Your search keyword '"CANCER cell culture"' showing total 6,687 results

151. Antimalarial potency and cytotoxicity studies of secondary metabolites from fractions 38K, 38T, and 56 Streptomyces hygroscopicus subsp. hygroscopicus in vitro.

Author

Fitri, Loeki Enggar, Sulistomo, Hikmawan Wahyu, Khotimah, Husnul, Winarsih, Sri, Istiapalja, Fadilah, Afifah, Mutiara Nor, and 'Azizah, Mahya Nailul

Subjects

*CANCER cell culture, *CYTOTOXINS, *METABOLITES, *PROBIT analysis, *PLASMODIUM berghei

Abstract

Recent research has revealed that Plasmodium falciparum (P. falciparum) possesses an Artemisinin-based Combination Therapy (ACT) resistance mechanism. To address this issue, new antimalarial chemicals are required. In vitro, in vivo, and in silico tests have been conducted on metabolite extracts of Streptomyces hygroscopicus subsp. hygroscopicus (S. hygroscopicus) and showed antimalarial effects through various mechanisms. The aim of this research was to determine the effectiveness and cytotoxicity of active fractions 38K, 38T, and 56 of S. hygroscopicus secondary metabolites as antimalarial. Fractionation procedure was performed using flash column chromatography BUCHI Reveleris® PREP Purification System. Effectiveness test was conducted on Plasmodium berghei (P. berghei) culture by parasite inhibition counts. The cytotoxicity effect of S. hygroscopicus was observed utilizing the 3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide Assay (MTT Assay) on Michigan Cancer Foundation-7 (MCF-7) breast cancer cell culture. Inhibition Concentration 50% (IC50) and Cytotoxicity Concentration 50% (CC50) was obtained from probit analysis. S. hygroscopicus fractions 38K, 38T, and 56 showed antimalarial activity against P. berghei, with fraction 38T having the strongest activity as antimalarial from selectivity index. Fraction 38T had the IC50 with the value of 11.66 µg/mL which included in the promising activity classification of IC50. Almost all asexual stages of parasite morphology were damaged by the fractions. MCF-7, a cell line used to study antimalarial cytotoxicity, was unaffected by any of the three fractions due to its CC50 exceeding 50 μg/mL. S. hygroscopicus fractions 38K, 38T, and 56 of the metabolite extracts contain non-toxic compounds that can damage the morphology of intra-erythrocytic stage and inhibit the growth of P. berghei in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

152. Combination of anti-miR19a-3p polyplex plus doxorubicin for breast cancer in 2D culture and apoptosis assay in 3D spheroids in a microwell device.

Author

Kheiri Yeghaneh Azar, Behjat, Nourbakhsh, Mitra, Nasiraee, M R, Mousavizadeh, Kazem, Majd, Zahra, Ajoudanian, Mohammad, Saeedi, Sara, Vahabi, Amirhossein, Hamblin, Michael R, and Karimi, Mahdi

Subjects

*BREAST cancer, *PTEN protein, *DOXORUBICIN, *BREAST, *CELL migration, *CELL populations, *CANCER cell culture

Abstract

One of the most common cancers and a main cause of death worldwide among women is breast cancer (BC). Combination therapy is being widely investigated to reduce the dose of chemotherapy drugs, prevent the development of drug resistance, and improve treatment outcomes. Here we tested PEI-PBA-SAP-F15 (PPSF) polymeric nanoparticles to efficiently deliver a microRNA antagonist (anti-miR19a-3p) to BC cell lines. We evaluated the combination of anti-miR19a-3p plus doxorubicin (DOX) in both 2D and 3D cell cultures. We cultured 3D tumor spheroids in an innovative microfluidic device that was fabricated using a 3D printing system. The PPSF polyplexes had the correct size and zeta potential to efficiently transfer anti-miR19a-3p into MCF7 cells. The expression level of phosphatase and tensin homolog (PTEN), the attainment gene of microRNA-19a-3p was increased. PTEN up-regulation inhibited cell migration and caused cell cycle arrest. Apoptosis was also significantly induced with the combination treatment. Confocal microscopy studies revealed that the population of dead cells was in an important degree higher in MCF7 spheroids transfected with anti-miR19a-3p-PPSF plus DOX. [ABSTRACT FROM AUTHOR]

Published

2024

153. Effects of Mebendazole on the Caspase-mediated Apoptosis mechanism in Cancer cell culture.

Author

Şahin, Mahmut and Kara, Haki

Subjects

MEBENDAZOLE, CANCER cell culture, CELL death

Abstract

Copyright of Revista Cientifica de la Facultade de Veterinaria is the property of Universidad del Zulia, Facultad de Ciencias Veterinarias and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

154. iCVD Polymer Thin Film Bio‐Interface‐Performance for Fibroblasts, Cancer‐Cells, and Viruses Connected to Their Functional Groups and In Silico Studies.

Author

Hartig, Torge, Mohamed, Asmaa T., Fattah, Nasra F. Abdel, Gülses, Aydin, Tjardts, Tim, Kangah, Esther Afiba, Chan, Kwing Pak Gabriel, Veziroglu, Salih, Acil, Yahya, Aktas, Oral Cenk, Wiltfang, Jörg, Loutfy, Samah A, Strunskus, Thomas, Faupel, Franz, Amin, Amal, and Schröder, Stefan

Subjects

POLYMER films, THIN films, FUNCTIONAL groups, BIOLOGICAL interfaces, CHEMICAL vapor deposition, BIOELECTRONICS, CANCER cell culture

Abstract

Thin polymer coatings are used to improve the interface between biological species and functional materials. Their interaction is significantly influenced by the functional groups and roughness of the polymer film and prediction of the interaction is thus of great interest. However, for conventional polymer films, this cannot be examined independently because of the interplay of defects, residual solvent molecules, roughness, and functional groups. Solvent‐free polymer films prepared by initiated chemical vapor deposition (iCVD) exhibit conformal, defect‐free characteristics and enable precise tailoring of the functional groups. This facilitates to isolate the contribution of functional groups on the bio‐interface performance. Consequently, in silico studies can enable a prediction of ligand interaction in anti‐viral activity for SARS‐CoV‐2 based on defined polymer and key protein structures. Furthermore, the cell viability of human fibroblasts can be traced back to the functional groups of the repeating units. For human liver cancer cell culture, it turns out that more sophisticated models are needed. The insilico‐iCVD approach can enable precise tailoring of complex polymer films optimized for the respective interfaces. In addition, this first big scan of the bio‐interface performance of iCVD films enables a solid starting point in areas like anticancer, antiviral, and biocompatibility for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

155. Comparative Anticancer Potential of Green Tea Extract and Epigallocatechin-3-gallate on Breast Cancer Spheroids.

Author

Santos, Ronimara A., Pessoa, Heloisa Rodrigues, Daleprane, Julio Beltrame, de Faria Lopes, Giselle Pinto, and da Costa, Danielly C. Ferraz

Subjects

GREEN tea, TEA extracts, EPIGALLOCATECHIN gallate, CELL culture, CANCER cell culture, BREAST cancer, CANCER chemoprevention

Abstract

Despite advances in diagnosis and therapy, breast cancer remains the leading cause of death in many countries. Green tea (GT) has been proposed to play a crucial role in cancer chemoprevention. Although extensive research has been conducted on GT phytochemicals, most experimental studies concentrate mainly on commercial formulations or isolated catechins. This study presents a comparative investigation into the anticancer properties of green tea extract (GTE) and epigallocatechin-3-gallate (EGCG) in a three-dimensional (3D) MCF-7 breast cancer cell culture. MCF-7 spheroids were exposed to GTE or EGCG, and effects on 3D culture formation, growth, cell viability, and migration were examined. GTE inhibits cell migration and the formation of breast cancer spheroids more effectively than EGCG, while inducing more pronounced morphological changes in the spheroids' structure. These findings suggest that the food matrix improves GTE effects on breast cancer spheroids, supporting the hypothesis that a mixture of phytochemicals might enhance its anticancer potential. [ABSTRACT FROM AUTHOR]

Published

2024

156. Investigation of the cytotoxic effect of Lallemantia Fisch. & C.A. Mey. species growing in Türkiye on various cancer cell lines.

Author

ÇELİK, Ali Kaya, YILMAZ SANCAR, Pelin, İÇEN TAŞKIN, Irmak, and KÜRŞAT, Murat

Subjects

CANCER cells, CELLULAR pathology, TUMOR budding, CANCER cell culture, LIVER diseases

Abstract

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

Published

2024

157. Asymmetric and symmetric protein arginine methylation in methionine-addicted human cancer cells.

Author

Holtz, Ashley G., Lowe, Troy L., Aoki, Yusuke, Kubota, Yutaro, Hoffman, Robert M., and Clarke, Steven G.

Subjects

*PROTEIN arginine methyltransferases, *CANCER cells, *ARGININE, *ASYMMETRIC dimethylarginine, *CANCER cell proliferation, *CANCER cell culture

Abstract

The methionine addiction of cancer cells is known as the Hoffman effect. While non-cancer cells in culture can utilize homocysteine in place of methionine for cellular growth, most cancer cells require exogenous methionine for proliferation. It has been suggested that a biochemical basis of this effect is the increased utilization of methionine for S-adenosylmethionine, the major methyl donor for a variety of cellular methyltransferases. Recent studies have pointed to the role of S-adenosylmethionine-dependent protein arginine methyltransferases (PRMTs) in cell proliferation and cancer. To further understand the biochemical basis of the methionine addiction of cancer cells, we compared protein arginine methylation in two previously described isogenic cell lines, a methionine-addicted 143B human osteosarcoma cell line and its less methionine-dependent revertant. Previous work showed that the revertant cells were significantly less malignant than the parental cells. In the present study, we utilized antibodies to detect the asymmetric dimethylarginine (ADMA) and symmetric dimethylarginine (SDMA) products of PRMTs in polypeptides from cellular extracts and purified histone preparations of these cell lines fractionated by SDS-PAGE. Importantly, we observed little to no differences in the banding patterns of ADMA- and SDMA-containing species between the osteosarcoma parental and revertant cell lines. Furthermore, enzymatic activity assays using S-adenosyl-ʟ-[methyl-3H] methionine, recombinantly purified PRMT enzymes, cell lysates, and specific PRMT inhibitors revealed no major differences in radiolabeled polypeptides on SDS-PAGE gels. Taken together, these results suggest that changes in protein arginine methylation may not be major contributors to the Hoffman effect and that other consequences of methionine addiction may be more important in the metastasis and malignancy of osteosarcoma and potentially other cancers. [ABSTRACT FROM AUTHOR]

Published

2023

158. Pair bonding and disruption impact lung transcriptome in monogamous Peromyscus californicus.

Author

Naderi, A., Liles, K., Burns, T., Chavez, B., Huynh-Dam, K-T., and Kiaris, H.

Subjects

*GENE expression, *CANCER cell culture, *LUNGS, *TRANSCRIPTOMES, *BIOLOGICAL evolution, *HEART development

Abstract

Social interactions affect physiological and pathological processes, yet their direct impact in peripheral tissues remains elusive. Recently we showed that disruption of pair bonds in monogamous Peromyscus californicus promotes lung tumorigenesis, pointing to a direct effect of bonding status in the periphery (Naderi et al., 2021). Here we show that lung transcriptomes of tumor-free Peromyscus are altered in a manner that depends on pair bonding and superseding the impact of genetic relevance between siblings. Pathways affected involve response to hypoxia and heart development. These effects are consistent with the profile of the serum proteome of bonded and bond-disrupted Peromyscus and were extended to lung cancer cells cultured in vitro, with sera from animals that differ in bonding experiences. In this setting, the species' origin of serum (deer mouse vs FBS) is the most potent discriminator of RNA expression profiles, followed by bonding status. By analyzing the transcriptomes of lung cancer cells exposed to deer mouse sera, an expression signature was developed that discriminates cells according to the history of social interactions and possesses prognostic significance when applied to primary human lung cancers. The results suggest that present and past social experiences modulate the expression profile of peripheral tissues such as the lungs, in a manner that impacts physiological processes and may affect disease outcomes. Furthermore, they show that besides the direct effects of the hormones that regulate bonding behavior, physiological changes influencing oxygen metabolism may contribute to the adverse effects of bond disruption. [ABSTRACT FROM AUTHOR]

Published

2023

159. Augmented Concentration of Isopentyl-Deoxynyboquinone in Tumors Selectively Kills NAD(P)H Quinone Oxidoreductase 1-Positive Cancer Cells through Programmed Necrotic and Apoptotic Mechanisms.

Author

Wang, Jiangwei, Su, Xiaolin, Jiang, Lingxiang, Boudreau, Matthew W., Chatkewitz, Lindsay E., Kilgore, Jessica A., Zahid, Kashif Rafiq, Williams, Noelle S., Chen, Yaomin, Liu, Shaohui, Hergenrother, Paul J., and Huang, Xiumei

Subjects

*QUINONE, *CANCER cell culture, *TISSUE arrays, *DNA, *ANIMAL experimentation, *WESTERN immunoblotting, *APOPTOSIS, *CHEMICAL reagents, *RESEARCH funding, *OXIDOREDUCTASES, *REACTIVE oxygen species, *CELL lines, *NECROSIS, *MICE

Abstract

Simple Summary: Although chemotherapy remains a fundamental treatment for a wide variety of human tumors, the emergence of resistance to chemotherapy presents a major hurdle in tumor therapy. Therefore, the identification of novel chemotherapeutic agents is essential to overcome this limitation and develop more effective tumor therapies. In this study, we illustrate that a novel NQO1 bioactivatable drug, IP-DNQ, effectively eradicates NQO1-positive cancer cells by inducing both apoptosis and programmed necrosis, displaying remarkable antitumor potential compared with previously tested NQO1 bioactivatable drugs. Mechanistically, IP-DNQ exterminates NQO1-positive cancer cells by generating excessive reactive oxygen species (ROS), thereby inducing DNA damage, PARP1 hyperactivation, and catastrophic energy loss. Overall, this study showcases the incredible antitumor efficacy of IP-DNQ against NQO1-positive cancer cells. Lung and breast cancers rank as two of the most common and lethal tumors, accounting for a substantial number of cancer-related deaths worldwide. While the past two decades have witnessed promising progress in tumor therapy, developing targeted tumor therapies continues to pose a significant challenge. NAD(P)H quinone oxidoreductase 1 (NQO1), a two-electron reductase, has been reported as a promising therapeutic target across various solid tumors. β-Lapachone (β-Lap) and deoxynyboquinone (DNQ) are two NQO1 bioactivatable drugs that have demonstrated potent antitumor effects. However, their curative efficacy has been constrained by adverse effects and moderate lethality. To enhance the curative potential of NQO1 bioactivatable drugs, we developed a novel DNQ derivative termed isopentyl-deoxynyboquinone (IP-DNQ). Our study revealed that IP-DNQ treatment significantly increased reactive oxygen species generation, leading to double-strand break (DSB) formation, PARP1 hyperactivation, and catastrophic energy loss. Notably, we discovered that this novel drug induced both apoptosis and programmed necrosis events, which makes it entirely distinct from other NQO1 bioactivatable drugs. Furthermore, IP-DNQ monotherapy demonstrated significant antitumor efficacy and extended mice survival in A549 orthotopic xenograft models. Lastly, we identified that in mice IP-DNQ levels were significantly elevated in the plasma and tumor compared with IB-DNQ levels. This study provides novel preclinical evidence supporting IP-DNQ efficacy in NQO1+ NSCLC and breast cancer cells. [ABSTRACT FROM AUTHOR]

Published

2023

160. Immune Cells in the Tumor Microenvironment of Soft Tissue Sarcomas.

Author

Jumaniyazova, Enar, Lokhonina, Anastasiya, Dzhalilova, Dzhuliia, Kosyreva, Anna, and Fatkhudinov, Timur

Subjects

*DISEASE progression, *CANCER cell culture, *ANTINEOPLASTIC agents, *MACROPHAGES, *SOFT tissue tumors, *LYMPHOCYTES, *TREATMENT effectiveness, *TUMOR markers, *SARCOMA, *IMMUNOTHERAPY, *DRUG resistance in cancer cells

Abstract

Simple Summary: Soft tissue sarcomas represent a large heterogeneous group of malignant neoplasms that are characterized by a poor disease outcome and being poorly studied. Recently, more and more studies have been directed to the role of tumor microenvironment components in establishing the aggressive potential of the tumor. Many antitumor drugs, in addition to their direct effect on tumor cells, modify the tumor microenvironment; in particular, they act on the immune component, which may be the reason for their effectiveness in soft tissue sarcoma. Immune cells themselves are now considered as promising antitumor strategies for the treatment of soft tissue sarcomas. Understanding the mechanisms of interaction between tumor cells and immune cells in different types of soft tissue sarcomas will allow us to divide patients into those for whom immunotherapy will be highly effective and those for whom this type of treatment will be ineffective. Soft tissue sarcomas (STSs) are a rare heterogeneous group of malignant neoplasms characterized by their aggressive course and poor response to treatment. This determines the relevance of research aimed at studying the pathogenesis of STSs. By now, it is known that STSs is characterized by complex relationships between the tumor cells and immune cells of the microenvironment. Dynamic interactions between tumor cells and components of the microenvironment enhance adaptation to changing environmental conditions, which provides the high aggressive potential of STSs and resistance to antitumor therapy. Today, active research is being conducted to find effective antitumor drugs and to evaluate the possibility of using therapy with immune cells of STS. The difficulty in assessing the efficacy of new antitumor options is primarily due to the high heterogeneity of this group of malignant neoplasms. Studying the role of immune cells in the microenvironment in the progression STSs and resistance to antitumor therapies will provide the discovery of new biomarkers of the disease and the prediction of response to immunotherapy. In addition, it will help to initially divide patients into subgroups of good and poor response to immunotherapy, thus avoiding wasting precious time in selecting the appropriate antitumor agent. [ABSTRACT FROM AUTHOR]

Published

2023

161. Flavonoids Regulate Redox-Responsive Transcription Factors in Glioblastoma and Microglia.

Author

Joma, Natali, Zhang, Issan, Righetto, Germanna L., McKay, Laura, Gran, Evan Rizzel, Kakkar, Ashok, and Maysinger, Dusica

Subjects

*TRANSCRIPTION factors, *QUERCETIN, *GLIOBLASTOMA multiforme, *REACTIVE oxygen species, *FLAVONOIDS, *MICROGLIA, *CANCER cell culture, *CELL culture

Abstract

The tumor microenvironment (TME) has emerged as a valuable therapeutic target in glioblastoma (GBM), as it promotes tumorigenesis via an increased production of reactive oxygen species (ROS). Immune cells such as microglia accumulate near the tumor and its hypoxic core, fostering tumor proliferation and angiogenesis. In this study, we explored the therapeutic potential of natural polyphenols with antioxidant and anti-inflammatory properties. Notably, flavonoids, including fisetin and quercetin, can protect non-cancerous cells while eliminating transformed cells (2D cultures and 3D tumoroids). We tested the hypothesis that fisetin and quercetin are modulators of redox-responsive transcription factors, for which subcellular location plays a critical role. To investigate the sites of interaction between natural compounds and stress-responsive transcription factors, we combined molecular docking with experimental methods employing proximity ligation assays. Our findings reveal that fisetin decreased cytosolic acetylated high mobility group box 1 (acHMGB1) and increased transcription factor EB (TFEB) abundance in microglia but not in GBM. Moreover, our results suggest that the most powerful modulator of the Nrf2-KEAP1 complex is fisetin. This finding is in line with molecular modeling and calculated binding properties between fisetin and Nrf2-KEAP1, which indicated more sites of interactions and stronger binding affinities than quercetin. [ABSTRACT FROM AUTHOR]

Published

2023

162. Assessing the Efficacy of Anti-Cancer Drugs on Organoid Models Derived from Prostate Cancer.

Author

Silkina, M. O., Razumovskaya, A. V., Nikulin, S. V., Tonevitsky, A. G., and Alekseev, B. Ya.

Subjects

*ANTINEOPLASTIC agents, *DRUG efficacy, *PROSTATE cancer, *ABIRATERONE acetate, *DRUG use testing, *DOCETAXEL, *CANCER cell culture

Abstract

It was proven that tumor organoids effectively mirror the phenotypic and genetic traits of the original biomaterial. It was reported that outcomes from drug testing in organoid cultures can accurately represent the clinical response observed in patients. In this study, an organoid culture was derived from biopsy material of prostate cancer (PC). Subsequently, clinical practice drugs, docetaxel and enzalutamide, were tested on this organoid culture. Various techniques for evaluating the efficacy of drugs in vitro were compared. The half-maximal inhibitory concentration of docetaxel was found to be markedly lower compared to that of enzalutamide. However, when tested at clinically relevant concentrations and incubation times, enzalutamide was more effective than docetaxel. Therefore, it is crucial to optimize the testing conditions for drugs on in vitro cultures for their subsequent application in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2023

163. Tamoxifen induces ferroptosis in MCF-7 organoid.

Author

Lei Ye, Fei Zhong, Shishen Sun, Xiaowei Ou, Jie Yuan, Jintao Zhu, and Zhiqiang Zeng

Subjects

*CANCER cell culture, *TAMOXIFEN, *IRON ions, *CELL culture, *BREAST cancer

Abstract

Background: Breast cancer is the most common female malignant tumor type globally. The occurrence and development of breast cancer involve ferroptosis, which is closely related to its treatment. The development of breast cancer organoids facilitates the analysis of breast cancer molecular background and tumor biological behavior, including clinical pathological characteristics, drug response, or drug resistance relationship, and promotes the advancement of precision treatment for breast cancer. The three-dimensional (3D) cell culture of breast cancer MCF-7 organoid is more similar to the in vivo environment and thus obtains more realistic results than 2D cell culture. Our study examined the new mechanism of tamoxifen in treating breast cancer through breast cancer MCF-7 organoids. Methods: We used 3D cells to culture breast cancer MCF-7 organoid, as well as tamoxifen-treated MCF-7 and tamoxifen-resistant MCF-7 (MCF-7 TAMR) cells. We used transcriptome sequencing. We detected GPX4 and SLC7A11 protein levels using Western blotting and the content of ATP, glutathione, and ferrous ions using the Cell Counting Lite 3D Kit. We assessed cell viability using the Cell Counting Kit-8 (CCK-8) assay. Results: Tamoxifen significantly inhibited the growth of MCF-7 organoids and significantly induced ferroptosis in MCF-7 organoids. The ferroptosis inhibitor reversed the significant tamoxifen-induced MCF-7 organoid inhibition activity. Moreover, the ferroptosis activator enhanced the tamoxifen-induced MCF-7 TAMR cell activity inhibition. Conclusion: Our study revealed that ferroptosis plays an important role in tamoxifen-induced MCF-7 organoid cell death and provides a new research idea for precise treatment of breast cancer through an organoid model. [ABSTRACT FROM AUTHOR]

Published

2023

164. The Effect of Culture Dimensionality and Brain Extracellular Matrix in Neuronal Differentiation.

Author

Sorhun, Duygu Turan and Ozturk, Ece

Subjects

*EXTRACELLULAR matrix, *BRAIN physiology, *NEUROBLASTOMA, *CANCER cell culture, *CANCER cell differentiation

Abstract

Objective: Neuroblastoma cells are frequently used in neuroscience studies due to their human origin and ability of extensive propagation compared to animal-derived primary neuron cultures. Although they are tumor-derived, they exhibit neuronal differentiation capability in the presence of several agents including retinoid acid. Several studies have quested for successful differentiation protocols and faithful representation of neuronal characteristics. However, they predominantly pursued conventional two-dimensional (2D) cultures where the role of three-dimensional (3D) tissue microenvironment and cell-matrix interactions remained unknown. In this study, we investigated the effect of culture dimensionality and native brain extracellular matrix (ECM) on neuronal differentiation of neuroblastoma cells. Materials and Methods: Decellularized brain ECM hydrogels offer a physiologically relevant in vitro 3D culture platform with the representation of key biochemical and biophysical aspects of the native tissue microenvironment for modeling cellular processes. We cultured SH-SY5Y cells on 2D or as encapsulated in 3D decellularized brain ECM hydrogels and assessed them for morphological shift, neurite extension, and expression of neuronal, synaptic, astrocytic, cholinergic, stemness, proto-oncogene and neuropathological markers. Results: Our findings demonstrate that the 3D brain ECM microenvironment distinctly affects the differentiation process compared to conventional culturing. In 3D ECM, neuronal differentiation occurred as in 2D, with upregulation of neuronal markers, change in cell morphology, and promotion of neurite extension. However, during differentiation, maintenance of stemness was observed in a 3D-specific manner. Furthermore, 3D differentiation promoted significant upregulation of astrocytic and synaptic markers which was not observed in 2D. Conclusion: This study highlights the importance of physio-mimetic 3D brain models. [ABSTRACT FROM AUTHOR]

Published

2023

165. An Optimized Method to Culture Human Primary Lung Tumor Cell Spheroids.

Author

Mueggler, Amanda, Pilotto, Eléa, Perriraz-Mayer, Nadja, Jiang, Sicong, Addeo, Alfredo, Bédat, Benoît, Karenovics, Wolfram, Triponez, Frédéric, and Serre-Beinier, Véronique

Subjects

*CANCER cell culture, *FLOW cytometry, *REVERSE transcriptase polymerase chain reaction, *IN vitro studies, *ETOPOSIDE, *KRUSKAL-Wallis Test, *ADENOCARCINOMA, *LUNG cancer, *DRUG efficacy, *BIOLOGICAL models, *CELL culture, *FIBROBLASTS, *ACADEMIC medical centers, *CULTURE media (Biology), *IMMUNOHISTOCHEMISTRY, *LUNG tumors, *ANTINEOPLASTIC agents, *INDIVIDUALIZED medicine, *APOPTOSIS, *MANN Whitney U Test, *SURGERY, *PATIENTS, *CANCER, *CANCER patients, *CELL survival, *CELL proliferation, *GENE expression profiling, *CISPLATIN, *FLUORESCENT antibody technique, *DESCRIPTIVE statistics, *RESEARCH funding, *EPITHELIAL cells, *PACLITAXEL, *DATA analysis software, *PHENOTYPES, *SQUAMOUS cell carcinoma, *PHARMACODYNAMICS

Abstract

Simple Summary: Lung cancer, responsible for nearly 20% of global cancer-related deaths annually, is the leading cause of cancer mortality. Traditional treatments, like chemotherapy and radiation, are not always effective or appropriate due to the heterogeneity of lung cancer across patients. To address this challenge, our research introduces an approach to develop patient-derived spheroids (PDS) that are cultivated using cells from patient tumors and adjacent healthy tissue. These PDS allow us to mimic the unique microenvironment of patients, introducing a platform to assess personalized responses to drug treatments. We used this system to characterize patient cell populations, evaluate gene expression, and assess the sensitivity of PDS to specific drugs. By introducing a patient-specific platform to test drug sensitivity, our study holds the potential to enhance the efficacy of lung cancer treatments, paving the way for individualized and more effective lung cancer therapies in the future. Lung cancer is the leading cause of cancer mortality worldwide, with a median survival rate at 5 years of less than 20%. While molecular mapping aids in selecting appropriate therapies, it cannot predict personalized treatment response and long-term efficacy. For addressing these challenges, there is a great need for functional tests. Within this context, we developed patient-derived spheroids (PDS) from tumor and adjacent normal tissue to biomimic the respective tissue for assessing the personalized drug treatment response in vitro. Surgically resected lung specimens were used to generate spheroids using a two-step culture procedure. Flow cytometry and immune staining enabled the characterization of different cell populations resulting from the lung samples. PDS phenotype, cell proliferation and apoptosis were evaluated. Differential gene expression between tumor and adjacent normal tissue was analyzed via RT-qPCR. PDS drug sensitivity was assessed using a cell metabolic assay in response to two chemotherapeutic drug combinations. Cellular and molecular analysis revealed the proportion of epithelial cells, fibroblasts, and immune cells in the patients' tissue samples. Subsequently, PDS models from tumor and normal lung were successfully established using the expanded epithelial cells. As a proof of concept, an analysis of the drug treatment using PDS of lung adenoid cystic carcinoma exhibited a dose-dependent effect in response to cisplatin/etoposide and cisplatin/paclitaxel. Our spheroid model of both tumor and non-tumor lung cells holds great promise for enhancing the treatment efficacy in the cancer patients. [ABSTRACT FROM AUTHOR]

Published

2023

166. Comprehensive Transcriptome Analysis Reveals the Distinct Gene Expression Patterns of Tumor Microenvironment in HPV-Associated and HPV-Non Associated Tonsillar Squamous Cell Carcinoma.

Author

Alahmadi, Reham M., Marraiki, Najat, Alswayyed, Mohammed, Khoja, Hatim A., Al-Anazi, Abdullah E., Alahmadi, Rawan M., Alkusayer, Meshael M., Alosaimi, Bandar, and Awadalla, Maaweya

Subjects

*CANCER cell culture, *PAPILLOMAVIRUSES, *NEOVASCULARIZATION, *INFLAMMATION, *ONCOGENES, *CELL physiology, *HEAD & neck cancer, *APOPTOSIS, *CELL communication, *CANCER patients, *CELLULAR signal transduction, *GENE expression, *GENE expression profiling, *PAPILLOMAVIRUS diseases, *TUMOR suppressor genes, *IMMUNITY, *GENOTYPES, *GENE therapy, *RESEARCH funding, *TRANSCRIPTION factors, *SQUAMOUS cell carcinoma, *DISEASE complications, TONSIL cancer

Abstract

Simple Summary: The tumor microenvironment (TME) of HNSCC is heterogeneous and complex, and it plays a crucial role in achieving effective cancer therapy. To develop effective cancer therapies, it is important to understand the crosstalk between cancer inflammation and immunity, as well as oncogenes and tumor suppressor genes. In this study, we aimed to gain a more comprehensive understanding of the transcriptomes of the TME in HPV-associated and HPV-non-associated TSCC by studying the gene expression profiles of 168 genes linked to various cellular mediators and factors involved in inflammation, immune crosstalk, transcription, signal transduction, oncogenesis, tumor suppression, angiogenesis, and apoptosis. We found that the TME of HPV-associated and HPV-non-associated TSCC exhibited a remarkable heterogeneity of gene expression associated with cellular mediators and factors involved in inflammation, immune crosstalk, transcription factors, immune signaling pathways, signal transduction, oncogenesis, tumor suppression, angiogenesis, and apoptosis. Head and neck squamous cell carcinomas (HNSCCs) are a common type of cancer, ranking as the sixth most prevalent cancer worldwide and having a high morbidity and mortality rate. Among oropharyngeal squamous cell carcinoma (OPSCC) cancers, tonsillar squamous cell carcinoma (TSCC) is the most prevalent and has a particularly aggressive clinical course with poor disease outcomes. The tumor microenvironment (TME) of HNSCC is complex and heterogeneous, playing a crucial role in effective cancer therapy. Understanding the interaction between cancer inflammation, immunity, oncogenes, and tumor suppressor genes is essential for developing effective cancer treatments. This study aimed to gain a comprehensive understanding of the transcriptomes of the TME in TSCC, both associated with human papillomavirus (HPV) and not associated with HPV. The gene expression profiles of 168 genes linked to various cellular mediators and factors involved in inflammation, immunity crosstalk, transcription, signal transduction, oncogenesis, tumor suppression, angiogenesis, and apoptosis were analyzed. We identified 40 differentially expressed genes related to the communication between tumor cells and the cellular mediators of inflammation and immunity crosstalk. In HPV-positive TSCC patients, 33 genes were over-expressed with a fold change greater than 1.5, and 26 of these genes were unique to this group. In contrast, HPV-negative TSCC patients had 11 up-regulated genes. The results further showed that 48 gene transcripts related to oncogenesis, tumor suppression, angiogenesis, and apoptosis were up-regulated in both HPV-positive and HPV-negative TSCC patients. Among the HPV-positive TSCC patients, 37 genes were over-expressed, while the HPV-negative TSCC patients had 11 up-regulated genes. The tumor microenvironment (TME) of HPV-associated and HPV-non-associated TSCC exhibited distinct characteristics, including the dysregulation of various genes involved in cellular mediators, inflammation, immunity crosstalk, transcription factors, immune signaling pathways, signal transduction, oncogenesis, tumor suppression, angiogenesis, and apoptosis. Additionally, we detected six Hr-HPV genotypes in 81% of the TSCC patients, with HPV-16 and HPV-35 being the most common types, followed by HPV-45 and HPV-18. HPV-39 and 31 were also identified. The presence of Hr-HPV genotypes in TSCC patients varied from single to multiple infections. In conclusion, we observed distinct heterogeneity in the transcriptome of the microenvironment in HPV-associated and non-associated TSCC. Further in vitro and in vivo studies are needed to investigate the functional implications of the identified over-expressed genes. Also, deeper molecular pathways and immunological studies on the TME are required to determine the potential of targeting genes for cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2023

167. (Very) Small Stem-like Cells in Human Cell Cultures.

Author

Lica, Jan Jakub and Pradhan, Bhaskar

Subjects

*CANCER cell culture, *IN vitro studies, *CELL culture, *DNA, *ANIMAL experimentation, *GUIDED tissue regeneration, *LEUKEMIA, *CYTOCHEMISTRY, *STEM cells, *DESCRIPTIVE statistics, *RESEARCH funding, *FLUORESCENT dyes, *CELL lines

Abstract

Simple Summary: VSELSCs are considered the Holy Grail of regenerative medicine. The published transformations from VSELSCs to VSCSCs to CSCs have prompted us to re-analyze the results of previous research and conduct new studies on the existence of very small stem-like cells in continuously growing cell lines. Utilizing well-established cell cultures with varying levels of primitive cell content, specific CD markers for VSELSCs, side and forward scattering, DNA content analysis, and functional studies, a cytological method for detecting this cell stage has been developed. Very Small Embryonic-like Stem Cells (VSELSCs) and Very Small Cancer Stem Cells (VSCSCs) are fields of intensive research. Although the presence in vitro of VSELSC and VSCSC cellular stage analogs appear probable, it has yet to be published. Utilizing established human cell cultures with varying populations of primitive cells, stained with CD markers specific to primitive stages, in addition to a fluorescent DNA dye, and following histochemical processing, we have developed a cytological method for detecting Very Small Leukemic Stem-like Cells (VSLSLCs), Very Small Cancer Stem-like Cells (VSCSLCs), and VSELSCs. This detection provides an opportunity to advance research in these areas. [ABSTRACT FROM AUTHOR]

Published

2023

168. C-Type Lectin-like Receptor 2 Expression Is Decreased upon Platelet Activation and Is Lower in Most Tumor Entities Compared to Healthy Controls.

Author

Etemad, Mani, Christodoulou, Foteini, Uhlig, Stefanie, Hassel, Jessica C., Schrotz-King, Petra, Brenner, Hermann, Ulrich, Cornelia M., Bieback, Karen, Klüter, Harald, and Bugert, Peter

Subjects

*IN vitro studies, *FLOW cytometry, *PLATELET-rich plasma, *DISEASE progression, *CANCER cell culture, *MELANOMA, *WESTERN immunoblotting, *GLIOMAS, *GENE expression, *BLOOD platelet activation, *COLORECTAL cancer, *COMPARATIVE studies, *ENZYME-linked immunosorbent assay, *TUMOR markers, *BREAST tumors

Abstract

Simple Summary: Platelets express the C-type lectin-like receptor 2 (CLEC-2) that enables binding to podoplanin (PDPN)-expressing tumor cells and, thereby, promote metastatic spread. An increased level of soluble CLEC-2 was reported in patients with thromboinflammatory and malignant disease, presumably released from activated platelets. In our study, we show that in vitro platelet activation leads to a significant decrease in CLEC-2 on platelets and in the plasma. We also found decreased levels of soluble CLEC-2 in plasma samples of patients with colorectal carcinoma (stages I to IV), breast cancer or melanoma (stages I to III) compared to healthy donors. Interestingly, in patients with glioblastoma, the plasma level of soluble CLEC-2 was significantly higher. We concluded that an increased plasma level of soluble CLEC-2 is not a suitable biomarker of platelet activation and tumor progression in most types of cancer. The C-type lectin-like receptor 2 (CLEC-2) is expressed on platelets and mediates binding to podoplanin (PDPN) on various cell types. The binding to circulating tumor cells (CTCs) leads to platelet activation and promotes metastatic spread. An increased level of soluble CLEC-2 (sCLEC-2), presumably released from activated platelets, was shown in patients with thromboinflammatory and malignant disease. However, the functional role of sCLEC-2 and the mechanism of sCLEC-2 release are not known. In this study, we focused on the effect of platelet activation on CLEC-2 expression and the sCLEC-2 plasma level in patients with cancer. First, citrated blood from healthy volunteer donors (n = 20) was used to measure the effect of platelet stimulation by classical agonists and PDPN on aggregation, CLEC-2 expression on platelets with flow cytometry, sCLEC-2 release to the plasma with ELISA and total CLEC-2 expression with Western blot analysis. Second, sCLEC-2 was determined in plasma samples from healthy donors (285) and patients with colorectal carcinoma (CRC; 194), melanoma (160), breast cancer (BC; 99) or glioblastoma (49). PDPN caused a significant increase in the aggregation response induced by classical agonists. ADP or PDPN stimulation of platelets caused a significant decrease in CLEC-2 on platelets and sCLEC-2 in the plasma, whereas total CLEC-2 in platelet lysates remained the same. Thus, the increased plasma level of sCLEC-2 is not a suitable biomarker of platelet activation. In patients with CRC (median 0.9 ng/mL), melanoma (0.9 ng/mL) or BC (0.7 ng/mL), we found significantly lower sCLEC-2 levels (p < 0.0001), whereas patients with glioblastoma displayed higher levels (2.6 ng/mL; p = 0.0233) compared to healthy controls (2.1 ng/mL). The low sCLEC-2 plasma level observed in most of the tumor entities of our study presumably results from the internalization of sCLEC-2 by activated platelets or binding of sCLEC-2 to CTCs. [ABSTRACT FROM AUTHOR]

Published

2023

169. Organotypic 3D Cell-Architecture Impacts the Expression Pattern of miRNAs–mRNAs Network in Breast Cancer SKBR3 Cells.

Author

Gastélum-López, María de los Ángeles, Aguilar-Medina, Maribel, García Mata, Cristina, López-Gutiérrez, Jorge, Romero-Quintana, Geovanni, Bermúdez, Mercedes, Avendaño-Felix, Mariana, López-Camarillo, César, Pérez-Plascencia, Carlos, Beltrán, Adriana S, and Ramos-Payán, Rosalío

Subjects

*GENE expression, *CANCER cell culture, *CELL culture, *CELL morphology, *CANCER cells, *CELLULAR control mechanisms, *BREAST cancer

Abstract

Background. Currently, most of the research on breast cancer has been carried out in conventional two-dimensional (2D) cell cultures due to its practical benefits, however, the three-dimensional (3D) cell culture is becoming the model of choice in cancer research because it allows cell–cell and cell–extracellular matrix (ECM) interactions, mimicking the native microenvironment of tumors in vivo. Methods. In this work, we evaluated the effect of 3D cell organization on the expression pattern of miRNAs (by Small-RNAseq) and mRNAs (by microarrays) in the breast cancer SKBR3 cell line and analyzed the biological processes and signaling pathways regulated by the differentially expressed protein-coding genes (DE-mRNAs) and miRNAs (DE-microRNAs) found in the organoids. Results. We obtained well-defined cell-aggregated organoids with a grape cluster-like morphology with a size up to 9.2 × 105 μm3. The transcriptomic assays showed that cell growth in organoids significantly affected (all p < 0.01) the gene expression patterns of both miRNAs, and mRNAs, finding 20 upregulated and 19 downregulated DE-microRNAs, as well as 49 upregulated and 123 downregulated DE-mRNAs. In silico analysis showed that a subset of 11 upregulated DE-microRNAs target 70 downregulated DE-mRNAs. These genes are involved in 150 gene ontology (GO) biological processes such as regulation of cell morphogenesis, regulation of cell shape, regulation of canonical Wnt signaling pathway, morphogenesis of epithelium, regulation of cytoskeleton organization, as well as in the MAPK and AGE–RAGE signaling KEGG-pathways. Interestingly, hsa-mir-122-5p (Fold Change (FC) = 15.4), hsa-mir-369-3p (FC = 11.4), and hsa-mir-10b-5p (FC = 20.1) regulated up to 81% of the 70 downregulated DE-mRNAs. Conclusion. The organotypic 3D cell-organization architecture of breast cancer SKBR3 cells impacts the expression pattern of the miRNAs–mRNAs network mainly through overexpression of hsa-mir-122-5p, hsa-mir-369-3p, and hsa-mir-10b-5p. All these findings suggest that the interaction between cell–cell and cell–ECM as well as the change in the culture architecture impacts gene expression, and, therefore, support the pertinence of migrating breast cancer research from conventional cultures to 3D models. [ABSTRACT FROM AUTHOR]

Published

2023

170. Overexpression of POFUT1 promotes malignant phenotype and mediates perineural invasion in head and neck squamous cell carcinoma.

Author

Barlak, Neslisah, Kusdemir, Gulnur, Gumus, Rasim, Gundogdu, Betul, Sahin, Mehmet Hakan, Tatar, Arzu, Ittmann, Michael, and Karatas, Omer Faruk

Subjects

*SQUAMOUS cell carcinoma, *GENETIC overexpression, *HEAD & neck cancer, *PHENOTYPES, *WESTERN immunoblotting, *NECK, *RETINAL ganglion cells, *CANCER cell culture

Abstract

Head and neck squamous cell carcinoma (HNSCC) is one of the most aggressive neoplasms, which requires more effective prevention and treatment modalities. Previous studies found that protein O‐fucosyltransferase 1 (POFUT1) upregulation promotes carcinogenesis, although the potential roles, underlying molecular mechanisms, and biological implications of POFUT1 in HNSCC were not investigated. In this study, in silico analyses referred POFUT1 as a potential oncogene in HNSCC. Further analysis of tumor and normal tissue samples as well as HNSCC cells with quantitative real‐time polymerase chain reaction, Western blot analysis, and immunohistochemistry showed significant overexpression of POFUT1 in HNSCC clinical tumor tissue specimens and cell lines compared to corresponding controls. In vitro investigations revealed that overexpression of POFUT1 promoted phenotypes associated with cancer aggressiveness and its knockdown in HNSCC cells suppressed those phenotypes. Further xenograft experiments demonstrated that POFUT1 is an oncogene in vivo for HNSCC. Immunohistochemical analysis with human clinical samples and cancer cell‐dorsal root ganglion ex‐vivo coculture model showed that deregulation of POFUT1 is involved in the perineural invasion of HNSCC cells. These results suggest POFUT1 expression as a potential prognostic marker for patients with head and neck cancer and highlight its potential as a target for HNSCC therapy, although more molecular clues are needed to better define the functions of POFUT1 related to HNSCC carcinogenesis. [ABSTRACT FROM AUTHOR]

Published

2023

171. Effect of Tetraselmis suecica microalgae isolated from the Persian Gulf on the expression level of AKT/mTOR genes in the liver cancer cell line, Huh7.

Author

Cheragh, Mahnaz Roshan and Mabudi, Hadideh

Subjects

*LIVER cancer, *LIVER cells, *CANCER genes, *CANCER cells, *CELL lines, *CANCER cell culture

Abstract

The medicinal and therapeutic properties of microalgae, especially their anti-cancer properties in modulating cellular mechanisms such as cytotoxicity, reducing tumor cell invasion, and increasing apoptosis, have drawn attention to their therapeutic application in cancer. However, there are few reports on the effects of Tetraselmis suecica microalgae on liver cancer. As the aim of this study, after ethanolic extracting from T. suecica, and IC50 determination, the effect of T. suecica microalgae extract on cytotoxicity and apoptosis of Huh7 cells was investigated by MTT and Annexin V/PI staining, respectively. In addition, the expression of AKT/mTOR genes was measured by real-time PCR test. Based on the results, ethanolic extract of T. suecica to the Huh7 cell line significantly decreased the expression of AKT and mTOR genes compared to the control group. The vitality of cancer cells in concentrations of 500 and 1000 µg/ml of T. suecica extract in a 48-hour culture, decreased significantly. In addition, in the 72-hour treatment, a significant decrease in cell viability was observed in the concentrations of 250, 500, and 1000 μg/ml. According to the results, T. suecica microalgae can offer good benefits as valuable natural materials for the pharmaceutical industry, especially anticancer drugs. [ABSTRACT FROM AUTHOR]

Published

2023

172. Targeting acidic pre-metastatic niche in lungs by pH low insertion peptide and its utility for anti-metastatic therapy.

Author

Toma Matsui, Yuki Toda, Haruka Sato, Rina Itagaki, Kazuya Konishi, Moshnikova, Anna, Andreev, Oleg A., Shigekuni Hosogi, Reshetnyak, Yana K., and Ashihara, Eishi

Subjects

PEPTIDES, CANCER cell culture, LUNGS, CANCER invasiveness, EXTRACELLULAR vesicles

Abstract

Dysregulated extracellular pH, the universal feature of tumor, works as an evolutional force to drive dissemination of tumor cells. It is well-established that tumor acidity is associated with tumor growth and metastasis. However, the pH of pre-metastatic niche remains unclear. We hypothesized that primary tumor cells remotely prime acidity in secondary organ to achieve metastatic colonization. Herein, we demonstrated that the pH responsive probe pH Low Insertion Peptide (pHLIP) was notably accumulated in pre-metastatic lungs of 4T1.2 breast tumor-bearing mice. The pHLIP-targeted lungs showed high amounts of lactate and overexpressed glycolysis-related proteins. Pharmacological inhibition of glycolysis suppressed the lung acidification induced by 4T1.2 cancer cell culture supernatant and delayed subsequent metastatic burden of disseminated tumor cells. In the acidic lungs, pHLIP was primarily localized in alveolar type 2 cells which strongly expressed glycolysisrelated proteins. 4T1.2-derived extracellular vesicles expressed some of the glycolysis-related proteins, and their administration increased pHLIP accumulation and glycolytic enhancement in lungs. pHLIP-conjugated dexamethasone effectively attenuated lung metastatic burden by disrupting pro-inflammatory response in the acidic lungs. From these results, targeting the metastasis-supporting microenvironment by pHLIP technology creates possibility to identify pre-metastatic organ and prevent metastatic recurrence. [ABSTRACT FROM AUTHOR]

Published

2023

173. A multiscale model of the role of microenvironmental factors in cell segregation and heterogeneity in breast cancer development.

Author

Romero-Arias, J. Roberto, González-Castro, Carlos A., and Ramírez-Santiago, Guillermo

Subjects

*CELL separation, *MULTISCALE modeling, *GENE regulatory networks, *CARCINOGENESIS, *ALTERNATIVE treatment for cancer, *CANCER cell culture, *BREAST

Abstract

We analyzed a quantitative multiscale model that describes the epigenetic dynamics during the growth and evolution of an avascular tumor. A gene regulatory network (GRN) formed by a set of ten genes that are believed to play an important role in breast cancer development was kinetically coupled to the microenvironmental agents: glucose, estrogens, and oxygen. The dynamics of spontaneous mutations was described by a Yule-Furry master equation whose solution represents the probability that a given cell in the tissue undergoes a certain number of mutations at a given time. We assumed that the mutation rate is modified by a spatial gradient of nutrients. The tumor mass was simulated by means of cellular automata supplemented with a set of reaction diffusion equations that described the transport of microenvironmental agents. By analyzing the epigenetic state space described by the GRN dynamics, we found three attractors that were identified with cellular epigenetic states: normal, precancer and cancer. For two-dimensional (2D) and three-dimensional (3D) tumors we calculated the spatial distribution of the following quantities: (i) number of mutations, (ii) mutation of each gene and, (iii) phenotypes. Using estrogen as the principal microenvironmental agent that regulates cells proliferation process, we obtained tumor shapes for different values of estrogen consumption and supply rates. It was found that he majority of mutations occurred in cells that were located close to the 2D tumor perimeter or close to the 3D tumor surface. Also, it was found that the occurrence of different phenotypes in the tumor are controlled by estrogen concentration levels since they can change the individual cell threshold and gene expression levels. All results were consistently observed for 2D and 3D tumors. Author summary: We introduce and analyze in detail a 2D and 3D quantitative multiscale model that describes the growth and epigenetic evolution of an avascular breast tumor. We obtain series of microarrays that describe the activation/inhibit levels of a group of genes that respond to the occurrence of oxygen and estrogen concentration gradients. We identify three cell phenotypes: normal, precancer and cancer, that are crucial to understand the tumor structure, the spatial distribution of mutations and the tumor heterogeneity. Finally, we found that the estrogen concentration gradients are related to the variation of gene expression levels and phenotypes occurrence. These findings strongly suggest that it is possible to develop epigenetic cancer treatment alternatives to either stop or reverse tumor evolution. [ABSTRACT FROM AUTHOR]

Published

2023

174. Muscarinic receptor agonist-induced βPix binding to β-catenin promotes colon neoplasia.

Author

Cheng, Kunrong, Chahdi, Ahmed, Larabee, Shannon M., Tolaymat, Mazen, Sundel, Margaret H., Drachenberg, Cinthia B., Zhan, Min, Hu, Shien, Said, Anan H., Shang, Aaron C., Xie, Guofeng, Alizadeh, Madeline, Moura, Natalia Sampaio, Bafford, Andrea C., Williams, Richelle T., Hanna, Nader N., and Raufman, Jean-Pierre

Subjects

*MUSCARINIC receptors, *GUANINE nucleotide exchange factors, *CANCER cell culture, *TUMORS, *COLON cancer, *COLON (Anatomy)

Abstract

M3 muscarinic receptors (M3R) modulate β-catenin signaling and colon neoplasia. CDC42/RAC guanine nucleotide exchange factor, βPix, binds to β-catenin in colon cancer cells, augmenting β-catenin transcriptional activity. Using in silico, in vitro, and in vivo approaches, we explored whether these actions are regulated by M3R. At the invasive fronts of murine and human colon cancers, we detected co-localized nuclear expression of βPix and β-catenin in stem cells overexpressing M3R. Using immunohistochemistry, immunoprecipitation, proximity ligand, and fluorescent cell sorting assays in human tissues and established and primary human colon cancer cell cultures, we detected time-dependent M3R agonist-induced cytoplasmic and nuclear association of βPix with β-catenin. βPix knockdown attenuated M3R agonist-induced human colon cancer cell proliferation, migration, invasion, and expression of PTGS2, the gene encoding cyclooxygenase-2, a key player in colon neoplasia. Overexpressing βPix dose-dependently augmented β-catenin binding to the transcription factor TCF4. In a murine model of sporadic colon cancer, advanced neoplasia was attenuated in conditional knockout mice with intestinal epithelial cell deficiency of βPix. Expression levels of β-catenin target genes and proteins relevant to colon neoplasia, including c-Myc and Ptgs2, were reduced in colon tumors from βPix-deficient conditional knockout mice. Targeting the M3R/βPix/β-catenin axis may have therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2023

175. Cholinergic-like neurons and cerebral spheroids bearing the PSEN1 p.Ile416Thr variant mirror Alzheimer's disease neuropathology.

Author

Gomez-Sequeda, Nicolas, Mendivil-Perez, Miguel, Jimenez-Del-Rio, Marlene, Lopera, Francisco, and Velez-Pardo, Carlos

Subjects

*ALZHEIMER'S disease, *P53 antioncogene, *TAU proteins, *MIRROR neurons, *NEUROLOGICAL disorders, *NEURONS, *CANCER cell culture, *MEMBRANE potential

Abstract

Familial Alzheimer's disease (FAD) is a complex neurodegenerative disorder for which there are no therapeutics to date. Several mutations in presenilin 1 (PSEN 1), which is the catalytic component of γ-secretase complex, are causal of FAD. Recently, the p.Ile416Thr (I416T) PSEN 1 mutation has been reported in large kindred in Colombia. However, cell and molecular information from I416T mutation is scarce. Here, we demonstrate that menstrual stromal cells (MenSCs)-derived planar (2D) PSEN 1 I416T cholinergic-like cells (ChLNS) and (3D) cerebral spheroids (CSs) reproduce the typical neuropathological markers of FAD in 4 post-transdifferentiating or 11 days of transdifferentiating, respectively. The models produce intracellular aggregation of APPβ fragments (at day 4 and 11) and phosphorylated protein TAU at residue Ser202/Thr205 (at day 11) suggesting that iAPPβ fragments precede p-TAU. Mutant ChLNs and CSs displayed DJ-1 Cys106-SO3 (sulfonic acid), failure of mitochondria membrane potential (ΔΨm), and activation of transcription factor c-JUN and p53, expression of pro-apoptotic protein PUMA, and activation of executer protein caspase 3 (CASP3), all markers of cell death by apoptosis. Moreover, we found that both mutant ChLNs and CSs produced high amounts of extracellular eAβ42. The I416T ChLNs and CSs were irresponsive to acetylcholine induced Ca2+ influx compared to WT. The I416T PSEN 1 mutation might work as dominant-negative PSEN1 mutation. These findings might help to understanding the recurring failures of clinical trials of anti-eAβ42, and support the view that FAD is triggered by the accumulation of other intracellular AβPP metabolites, rather than eAβ42. [ABSTRACT FROM AUTHOR]

Published

2023

176. Fine tuning a logical model of cancer cells to predict drug synergies: combining manual curation and automated parameterization.

Author

Flobak, Åsmund, Zobolas, John, Vazquez, Miguel, Steigedal, Tonje S., Thommesen, Liv, Grislingås, Asle, Niederdorfer, Barbara, Folkesson, Evelina, and Kuiper, Martin

Subjects

*DRUG synergism, *CANCER cell culture, *PARAMETERIZATION, *CANCER cells, *GENETIC algorithms, *PHOTOTHERMAL effect, *PREDICTION models

Abstract

Treatment with combinations of drugs carries great promise for personalized therapy for a variety of diseases. We have previously shown that synergistic combinations of cancer signaling inhibitors can be identified based on a logical framework, by manual model definition. We now demonstrate how automated adjustments of model topology and logic equations both can greatly reduce the workload traditionally associated with logical model optimization. Our methodology allows the exploration of larger model ensembles that all obey a set of observations, while being less restrained for parts of the model where parameterization is not guided by biological data. We benchmark the synergy prediction performance of our logical models in a dataset of 153 targeted drug combinations. We show that well-performing manual models faithfully represent measured biomarker data and that their performance can be outmatched by automated parameterization using a genetic algorithm. Whereas the predictive performance of a curated model is strongly affected by simulated curation errors, data-guided deletion of a small subset of regulatory model edges can significantly improve prediction quality. With correct topology we find evidence of some tolerance to simulated errors in the biomarker calibration data, yet performance decreases with reduced data quality. Moreover, we show that predictive logical models are valuable for proposing mechanisms underpinning observed synergies. With our framework we predict the synergy of joint inhibition of PI3K and TAK1, and further substantiate this prediction with observations in cancer cell cultures and in xenograft experiments. [ABSTRACT FROM AUTHOR]

Published

2023

177. Recreating the extracellular matrix: novel 3D cell culture platforms in cancer research.

Author

Kyriakopoulou, Konstantina, Koutsakis, Christos, Piperigkou, Zoi, and Karamanos, Nikos K.

Subjects

*CANCER cell culture, *CELL culture, *EXTRACELLULAR matrix, *CANCER research, *CANCER invasiveness, *RESEARCH personnel, *MEDICAL screening

Abstract

Cancer initiation and progression heavily rely on microenvironmental cues derived from various components of the niche including the extracellular matrix (ECM). ECM is a complex macromolecular network that governs cell functionality. Although the two‐dimensional (2D) cell culture systems provide useful information at the molecular level and preclinical testing, they could not accurately represent the in vivo matrix microenvironmental architecture. Hence, it is no surprise that researchers in the last decade have focussed their efforts on establishing novel advanced in vitro culture models that mimic tumour and tissue‐specific niches and interactions. These numerous three‐dimensional (3D) culture systems that are now widely available, as well as those still under development, grant researchers with new, improved tools to study cancer progression and to explore innovative therapeutic options. Herein, we report on the emerging methods and cutting‐edge technologies in 3D cell culture platforms and discuss their potential use in unveiling tumour microenvironmental cues, drug screening and personalized treatment. [ABSTRACT FROM AUTHOR]

Published

2023

178. Fluid and Bubble Flow Detach Adherent Cancer Cells to Form Spheroids on a Random Positioning Machine.

Author

Cortés-Sánchez, José Luis, Melnik, Daniela, Sandt, Viviann, Kahlert, Stefan, Marchal, Shannon, Johnson, Ian R. D., Calvaruso, Marco, Liemersdorf, Christian, Wuest, Simon L., Grimm, Daniela, and Krüger, Marcus

Subjects

*SPHEROIDAL state, *FLUID flow, *CELL culture, *CANCER cells, *CANCER cell culture, *SHEARING force, *REDUCED gravity environments, *THYROID cancer

Abstract

In preparing space and microgravity experiments, the utilization of ground-based facilities is common for initial experiments and feasibility studies. One approach to simulating microgravity conditions on Earth is to employ a random positioning machine (RPM) as a rotary bioreactor. Combined with a suitable low-mass model system, such as cell cultures, these devices simulating microgravity have been shown to produce results similar to those obtained in a space experiment under real microgravity conditions. One of these effects observed under real and simulated microgravity is the formation of spheroids from 2D adherent cancer cell cultures. Since real microgravity cannot be generated in a laboratory on Earth, we aimed to determine which forces lead to the detachment of individual FTC-133 thyroid cancer cells and the formation of tumor spheroids during culture with exposure to random positioning modes. To this end, we subdivided the RPM motion into different static and dynamic orientations of cell culture flasks. We focused on the molecular activation of the mechanosignaling pathways previously associated with spheroid formation in microgravity. Our results suggest that RPM-induced spheroid formation is a two-step process. First, the cells need to be detached, induced by the cell culture flask's rotation and the subsequent fluid flow, as well as the presence of air bubbles. Once the cells are detached and in suspension, random positioning prevents sedimentation, allowing 3D aggregates to form. In a comparative shear stress experiment using defined fluid flow paradigms, transcriptional responses were triggered comparable to exposure of FTC-133 cells to the RPM. In summary, the RPM serves as a simulator of microgravity by randomizing the impact of Earth's gravity vector especially for suspension (i.e., detached) cells. Simultaneously, it simulates physiological shear forces on the adherent cell layer. The RPM thus offers a unique combination of environmental conditions for in vitro cancer research. [ABSTRACT FROM AUTHOR]

Published

2023

179. Using picoliter droplet deposition to track clonal competition in adherent and organoid cancer cell cultures.

Author

Baglamis, Selami, Sheraton, Vivek M., Meijer, Debora, Qian, Haibin, Hoebe, Ron A., Lenos, Kristiaan J, Betjes, Max A., Tans, Sander, van Zon, Jeroen, Vermeulen, Louis, and Krawczyk, Przemek M.

Subjects

*CLONE cells, *CANCER cell culture, *CELL culture, *CELL nuclei, *CELL lines, *CANCER cells, *TREATMENT effectiveness

Abstract

Clonal growth and competition underlie processes of key relevance in etiology, progression and therapy response across all cancers. Here, we demonstrate a novel experimental approach, based on multi-color, fluorescent tagging of cell nuclei, in combination with picoliter droplet deposition, to study the clonal dynamics in two- and three-dimensional cell cultures. The method allows for the simultaneous visualization and analysis of multiple clones in individual multi-clonal colonies, providing a powerful tool for studying clonal dynamics and identifying clonal populations with distinct characteristics. Results of our experiments validate the utility of the method in studying clonal dynamics in vitro, and reveal differences in key aspects of clonal behavior of different cancer cell lines in monoculture conditions, as well as in co-cultures with stromal fibroblasts. [ABSTRACT FROM AUTHOR]

Published

2023

180. Microdevices for cancer stem cell culture as a predictive chemotherapeutic response platform.

Author

Agüero, Eduardo Imanol, Belgorosky, Denise, García-Silva, Julio Israel, Booth, Ross, Lerner, Betiana, Pérez, Maximiliano Sebastián, and Eiján, Ana María

Subjects

*STEM cell culture, *CANCER cell culture, *CANCER stem cells, *CANCER chemotherapy, *MICROFLUIDIC devices

Abstract

Microfluidic platforms for clinical use are a promising translational strategy for cancer research specially for drug screening. Identifying cancer stem cells (CSC) using sphere culture techniques in microfluidic devices (MDs) showed to be better reproducing physiological responses than other in vitro models and allow the optimization of samples and reagents. We evaluated individual sphere proliferation and stemness toward chemotherapeutic treatment (CT) with doxorubicin and cisplatin in bladder cancer cell lines (MB49-I and J82) cultured in MDs used as CSC treatment response platform. Our results confirm the usefulness of this device to evaluate the CT effect in sphere-forming efficiency, size, and growth rate from individual spheres within MDs and robust information comparable to conventional culture plates was obtained. The expression of pluripotency genetic markers (Oct4, Sox2, Nanog, and CD44) could be analyzed by qPCR and immunofluorescence in spheres growing directly in MDs. MDs are a suitable platform for sphere isolation from tumor samples and can provide information about CT response. Microfluidic-based CSC studies could provide information about treatment response of cancer patients from small samples and can be a promising tool for CSC-targeted specific treatment with potential in precision medicine. Key messages: We have designed a microfluidic platform for CSC enriched culture by tumor sphere formation. Using MDs, we could quantify and determine sphere response after CT using murine and human cell lines as a proof of concept. MDs can be used as a tumor-derived sphere isolation platform to test the effect of antitumoral compounds in sphere proliferation. [ABSTRACT FROM AUTHOR]

Published

2023

181. Introduction of Androgen Receptor Targeting shRNA Inhibits Tumor Growth in Patient-Derived Prostate Cancer Xenografts.

Author

Thomas, Patrick B., Alinezhad, Saeid, Joshi, Andre, Sweeney, Katrina, Tse, Brian W. C., Tevz, Gregor, McPherson, Stephen, Nelson, Colleen C., Williams, Elizabeth D., and Vela, Ian

Subjects

*ANDROGEN receptors, *GENE targeting, *CANCER cell culture, *TUMOR growth, *PROSTATE cancer, *XENOGRAFTS, *REPORTER genes

Abstract

Patient-derived xenograft (PDX) models have been established as important preclinical cancer models, overcoming some of the limitations associated with the use of cancer cell lines. The utility of prostate cancer PDX models has been limited by an inability to genetically manipulate them in vivo and difficulties sustaining PDX-derived cancer cells in culture. Viable, short-term propagation of PDX models would allow in vitro transfection with traceable reporters or manipulation of gene expression relevant to different studies within the prostate cancer field. Here, we report an organoid culture system that supports the growth of prostate cancer PDX cells in vitro and permits genetic manipulation, substantially increasing the scope to use PDXs to study the pathobiology of prostate cancer and define potential therapeutic targets. We have established a short-term PDX-derived in vitro cell culture system which enables genetic manipulation of prostate cancer PDXs LuCaP35 and BM18. Genetically manipulated cells could be re-established as viable xenografts when re-implanted subcutaneously in immunocompromised mice and were able to be serially passaged. Tumor growth of the androgen-dependent LuCaP35 PDX was significantly inhibited following depletion of the androgen receptor (AR) in vivo. Taken together, this system provides a method to generate novel preclinical models to assess the impact of controlled genetic perturbations and allows for targeting specific genes of interest in the complex biological setting of solid tumors. [ABSTRACT FROM AUTHOR]

Published

2023

182. Exploring Cell Migration Mechanisms in Cancer: From Wound Healing Assays to Cellular Automata Models.

Author

Migliaccio, Giorgia, Ferraro, Rosalia, Wang, Zhihui, Cristini, Vittorio, Dogra, Prashant, and Caserta, Sergio

Subjects

*CANCER cell culture, *WOUND healing, *COMPUTER simulation, *IN vitro studies, *CELL motility, *RESEARCH funding, *TUMOR markers, *SENSITIVITY & specificity (Statistics)

Abstract

Simple Summary: Cell migration is a key factor in the spread of metastatic tumors and a major contributor to cancer-related mortality. However, our comprehension of the underlying mechanisms remains incomplete. In this study, we utilized a wound healing assay to explore the migration and invasion of cancer cells in the context of metastasis. We developed a computational model using cellular automata, rigorously calibrated and validated with in vitro data from both tumor and non-tumor cell lines, offering a potent resource. This novel approach is of immense value to the pharmaceutical sector for discovering compounds that can impede cell migration, evaluating the efficacy of potential drugs to hinder cancer invasion, and assessing immune system responses. It stands as a breakthrough in the quest for more effective cancer therapies. Purpose: Cell migration is a critical driver of metastatic tumor spread, contributing significantly to cancer-related mortality. Yet, our understanding of the underlying mechanisms remains incomplete. Methods: In this study, a wound healing assay was employed to investigate cancer cell migratory behavior, with the aim of utilizing migration as a biomarker for invasiveness. To gain a comprehensive understanding of this complex system, we developed a computational model based on cellular automata (CA) and rigorously calibrated and validated it using in vitro data, including both tumoral and non-tumoral cell lines. Harnessing this CA-based framework, extensive numerical experiments were conducted and supported by local and global sensitivity analyses in order to identify the key biological parameters governing this process. Results: Our analyses led to the formulation of a power law equation derived from just a few input parameters that accurately describes the governing mechanism of wound healing. This groundbreaking research provides a powerful tool for the pharmaceutical industry. In fact, this approach proves invaluable for the discovery of novel compounds aimed at disrupting cell migration, assessing the efficacy of prospective drugs designed to impede cancer invasion, and evaluating the immune system's responses. [ABSTRACT FROM AUTHOR]

Published

2023

183. Cucurbitacin I Reverses Tumor-Associated Macrophage Polarization to Affect Cancer Cell Metastasis.

Author

Gong, Xiaocheng, Liu, Yunfei, Liang, Keying, Chen, Zixi, Ding, Ke, Qiu, Li, Wei, Jinfen, and Du, Hongli

Subjects

*CANCER cells, *METASTASIS, *CELL migration, *MACROPHAGES, *CANCER cell culture, *CANCER invasiveness, *CELL migration inhibition, *MYOGLOBIN

Abstract

The tumor microenvironment plays a critical role in tumor progression and immune regulation. As one of the most important components of the tumor microenvironment, macrophages have become a new therapeutic target for inhibiting tumor progression. Despite the well-documented anticancer activity of cucurbitacin I, its effect on macrophages remains unclear. In this study, we established a coculture system of macrophages and cancer cells under hypoxic conditions to simulate the tumor-promoting environment mediated by M2-like macrophages. We determined whether cucurbitacin I modulates M2-like polarization in macrophages in vitro and conducted RNA sequencing to identify gene expression changes induced by cucurbitacin I in macrophages. The results indicated a remarkable inhibition of the M2-like polarization phenotype in macrophages following treatment with cucurbitacin I, which was accompanied by the significant downregulation of heme oxygenase-1. Moreover, we found that cucurbitacin I-treated macrophages reduced the migration of cancer cells by inhibiting the M2 polarization in vitro. These findings highlight the potential of cucurbitacin I as a therapeutic agent that targets M2-like macrophages to inhibit cancer cell metastasis. Our study provides novel insights into the intricate interplay among macrophage polarization, cucurbitacin I, and heme oxygenase-1, thereby opening new avenues for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2023

184. Mesenchymal Stem Cell Microvesicles from Adipose Tissue: Unraveling Their Impact on Primary Ovarian Cancer Cells and Their Therapeutic Opportunities.

Author

Szyposzynska, Agnieszka, Bielawska-Pohl, Aleksandra, Murawski, Marek, Sozanski, Rafal, Chodaczek, Grzegorz, and Klimczak, Aleksandra

Subjects

*MESENCHYMAL stem cells, *OVARIAN cancer, *CELL death, *CANCER cells, *ADIPOSE tissues, *EXTRACELLULAR vesicles, *CANCER cell culture

Abstract

Mesenchymal stem cells (MSCs) and their derivatives can be promising tools in oncology including ovarian cancer treatment. This study aimed to determine the effect of HATMSC2-MVs (microvesicles derived from human immortalized mesenchymal stem cells of adipose tissue origin) on the fate and behavior of primary ovarian cancer cells. Human primary ovarian cancer (OvCa) cells were isolated from two sources: post-operative tissue of ovarian cancer and ascitic fluid. The phenotype of cells was characterized using flow cytometry, real-time RT-PCR, and immunofluorescence staining. The effect of HATMSC2-MVs on the biological activity of primary cells was analyzed in 2D (proliferation, migration, and cell survival) and 3D (cell survival) models. We demonstrated that HATMSC2-MVs internalized into primary ovarian cancer cells decrease the metabolic activity and induce the cancer cell death and are leading to decreased migratory activity of tumor cells. The results suggests that the anti-cancer effect of HATMSC2-MVs, with high probability, is contributed by the delivery of molecules that induce cell cycle arrest and apoptosis (p21, tumor suppressor p53, executor caspase 3) and proapoptotic regulators (bad, BIM, Fas, FasL, p27, TRAIL-R1, TRAIL-R2), and their presence has been confirmed by apoptotic protein antibody array. In this study, we demonstrate the ability to inhibit primary OvCa cells growth and apoptosis induction after exposure of OvCa cells on HATMSC2-MVs treatment; however, further studies are needed to clarify their anticancer activities. [ABSTRACT FROM AUTHOR]

Published

2023

185. The Tumorigenicity of Breast Cancer Cells Is Reduced upon Treatment with Small Extracellular Vesicles Isolated from Heparin Treated Cell Cultures.

Author

Chen, Yunliang and Scully, Michael

Subjects

*CANCER cell culture, *EXTRACELLULAR vesicles, *BREAST, *CELL cycle proteins, *HEPARIN, *CELL culture, *CANCER cells

Abstract

As a member of the HPSG family, heparin is often used as a specific probe of their role in cell physiology; indeed, we have previously shown a reduction in the tumorigenicity of breast cancer cells when cultured in its presence. However, a partial reversal of the anti-tumorigenic effect occurred when the treated cells were cultured in fresh medium without heparin, which led us to consider whether a more persistent effect could be achieved by treatment of the cells with small extracellular vesicles (sEV) from heparin-treated cells. The tumorigenicity was analyzed using sEV isolated from the culture medium of heparin-treated MCF-7 and MDA-MB231 breast cancer cells (sEV-HT) or from conditioned medium following the termination of treatment (heparin discontinued, sEV-HD). Tumorigenicity was reduced in cells cultured in the presence of sEV-HT compared to that of cells cultured in the presence of sEV from untreated cells (sEV-Ctrl). sEV-HD were also observed to exert an anti-tumorigenic effect on the expression of pro-tumorigenic and cell cycle regulatory proteins, as well as signaling activities when added to fresh cultures of MCF-7 and MDA-MB231 cells. The anti-tumorigenic activity of the heparin-derived sEV may arise from observed changes in the miRNA content or from heparin, which was observed to be bound to the sEV. sEV may constitute a relatively stable reservoir of circulating heparin, allowing heparin activity to persist in the circulation even after therapy has been discontinued. These findings can be considered as a special additional pharmacological characteristic of heparin clinical therapy. [ABSTRACT FROM AUTHOR]

Published

2023

186. Delivery and Transcriptome Assessment of an In Vitro Three-Dimensional Proximal Tubule Model Established by Human Kidney 2 Cells in Clinical Gelatin Sponges.

Author

Hsiao, Hui-Yi, Yen, Tzung-Hai, Wu, Fang-Yu, Cheng, Chao-Min, Liu, Jia-Wei, Fan, Yu-Ting, Huang, Jung-Ju, and Nien, Chung-Yi

Subjects

*GELATIN, *GENE expression profiling, *TRANSCRIPTOMES, *KIDNEY tubules, *CANCER cell culture, *KIDNEYS

Abstract

The high prevalence of kidney diseases and the low identification rate of drug nephrotoxicity in preclinical studies reinforce the need for representative yet feasible renal models. Although in vitro cell-based models utilizing renal proximal tubules are widely used for kidney research, many proximal tubule cell (PTC) lines have been indicated to be less sensitive to nephrotoxins, mainly due to altered expression of transporters under a two-dimensional culture (2D) environment. Here, we selected HK-2 cells to establish a simplified three-dimensional (3D) model using gelatin sponges as scaffolds. In addition to cell viability and morphology, we conducted a comprehensive transcriptome comparison and correlation analysis of 2D and 3D cultured HK-2 cells to native human PTCs. Our 3D model displayed stable and long-term growth with a tubule-like morphology and demonstrated a more comparable gene expression profile to native human PTCs compared to the 2D model. Many missing or low expressions of major genes involved in PTC transport and metabolic processes were restored, which is crucial for successful nephrotoxicity prediction. Consequently, we established a cost-effective yet more representative model for in vivo PTC studies and presented a comprehensive transcriptome analysis for the systematic characterization of PTC lines. [ABSTRACT FROM AUTHOR]

Published

2023

187. Curcumin inhibits malignant behavior of colorectal cancer cells by regulating M2 polarization of tumor‐associated macrophages and metastasis associated in colon cancer 1 (MACC1) expression.

Author

Ge, Shuke, Sun, Xu, Sang, Limin, Zhang, Min, Yan, Xubo, Ju, Qi, Ma, Xuefeng, and Xu, Meng

Subjects

*COLON cancer, *COLORECTAL cancer, *CANCER cells, *CURCUMIN, *CELL migration, *CANCER cell culture

Abstract

The present study was to investigate the underlying mechanism of the antitumor effect of curcumin in colorectal cancer cells, focusing on the M2 polarization of tumor‐associated macrophages (TAMs). The effect of curcumin on the malignant behavior of colorectal cancer cells was investigated by WST assay for cell growth, and Transwell assay for cell migration/invasion. THP‐1 cells were differentiated into macrophages and coculture with colorectal cancer cells to study the influence of curcumin on M2 polarization, presenting as the levels of ARG1 mRNA, IL‐10, and CD163‐positive cells. GEO database was searched for the shared altered gene of curcumin in colorectal cells and human monocytes. Molecular docking was used to visualize the binding between curcumin and MACC1. Curcumin restricted the proliferation, apoptosis, and migration/invasion of HCT 116 and SW620 cells. Curcumin attenuated levels of the M2 macrophage markers, CD163 + cells, IL‐10 secretion, and ARG1 mRNA. MACC1 was a target of curcumin in colorectal cancer cells, relating to macrophage. Rescue experiments showed that MACC1 overexpression can reverse the antitumor effect of curcumin in colorectal cancer cells and M2 polarization of TAMs. Curcumin's antiproliferative and anti‐migratory effects in colorectal cancer cells may be mediated by MACC1 and inhibition of M2 polarization of TAMs. [ABSTRACT FROM AUTHOR]

Published

2023

188. Molecular mechanism underlying epithelial‐mesenchymal transformation and cisplatin resistance in esophageal squamous cell carcinoma.

Author

Song, Kewei, Ma, Chenhui, Gu, Baohong, Wang, Bofang, Ma, Huanhuan, Deng, Xiaobo, and Chen, Hao

Subjects

*EVALUATION of medical care, *CANCER cell culture, *DRUG resistance, *HEALTH outcome assessment, *MOLECULAR biology, *EPITHELIAL-mesenchymal transition, *STROMAL cells, *CISPLATIN, *DEATH, *EPITHELIAL cells, *SQUAMOUS cell carcinoma, *ESOPHAGEAL cancer

Abstract

Esophageal cancer (EC) occupies the seventh spot of the most prevalent malignancy cancer ailments worldwide and the sixth leading cause of cancer‐related death. Esophageal squamous cell carcinoma (ESCC) is also the most predominant histological subtype of EC, and cisplatin (DDP) is commonly used as a first‐line chemotherapeutic drug for the late advanced stages of the disease. However, the emergence of drug resistance during clinical treatment possesses a significant challenge to the therapeutic success and patient outcomes. Collectively, the epithelial‐mesenchymal transformation (EMT) is a process in which transcription factors are induced to regulate the expression of epithelial and stromal markers to promote the differentiation of epithelial cells into stromal cells. Recent studies have demonstrated a close association between EMT and chemotherapy resistance in tumor cells, with concrete evidence of reciprocal reinforcement. Therefore, in this review, we elucidate the molecular mechanism underlying ESCC, shed light on the mechanisms driving DDP resistance, and provide insights into the intricate interplay between EMT and ESCC. We have aimed to provide some new hypotheses and perspectives that may address‐inform future therapeutic strategies for ESCC treatment. [ABSTRACT FROM AUTHOR]

Published

2023

189. B7-H4 Further Stratifies Patients With Endometrial Cancer Exhibiting a Nonspecific Molecular Profile.

Author

Liju Zong, Shuangni Yu, Shengwei Mo, Zezheng Sun, Zhaohui Lu, Jie Chen, and Yang Xiang

Subjects

*THERAPEUTIC use of antineoplastic agents, *CANCER cell culture, *GENETIC mutation, *PROGRAMMED death-ligand 1, *IMMUNE checkpoint proteins, *STAINS & staining (Microscopy), *IMMUNOHISTOCHEMISTRY, *MOLECULAR pathology, *CANCER patients, *TUMOR classification, *GENE expression, *ENDOMETRIAL tumors, *SURVIVAL analysis (Biometry), *DESCRIPTIVE statistics, *TUMOR markers, *CELL lines, *DNA polymerases

Abstract

* Context.--Endometrial cancer is classified into 4 molecular subtypes: DNA polymerase epsilon ultramutated, mismatch repair deficient, p53 mutant, and nonspecific molecular profile (NSMP). Additional biomarkers are urgently needed to better characterize the NSMP subtype, the largest group with heterogeneous pathologic features and prognoses. Objective.--To investigate the expression of B7 homolog 3 (B7-H3), B7 homolog 4 (B7-H4), and V-set and immunoglobulin domain containing 3 (VSIG-3, a ligand for B7-H5) in 833 patients with endometrial cancer and determine their associations with clinicopathologic and molecular features as well as survival outcomes. Design.--Molecular classification was determined by polymerase epsilon sequencing and immunohistochemical staining for p53 and mismatch repair proteins. B7-H3, B7-H4, VSIG-3, and programmed death ligand-1 (PD-L1) were detected via immunohistochemistry. Results.--The positivity rates for B7-H3 in each of the tumor and immune cells, B7-H4 (exclusively in tumor cells), and VSIG-3 (exclusively in tumor cells) were 89.0%, 42.3%, 71.5%, and 99.8%, respectively. B7-H3 and B7-H4 positivity in tumor cells was associated with favorable pathologic features and prognosis. In contrast, B7-H3 expression in immune cells was frequent in samples with unfavorable pathologic features; those with p53-mutant subtype, PD-L1 positivity, and a high density of CD8+ T cells; and in patients with poor prognoses. Positive B7-H4 expression was a predictor of improved survival in patients with the NSMP subtype independent of tumor stage or pathologic features. Conclusions.--The NSMP subgroup of endometrial cancer can be further stratified by B7-H4 status. Incorporating B7-H4 status into the molecular classification of NSMP could improve the ability to predict disease relapse. [ABSTRACT FROM AUTHOR]

Published

2023

190. Phytochemical Profile and Biological Activities of Extracts Obtained from Young Shoots of Blackcurrant (Ribes nigrum L.), European Blueberry (Vaccinium myrtillus L.), and Mountain Cranberry (Vaccinium vitis-idaea L.).

Author

Solcan, Maria-Beatrice, Fizeșan, Ionel, Vlase, Laurian, Vlase, Ana-Maria, Rusu, Marius Emil, Mateș, Letiția, Petru, Andreea-Elena, Creștin, Ionuț-Valentin, Tomuțǎ, Ioan, and Popa, Daniela-Saveta

Subjects

BILBERRY, VACCINIUM, CRANBERRIES, BOTANICAL chemistry, CHLOROGENIC acid, CANCER cell culture, EXTRACTION techniques, BIOACTIVE compounds

Abstract

This study explores the bioactive potential of young shoots from blackcurrant, European blueberry, and mountain cranberry, widely employed in gemmotherapy and phytotherapy, as rich sources of antioxidants, antimicrobial agents, and anti-inflammatory components. The primary aims of this study were to enhance the extraction conditions for bioactive compounds from blackcurrant young shoots using Modde software for experimental design, to conduct a comprehensive phytochemical analysis of blackcurrant, European blueberry, and mountain cranberry young shoot extracts through LC–MS analysis, and to evaluate the in vitro biological activities of these optimized extracts. The experimental design comprised multiple variables: extraction techniques, solvent type, extraction time, apparent pH, and the solvent-to-vegetal product ratio. The responses included total phenolic content, total flavonoid content, condensed tannin content, and total antioxidant activity determined through the DPPH assay. Furthermore, the antioxidant potential of the extracts was validated through in vitro cell culture experiments, in addition to the cytotoxicity assessments conducted on both normal and cancer cell lines. Extracts obtained through Ultra-Turrax extraction using 70% acetone displayed high levels of polyphenolic compounds and enhanced antioxidant potential, regardless of young shoots origin. LC–MS analysis revealed the predominant occurrence of chlorogenic acid, hyperoside, and isoquercitrin in all examined samples. The optimized extracts also displayed significant biological potential when evaluated in vitro on cell lines. These results provide valuable insights into the potent bioactive components present in these young shoot extracts, paving the way for further exploration in therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2023

191. CYTOTOXICITY AND ANTITUMOR ACTIVITY OF SESQUITERPENE LACTONES. STRUCTURE, ACTIVITY.

Author

Adekenov, Sergazy, Maslova, Olga, Iskakova, Zhanar, and Doskaliyev, Aidos

Subjects

ANTINEOPLASTIC agents, SESQUITERPENE lactones, STRUCTURE-activity relationship in pharmacology, CELL-mediated cytotoxicity, CANCER cell culture

Abstract

The article discusses the results of screening 19 samples of sesquiterpene γ-lactones argolide, grosheimin, estafiatin, and their derivatives for cytotoxicity and antitumor activity. The research results indicate significant cytotoxicity and selectivity of the action of sesquiterpene γ-lactones and their derivatives against most tumour cell lines. The aim. The aim of this study is to study the cytotoxicity and antitumor activity of the sesquiterpene γ-lactones argolide, grosheimin, estafiatin and their chemically modified derivatives as practically renewable materials. Methods. The cytotoxicity of the compounds was determined using vero cells, THP-1, Pliss lymphosarcoma cell lines, Walker carcinosarcoma, sarcoma 45, sarcoma-180, alveolar liver cancer PC-1, P-388 leukemia, L-1210 leukemia, and sarcoma 45-resistant to 5-fluorouracil. The antitumor activity of the samples was studied in vivo experiments on white outbred rats with transplanted tumour strains and was assessed by inhibition of tumour growth and the magnitude of the increase in average life expectancy. Statistical processing of the results was carried out using the program "GraphPad Prism v. 6.0» (GraphPad Software Inc., USA). Conclusion. When determining cytotoxicity in vitro samples of the sesquiterpene γ-lactones argolide, grosheimin and estafiatin showed selectivity of their action on cells of 8 tumor lines, on cells of human acute monocytic leukemia THP-1 and in relation to the larvae of sea crustaceans Artemia salina (Leach) . Samples of argolide, 8-acetylgrosheimin, 13-morpholinogrosheimin, 3-keto-4-methylene-cis-guaianolide, 3α-acetoxyisozaluzanin C, and 10α(14)-epoxy-1,5,7α,4,6β(H)-guai-11(13)-ene-4(3),6(12)-diolide in experiments in vivo possessed high antitumor activity against transplantable tumor strains of Pliss lymphosarcoma, Walker carcinosarcoma, sarcoma 45, sarcoma 37, sarcoma 180, alveolar liver cancer PC-1, leukemia P-388 and L-1210, sarcoma 45, resistant to 5-fluorouracil. [ABSTRACT FROM AUTHOR]

Published

2023

192. Assessing the Therapeutic Efficacy of Proton Transport Inhibitors in a Triple-Negative Breast Cancer Murine Model with Magnetic Resonance Imaging—Chemical Exchange Saturation Transfer Tumor pH Imaging.

Author

Dhakan, Chetan, Anemone, Annasofia, Ventura, Vittoria, Carella, Antonella, Corrado, Alessia, Pirotta, Elisa, Villano, Daisy, Romdhane, Feriel, Gammaraccio, Francesco, Aime, Silvio, and Longo, Dario Livio

Subjects

TRIPLE-negative breast cancer, MAGNETIZATION transfer, MAGNETIC resonance imaging, TREATMENT effectiveness, CANCER cell culture, BREAST, RADIOACTIVE tracers, PROTONS

Abstract

Proton transporters play a key role in maintaining the acidic tumor microenvironment; hence, their inhibition has been proposed as a new therapeutic treatment, although few methods can accurately assess their effect in vivo. In this study, we investigated whether MRI-CEST (Magnetic Resonance Imaging—Chemical Exchange Saturation Transfer) tumor pH imaging can be a useful tool to evaluate in vivo the therapeutic efficacy of several Proton Pump Inhibitors (PPIs) in breast cancer. Cell viability and extracellular pH assays were carried out in breast cancer cells cultured at physiological pH (7.4) or acid-adapted (pH of 6.5 and 6.8) following the exposure to inhibitors of V-ATPase (Lansoprazole, Esomeprazole) or NHE1 (Amiloride, Cariporide) at several concentrations. Next, triple-negative breast cancer 4T1 tumor-bearing mice were treated with Lansoprazole or Amiloride and MRI-CEST tumor pH imaging was utilized to assess the in vivo efficacy. Only Lansoprazole induced, in addition to breast cancer cell toxicity, a significant inhibition of proton extrusion. A significant reduction in tumor volume, prolonged survival, and increase in extracellular tumor pH after 1 and 2 weeks were observed after Lansoprazole treatment, whereas no significant changes were detected upon Amiloride treatment. Our results suggested that MRI-CEST tumor pH imaging can monitor the therapeutic efficacy of PPIs in breast cancer murine models. [ABSTRACT FROM AUTHOR]

Published

2023

193. Ultra‐Rapid and Specific Gelation of Collagen Molecules for Transparent and Tough Gels by Transition Metal Complexation.

Author

Suezawa, Tomoyuki, Sasaki, Naoko, Yukawa, Yuichi, Assan, Nazgul, Uetake, Yuta, Onuma, Kunishige, Kamada, Rino, Tomioka, Daisuke, Sakurai, Hidehiro, Katayama, Ryohei, Inoue, Masahiro, and Matsusaki, Michiya

Subjects

*TRANSITION metals, *GELATION, *CANCER cell culture, *COLLAGEN, *TRANSITION metal ions, *CELL culture

Abstract

Collagen is the most abundant protein in the human body and one of the main components of stromal tissues in tumors which have a high elastic modulus of over 50 kPa. Although collagen has been widely used as a cell culture scaffold for cancer cells, there have been limitations when attempting to fabricate a tough collagen gel with cells like a cancer stroma. Here, rapid gelation of a collagen solution within a few minutes by transition metal complexation is demonstrated. Type I collagen solution at neutral pH shows rapid gelation with a transparency of 81% and a high modulus of 1,781 kPa by mixing with K2PtCl4 solution within 3 min. Other transition metal ions also show the same rapid gelation, but not basic metal ions. Interestingly, although type I to IV collagen molecules show rapid gelation, other extracellular matrices do not exhibit this phenomenon. Live imaging of colon cancer organoids in 3D culture indicates a collective migration property with modulating high elastic modulus, suggesting activation for metastasis progress. This technology will be useful as a new class of 3D culture for cells and organoids due to its facility for deep‐live observation and mechanical stiffness adjustment. [ABSTRACT FROM AUTHOR]

Published

2023

194. Regulation of dermal fibroblasts by human neutrophil peptides.

Author

Niwetbowornchai, Nattarika, Chaisirirat, Thanawat, Sriswasdi, Sira, Saithong, Supichcha, Filbertine, Grace, Wright, Helen L., Edwards, Steven W., Virakul, Sita, and Chiewchengchol, Direkrit

Subjects

*GENE expression, *FIBROBLASTS, *NEUTROPHILS, *GENETIC regulation, *PEPTIDES, *CELL culture, *CANCER cell culture

Abstract

Human neutrophil peptides (HNPs) can induce cell proliferation and activation so their growth promoting activities may have potential clinical benefit. This study investigated the effects of HNPs on human dermal fibroblasts. Differential gene expression in HNP-treated cells and genes involved in regulating intracellular pathways were explored. Dermal fibroblasts were isolated from healthy neonatal foreskin and treated with HNPs in 2D and 3D cell culture systems. The expression of cell proliferation (Ki-67) gene and cell activation (COL1A1) gene plus their proteins was measured. Differential gene expression was determined using RNA-seq, and upregulated and downregulated genes were mapped onto intracellular pathways by KEGG analysis and Gene Ontology databases. HNPs significantly increased cell proliferation without cytotoxicity whilst HNP1 enhanced expression of COL1A1 and type I collagen production in 2D cells and 3D spheroids. RNA-sequencing analysis showed gene clustering with clear separation between HNP1-treated and control groups. A heatmap of top 50 differentially expressed genes was consistent among HNP1-treated samples. Most upregulated genes were associated with cell proliferation and activation as mapped into intracellular pathways whilst most downregulated genes belonged to steroid/arachidonic acid metabolism and inflammatory signaling pathways. HNP1 increased cell proliferation and activation but reduced lipid metabolism and inflammation. [ABSTRACT FROM AUTHOR]

Published

2023

195. Targeting the Heterogeneous Tumour-Associated Macrophages in Hepatocellular Carcinoma.

Author

Agirre-Lizaso, Aloña, Huici-Izagirre, Maider, Urretabizkaia-Garmendia, Josu, Rodrigues, Pedro M., Banales, Jesus M., and Perugorria, Maria J.

Subjects

*CANCER cell culture, *NATURAL immunity, *DISEASE progression, *MACROPHAGES, *HEPATOCELLULAR carcinoma, *IMMUNOTHERAPY

Abstract

Simple Summary: Hepatocellular carcinoma (HCC) is a highly lethal disease with an increasing incidence. Despite the advancements in diagnosis and recent therapeutic options, improving the prognosis of HCC patients remains challenging. One of the reasons of the unsatisfactory outcome of patients with HCC is the complex tumour microenvironment (TME), which is composed of immune and stromal cells, limiting effective treatments. Recent research has highlighted the importance of macrophages in the development and progression of HCC, opening new possibilities for therapy. This review focuses on the heterogeneity of tumour-associated macrophages (TAMs) in HCC, the mechanisms through which HCC tumour cells polarize macrophages, and the therapeutic targets that are currently being tested to explore novel therapies that can improve the prognosis and quality of life of HCC patients. Hepatocellular carcinoma (HCC) is a prevalent and aggressive cancer that comprises a complex tumour microenvironment (TME). Tumour-associated macrophages (TAMs) are one of the most abundant immune cells present in the TME, and play a key role both in the development and in the progression of HCC. Thus, TAM-based immunotherapy has been presented as a promising strategy to complement the currently available therapies for HCC treatment. Among the novel approaches focusing on TAMs, reprogramming their functional state has emerged as a promising option for targeting TAMs as an immunotherapy in combination with the currently available treatment options. Nevertheless, a further understanding of the immunobiology of TAMs is still required. This review synthesizes current insights into the heterogeneous nature of TAMs in HCC and describes the mechanisms behind their pro-tumoural polarization focusing the attention on their interaction with HCC cells. Furthermore, this review underscores the potential involvement of TAMs' reprogramming in HCC therapy and highlights the urgency of advancing our understanding of these cells within the dynamic landscape of HCC. [ABSTRACT FROM AUTHOR]

Published

2023

196. Oxaliplatin Enhances the Apoptotic Effect of Mesenchymal Stem Cells, Delivering Soluble TRAIL in Chemoresistant Colorectal Cancer.

Author

Quiroz-Reyes, Adriana G, Delgado-González, Paulina, Islas, José F., Soto-Domínguez, Adolfo, González-Villarreal, Carlos A., Padilla-Rivas, Gerardo R., and Garza-Treviño, Elsa N.

Subjects

*MESENCHYMAL stem cells, *COLORECTAL cancer, *CELL death, *TRAIL protein, *CANCER stem cells, *DEATH receptors, *BCL genes, *CANCER cell culture

Abstract

A key problem in colorectal cancer (CRC) is the development of resistance to current therapies due to the presence of cancer stem cells (CSC), which leads to poor prognosis. Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a protein that activates apoptosis in cancer cells through union with TRAIL death receptors. Cell therapies as delivery systems can produce soluble TRAIL (sTRAIL) and full-length TRAIL (flTRAIL), showing a high capacity to produce apoptosis in vitro and in vivo assays. However, the apoptotic activity of TRAIL as monotherapy had limitations, so it is important to explore other ways to enhance susceptibility to TRAIL. This study evaluated the cytotoxic and proapoptotic activity of soluble TRAIL overexpressed by mesenchymal stem cells (MSC) in an oxaliplatin-resistant CRC cell line. Bone marrow-MSC were lentiviral transduced for soluble TRAIL expression. DR5 death receptor expression was determined in Caco-2 and CMT-93 CRC cell lines. Sensitivity to first-line chemotherapies and recombinant TRAIL was evaluated by half-maximal inhibitory concentrations. Cytotoxic and proapoptotic activity of soluble TRAIL-MSC alone and combined with chemotherapy pre-treatment was evaluated using co-cultures. Caco-2 and CMT-93 cell lines expressed 59.08 ± 5.071 and 51.65 ± 11.99 of DR5 receptor and had IC50 of 534.15 ng/mL and 581.34 ng/mL for recombinant murine TRAIL (rmTRAIL), respectively. This finding was classified as moderate resistance to TRAIL. The Caco-2 cell line showed resistance to oxaliplatin and irinotecan. MSC successfully overexpressed soluble TRAIL and induced cancer cell death at a 1:6 ratio in co-culture. Oxaliplatin pre-treatment in the Caco-2 cell line increased the cell death percentage (50%) and apoptosis by sTRAIL. This finding was statistically different from the negative control (p < 0.05), and activity was even higher with the oxaliplatin–flTRAIL combination. Thus, oxaliplatin increases apoptotic activity induced by soluble TRAIL in a chemoresistant CRC cell line. [ABSTRACT FROM AUTHOR]

Published

2023

197. Genotoxicity assessment of eight nitrosamines using 2D and 3D HepaRG cell models.

Author

Seo, Ji-Eun, Yu, Joshua Z., Xu, Hannah, Li, Xilin, Atrakchi, Aisar H., McGovern, Timothy J., Bruno, Karen L. Davis, Mei, Nan, Heflich, Robert H., and Guo, Xiaoqing

Subjects

*GENETIC toxicology, *NITROSOAMINES, *CANCER cell culture, *BIOTRANSFORMATION (Metabolism), *DNA damage, *CELL culture, *CYTOCHROMES

Abstract

N-nitrosamine impurities have been increasingly detected in human drugs. This is a safety concern as many nitrosamines are mutagenic in bacteria and carcinogenic in rodent models. Typically, the mutagenic and carcinogenic activity of nitrosamines requires metabolic activation by cytochromes P450 enzymes (CYPs), which in many in vitro models are supplied exogenously using rodent liver homogenates. There are only limited data on the genotoxicity of nitrosamines in human cell systems. In this study, we used metabolically competent human HepaRG cells, whose metabolic capability is comparable to that of primary human hepatocytes, to evaluate the genotoxicity of eight nitrosamines [N-cyclopentyl-4-nitrosopiperazine (CPNP), N-nitrosodibutylamine (NDBA), N-nitrosodiethylamine (NDEA), N-nitrosodimethylamine (NDMA), N-nitrosodiisopropylamine (NDIPA), N-nitrosoethylisopropylamine (NEIPA), N-nitroso-N-methyl-4-aminobutyric acid (NMBA), and N-nitrosomethylphenylamine (NMPA)]. Under the conditions we used to culture HepaRG cells, three-dimensional (3D) spheroids possessed higher levels of CYP activity compared to 2D monolayer cells; thus the genotoxicity of the eight nitrosamines was investigated using 3D HepaRG spheroids in addition to more conventional 2D cultures. Genotoxicity was assessed as DNA damage using the high-throughput CometChip assay and as aneugenicity/clastogenicity in the flow-cytometry-based micronucleus (MN) assay. Following a 24-h treatment, all the nitrosamines induced DNA damage in 3D spheroids, while only three nitrosamines, NDBA, NDEA, and NDMA, produced positive responses in 2D HepaRG cells. In addition, these three nitrosamines also caused significant increases in MN frequency in both 2D and 3D HepaRG models, while NMBA and NMPA were positive only in the 3D HepaRG MN assay. Overall, our results indicate that HepaRG spheroids may provide a sensitive, human-based cell system for evaluating the genotoxicity of nitrosamines. [ABSTRACT FROM AUTHOR]

Published

2023

198. Genetic and Functional Modifications Associated with Ovarian Cancer Cell Aggregation and Limited Culture Conditions.

Author

Grieco, Joseph P., Compton, Stephanie L. E., Davis, Grace N., Guinan, Jack, and Schmelz, Eva M.

Subjects

*CELL aggregation, *OVARIAN cancer, *CANCER cell culture, *CANCER cells, *REGULATOR genes, *REACTIVE oxygen species

Abstract

The aggregation of cancer cells provides a survival signal for disseminating cancer cells; however, the underlying molecular mechanisms have yet to be elucidated. Using qPCR gene arrays, this study investigated the changes in cancer-specific genes as well as genes regulating mitochondrial quality control, metabolism, and oxidative stress in response to aggregation and hypoxia in our progressive ovarian cancer models representing slow- and fast-developing ovarian cancer. Aggregation increased the expression of anti-apoptotic, stemness, epithelial-mesenchymal transition (EMT), angiogenic, mitophagic, and reactive oxygen species (ROS) scavenging genes and functions, and decreased proliferation, apoptosis, metabolism, and mitochondrial content genes and functions. The incorporation of stromal vascular cells (SVF) from obese mice into the spheroids increased DNA repair and telomere regulatory genes that may represent a link between obesity and ovarian cancer risk. While glucose had no effect, glutamine was essential for aggregation and supported proliferation of the spheroid. In contrast, low glucose and hypoxic culture conditions delayed adhesion and outgrowth capacity of the spheroids independent of their phenotype, decreased mitochondrial mass and polarity, and induced a shift of mitochondrial dynamics towards mitophagy. However, these conditions did not reduce the appearance of polarized mitochondria at adhesion sites, suggesting that adhesion signals that either reversed mitochondrial fragmentation or induced mitobiogenesis can override the impact of low glucose and oxygen levels. Thus, the plasticity of the spheroids' phenotype supports viability during dissemination, allows for the adaptation to changing conditions such as oxygen and nutrient availability. This may be critical for the development of an aggressive cancer phenotype and, therefore, could represent druggable targets for clinical interventions. [ABSTRACT FROM AUTHOR]

Published

2023

199. Antiangiogenic Action of JZL184 on Endothelial Cells via Inhibition of VEGF Expression in Hypoxic Lung Cancer Cells.

Author

Wittig, Felix, Pannenberg, Liza, Schwarz, Rico, Bekeschus, Sander, Ramer, Robert, and Hinz, Burkhard

Subjects

*CANNABINOID receptors, *CANCER cells, *CANCER cell culture, *HYPOXIA-inducible factor 1, *LUNG cancer, *ENDOTHELIAL cells, *VASCULAR endothelial growth factors

Abstract

JZL184, an inhibitor of monoacylglycerol lipase (MAGL) and thus of the degradation of the endocannabinoid 2-arachidonoylglycerol (2-AG), mediates various anticancer effects in preclinical studies. However, studies on the effect of this or other MAGL inhibitors under hypoxia, an important factor in tumor biology and response to cancer therapy, have not yet been performed in cancer cells. In the present study, the impact of the conditioned media (CM) of A549 and H358 lung cancer cells incubated with JZL184 under hypoxic conditions on the angiogenic properties of human umbilical vein endothelial cells (HUVECs) was investigated. Treatment of HUVECs with CM derived from cancer cells cultured for 48 h under hypoxic conditions was associated with a substantial increase in migration and tube formation compared with unconditioned medium, which was inhibited when cancer cells were incubated with JZL184. In this process, JZL184 led to a significant increase in 2-AG levels in both cell lines. Analysis of a panel of proangiogenic factors revealed inhibition of hypoxia-induced vascular endothelial growth factor (VEGF) expression by JZL184. Antiangiogenic and VEGF-lowering effects were also demonstrated for the MAGL inhibitor MJN110. Receptor antagonist experiments suggest partial involvement of the cannabinoid receptors CB1 and CB2 in the antiangiogenic and VEGF-lowering effects induced by JZL184. The functional importance of VEGF for angiogenesis in the selected system is supported by observations showing inhibition of VEGF receptor 2 (VEGFR2) phosphorylation in HUVECs by CM from hypoxic cancer cells treated with JZL184 or when hypoxic cancer cell-derived CM was spiked with a neutralizing VEGF antibody. On the other hand, JZL184 did not exert a direct effect on VEGFR2 activation induced by recombinant VEGF, so there seems to be no downstream effect on already released VEGF. In conclusion, these results reveal a novel mechanism of antiangiogenic action of JZL184 under conditions of hypoxic tumor–endothelial communication. [ABSTRACT FROM AUTHOR]

Published

2023

200. Significance of cell culture phases for utilizing 3D cultures of A549 cells for in vitro studies.

Author

N.G., Swethaa and Ravi, Maddaly

Subjects

*CELL culture, *CANCER cell culture, *CELL lines, *DRUG use testing, *CELL physiology, *IN vitro studies

Abstract

Three‐dimensional (3D) culture systems of human cancer cell lines have become popular experimental models for a variety of applications including drug screening. It is understood that the 2D and 3D cultures of the same cell line behave differently in several aspects. One such difference is in the duration of cell culture phases (the lag, log, plateau and the decline stages). We obtained 3D cultures of A549 cells on agarose hydrogels. We observed and compared the morphological differences in the progression of 2D and 3D cultures of A549 cells in a time‐dependent manner. The morphological features along with the cell counts and viabilities obtained for the 2D and 3D cultures at different time intervals clearly indicate that the cell culture phases occurred as more extended one for the 3D cultures compared to that of the 2D counterparts. The plateau stage for the 2D and 3D cultures occurred at 48 and 69 h, respectively. Such cell culture phase durations can be different for different cell lines as a function of their doubling times. We propose that the cell culture phase durations for any cell line should be first established before using them for drug testing or for studies involving toxicity to obtain useful results from 3D cell cultures. Also, we propose that the late‐exponential (lag) phase of 3D cultures of cancer cell lines is the most ideal one for drug testing owing to the various optimal features of the aggregates in this cell culture phase. [ABSTRACT FROM AUTHOR]

Published

2023