificity, UDSCs are considered a superior therapeutic alternative for kidney diseases compared to other stem cells. To enhance the therapeutic potential of UDSCs, we developed a culture method that effectively boosts the expression of Klotho, a kidney-protective therapeutic factor. We also optimized the Good Manufacturing Practice (GMP) system to ensure stable and large-scale production of clinical-grade UDSCs from patient urine. In this study, we evaluated the in vivo safety and distribution of Klotho-enhanced UDSCs after intravenous administration in accordance with Good Laboratory Practice (GLP) regulations. Methods: Mortality and general symptoms were continuously monitored throughout the entire examination period. We evaluated the potential toxicity of UDSCs according to the administration dosage and frequency using clinical pathological and histopathological analyses. We quantitatively assessed the in vivo distribution and retention period of UDSCs in major organs after single and repeated administration using human Alu-based qPCR analysis. We also conducted long-term monitoring for 26 weeks to assess the potential tumorigenicity. Results: Klotho-enhanced UDSCs exhibited excellent homing potential, and recovered Klotho expression in injured renal tissue. Toxicologically harmful effects were not observed in all mice after a single administration of UDSCs. It was also verified that repeated administration of UDSCs did not induce significant toxicological or immunological adverse effects in all mice. Single and repeated administrated UDSCs persisted in the blood and major organs for approximately 3 days and cleared in most organs, except the lungs, within 2 weeks. UDSCs that remained in the lungs were cleared out in approximately 4–5 weeks. There were no significant differences according to the variation of sex and administration frequency. The tumors were found in the intravenous administration group but they were confirmed to be non-human origin. Based on these results, it was clarified that UDSCs have no tumorigenic potential. Conclusions: Our results demonstrate that Klotho-enhanced UDSCs can be manufactured as cell therapeutics through an optimized GMP procedure, and they can be safely administered without causing toxicity and tumorigenicity. [ABSTRACT FROM AUTHOR]

Published

2023

32. LncRNA HOTAIR down-expression inhibits the invasion and tumorigenicity of epithelial ovarian cancer cells by suppressing TGF-β1 and ZEB1.

Author

Zhou, Yufu, Zhang, Yunjie, Shao, Yidan, Yue, Xiaoli, Chu, Yifan, Yang, Cuiping, and Chen, Dengyu

Subjects

OVARIAN epithelial cancer, LINCRNA, CANCER cells, GENE expression, CADHERINS, NON-coding RNA

Abstract

Background: Epithelial ovarian cancer (EOC) is a pathological type with a higher mortality rate among gynecological cancers today. Long-chain noncoding RNAs (lncRNAs) can regulate the transcription and expression of cellular genes. However, the downstream molecules regulated by lncRNA HOTAIR have not been well studied. The effects of downregulated lncRNA HOTAIR on EOC invasiveness and tumorigenicity in nude mice, along with TGF- β1 and ZEB1 in epithelial ovarian cancer cells, need to be investigated in further research. Results: RT-qPCR was used to detect lncRNA HOTAIR and TGF-β1 and ZEB1 mRNA expression in EOC SKOV3 cells. The expression of lncRNA HOTAIR in SKOV3 cells transfected with the recombinant shHOTAIR interference plasmid was significantly lower than that of the negative control. Compared with the negative control, the matrix gel invasion ability of shHOTAIR SKOV3 cells in vitro and their tumorigenicity in nude mice were significantly reduced. Moreover, compared with the control, the expression of ZEB1 protein in shHOTAIR-SKOV3 xenograft tumors was significantly reduced. Downregulation of lncRNA HOTAIR expression significantly reduced TGF-β1 and ZEB1 mRNA expression, but increased the expression of E-cadherin mRNA. In summary, downregulated lncRNA HOTAIR in EOC SKOV3 cells transfected with shHOTAIR can inhibit TGF-β1, reduce ZEB1, increase E-cadherin, and significantly reduce the invasiveness and tumorigenicity of ovarian epithelial cancer SKOV3 cells. Conclusions: These results suggest that the lncRNA HOTAIR may be an effective target for the treatment of human EOC. [ABSTRACT FROM AUTHOR]

Published

2023

33. Ectoine Globally Hypomethylates DNA in Skin Cells and Suppresses Cancer Proliferation.

Author

Qaria, Majjid A., Xu, Chunyan, Hu, Ran, Alsubki, Roua A., Ali, Mohamed Yassin, Sivasamy, Sethupathy, Attia, Kotb A., and Zhu, Daochen

Abstract

Epigenetic modifications, mainly aberrant DNA methylation, have been shown to silence the expression of genes involved in epigenetic diseases, including cancer suppression genes. Almost all conventional cancer therapeutic agents, such as the DNA hypomethylation drug 5-aza-2-deoxycytidine, have insurmountable side effects. To investigate the role of the well-known DNA protectant (ectoine) in skin cell DNA methylation and cancer cell proliferation, comprehensive methylome sequence analysis, 5-methyl cytosine (5mC) analysis, proliferation and tumorigenicity assays, and DNA epigenetic modifications-related gene analysis were performed. The results showed that extended ectoine treatment globally hypomethylated DNA in skin cells, especially in the CpG island (CGIs) element, and 5mC percentage was significantly reduced. Moreover, ectoine mildly inhibited skin cell proliferation and did not induce tumorigenicity in HaCaT cells injected into athymic nude mice. HaCaT cells treated with ectoine for 24 weeks modulated the mRNA expression levels of Dnmt1, Dnmt3a, Dnmt3b, Dnmt3l, Hdac1, Hdac2, Kdm3a, Mettl3, Mettl14, Snrpn, and Mest. Overall, ectoine mildly demethylates DNA in skin cells, modulates the expression of epigenetic modification-related genes, and reduces cell proliferation. This evidence suggests that ectoine is a potential anti-aging agent that prevents DNA hypermethylation and subsequently activates cancer-suppressing genes. [ABSTRACT FROM AUTHOR]

Published

2023

34. Establishment and characterization of a canine chondrosarcoma cell line: Mango

Author

Meilin Wang, Xiao Wang, Lixin He, Hongbo Gao, Wenxuan Li, Huili Feng, Qingyuan Zhao, Wenwen Zhang, Chengzong Li, Bohan Zhang, and Changwei Qiu

Subjects

Canine chondrosarcoma, Cell line, Establishment, Characterization, Tumorigenicity, Veterinary medicine, SF600-1100, Public aspects of medicine, RA1-1270

Abstract

Abstract In the global progress of bone tumor research, established stable and long-lasting transgenic chondrosarcoma (CSA) cell lines are rare, mainly of murine and human origin, while the establishment of canine CSA cell lines has yet to be reported. This study established a canine CSA cell line to facilitate the basic clinical study of canine CSA. Fifty five cases of canine osteolytic disease were collected, and more than 10 bone tumor samples from dogs with typical clinical signs were used for primary cell culture. A cell line with stable passaging for more than 100 generations and mouse tumorigenic ability was successfully cultured. According to the clinical characteristics of the dog and the histopathological results of the primary tumor, CSA was diagnosed, and the CSA cell line was designated Mango. Immunohistochemical (IHC) results showed that the immunoreactivity of bone gamma-carboxyglutamate protein (BGLAP), secreted protein acidic and rich in cysteine (SPARC), alkaline phosphatase (ALPL), vimentin (VIM) and S100 were positive. However, the immunoreactivity of pan-cytokeratin (PCK), chromogranin A (CGA), and platelet endothelial cell adhesion molecule-1 (CD31) was negative. Immunofluorescence (IF) results showed that the protein expressions in the Mango cell line were consistent with the IHC identification of the primary tumor. The Mango cell line’s doubling time was 43.92 h, and the cell formation rate exceeded 20%. There were abnormal chromosome numbers, hetero staining with toluidine blue, and certain calcification abilities. It could be passaged stably and continuously without changing the cell morphology and characteristics. In vivo, the cells were successfully injected into the nude mice model with a tumorigenic rate of 100%. The immunophenotype of the xenograft tumor was consistent with that of the primary tumor. Therefore, we effectively established a canine CSA cell line. As a promising cell material, this cell line can be used to construct a tumor-bearing model conducive to the subsequent basic research of canine CSA. Moreover, because of its similarity to human CSA, the animal model of CSA is also indispensable for investigating human CSA.

Published

2023

35. Placental Mesenchymal Stromal Cells: Preclinical Safety Evaluation for Fetal Myelomeningocele Repair

Author

Jackson, Jordan E, Pivetti, Christopher, Stokes, Sarah C, Theodorou, Christina M, Kumar, Priyadarsini, Paxton, Zachary J, Hyllen, Alicia, Reynaga, Lizette, Wang, Aijun, and Farmer, Diana L

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Congenital Structural Anomalies, Rare Diseases, Pediatric, Clinical Trials and Supportive Activities, Animals, Extracellular Matrix, Female, Fetus, Meningomyelocele, Mesenchymal Stem Cells, Mice, Placenta, Pregnancy, Stromal cells, Tumorigenicity, Safety, Cellular retention, Myelomeningocele, Surgery, Clinical sciences

Abstract

BackgroundMyelomeningocele (MMC) is the congenital failure of neural tube closure in utero, for which the standard of care is prenatal surgical repair. We developed clinical-grade placental mesenchymal stromal cells seeded on a dural extracellular matrix (PMSC-ECM), which have been shown to improve motor outcomes in preclinical ovine models. To evaluate the long-term safety of this product prior to use in a clinical trial, we conducted safety testing in a murine model.MethodsClinical grade PMSCs obtained from donor human placentas were seeded onto a 6 mm diameter ECM at a density of 3 × 105 cells/cm2. Immunodeficient mice were randomized to receive either an ECM only or PMSC-ECM administered into a subcutaneous pocket. Mice were monitored for tumor formation until two study endpoints: 4 wk and 6 mo. Pathology and histology on all tissues was performed to evaluate for tumors. Quantitative polymerase chain reaction (qPCR) was performed to evaluate for the presence of human DNA, which would indicate persistence of PMSCs.ResultsFifty-four mice were included; 13 received ECM only and 14 received PMSC-ECM in both the 4-wk and 6-mo groups. No mice had gross or microscopic evidence of tumor development. A nodular focus of mature fibrous connective tissue was identified at the subcutaneous implantation pocket in the majority of mice with no significant difference between ECM only and PMSC-ECM groups (P = 0.32 at 4 wk, P > 0.99 at 6 mo). Additionally, no human DNA was detected by qPCR in any mice at either time point.ConclusionsSubcutaneous implantation of the PMSC-ECM product did not result in tumor formation and we found no evidence that PMSCs persisted. These results support the safety of the PMSC-ECM product for use in a Phase 1/2a human clinical trial evaluating fetal MMC repair augmented with PMSC-ECM.

Published

2021

36. The impact and outcomes of cancer-macrophage fusion

Author

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

Subjects

Cancer, Cell fusion, Macrophages, Myeloid cells, Stromal cells, Tumorigenicity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Cancer’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. Methods This 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. Results Although 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. Conclusions The 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

37. Identification of a gene set that maintains tumorigenicity of the hepatocellular carcinoma cell line Li-7.

Author

Seyama, Yusuke, Sudo, Kazuhiro, Hirose, Suguru, Hamano, Yukako, Yamada, Takeshi, Hiroyama, Takashi, Sasaki, Ryosuke, Hirai, Masami Yokota, Hyodo, Ichinosuke, Tsuchiya, Kiichiro, and Nakamura, Yukio

Subjects

HEPATOCELLULAR carcinoma, CANCER stem cells, PLURIPOTENT stem cells, CELL lines, HUMAN stem cells, CELL suspensions

Abstract

The identification and development of therapeutic targets in cancer stem cells that lead to tumor development, recurrence, metastasis, and drug resistance is an important goal in cancer research. The hepatocellular carcinoma cell line Li-7 contains functionally different types of cells. Cells with tumor-forming activity are enriched in cancer stem cell-like CD13+CD166− cells and this cell population gradually decreases during culture in conventional culture medium (RPMI1640 containing 10% fetal bovine serum). When Li-7 cells are cultured in mTeSR1, a medium developed for human pluripotent stem cells, CD13+CD166− cells, and their tumorigenicity is maintained. Here, we sought to identify the mechanisms of tumorigenicity in this sub-population. We compared gene expression profiles of CD13+CD166− cells with other cell sub-populations and identified nine overexpressed genes (ENPP2, SCGN, FGFR4, MCOLN3, KCNJ16, SMIM22, SMIM24, SERPINH1, and TMPRSS2) in CD13+CD166− cells. After transfer from mTeSR1 to RPMI1640 containing 10% fetal bovine serum, the expression of these nine genes decreased in Li-7 cells and they lost tumorigenicity. In contrast, when these genes of Li-7 cells were forcibly expressed in cultures using RPMI1640 containing 10% fetal bovine serum, Li-7 cells maintained tumorigenicity. A metabolome analysis using capillary electrophoresis–mass spectrometry showed that two metabolic pathways, "Alanine, aspartate and glutamate metabolism" and "Arginine biosynthesis" were activated in cancer stem-cell-like cells. Our analyses here showed potential therapeutic target genes and metabolites for treatment of cancer stem cells in hepatocellular carcinoma. [ABSTRACT FROM AUTHOR]

Published

2023

38. Establishment and characterization of a canine chondrosarcoma cell line: Mango.

Author

Wang, Meilin, Wang, Xiao, He, Lixin, Gao, Hongbo, Li, Wenxuan, Feng, Huili, Zhao, Qingyuan, Zhang, Wenwen, Li, Chengzong, Zhang, Bohan, and Qiu, Changwei

Subjects

CHONDROSARCOMA, CELL lines, MANGO, CELL morphology, TOLUIDINE blue, ALKALINE phosphatase

Abstract

In the global progress of bone tumor research, established stable and long-lasting transgenic chondrosarcoma (CSA) cell lines are rare, mainly of murine and human origin, while the establishment of canine CSA cell lines has yet to be reported. This study established a canine CSA cell line to facilitate the basic clinical study of canine CSA. Fifty five cases of canine osteolytic disease were collected, and more than 10 bone tumor samples from dogs with typical clinical signs were used for primary cell culture. A cell line with stable passaging for more than 100 generations and mouse tumorigenic ability was successfully cultured. According to the clinical characteristics of the dog and the histopathological results of the primary tumor, CSA was diagnosed, and the CSA cell line was designated Mango. Immunohistochemical (IHC) results showed that the immunoreactivity of bone gamma-carboxyglutamate protein (BGLAP), secreted protein acidic and rich in cysteine (SPARC), alkaline phosphatase (ALPL), vimentin (VIM) and S100 were positive. However, the immunoreactivity of pan-cytokeratin (PCK), chromogranin A (CGA), and platelet endothelial cell adhesion molecule-1 (CD31) was negative. Immunofluorescence (IF) results showed that the protein expressions in the Mango cell line were consistent with the IHC identification of the primary tumor. The Mango cell line's doubling time was 43.92 h, and the cell formation rate exceeded 20%. There were abnormal chromosome numbers, hetero staining with toluidine blue, and certain calcification abilities. It could be passaged stably and continuously without changing the cell morphology and characteristics. In vivo, the cells were successfully injected into the nude mice model with a tumorigenic rate of 100%. The immunophenotype of the xenograft tumor was consistent with that of the primary tumor. Therefore, we effectively established a canine CSA cell line. As a promising cell material, this cell line can be used to construct a tumor-bearing model conducive to the subsequent basic research of canine CSA. Moreover, because of its similarity to human CSA, the animal model of CSA is also indispensable for investigating human CSA. [ABSTRACT FROM AUTHOR]

Published

2023

39. GFP Transfection Alters Protein Expression Patterns in Prostate Cancer Cells: A Proteomic Study

Author

Yanar, Sevinc, Sarihan, Mehmet, Kasap, Murat, Akpinar, Gurler, Teke, Kerem, and Yaprak Bayrak, Busra

Published

2024

40. Assessing Tumorigenicity in Stem Cell-Derived Therapeutic Products: A Critical Step in Safeguarding Regenerative Medicine.

Author

Wang, Zongjie

Subjects

*REGENERATIVE medicine, *STEM cells, *FLOW cytometry, *ANIMAL models in research, *MICROFLUIDICS

Abstract

Stem cells hold promise in regenerative medicine due to their ability to proliferate and differentiate into various cell types. However, their self-renewal and multipotency also raise concerns about their tumorigenicity during and post-therapy. Indeed, multiple studies have reported the presence of stem cell-derived tumors in animal models and clinical administrations. Therefore, the assessment of tumorigenicity is crucial in evaluating the safety of stem cell-derived therapeutic products. Ideally, the assessment needs to be performed rapidly, sensitively, cost-effectively, and scalable. This article reviews various approaches for assessing tumorigenicity, including animal models, soft agar culture, PCR, flow cytometry, and microfluidics. Each method has its advantages and limitations. The selection of the assay depends on the specific needs of the study and the stage of development of the stem cell-derived therapeutic product. Combining multiple assays may provide a more comprehensive evaluation of tumorigenicity. Future developments should focus on the optimization and standardization of microfluidics-based methods, as well as the integration of multiple assays into a single platform for efficient and comprehensive evaluation of tumorigenicity. [ABSTRACT FROM AUTHOR]

Published

2023

41. CONNEXIN 43 GAP JUNCTION AFFECTS SURVIVAL AND DRUG RESISTANCE OF MULTIPLE MYELOMA SIDE POPULATION CELLS.

Author

WANG, Z., FU, J. X., ZHANG, X. H., SUN, Y., and GE, X. P.

Abstract

Drug resistance remains a major challenge for multiple myeloma (MM) treatment, and side population (SP) cells may play a key role in this resistance. The function of connexin 43 (Cx43)-mediated gap junction intercellular communication (GJ-IC) in MM cells is poorly understood. Bone marrow mesenchymal stem cells (BMSCs) from different sources were isolated and cultured. SP cells of MM cell line RPMI 8266 were separated by flow cytometry. Real-time reverse transcriptase-polymerase chain reaction and Western blot were used to detect Cx43 mRNA and protein expression in BMSCs, RPMI 8266 and SP cells from different sources. The effects of BMSCs from different sources on SP cell cycle, in vitro colony formation ability, stem cell-related gene expression and drug resistance, and the addition of 18a glycyrrhetinic acid (18aGA) as a pathway inhibitor were observed. Here, we demonstrate that MM cells expressed Cx43 and contained a high percentage of SP cells. We observed an increase in the survival and proliferative capacity of SP cells compared with RPMI 8226 cells, but treatment with 18aGA decreased SP cell survival and proliferation (all P<0.05). MM cells were sensitive to dexamethasone- and bortezomib-induced apoptosis; however, this sensitivity was significantly decreased when MM cells were co-cultured with BMSCs, and 18aGA partly recovered this cytotoxicity (all P<0.05). Collectively, our data suggest that GJ-IC between BMSCs and MM cells is one of the important regulatory mechanisms underlying MM cells survival, proliferation, and drug sensitivity. [ABSTRACT FROM AUTHOR]

Published

2023

42. circRNA ITGA7 restrains growth and enhances radiosensitivity by up-regulating SMAD4 in colorectal carcinoma

Author

Li Wei, Wei Wancheng, Hu Dingyin, Tang Rutong, and Hu Zikang

Subjects

circ_itga7, mir-766, smad4, tumorigenicity, radioresistance, Medicine

Abstract

Circular RNAs have been reported to be widely involved in cancer cell tumorigenesis and drug resistance; here, the aim of this study was to investigate whether circRNA Integrin Subunit Alpha 7 (ITGA7) (circ_ITGA7) was associated with the tumor growth and radiosensitivity of colorectal cancer (CRC). We found that circ_ITGA7 expression was lower in CRC tissues and cells than those in the normal tissues and cell lines according to quantitative real-time polymerase chain reaction. As shown by cell counting kit-8 assay, flow cytometry, colony formation assay, and xenograft experiment, ectopic overexpression of circ_ITGA7 remarkably restrained CRC tumor growth and enhanced radiosensitivity in vitro and in vivo. Mechanistically, circ_ITGA7 could target microRNA (miR)-766 to prevent the degradation of its target gene mothers against decapentaplegic homolog 4 (SMAD4), the binding between miR-766 and circ_ITGA7 or SMAD4 was first verified by dual-luciferase activity assay. Additionally, miR-766 up-regulation reversed the inhibitory effects of circ_ITGA7 on CRC growth and radiosensitivity. Besides that, inhibition of miR-766 reduced CRC cell growth and sensitized cells to radiotherapy, and these effects mediated by miR-766 inhibitor were rescued by the silencing of SMAD4. In all, circ_ITGA7 suppressed CRC growth and enhanced radiosensitivity by up-regulating SMAD4 through sequestering miR-766, providing an insight for the further development of CRC treatment.

Published

2023

43. Chicken telomerase reverse transcriptase promotes the tumorigenicity of avian leukosis virus subgroup J by regulating the Wnt/β-catenin signaling pathway

Author

Yong Xiang, Canxin Liang, Qingbo Li, Qinxi Chen, Yang Zhou, Xiaoxue Zheng, Di Zhou, Zepeng Wang, Guyao Wang, and Weisheng Cao

Subjects

Avian leukosis virus subgroup J, chicken telomerase reverse transcriptase, Wnt/β-catenin signaling pathway, tumorigenicity, in vivo, Veterinary medicine, SF600-1100

Abstract

Abstract This research aimed to analyze the regulatory effect of chicken telomerase reverse transcriptase (chTERT) on the Wnt/β-catenin signaling pathway and its effect on the tumorigenicity of avian leukosis virus subgroup J (ALV-J) through in vivo experiments. The chTERT eukaryotic expression plasmid and its recombinant lentivirus particles were constructed for in vivo transfection of chTERT to analyze the effect of chTERT continuously overexpressed in chickens on the tumorigenicity of ALV-J. During 156 days of the artificial ALV-J tumor-inducing process, 7 solid tumors developed in 3 chickens in the chTERT-overexpression group (n = 26*2) and no tumors developed in the control group (n = 26*2). Another 18 tumors induced by ALV-J were confirmed and collected from breeding poultry farms. And we confirmed that chTERT was significantly highly expressed in ALV-J tumors. The ELISA data suggested that the protein levels of β-catenin and c-Myc in the chicken plasma of the chTERT-overexpressing group with ALV-J infected were consistently and significantly higher than those of the control group. Compared with that of the tumor-adjacent tissues, the activity of the Wnt/β-catenin signaling pathway and expression of the c-Myc was significantly increased in ALV-J tumors. And the percentage of apoptosis in ALV-J tumors significantly lower than that in tumor-adjacent tissues. Immunohistochemistry, Western blot and RT-qPCR suggested that the replication level of ALV-J in tumors was significantly higher than that in tumor-adjacent tissues. This study suggests that chTERT plays a critical role in the tumorigenicity of ALV-J by enhancing the Wnt/β-catenin signaling pathway, which will contribute to further elucidating the tumor-inducing mechanism of ALV-J.

Published

2022

44. Evaluation of the reproducibility and positive controls of cellular immortality test for the detection of immortalized cellular impurities in human cell-processed therapeutic products

Author

Takamasa Hirai, Ken Kono, Shinji Kusakawa, Satoshi Yasuda, Rumi Sawada, Akihiko Morishita, Shinko Hata, Atsushi Wakita, Takayasu Kageyama, Ryo Takahashi, Sono Watanabe, Norihiko Shiraishi, and Yoji Sato

Subjects

Cellular immortality test, Cell growth analysis, Cellular therapy, Tumorigenicity, Quality and safety, Medicine (General), R5-920, Cytology, QH573-671

Abstract

Introduction: Contamination of human cell-processed therapeutic products (hCTPs) with tumorigenic/immortalized cellular impurities is a major concern in the manufacturing and quality control of hCTPs. The cellular immortality test based on cell growth analysis is a method for detecting tumorigenic/immortalized cellular impurities in hCTPs. However, the performance of the cellular immortality test has not yet been well characterized. In this study, we examined the reproducibility of the cellular immortality test in detecting HeLa cells as a model of tumorigenic cellular impurities, as well as the applicability of other models of cellular impurities with different tumorigenicity to the cellular immortality test. Methods: Using HeLa cells as a model for cellular impurities, we measured the growth rate of human mesenchymal stem cells (hMSCs) supplemented with HeLa cells at concentrations ranging from 0.01 to 0.0001% at each passage in three laboratories and evaluated the reproducibility of the detection of immortalized cellular impurities. In addition, HEK293 cells (another immortalized cell line) and MRC-5 cells (a non-immortalized cell line) were employed as cellular impurity models that exhibit different growth characteristics from HeLa cells, and the ability of the cellular immortality test to detect these different impurities when mixed with hMSCs was examined. Results: In the multisite study, the growth rate of hMSCs supplemented with 1 and 10 HeLa cells (0.0001% and 0.001%) significantly increased and reached a plateau in all three laboratories, whereas those of hMSCs alone eventually decreased. Moreover, when hMSCs were supplemented with 10 and 100 HEK293 and MRC-5 cells (0.001% and 0.01%), the growth rate significantly increased. The growth rate of hMSCs supplemented with HEK293 cells increased with passage and remained high, whereas that of hMSCs supplemented with MRC-5 cells eventually decreased, as in the case of hMSCs alone. Conclusions: These results indicate that the cellular immortality test is reproducible and can detect immortalized (i.e., potentially tumorigenic) cells such as HEK293 cells with a lower growth rate than HeLa cells by discriminating against normal cells, which could contribute to ensuring the safety and quality of hCTPs.

Published

2022

45. Compartmentalisation of Hepatitis B virus X gene evolution in hepatocellular carcinoma microenvironment and the genotype-phenotype correlation of tumorigenicity in HBV-related patients with hepatocellular carcinoma

Author

Ya Fu, Fengling Fang, Hongyan Guo, Xialin Xiao, Yuhai Hu, Yongbin Zeng, Tianbin Chen, Songhang Wu, Ni Lin, Jinlan Huang, Ling Jiang, Qishui Ou, and Can Liu

Subjects

Hepatitis B virus, hepatocellular carcinoma, quasispecies, mutation, tumorigenicity, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Hepatitis B virus (HBV) exists as quasispecies (QS). However, the evolutionary characteristics of haplotypes of HBV X gene in the hepatocellular carcinoma (HCC) microenvironment remain unclear. Mutations across X gene are essential for the tumorigenicity of HBV X protein (HBx). However, the functional phenotypes of many mutant HBx remain unknown. This study aims to compare the characteristics of X gene evolution between tumour and non-tumour tissues in HCC patients and investigate the tumorigenic phenotype of HBx harbouring mutation T81P/S101P/L123S. This study included 24 HCC patients. Molecular cloning of X gene was performed to analyse characteristics of haplotypes in liver tissues. HCC cell lines stably expressing wild-type or mutant HBx and subcutaneous tumour xenograft mouse model were used to assess HBx-T81P/S101P/L123S tumorigenicity. The mean heterogeneity of HBV QS across X gene in tumour tissues was lower than that in non-tumour tissues. A location bias was observed in X gene clones with genotype C or D in tumour tissues compared to those with genotype B. Mutations in genotype-C or – D clones were mainly clustered in the dimerization region and aa110-aa140 within the transactivation region. A novel mutation combination at residues 81, 101 and 123 was identified in tumour tissues. Further, HBx-T81P/S101P/L123S promotes cell proliferation and increases genomic instability, which was mediated by MYC. This study elucidates the compartmentalized evolution patterns of HBV X gene between intra tumour and non-tumour tissues in HCC patients and provides a new mechanism underlying HBV-driven hepatocarcinogenesis, suggesting a potential viral marker for monitoring HCC.

Published

2022

46. Induced Pluripotent Stem Cells : Progress toward Clinical Translation from Bench to Bedside

Author

Fakoya, Adegbenro Omotuyi John, Omole, Adekunle Ebenezer, Satyadev, Nihal, Haider, Khawaja Husnain, Riazuddin, SA, Section editor, and Haider, Khawaja Husnain, editor

Published

2022

47. The Era of Regenerative Surgery

Author

Burke, Ryan S., Nahai, Foad, and Kalaaji, Amin, editor

Published

2022

48. An anti-cancer surveillance by the interplay between interferon-beta and retinoblastoma protein RB1.

Author

Qin, Albert

Subjects

RETINOBLASTOMA protein, TUMOR suppressor proteins, GENETIC regulation, CELL cycle, CELL differentiation, AGROBACTERIUM tumefaciens

Abstract

Interferon-beta (IFN-β), an extracellular cytokine that initiates signaling pathways for gene regulation, has been demonstrated to function as a tumor suppressor protein through lentiviral gene transduction. In this article, I review the relevant previous works and propose a cell cycle-based, tumor suppressor proteinmediated mechanism of anti-cancer surveillance. IFN-β induces a tumor cell cycle alteration that leads to S phase accumulation, senescence entry, and a loss of tumorigenicity in solid tumor cells. IFN-β does not show a significant cell cycle effect in their normal counterparts. Retinoblastoma protein RB1, another tumor suppressor protein, tightly controls the cell cycle and differentiation of normal cells, preventing them from being significantly impacted by the IFN-β effect. The interplay between IFN-β and RB1 acts as a mechanism of cell cycle-based, tumor suppressor protein-mediated anti-cancer surveillance that can selectively suppress solid tumor or proliferating transformed cells from the loss of control leading to cancer. This mechanism has important implications for the treatment of solid tumors. [ABSTRACT FROM AUTHOR]

Published

2023

49. An Overview of Gene Editing Modalities and Related Non-clinical Testing Considerations.

Author

Vats, Srishti, Ballesteros, Cristina, Hung, Selly, Sparapani, Samantha, Wong, Karen, Haruna, Julius, Li, Christian, and Authier, Simon

Subjects

*GENOME editing, *GENETIC vectors, *GENE therapy, *TOXICITY testing, *MOLECULAR biology, *MOLECULAR pathology

Abstract

Gene therapy has become an important modality for a wide range of therapeutic indications with a rapid increase in the number of therapeutic candidates being developed in this field. Understanding the molecular biology underlying the gene therapy is often critical to develop appropriate safety assessment strategies. We aimed to discuss some of the commonly used gene therapy modalities and common preclinical toxicology testing considerations when developing gene therapies. Non-viral gene delivery methods such as electroporation, microinjection, peptide nanoparticles and lipid nanoparticles are deployed as innovative molecular molecular construct which are included in the design of novel gene therapies and the associated molecular biology mechanisms have become relevant knowledge to non-clinical toxicology. Viral gene delivery methodologies including Adenovirus vectors, Adeno-Associated virus vectors and Lentivirus gene therapy vectors have also advanced considerably across numerous therapeutic areas, raising unique non-clinical toxicology and immunological considerations. General toxicology, biodistribution and tumorigenicity are the pillars of non-clinical safety testing in gene therapies. Evaluating the tumorigenicity potential of a gene editing therapy often leverages molecular pathology while some translational challenges remain. Toxicology study design is entering a new era where science-driven customized approaches and program specific considerations have become the norm. [ABSTRACT FROM AUTHOR]

Published

2023

50. Model Characterization: Total Body Irradiation or Busulfan for Conditioning in Human Cell Therapy Toxicology and Tumorigenicity Studies using NOD/SCID/IL2Rγnull (NSG) Mice.

Author

Ballesteros, Cristina, Wong, Karen, Abrahim, Maia Araujo, Li, Christian, and Authier, Simon

Subjects

*TOTAL body irradiation, *CELLULAR therapy, *BUSULFAN, *LEUCOCYTES, *TOXICOLOGY, *CONDITIONED response, *NEUTROPHILS

Abstract

The NOD/SCID/IL2Rγnull (NSG) mouse is a relevant model for toxicology and tumorigenicity studies evaluating human cell therapies. Data was compiled from toxicology study control NSG mice exposed to gamma irradiation (0 or 200 cGy) or busulfan. Retrospective data evaluation included mortality, clinical observations, body weights, hematology, and external and internal macroscopic observations. There was no mortality in any of the 129 toxicology control (irradiated and non-irradiated) mice up to the 20-week observation period. Mortalities occurred between Days 1 and 25 among animals given busulfan ≥25 mg/kg/day at 1 or 2 doses via intraperitoneal (i.p.) injection. There were 4/10, 6/10 and 4/10 deaths at 25, 30 and 35 mg/kg/day busulfan, respectively. Busulfan-treated mice presented with dose-dependent clinical signs including signs of anemia in some individuals. Hematology, including white blood cell (WBC) and neutrophil (NEUT) counts, from irradiated mice at Weeks 12 and 20 revealed comparable values to non-irradiated animals. In contrast, irradiated mice treated with a positive control (HL-60) were euthanized prior to Week 12. There were no irradiation-related differences in macroscopic observations with lymphoid atrophy identified comparably in irradiated and non-irradiated groups. These results suggest that irradiation was suitable for conditioning to enable cell engraftment in NSG mice in the context of regulatory toxicology and tumorigenicity studies. Busulfan administered at 20 mg/kg/day for 2 days, i.p. was also well-tolerated, and it could be considered for toxicology studies of genetically modified human cells. [ABSTRACT FROM AUTHOR]

Published

2023