Your search keyword '"spheroid"' showing total 559 results

1. Three-dimensional culture of human proximal tubular epithelial cells for an in vitro evaluation of drug-induced kidney injury.

Author

Arakawa, Hiroshi, Higuchi, Daichi, Takahashi, Etsushi, Matsushita, Kohei, Nedachi, Shiho, Peng, Hanwei, Kadoguchi, Moeno, Morimura, Kaoru, Araki, Ayano, Kondo, Masayuki, Ishiguro, Naoki, Jimbo, Yoichi, and Tamai, Ikumi

Abstract

• Renal proximal tubular epithelial cells (RPTECs) are the main targets of drug-induced kidney injury; however, no useful evaluation system is currently available. • We evaluated kidney injuries induced by 32 nephrotoxic drugs for up to 28 days using three-dimensional cultured RPTECs (3D-RPTECs) with enhanced expression of drug transporters. • The predictive performance of 3D-RPTECs for drug-induced kidney injury was better than conventional 2D-cultured RPTECs and HK-2 cells. • 3D-RPTECs are useful for in vitro evaluation of RPTEC injury by measuring intracellular ATP levels. Drug-induced kidney injury (DIKI) is the major cause of acute kidney injury (AKI). Renal proximal tubular epithelial cells (RPTECs) are the primary target sites of DIKI and express transporters involved in renal drug disposition. In the present study, we focused on three-dimensionally cultured human RPTECs (3D-RPTECs) with elevated expression of drug transporters to investigate their utility in DIKI evaluation. Intracellular ATP levels in 3D-RPTECs are reduced by tenofovir and cisplatin that are substrates of an organic anion transporter 1 and an organic cation transporter 2, respectively. In addition, 3D-RPTECs were exposed to 17 and 15 drugs that are positive and negative to RPTEC toxicity, respectively, for up to 28 d. The 20 % decreasing concentration of drugs for ATP amount (EC 20) was obtained, and the ratio of EC 20 values and clinical maximum concentration (C max) ≤100 were used as cut-off value to evaluate potential of DIKI. The sensitivities of 3D-RPTECs were 82.4 % and 88.2 % after 7 d and 28 d of drug exposure, respectively, and the specificities were 100 % and 93.3 %, respectively. The predictive performance of 3D-RPTECs was higher than that of two-dimensional cultured RPTECs and the kidney cell line HK-2. In conclusion, 3D-RPTECs are useful for in vitro evaluation of RPTEC injury by measuring intracellular ATP levels. [ABSTRACT FROM AUTHOR]

Published

2024

2. 3D spheroids versus 2D-cultured human adipose stem cells to generate smooth muscle cells in an internal anal sphincter-targeting cryoinjured mouse model.

Author

Son, Iltae, Kim, Minsung, Lee, Ji-Seon, Yoon, Dogeon, Kim, You-Rin, Park, Ji Hye, Oh, Bo-Young, Chun, Wook, and Kang, Sung-Bum

Subjects

*HUMAN stem cells, *FECAL incontinence, *MUSCLE cells, *INTEGRAL domains, *GENE expression

Abstract

Background: The efficacy of cell implantation via 3D-spheroids to treat basal tone in fecal incontinence remains unclear. To address this, in this study, we aimed to identify cell differentiation and assess the development of a contractile phenotype corresponding to smooth muscle cells (SMCs) following implantation of 3D-spheroid and 2D-cultured human adipose stem cells (hASCs) in an in vivo internal anal sphincter (IAS)-targeted mouse model. Methods: We developed an IAS-targeted in vivo model via rapid freezing (at − 196 °C) of the dorsal layers of the region of interest (ROI) of the IAS ring posterior quarter, between the submucosal and muscular layers, following submucosal dissection (n = 60 rats). After implantation of tetramethylindocarbocyanine perchlorate (Dil)-stained 3D and 2D-cells into randomly allocated cryoinjured rats, the entire sphincter ring or only the cryoinjured ROI was harvested. Expression of SMC markers, RhoA/ROCKII and its downstream molecules, and fibrosis markers was analyzed. Dil, α-smooth muscle actin (α-SMA), and RhoA signals were used for cell tracking. Results: In vitro, 3D-spheroids exhibited higher levels of SMC markers and RhoA/ROCKII-downstream molecules than 2D-hASCs. The IAS-targeted cryoinjured model exhibited substantial loss of SMC layers of the squamous epithelium lining of the anal canal, as well as reduced expression of SMC markers and RhoA-related downstream molecules. In vivo, 3D-spheroid implantation induced SMC markers and contractile molecules weakly at 1 week. At 2 weeks, the mRNA expression of aSma, Sm22a, Smoothelin, RhoA, Mypt1, Mlc20, Cpi17, and Pp1cd increased, whereas that of fibrosis markers reduced significantly in the 3D-spheroid implanted group compared to those in the sham, non-implanted, and 2D-hASC implanted groups. Protein levels of RhoA, p-MYPT1, and p-MLC20 were higher in the 3D-spheroid-implanted group than in the other groups. At 2 weeks, in the implanted groups, the cryoinjured tissues (which exhibited Dil, α-SMA, and RhoA signals) were restored, while they remained defective in the sham and non-implanted groups. Conclusions: These findings demonstrate that, compared to 2D-cultured hASCs, 3D-spheroids more effectively induce a contractile phenotype that is initially weak but subsequently improves, inducing expression of RhoA/ROCKII-downstream molecules and SMC differentiation associated with IAS basal tone. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enhancing Bone Formation Through bFGF-Loaded Mesenchymal Stromal Cell Spheroids During Fracture Healing in Mice.

Author

Takeda, Kugo, Saito, Hiroki, Shoji, Shintaro, Sekiguchi, Hiroyuki, Matsumoto, Mitsuyoshi, Ujihira, Masanobu, Miyagi, Masayuki, Inoue, Gen, Takaso, Masashi, and Uchida, Kentaro

Subjects

*FIBROBLAST growth factor 2, *BONE growth, *FRACTURE healing, *STROMAL cells, *BINDING site assay

Abstract

This study aimed to evaluate the osteogenic potential of mesenchymal stromal cell (MSC) spheroids combined with the basic fibroblast growth factor (bFGF) in a mouse femur fracture model. To begin, MSC spheroids were generated, and the expression of key trophic factors (bFGF Bmp2, and Vegfa) was assessed using quantitative PCR (qPCR). A binding assay confirmed the interaction between the bFGF and the spheroids' extracellular matrix. The spheroid cultures significantly upregulated bFGF, Bmp2, and Vegfa expression compared to the monolayers (p < 0.001), and the binding assay demonstrated effective bFGF binding to the MSC spheroids. Following these in vitro assessments, the mice were divided into five groups for the in vivo study: (1) no treatment (control), (2) spheroids alone, (3) bFGF alone, (4) bFGF-loaded spheroids (bFGF-spheroids), and (5) non-viable (frozen) bFGF-loaded spheroids (bFGF-dSpheroids). Bone formation was analyzed by a micro-CT, measuring the bone volume (BV) and bone mineral content (BMC) of the mice four weeks post-fracture. A high dose of the bFGF (10 µg) significantly promoted bone formation regardless of the presence of spheroids, as evidenced by the increases in BV (bFGF, p = 0.010; bFGF-spheroids, p = 0.006; bFGF-dSpheroids, p = 0.032) and BMC (bFGF, p = 0.023; bFGF-spheroids, p = 0.004; bFGF-dSpheroids, p = 0.014), compared to the controls. In contrast, a low dose of the bFGF (1 µg) combined with the MSC spheroids significantly increased BV and BMC compared to the control (BV, p = 0.012; BMC, p = 0.015), bFGF alone (BV, p = 0.012; BMC, p = 0.008), and spheroid (BV, p < 0.001; BMC, p < 0.001) groups. A low dose of the bFGF alone did not significantly promote bone formation (p > 0.05). The non-viable (frozen) spheroids loaded with a low dose of the bFGF resulted in a higher BV and BMC compared to the spheroids alone (BV, p = 0.003; BMC, p = 0.017), though the effect was less pronounced than in the viable spheroids. These findings demonstrate the synergistic effect of the bFGF and MSC spheroids on bone regeneration. The increased expression of the BMP-2 and VEGF observed in the initial experiments, coupled with the enhanced bone formation in vivo, highlight the therapeutic potential of this combination. Future studies will aim to elucidate the underlying molecular mechanisms and assess the long-term outcomes for bone repair strategies. [ABSTRACT FROM AUTHOR]

Published

2024

4. MTS, WST-8, and ATP viability assays in 2D and 3D cultures: Comparison of methodologically different assays in primary human chondrocytes.

Author

Martin, Frank, Neubert, Annemarie, Lutter, Anne-Helen, Scholka, Jenny, Hentschel, Erik, Richter, Heiko, and Anderer, Ursula

Subjects

*PHASE-contrast microscopy, *POISONS, *EXPERIMENTAL medicine, *LYSIS, *EXPERIMENTAL toxicology

Abstract

Tissue engineering enables the production of three-dimensional microtissues which mimic naturally occurring conditions in special tissues. These 3D culture systems are particularly suitable for application in regenerative medicine or experimental pharmacology and toxicology. Therefore, it is important to analyse the cells in their 3D microenvironment with regard to viability and differentiation. Tetrazolium assays (WST-8 and MTS) are still the methods of choice for estimating the number of living, metabolically active cells, with WST-8 being cell-impermeable compared to MTS. In contrast to these methods, the ATP assay is an endpoint method based on the luciferase-induced reaction of ATP with luciferin after cell lysis.We compared three methodologically different proliferation/toxicity assays (MTS, WST-8, ATP) in monolayer (2D) and 3D culture systems to improve the technically challenging determination of the number of viable cells.Chondrocytes were isolated from human articular cartilage. Three different test systems (MTS, WST-8, ATP) were applied to monolayer cells (2D, varying cell numbers) and spheroids (3D, different sizes) in 96-well plates. The intracellular ATP concentration was determined by luciferase-induced reaction of ATP with luciferin using a luminometer. Formazan formation was measured spectrophotometrically after different incubation periods. Evaluation was performed by phase contrast microscopy (toxicity), correlation of cell count and ATP concentration or absorption signal (Gompertz function) and propidium iodide (PI) staining to proof the cell lysis of all cells in spheroids.In 2D culture, all three assays showed a good correlation between the number of seeded cells and the ATP concentration or absorption data, whereas the MTS-assay showed the lowest specificity. In 3D culture, the spheroid sizes were directly related to the number of cells seeded. The absorption data of the WST-8 and MTS assay correlated only for certain spheroid size ranges, whereas the MTS-assay showed again the lowest specificity. Only the measured intracellular ATP content showed a linear correlation with all spheroid sizes ranging from 100–1000 μm. The WST-8 assay revealed the second-best sensitivity which allows the measurement of spheroids larger than 240 μm. Phase contrast observation of monolayer cells showed toxic effects of MTS after 6 h incubation and no signs of toxicity of WST-8. Staining with propidium iodide showed complete lysis of all cells in a spheroid in the ATP assay.Among tetrazolium-based assays, WST-8 is preferable to MTS because of its non-toxicity and better sensitivity. When determining the number of viable cells in the 2D system, caution is advised when using the ATP assay because of its two-phase slope of the correlation graph concerning cell number and intracellular ATP. In 3D systems of human chondrocytes, the ATP-assay is superior to the other two test systems, as the correlation graph between cell number and intracellular ATP is biphasic. Since differentiation processes or other metabolic events can influence the results of proliferation and toxicity assays (determination of viable cells), this should be taken into account when using these test systems. [ABSTRACT FROM AUTHOR]

Published

2024

5. تحلیل پاسخ القای الکترومغناطیس کره وار به عنوان مدلی از مهمات منفجر نشده.

Author

مجتبی بابایی

Abstract

Identifying, detecting, classifying and separating unexploded ordnance (UXO) is one of the essential needs of countries and societies that have been involved in war. Marine mines submerged in seawater or buried in land are a common danger in many areas of the world. The majority of mines are composed of metal and explosive materials. There are many non- destructive schemes for detecting the location, orientation and depth of a metallic mine (modeled as a perfectly conducting sphere and spheroid). These methods of exploration of such materials, which are mainly based on geophysical methods, have a special importance and capability in terms of economy and safety. A major challenge of detecting a metallic object is to discriminate the object, such as an unexploded ordnance, from the noisy environment. It takes time and resources to identify the object, especially due to false signals from other metal objects and cultural features such as metal buildings, pipelines, and oil well casings. By measuring the secondary response of an electrically conductive object placed in a low frequency primary magnetic field, distinct spectral characteristics such as electrical conductivity, magnetic permeability, object geometry, and size can be obtained. Being one of the frequency domain methods, the Electromagnetic Induction method (EMI) is an efficient geophysical method that is used to identify land mines and sea mines. This technique takes into account Eddy-Current Response (ECR) induced on the conducting marine mines as well as Current-Channeling Response (CCR) associated with the perturbation of currents induced in the conductive marine environment. In the processing of the data obtained from geophysical surveys, especially in the EMI, such anomalies are modeled with simple geometric objects such as spheres or spheroids. In the first step of data interpretation and to determine the dimensions of the model that indicates the type of mine or bomb and also to determine its location, it is necessary for the interpreter to have a clear view of how the electromagnetic induction response depends on the geometrical and physical parameters of such materials. For this purpose, in this article, the changes and behavior of the received electromagnetic induction response in the receiver coil are investigated according to the depth, dimension and orientation of the abnormality. The graphs obtained are examined and analyzed using the mentioned variables. While qualitatively determining the state of abnormality to a large extent, the obtained results can be useful in numerical methods of calculation of geometrical and physical quantities of anomalies. [ABSTRACT FROM AUTHOR]

Published

2024

6. Spatiotemporal analysis of multi-scale cell structure in spheroid culture reveals hypertrophic chondrocyte differentiation.

Author

Tomida, Kosei, Kim, Jeonghyun, Maeda, Eijiro, Adachi, Taiji, and Matsumoto, Takeo

Subjects

*CELL size, *CELL anatomy, *IMAGE analysis, *THREE-dimensional imaging, *CHROMATIN

Abstract

3D cell culture has emerged as a promising approach to replicate the complex behaviors of cells within living organisms. This study aims to analyze spatiotemporal behavior of the morphological characteristics of cell structure at multiscale in 3D scaffold-free spheroids using chondrogenic progenitor ATDC5 cells. Over a 14-day culture period, it exhibited cell hypertrophy in the spheroids regarding cellular and nuclear size as well as changes in morphology. Moreover, biological analysis indicated a signification up-regulation of normal chondrocyte as well as hypertrophic chondrocyte markers, suggesting early hypertrophic chondrocyte differentiation. Cell nuclei underwent changes in volume, sphericity, and distribution in spheroid over time, indicating alterations in chromatin organization. The ratio of chromatin condensation volume to cell nuclear volume decreased as the cell nuclei enlarged, potentially signifying changes in chromatin state during hypertrophic chondrocyte differentiation. Our image analysis techniques in this present study enabled detailed morphological measurement of cell structure at multi-scale, which can be applied to various 3D culture models for in-depth investigation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Hydrogel‐based and spheroid‐based autologous chondrocyte implantation of the knee show similar 2‐year functional outcomes: An analysis based on the German Cartilage Registry (KnorpelRegister DGOU).

Author

Bumberger, Alexander, Niemeyer, Philipp, Angele, Peter, Wright, Emily K., and Faber, Svea O.

Subjects

*ARTICULAR cartilage, *BODY mass index, *KNEE osteoarthritis, *KNEE injuries, *FUNCTIONAL analysis

Abstract

Purpose: To compare short‐term patient‐reported outcomes (PRO) of two contemporary matrix‐associated autologous chondrocyte implantation (M‐ACI) products for the treatment of large articular cartilage defects of the knee. Methods: A retrospective, registry‐based, matched‐pair analysis was performed, comparing PRO of patients undergoing isolated M‐ACI with either Spherox™, a spheroid‐based ACI (Sb‐ACI), or NOVOCART™ Inject, a hydrogel‐based ACI product (Hb‐ACI), for a focal full‐thickness cartilage defect of the knee ≥4 cm2. Matching parameters included age, sex, body mass index, defect size, defect localization, symptom duration and previous surgeries. The Knee Injury and Osteoarthritis Outcome Score (KOOS) and the International Knee Documentation Committee (IKDC) score were obtained up to the 24‐month follow‐up. The total KOOS response rate and percentage of patients attaining a substantial clinical benefit (SCB) in KOOS subscores were calculated. Results: A total of 45 patients per group were matched. The response rate after 24 months was not significantly different between the groups (Sb‐ACI 64.4% vs. Hb‐ACI 82.2%, p = 0.057). The number of patients with a SCB at 24 months was not significantly different in any KOOS subscore, despite significantly higher improvement of the total KOOS (14.8 ± 16.2 vs. 21.5 ± 15.4, p = 0.047) and KOOS pain in the Hb‐ACI group (12.2 ± 18.6 vs. 20.6 ± 19.1, p = 0.037). The IKDC score in the Hb‐ACI group was significantly higher at the 12‐ and 24‐month follow‐up (60.7 ± 20.2 vs. 70.9 ± 18.0, p = 0.013). Conclusion: The response rate and number of patients achieving an SCB were not significantly different between patients treated with Sb‐ACI or Hb‐ACI. Both procedures can achieve favourable 2‐year PRO. Hb‐ACI was associated with better PRO between 1 and 2 years postoperatively; however, the clinical relevance of this benefit is yet to be proven. Level of Evidence: III, Retrospective comparative study. [ABSTRACT FROM AUTHOR]

Published

2024

8. Targeting tumor-associated macrophages with mannosylated nanotherapeutics delivering TLR7/8 agonist enhances cancer immunotherapy.

Author

Dang, Bao-Toan Nguyen, Duwa, Ramesh, Lee, Sooyeun, Kwon, Taeg Kyu, Chang, Jae-Hoon, Jeong, Jee-Heon, and Yook, Simmyung

Subjects

*CELL culture, *IMMUNOTHERAPY, *MACROPHAGES, *TOLL-like receptors, *T cells, *IMMUNOMODULATORS, *TUMOR growth

Abstract

Tumor-associated macrophages (TAMs) constitute 50–80% of stromal cells in most solid tumors with high mortality and poor prognosis. Tumor-infiltrating dendritic cells (TIDCs) and TAMs are key components mediating immune responses within the tumor microenvironment (TME). Considering their refractory properties, simultaneous remodeling of TAMs and TIDCs is a potential strategy of boosting tumor immunity and restoring immunosurveillance. In this study, mannose-decorated poly(lactic- co -glycolic acid) nanoparticles loading with R848 (Man-pD-PLGA-NP@R848) were prepared to dually target TAMs and TIDCs for efficient tumor immunotherapy. The three-dimensional (3D) cell culture model can simulate tumor growth as influenced by the TME and its 3D structural arrangement. Consequently, cancer spheroids enriched with tumor-associated macrophages (TAMs) were fabricated to assess the therapeutic effectiveness of Man-pD-PLGA-NP@R848. In the TME, Man-pD-PLGA-NP@R848 targeted both TAMs and TIDCs in a mannose receptor-mediated manner. Subsequently, Man-pD-PLGA-NP@R848 released R848 to activate Toll-like receptors 7 and 8, following dual-reprograming of TIDCs and TAMs. Man-pD-PLGA-NP@R848 could uniquely reprogram TAMs into antitumoral phenotypes, decrease angiogenesis, reprogram the immunosuppressive TME from "cold tumor" into "hot tumor", with high CD4+ and CD8+ T cell infiltration, and consequently hinder tumor development in B16F10 tumor-bearing mice. Therefore, dual-reprograming of TIDCs and TAMs with the Man-pD-PLGA-NP@R848 is a promising cancer immunotherapy strategy. [Display omitted] • 3D spheroid (+TAM) models mimic the tumor models in clinical cancer patients. • The more M2-TAMs are in TME, the more macrophages are polarized to M1 phenotype. • Man-pD-PLGA-NP@R848 activates CD4+ and CD8+ T lymphocytes in TILs. • Man-pD-PLGA-NP@R848 stimulates and enhances the tumor-infiltrated cytokines level. • Man-pD-PLGA-NP@R848 as intratumoral immunotherapy to modulate tumor into hot state. [ABSTRACT FROM AUTHOR]

Published

2024

9. OCT1 (SLC22A1) transporter kinetics and regulation in primary human hepatocyte 3D spheroids.

Author

Mickols, Evgeniya, Meyer, Alina, Handin, Niklas, Stüwe, Malin, Eriksson, Jens, Rudfeldt, Jakob, Blom, Kristin, Fryknäs, Mårten, Sellin, Mikael E., Lauschke, Volker M., Karlgren, Maria, and Artursson, Per

Subjects

*ORGANIC cation transporters, *CYTOCHROME P-450 CYP3A, *PEPTIDE mass fingerprinting, *DRUG discovery, *BIOTRANSFORMATION (Metabolism), *BIOCHEMICAL substrates

Abstract

3D spheroids of primary human hepatocytes (3D PHH) retain a differentiated phenotype with largely conserved metabolic function and proteomic fingerprint over weeks in culture. As a result, 3D PHH are gaining importance as a model for mechanistic liver homeostasis studies and in vitro to in vivo extrapolation (IVIVE) in drug discovery. However, the kinetics and regulation of drug transporters have not yet been assessed in 3D PHH. Here, we used organic cation transporter 1 (OCT1/SLC22A1) as a model to study both transport kinetics and the long-term regulation of transporter activity via relevant signalling pathways. The kinetics of the OCT1 transporter was studied using the fluorescent model substrate 4-(4-(dimethylamino)styryl)-N-methylpyridinium (ASP+) and known OCT1 inhibitors in individual 3D PHH. For long-term studies, 3D PHH were treated with xenobiotics for seven days, after which protein expression and OCT1 function were assessed. Global proteomic analysis was used to track hepatic phenotypes as well as prototypical changes in other regulated proteins, such as P-glycoprotein and Cytochrome P450 3A4. ASP+ kinetics indicated a fully functional OCT1 transporter with a Km value of 14 ± 4.0µM as the mean from three donors. Co-incubation with known OCT1 inhibitors decreased the uptake of ASP+ in the 3D PHH spheroids by 35–52%. The long-term exposure studies showed that OCT1 is relatively stable upon activation of nuclear receptor signalling or exposure to compounds that could induce inflammation, steatosis or liver injury. Our results demonstrate that 3D PHH spheroids express physiologically relevant levels of fully active OCT1 and that its transporter kinetics can be accurately studied in the 3D PHH configuration. We also confirm that OCT1 remains stable and functional during the activation of key metabolic pathways that alter the expression and function of other drug transporters and drug-metabolizing enzymes. These results will expand the range of studies that can be performed using 3D PHH. [ABSTRACT FROM AUTHOR]

Published

2024

10. 旋转生物反应器内球形体培养对人胎盘间充质干细胞炎症因子分泌的影响.

Author

张萍萍, 梁婷婷, 范明松, 陈 黎, and 张世昌

Subjects

*STEM cell culture, *MESENCHYMAL stem cells, *PHASE-contrast microscopy, *CELL morphology, *TUMOR necrosis factors, *CELL culture

Abstract

BACKGROUND: Spheroid culture of mesenchymal stem cells in bioreactors is an in vitro culture method to maintain their stemness properties and allow for large-scale expansion. Clarifying its effects on the immunoregulation effect of stem cells is beneficial for their clinical application. OBJECTIVE: To investigate the effects of spheroid culture in a rotating bioreactor on the secretion of inflammatory factors by human placenta-derived mesenchymal stem cells. METHODS: Placenta-derived mesenchymal stem cells isolated from human placenta tissue were cultured in two-dimensional culture or a rotating bioreactor culture. Cell morphology and proliferation ability were observed using inverted phase contrast microscopy, immunohistochemical staining, and CCK-8 assay. The gene expression and protein secretion of several inflammatory factors were detected by RT-qPCR and flow immunofluorescence assay. RESULTS AND CONCLUSION: (1) Mesenchymal stem cells cultured in a rotating bioreactor aggregated into multicellular spheroids, which gradually increased in number and volume. (2) The hematoxylin-eosin staining results showed that the mesenchymal stem cells cultured in the rotating bioreactor for 4 days were evenly distributed and had normal morphology in the spheroids. (3) Immunohistochemical staining results revealed many mesenchymal stem cells with Ki)67 positive in the spheroids. (4) The CCK-8 assay results exhibited that the viability of mesenchymal stem cells derived from spheroid culture was significantly higher than that of cells cultured in two-dimensional culture. (5) The results of RT-qPCR and flow immunofluorescence assay demonstrated that the gene expression and protein secretion (interleukin 1β, interleukin-4, interleukin-6, interleukin-8, interleukin-10, interleukin-17, tumor necrosis factor α and interferon α) of inflammatory factors derived from mesenchymal stem cells cultured in the rotating bioreactor were significantly higher than those in two-dimensional culture. (6) Our results indicate that spheroid culture in a rotating bioreactor can significantly elevate the secretion ability of various inflammatory factors by human placenta-derived mesenchymal stem cells, and enhance the immunoregulatory effect of human placenta-derived mesenchymal stem cells. [ABSTRACT FROM AUTHOR]

Published

2024

11. 3D Cell Culture Method in Channel‐Free Water‐in‐Oil Droplets.

Author

Bae, Seo Jun, Choi, Seung Hui, and Im, Do Jin

Subjects

*CELL culture, *CELL size

Abstract

A new channel‐free water‐in‐oil (WO) droplet 3D cell culture method is proposed to address the challenges while maintaining the advantages of the conventional 3D cell culture methods. The proposed WO method can fundamentally solve the constraint of spheroids size, a common challenge in conventional 3D culture, by using droplet size controllability. The 3D cell culture performance of the WO method is verified by comparing it with the conventional 3D cell culture methods. A systematic investigation of the culture conditions of the WO method confirms the working range of cell concentration and droplet size, as well as the scalability of spheroid size. Adjusting droplet size and cell concentration enables rapid spheroid formation with large and high cell concentration droplets or fast spheroid growth with small and low cell concentration droplets, providing control over the spheroid size and growth rate according to the purpose. Furthermore, long‐term culture is demonstrated for 1 month with the proposed method, showing the largest spheroid culture and demonstrating the possibility that this method can be used not only for spheroid formation but also for organoid studies. Finally, if a WO‐based automated 3D cell culture system is developed, it will be a useful tool for organoid research. [ABSTRACT FROM AUTHOR]

Published

2024

12. Targeting of 3D oral cancer spheroids by αVβ6 integrin using near-infrared peptide-conjugated IRDye 680.

Author

Dirheimer, L., Pons, T., François, A., Lamy, L., Cortese, S., Marchal, F., and Bezdetnaya, L.

Subjects

*ORAL cancer, *INTEGRINS, *CELL populations, *TONGUE cancer, *CADHERINS, *CANCER cells

Abstract

Background: In the treatment of oral cavity cancer, margin status is one of the most critical prognostic factors. Positive margins are associated with higher local recurrence and lower survival rates. Therefore, the universal goal of oral surgical oncology is to achieve microscopically clear margins. Near-infrared fluorescence guided surgery (FGS) could improve surgical resection using fluorescent probes. αVβ6 integrin has shown great potential for cancer targeting due to its overexpression in oral cancers. Red fluorescent contrast agent IRDye 680 coupled with anti-αVβ6 peptide (IRDye-A20) represents an asset to improve FGS of oral cancer. This study investigates the potential of IRDye-A20 as a selective imaging agent in 3D three-dimensional tongue cancer cells. Methods: αVβ6 integrin expression was evaluated by RT-qPCR and Western Blotting in 2D HSC-3 human tongue cancer cells and MRC-5 human fibroblasts. Targeting ability of IRDye-A20 was studied in both cell lines by flow cytometry technique. 3D tumor spheroid models, homotypic (HSC-3) and stroma-enriched heterotypic (HSC-3/MRC-5) spheroids were produced by liquid overlay procedure and further characterized using (immuno)histological and fluorescence-based techniques. IRDye-A20 selectivity was evaluated in each type of spheroids and each cell population. Results: αVβ6 integrin was overexpressed in 2D HSC-3 cancer cells but not in MRC-5 fibroblasts and consistently, only HSC-3 were labelled with IRDye-A20. Round shaped spheroids with an average diameter of 400 μm were produced with a final ratio of 55%/45% between HSC-3 and MRC-5 cells, respectively. Immunofluorescence experiments demonstrated an uniform expression of αVβ6 integrin in homotypic spheroid, while its expression was restricted to cancer cells only in heterotypic spheroid. In stroma-enriched 3D model, Cytokeratin 19 and E-cadherin were expressed only by cancer cells while vimentin and fibronectin were expressed by fibroblasts. Using flow cytometry, we demonstrated that IRDye-A20 labeled the whole homotypic spheroid, while in the heterotypic model all cancer cells were highly fluorescent, with a negligible fluorescence in fibroblasts. Conclusions: The present study demonstrated an efficient selective targeting of A20FMDV2-conjugated IRDye 680 in 3D tongue cancer cells stroma-enriched spheroids. Thus, IRDye-A20 could be a promising candidate for the future development of the fluorescence-guided surgery of oral cancers. [ABSTRACT FROM AUTHOR]

Published

2024

13. Transcriptional Up-Regulation of FBXW7 by K Ca 1.1 K + Channel Inhibition through the Nrf2 Signaling Pathway in Human Prostate Cancer LNCaP Cell Spheroid Model.

Author

Ohya, Susumu, Kito, Hiroaki, Kajikuri, Junko, Yamaguchi, Yohei, and Matsui, Miki

Subjects

*POTASSIUM channels, *CANCER cells, *CANCER stem cells, *CELLULAR signal transduction, *PROSTATE cancer, *TUMOR suppressor genes, *FIDUCIAL markers (Imaging systems)

Abstract

The tumor suppressor gene F-box and WD repeat domain-containing (FBXW) 7 reduces cancer stemness properties by promoting the protein degradation of pluripotent stem cell markers. We recently demonstrated the transcriptional repression of FBXW7 by the three-dimensional (3D) spheroid formation of several cancer cells. In the present study, we found that the transcriptional activity of FBXW7 was promoted by the inhibition of the Ca2+-activated K+ channel, KCa1.1, in a 3D spheroid model of human prostate cancer LNCaP cells through the Akt-Nrf2 signaling pathway. The transcriptional activity of FBXW7 was reduced by the siRNA-mediated inhibition of the CCAAT-enhancer-binding protein C/EBP δ (CEBPD) after the transfection of miR223 mimics in the LNCaP spheroid model, suggesting the transcriptional regulation of FBXW7 through the Akt-Nrf2-CEBPD-miR223 transcriptional axis in the LNCaP spheroid model. Furthermore, the KCa1.1 inhibition-induced activation of FBXW7 reduced (1) KCa1.1 activity and protein levels in the plasma membrane and (2) the protein level of the cancer stem cell (CSC) markers, c-Myc, which is a molecule degraded by FBXW7, in the LNCaP spheroid model, indicating that KCa1.1 inhibition-induced FBXW7 activation suppressed CSC conversion in KCa1.1-positive cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

14. What function(s) for Palaeolithic polyhedrons, spheroids and bolas? Cases from France and North Africa.

Author

Cabanès, Julia, Borel, Antony, Preysler, Javier Baena, Cliquet, Dominique, Colonge, David, and Moncel, Marie-Hélène

Abstract

Polyhedrons, spheroids and bolas (PSBs) have been found in lithic series spanning two million years, but their purpose remains largely unknown. In this study, we propose a functional analysis of PSBs from nine assemblages from France and North Africa, ranging from 1.78 to 0.169 Ma. By combining use-wear, ergonomic and metric analyses with sequential experiments, we explore the meaning and diversity of these objects. Our experiments revealed two key findings: 1) the manufacture process creates intense traces on removal scars used as striking platforms, and 2) the existence of a paradox between the complexity of the manufacture process and their efficiency equal to that of cobbles. This can question the purpose of manufacturing a PSB instead of using a pebble, and may suggest an opportunistic recycling of PSB “preforms” (e.g. pebble tools, cores) in some cases. Our results also suggest that PSBs encompass a wide diversity of pieces with a cubical to rounded final shape. These objects may have been primarily used in heavy-duty tasks, some being possibly involved in different types of percussive activities (active or passive). Interestingly, our analyses suggest that there are similarities between PSBs respectively in South-western Europe and North Africa. By studying PSBs, we can gain insights not only into hominin behaviours, but also into regional traditions and the diffusion of techno-cultural practices during the Palaeolithic. [ABSTRACT FROM AUTHOR]

Published

2024

15. Small Molecules Promote the Rapid Generation of Dental Epithelial Cells from Human-Induced Pluripotent Stem Cells.

Author

Zhu, Ximei, Li, Yue, Dong, Qiannan, Tian, Chunli, Gong, Jing, Bai, Xiaofan, Ruan, Jianping, and Gao, Jianghong

Subjects

*SMALL molecules, *PLURIPOTENT stem cells, *EPITHELIAL cells, *WNT signal transduction, *ECTODERM, *GROWTH factors

Abstract

Human-induced pluripotent stem cells (hiPSCs) offer a promising source for generating dental epithelial (DE) cells. Whereas the existing differentiation protocols were time-consuming and relied heavily on growth factors, herein, we developed a three-step protocol to convert hiPSCs into DE cells in 8 days. In the first phase, hiPSCs were differentiated into non-neural ectoderm using SU5402 (an FGF signaling inhibitor). The second phase involved differentiating non-neural ectoderm into pan-placodal ectoderm and simultaneously inducing the formation of oral ectoderm (OE) using LDN193189 (a BMP signaling inhibitor) and purmorphamine (a SHH signaling activator). In the final phase, OE cells were differentiated into DE through the application of Purmorphamine, XAV939 (a WNT signaling inhibitor), and BMP4. qRT-PCR and immunostaining were performed to examine the expression of lineage-specific markers. ARS staining was performed to evaluate the formation of the mineralization nodule. The expression of PITX2, SP6, and AMBN, the emergence of mineralization nodules, and the enhanced expression of AMBN and AMELX in spheroid culture implied the generation of DE cells. This study delineates the developmental signaling pathways and uses small molecules to streamline the induction of hiPSCs into DE cells. Our findings present a simplified and quicker method for generating DE cells, contributing valuable insights for dental regeneration and dental disease research. [ABSTRACT FROM AUTHOR]

Published

2024

16. Melanocytes in regenerative medicine applications and disease modeling.

Author

Coutant, Kelly, Magne, Brice, Ferland, Karel, Fuentes-Rodriguez, Aurélie, Chancy, Olivier, Mitchell, Andrew, Germain, Lucie, and Landreville, Solange

Subjects

*REGENERATIVE medicine, *MELANOCYTES, *HAIR follicles, *AUDITORY perception, *VISION disorders

Abstract

Melanocytes are dendritic cells localized in skin, eyes, hair follicles, ears, heart and central nervous system. They are characterized by the presence of melanosomes enriched in melanin which are responsible for skin, eye and hair pigmentation. They also have different functions in photoprotection, immunity and sound perception. Melanocyte dysfunction can cause pigmentary disorders, hearing and vision impairments or increased cancer susceptibility. This review focuses on the role of melanocytes in homeostasis and disease, before discussing their potential in regenerative medicine applications, such as for disease modeling, drug testing or therapy development using stem cell technologies, tissue engineering and extracellular vesicles. [ABSTRACT FROM AUTHOR]

Published

2024

17. Improvement of histone deacetylase inhibitor efficacy by SN38 through TWIST1 suppression in synovial sarcoma.

Author

Sasagawa, Satoru, Kumai, Jun, Wakamatsu, Toru, and Yui, Yoshihiro

Subjects

*SYNOVIOMA, *HISTONE deacetylase inhibitors, *SARCOMA, *BIOLOGICAL assay, *HISTONE deacetylase, *FIREFIGHTING

Abstract

Background: Synovial sarcoma (SS) is an SS18‐SSX fusion gene‐driven soft tissue sarcoma with mesenchymal characteristics, associated with a poor prognosis due to frequent metastasis to a distant organ, such as the lung. Histone deacetylase (HDAC) inhibitors (HDACis) are arising as potent molecular targeted drugs, as HDACi treatment disrupts the SS oncoprotein complex, which includes HDACs, in addition to general HDACi effects. To provide further molecular evidence for the advantages of HDACi treatment and its limitations due to drug resistance induced by the microenvironment in SS cells, we examined cellular responses to HDACi treatment in combination with two‐dimensional (2D) and 3D culture conditions. Methods: Using several SS cell lines, biochemical and cell biological assays were performed with romidepsin, an HDAC1/2 selective inhibitor. SN38 was concomitantly used as an ameliorant drug with romidepsin treatment. Cytostasis, apoptosis induction, and MHC class I polypeptide‐related sequence A/B (MICA/B) induction were monitored to evaluate the drug efficacy. In addition to the conventional 2D culture condition, spheroid culture was adopted to evaluate the influence of cell‐mass microenvironment on chemoresistance. Results: By monitoring the cellular behavior with romidepsin and/or SN38 in SS cells, we observed that responsiveness is diverse in each cell line. In the apoptotic inducible cells, co‐treatment with SN38 enhanced cell death. In nonapoptotic inducible cells, cytostasis and MICA/B induction were observed, and SN38 improved MICA/B induction further. As a novel efficacy of SN38, we revealed TWIST1 suppression in SS cells. In the spheroid (3D) condition, romidepsin efficacy was severely restricted in TWIST1‐positive cells. We demonstrated that TWIST1 downregulation restored romidepsin efficacy even in spheroid form, and concomitant SN38 treatment along with romidepsin reproduced the reaction. Conclusions: The current study demonstrated the benefits and concerns of using HDACi for SS treatment in 2D and 3D culture conditions and provided molecular evidence that concomitant treatment with SN38 can overcome drug resistance to HDACi by suppressing TWIST1 expression. [ABSTRACT FROM AUTHOR]

Published

2024

18. Mimicking angiogenic microenvironment of alveolar soft-part sarcoma in a microfluidic coculture vasculature chip.

Author

Surachada Chuaychob, Ruyin Lyu, Miwa Tanaka, Ayumi Haginiwa, Atsuya Kitada, Takuro Nakamura, and Ryuji Yokokawa

Subjects

*BLOOD vessels, *SARCOMA, *YOUNG adults, *TRAFFIC signs & signals, *ENDOTHELIAL cells, *MICROFIBERS

Abstract

Alveolar soft-part sarcoma (ASPS) is a slow-growing soft tissue sarcoma with high mortality rates that affects adolescents and young adults. ASPS resists conventional chemotherapy; thus, decades of research have elucidated pathogenic mechanisms driving the disease, particularly its angiogenic capacities. Integrated blood vessels that are rich in pericytes (PCs) and metastatic potential are distinctive of ASPS. To mimic ASPS angiogenic microenvironment, a microfluidic coculture vasculature chip has been developed as a three-dimensional (3D) spheroid composed of mouse ASPS, a layer of PCs, and endothelial cells (ECs). This ASPS-on-a-chip provided functional and morphological similarity as the in vivo mouse model to elucidate the cellular crosstalk within the tumor vasculature before metastasis. We successfully reproduce ASPS spheroid and leaky vessels representing the unique tumor vasculature to assess effective drug delivery into the core of a solid tumor. Furthermore, this ASPS angiogenesis model enabled us to investigate the role of proteins in the intracellular trafficking of bioactive signals from ASPS to PCs and ECs during angiogenesis, including Rab27a and Sytl2. The results can help to develop drugs targeting the crosstalk between ASPS and the adjacent cells in the tumoral microenvironment. [ABSTRACT FROM AUTHOR]

Published

2024

19. Characterization of oviduct epithelial spheroids for the study of embryo–maternal communication in cattle.

Author

Pranomphon, Thanya, Mahé, Coline, Demattei, Marie-Véronique, Papillier, Pascal, Vitorino Carvalho, Anaïs, Reynaud, Karine, Almiñana, Carmen, Bauersachs, Stefan, Parnpai, Rangsun, Mermillod, Pascal, and Saint-Dizier, Marie

Subjects

*OVIDUCT, *EMBRYONIC physiology, *MINERAL oils, *CATTLE, *CELL suspensions, *BLASTOCYST, *PHYSIOLOGICAL models

Abstract

Most in vitro models of oviduct epithelial cells (OEC) used thus far to gain insights into embryo–maternal communication induce cell dedifferentiation or are technically challenging. Moreover, although the presence of developing embryos has been shown to alter gene expression in OEC, the effect of embryos on OEC physiology remains largely unknown. Here, we propose a model based on bovine oviduct epithelial spheroids (OES) with specific shape and diameter (100–200 μm) criteria. The aims of this study were to i) determine the appropriate culture conditions of bovine OES cultured in suspension by evaluating their morphology, total cell number, viability, and activity of ciliated cells; ii) monitor gene expression in OES at the time of their formation (day 0) and over the 10 days of culture; and iii) test whether the vicinity of developing embryos affects OES quality criteria. On day 10, the proportions of vesicle-shaped OES (V-OES) were higher in M199/500 (500 μl of HEPES-buffered TCM-199) and synthetic oviduct fluid (SOF)/25 (25-μL droplet of SOF medium under mineral oil) than in M199/25 (25-μL droplet of M199 under mineral oil). The proportion of viable cells in V-OES was not affected by culture conditions and remained high (>80%) through day 10. The total number of cells per V-OES decreased over time except in SOF/25, while the proportions of ciliated cells increased over time in M199/500 but decreased in M199/25 and SOF/25. The movement amplitude of OES in suspension decreased over time under all culture conditions. Moreover, the gene expression of ANXA1 , ESR1 , HSPA8 , and HSPA1A in OES remained stable during culture, while that of PGR and OVGP1 decreased from day 0 to day 10. Last, the co-culture of developing embryos with OES in SOF/25 increased the rates of blastocysts on days 7 and 8 compared to embryos cultured alone, and increased the proportion of V-OES compared to OES cultured alone. In conclusion, M199/500 and SOF/25 provided the optimal conditions for the long-time culture of OES. The supporting effect of OES on embryo development and of developing embryos on OES morphology was evidenced for the first time. Altogether, these results point OES as an easy-to-use, standardizable, and physiological model to study embryo–maternal interactions in cattle. • Oviduct epithelial spheroids (OES) were obtained from isthmic mucosa fragments. • Large volume of M199 and droplets of SOF offered good culture conditions for OES. • OES expressed oviduct epithelial cell markers during 10 days in culture. • OES supported embryo development in SOF medium. • Embryo supported OES morphology in SOF medium. [ABSTRACT FROM AUTHOR]

Published

2024

20. In vitro modelling of bacterial pneumonia: a comparative analysis of widely applied complex cell culture models.

Author

Mahieu, Laure, Van Moll, Laurence, De Vooght, Linda, Delputte, Peter, and Cos, Paul

Subjects

*CELL culture, *HUMAN cell culture, *STREPTOCOCCUS pneumoniae, *EVIDENCE gaps, *MYCOBACTERIUM tuberculosis, *COMPARATIVE studies, *PNEUMONIA

Abstract

Bacterial pneumonia greatly contributes to the disease burden and mortality of lower respiratory tract infections among all age groups and risk profiles. Therefore, laboratory modelling of bacterial pneumonia remains important for elucidating the complex host–pathogen interactions and to determine drug efficacy and toxicity. In vitro cell culture enables for the creation of high-throughput, specific disease models in a tightly controlled environment. Advanced human cell culture models specifically, can bridge the research gap between the classical two-dimensional cell models and animal models. This review provides an overview of the current status of the development of complex cellular in vitro models to study bacterial pneumonia infections, with a focus on air–liquid interface models, spheroid, organoid, and lung-on-a-chip models. For the wide scale, comparative literature search, we selected six clinically highly relevant bacteria (Pseudomonas aeruginosa, Mycoplasma pneumoniae, Haemophilus influenzae, Mycobacterium tuberculosis, Streptococcus pneumoniae , and Staphylococcus aureus). We reviewed the cell lines that are commonly used, as well as trends and discrepancies in the methodology, ranging from cell infection parameters to assay read-outs. We also highlighted the importance of model validation and data transparency in guiding the research field towards more complex infection models. [ABSTRACT FROM AUTHOR]

Published

2024

21. Tissue engineering RPE sheet derived from hiPSC-RPE cell spheroids supplemented with Y-27632 and RepSox.

Author

Wang, Wenxuan, Yang, Tingting, Chen, Sihui, Liang, Liying, Wang, Yingxin, Ding, Yin, Xiong, Wei, Ye, Xiuhong, Guo, Yonglong, Shen, Shuhao, Chen, Hang, and Chen, Jiansu

Subjects

*CELL sheets (Biology), *TISSUE engineering, *BIOPRINTING, *INDUCED pluripotent stem cells, *RHODOPSIN, *SMALL molecules

Abstract

Background: Retinal pigment epithelium (RPE) cell therapy is a promising way to treat many retinal diseases. However, obtaining transplantable RPE cells is time-consuming and less effective. This study aimed to develop novel strategies for generating engineered RPE patches with physiological characteristics. Results: Our findings revealed that RPE cells derived from human induced pluripotent stem cells (hiPSCs) successfully self-assembled into spheroids. The RPE spheroids treated with Y27632 and Repsox had increased expression of epithelial markers and RPE-specific genes, along with improved cell viability and barrier function. Transcriptome analysis indicated enhanced cell adhesion and extracellular matrix (ECM) organization in RPE spheroids. These RPE spheroids could be seeded and bioprinted on collagen vitrigel (CV) membranes to construct engineered RPE sheets. Circular RPE patches, obtained by trephining a specific section of the RPE sheet, exhibited abundant microvilli and pigment particles, as well as reduced proliferative capacity and enhanced maturation. Conclusions: Our study suggests that the supplementation of small molecules and 3D spheroid culture, as well as the bioprinting technique, can be effective methods to promote RPE cultivation and construct engineered RPE sheets, which may support future clinical RPE cell therapy and the development of RPE models for research applications. [ABSTRACT FROM AUTHOR]

Published

2024

22. The mannose‐binding protein from Agaricus bisporus inhibits the growth of MDA‐MB‐231 spheroids.

Author

Azzahra, Fauzia, Amalia, Riezki, Karsono, Agung Heru, Tjandrawinata, Raymond Rubianto, Ismaya, Wangsa Tirta, and Rachmawati, Heni

Subjects

*MANNOSE-binding lectins, *CULTIVATED mushroom, *WNT signal transduction, *CELL morphology, *CELL proliferation, *CELL growth

Abstract

A mannose‐binding protein from the mushroom Agaricus bisporus (Abmb) inhibits the growth of MDA‐MB‐231 cells, which is of an aggressive breast cancer subtype. This ability was observed in a monolayer cell (2D) culture setup, which often is unable to capture changes in cell morphology, polarity and division. That shortcoming may overestimate Abmb potency for its development as a pharmaceutical agent and its use in a therapy. Hence, Abmb's inhibition to the cell growth was performed in the 3D cell (spheroid) culture, which is more representative to the situation in vivo. The result showed that, although the presence of Abmb at ~14.7 μM already disrupted the MDA‐MB‐231 cell morphology in the 2D culture, its presence at ~16.5 μM only ceased the growth of the MDA‐MB‐231 spheroid. Further, Abmb is unique because structurally it belongs to the R‐type lectin (RTL) family; most of mannose‐binding protein is of the C‐type lectin (CTL). As the natural ligand of Abmb is unknown thus the mechanism of action is unclear, Abmb effect on the cancer cells was assessed via observation of the altered expression of genes involved in the Wnt/β‐catenin signalling, which is one of the canonical pathways in the proliferation of cancer cells. The results suggested that Abmb did not alter the pathway upon exerting its anti‐proliferative activity to the MDA‐MB‐231 cells. [ABSTRACT FROM AUTHOR]

Published

2024

23. An In Vivo Dual-Observation Method to Monitor Tumor Mass and Tumor-Surface Blood Vessels for Developing Anti-Angiogenesis Agents against Submillimeter Tumors.

Author

Tachibana, Tomoko, Oyama, Tomoko Gowa, Yoshii, Yukie, Hihara, Fukiko, Igarashi, Chika, Shinada, Mitsuhiro, Matsumoto, Hiroki, Higashi, Tatsuya, Kishimoto, Toshihiko, and Taguchi, Mitsumasa

Subjects

*BLOOD vessels, *TUMOR growth, *FLUORESCENCE microscopy, *TUMORS, *DRUG development

Abstract

Managing metastasis at the early stage and detecting and treating submillimeter tumors at early metastasis are crucial for improving cancer prognosis. Angiogenesis is a critical target for developing drugs to detect and inhibit submillimeter tumor growth; however, drug development remains challenging because there are no suitable models for observing the submillimeter tumor mass and the surrounding blood vessels in vivo. We have established a xenograft subcutaneous submillimeter tumor mouse model with HT-29-RFP by transplanting a single spheroid grown on radiation-crosslinked gelatin hydrogel microwells. Here, we developed an in vivo dual-observation method to observe the submillimeter tumor mass and tumor-surface blood vessels using this model. RFP was detected to observe the tumor mass, and a fluorescent angiography agent FITC-dextran was administered to observe blood vessels via stereoscopic fluorescence microscopy. The anti-angiogenesis agent regorafenib was used to confirm the usefulness of this method. This method effectively detected the submillimeter tumor mass and tumor-surface blood vessels in vivo. Regorafenib treatment revealed tumor growth inhibition and angiogenesis downregulation with reduced vascular extremities, segments, and meshes. Further, we confirmed that tumor-surface blood vessel areas monitored using in vivo dual-observation correlated with intratumoral blood vessel areas observed via fluorescence microscopy with frozen sections. In conclusion, this method would be useful in developing anti-angiogenesis agents against submillimeter tumors. [ABSTRACT FROM AUTHOR]

Published

2023

24. Micromorphological observation of HLE cells under knockdown of Fascin using LV-SEM.

Author

Hayashi, Yoshihiro, Yamamoto, Yumiko, and Murakami, Ichiro

Subjects

*CANCER relapse, *CELL adhesion, *HEPATOCELLULAR carcinoma, *LIVER cancer, *TUMOR markers, *SCANNING electron microscopy

Abstract

Liver cancer is one of the most prevalent cancers in Japan with hepatocellular carcinoma (HCC) as the major histological subtype. Successful novel treatments for HCC have been reported; however, recurrences or metastasis may occur, which results in poor prognoses and high mortality of HCC patients. Fascin, an actin-bundling protein, regulates cell adhesion, migration, and invasion. Its overexpression positively correlates with poor prognosis of malignant tumors, and Fascin is considered as one of the tumor biomarkers and therapeutic target proteins. In this study, we attempted to reveal the relationship between Fascin and HCC using HLE, one of the human HCC cell lines. We performed the study with classical immunocytochemistry and recently developed techniques, such as wound-healing assay, spheroid cultivation, and low-vacuum scanning electron microscopy (LV-SEM). Non-Fascin-knockdown (FKD) cell spheroid had a regular spherical appearance with tight cell–cell connections, while FKD cell spheroid had an irregular shape with loose cell–cell connections. Cells of non-FKD spheroid presented fibrous protrusions on the cell surface, contrarily, cells of FKD spheroids showed bulbous-shaped protrusions. Morphological observation of FKD and non-FKD HLE spheroids were performed using LV-SEM. Our study may help to reveal the roles of Fascin in the process of HCC formation and its malignancy. [ABSTRACT FROM AUTHOR]

Published

2023

25. Safety and Feasibility of Intradiscal Administration of Matrilin-3-Primed Adipose-Derived Mesenchymal Stromal Cell Spheroids for Chronic Discogenic Low Back Pain: Phase 1 Clinical Trial.

Author

Lee, Dong Hyun, Park, Kwang-Sook, Shin, Hae Eun, Kim, Sung Bum, Choi, Hyejeong, An, Seong Bae, Choi, Hyemin, Kim, Joo Pyung, and Han, Inbo

Subjects

*CHRONIC pain, *STROMAL cells, *CLINICAL trials, *INTERVERTEBRAL disk, *MAGNETIC resonance imaging

Abstract

Functionally enhanced mesenchymal stromal cells participate in the repair of intervertebral disc. This study aimed to assess the safety and tolerability of intradiscal administration of matrilin-3-primed adipose-derived stromal cell (ASC) spheroids with hyaluronic acid (HA) in patients with chronic discogenic low back pain (LBP). In this single-arm, open-label phase I clinical trial, eight patients with chronic discogenic LBP were observed over 6 months. Each patient underwent a one-time intradiscal injection of 1 mL of 6.0 × 106 cells/disc combined with HA under real-time fluoroscopic guidance. Safety and feasibility were gauged using Visual Analogue Scale (VAS) pain and Oswestry Disability Index (ODI) scores and magnetic resonance imaging. All participants remained in the trial, with no reported adverse events linked to the procedure or stem cells. A successful outcome-marked by a minimum 2-point improvement in the VAS pain score and a 10-point improvement in ODI score from the start were observed in six participants. Although the modified Pfirrmann grade remained consistent across all participants, radiological improvements were evident in four patients. Specifically, two patients exhibited reduced high-intensity zones while another two demonstrated decreased disc protrusion. In conclusion, the intradiscal application of matrilin-3-primed ASC spheroids with HA is a safe and feasible treatment option for chronic discogenic LBP. [ABSTRACT FROM AUTHOR]

Published

2023

26. Satureja bachtiarica Induces Cancer Cell Death in Breast and Glioblastoma Cancer in 2D/3D Models and Suppresses Breast Cancer Stem Cells.

Author

Zavareh, Vajihe Azimian, Gharibi, Shima, Hosseini Rizi, Mahnaz, Nekookar, Abdolhossein, Mirhendi, Hossein, Rahimmalek, Mehdi, and Szumny, Antoni

Subjects

*CANCER stem cells, *CELL death, *CANCER cells, *BREAST cancer, *SAVORY (Herb), *CELL culture, *BREAST

Abstract

Overcoming drug resistance and specifically targeting cancer stem cells (CSCs) are critical challenges in improving cancer therapy. Nowadays, the use of novel and native medicinal plants can provide new sources for further investigations for this purpose. The aim of this study was to assess the potential of S. bachtiarica, an endemic plant with diverse medicinal applications, in suppressing and targeting cancer and cancer stem cells in glioblastoma and breast cancer. The effect of S. bachtiarica on viability, migration, invasion, and clonogenic potential of MDAMB-231 and U87-MG cells was assessed in both two- and three-dimensional cell culture models. Additionally, we evaluated its effects on the self-renewal capacity of mammospheres. The experimental outcomes indicated that S. bachtiarica decreased the viability and growth rate of cells and spheroids by inducing apoptosis and inhibited colony formation, migration, and invasion of cells and spheroids. Additionally, colony and sphere-forming ability, as well as the expression of genes associated with EMT and stemness were reduced in mammospheres treated with S. bachtiarica. In conclusion, this study provided valuable insights into the anti-cancer effects of S. bachtiarica, particularly in relation to breast CSCs. Therefore, S. bachtiarica may be a potential adjuvant for the treatment of cancer. [ABSTRACT FROM AUTHOR]

Published

2023

27. Lactate receptor GPR81 drives breast cancer growth and invasiveness through regulation of ECM properties and Notch ligand DLL4.

Author

Lundø, Kathrine, Dmytriyeva, Oksana, Spøhr, Louise, Goncalves-Alves, Eliana, Yao, Jiayi, Blasco, Laia P., Trauelsen, Mette, Ponniah, Muthulakshmi, Severin, Marc, Sandelin, Albin, Kveiborg, Marie, Schwartz, Thue W., and Pedersen, Stine F.

Subjects

*CANCER invasiveness, *TUMOR growth, *BREAST cancer, *LACTATES, *CANCER cell growth, *EXTRACELLULAR matrix

Abstract

Background: The lactate receptor GPR81 contributes to cancer development through unclear mechanisms. Here, we investigate the roles of GPR81 in three-dimensional (3D) and in vivo growth of breast cancer cells and study the molecular mechanisms involved. Methods: GPR81 was stably knocked down (KD) in MCF-7 human breast cancer cells which were subjected to RNA-seq analysis, 3D growth, in situ- and immunofluorescence analyses, and cell viability- and motility assays, combined with KD of key GPR81-regulated genes. Key findings were additionally studied in other breast cancer cell lines and in mammary epithelial cells. Results: GPR81 was upregulated in multiple human cancer types and further upregulated by extracellular lactate and 3D growth in breast cancer spheroids. GPR81 KD increased spheroid necrosis, reduced invasion and in vivo tumor growth, and altered expression of genes related to GO/KEGG terms extracellular matrix, cell adhesion, and Notch signaling. Single cell in situ analysis of MCF-7 cells revealed that several GPR81-regulated genes were upregulated in the same cell clusters. Notch signaling, particularly the Notch ligand Delta-like-4 (DLL4), was strikingly downregulated upon GPR81 KD, and DLL4 KD elicited spheroid necrosis and inhibited invasion in a manner similar to GPR81 KD. Conclusions: GPR81 supports breast cancer aggressiveness, and in MCF-7 cells, this occurs at least in part via DLL4. Our findings reveal a new GPR81-driven mechanism in breast cancer and substantiate GPR81 as a promising treatment target. [ABSTRACT FROM AUTHOR]

Published

2023

28. Fabrication of a Three-Dimensional Spheroid Culture System for Oral Squamous Cell Carcinomas Using a Microfabricated Device.

Author

Ikeda-Motonakano, Reiko, Hirabayashi-Nishimuta, Fumika, Yada, Naomi, Yamasaki, Ryota, Nagai-Yoshioka, Yoshie, Usui, Michihiko, Nakazawa, Kohji, Yoshiga, Daigo, Yoshioka, Izumi, and Ariyoshi, Wataru

Subjects

*THERAPEUTIC use of antineoplastic agents, *THREE-dimensional imaging, *CELL culture, *MOUTH tumors, *XENOGRAFTS, *ANALYSIS of variance, *ANIMAL experimentation, *CANCER chemotherapy, *GENE expression, *ASSISTIVE technology, *POLYETHYLENE glycol, *RESEARCH funding, *SQUAMOUS cell carcinoma, *MICE

Abstract

Simple Summary: Cancer stem cells (CSCs) retain their ability to self-renew and differentiate and exhibit resistance to chemotherapy and radiotherapy. Therefore, the selective eradication of CSCs is the most rational method of cancer treatment. However, the presence of CSCs in cancer tissues and cell lines is extremely low, making it difficult to isolate and collect sufficient quantities of CSCs for further studies. We used microfabrication technology to develop a device that can easily generate uniform oral cancer cell spheroids in large quantities. The spheroids produced in the microwell showed an increased expression of CSC markers and resistance to anticancer drugs, suggesting that our device could be useful for high-throughput studies on oral CSCs. Cancer stem cells (CSCs) are considered to be responsible for recurrence, metastasis, and resistance to treatment in many types of cancers; therefore, new treatment strategies targeting CSCs are attracting attention. In this study, we fabricated a polyethylene glycol-tagged microwell device that enabled spheroid formation from human oral squamous carcinoma cells. HSC-3 and Ca9-22 cells cultured in the microwell device aggregated and generated a single spheroid per well within 24–48 h. The circular shape and smooth surface of spheroids were maintained for up to five days, and most cells comprising the spheroids were Calcein AM-positive viable cells. Interestingly, the mRNA expression of CSC markers (Cd44, Oct4, Nanog, and Sox2) were significantly higher in the spheroids than in the monolayer cultures. CSC marker-positive cells were observed throughout the spheroids. Moreover, resistance to cisplatin was enhanced in spheroid-cultured cells compared to that in the monolayer-cultured cells. Furthermore, some CSC marker genes were upregulated in HSC-3 and Ca9-22 cells that were outgrown from spheroids. In xenograft model, the tumor growth in the spheroid implantation group was comparable to that in the monolayer culture group. These results suggest that our spheroid culture system may be a high-throughput tool for producing uniform CSCs in large numbers from oral cancer cells. [ABSTRACT FROM AUTHOR]

Published

2023

29. Injection of a PMMA‐doped MSC spheroid gel for the treatment of painful osteoporotic vertebral compression fractures.

Author

Ko, Wan‐Kyu, Lee, Daye, Kim, Seong Jun, Han, Gong Ho, Lee, Donghyun, Sheen, Seung Hun, and Sohn, Seil

Subjects

*VERTEBRAL fractures, *DORSAL root ganglia, *OSTEOPOROSIS, *MESENCHYMAL stem cells, *COMPRESSION fractures, *HYDROGELS

Abstract

We aimed to develop a biocompatible treatment to overcome the limitations of polymethyl methacrylate (PMMA) vertebroplasty for osteoporotic compression fracture patients. We synthesized an injectable hydrogel containing PMMA. Mesenchymal stem cell (MSC) spheroids were included in the injectable PMMA‐doped gel (= PMMA‐doped spheroid gel). In vitro, the osteogenic/anti‐inflammatory effects of the embedded spheroids were investigated by the quantitative real‐time polymerase chain reaction method. In vivo, we used ovariectomy (OVX)‐induced osteoporotic rats with injured femurs to investigate the pain‐relief effects. The OVX rats were divided into four groups according to the materials injected (non, PMMA, PMMA gel, and PMMA‐spheroid gel) into the lesion. The immunofluorescence (IF) intensity levels of painful markers in dorsal root ganglia (DRG) were measured. In vitro, a volumetric ratio of the gel of 8 (gel):2 (PMMA) was non‐cytotoxic for MSCs and promoted the expression of osteogenic/anti‐inflammatory markers. In vivo, the values of several bone parameters in the PMMA‐doped spheroid gel group showed remarkable increases compared to those in the PMMA group. In addition, the IF intensity levels of the painful markers were noticeably decreased in the PMMA‐spheroid gel group. We, therefore, suggest that this treatment can be useful for osteoporotic vertebral compression fracture patients. [ABSTRACT FROM AUTHOR]

Published

2023

30. Long Prehensile Protrusions Can Facilitate Cancer Cell Invasion through the Basement Membrane.

Author

Nazari, Shayan S., Doyle, Andrew D., Bleck, Christopher K. E., and Yamada, Kenneth M.

Subjects

*BASAL lamina, *CANCER cells, *METASTASIS, *CYTOSKELETAL proteins, *INTEGRINS, *MICROTUBULES, *COLLAGEN, *MYOSIN

Abstract

A basic process in cancer is the breaching of basement-membrane barriers to permit tissue invasion. Cancer cells can use proteases and physical mechanisms to produce initial holes in basement membranes, but how cells squeeze through this barrier into matrix environments is not well understood. We used a 3D invasion model consisting of cancer-cell spheroids encapsulated by a basement membrane and embedded in collagen to characterize the dynamic early steps in cancer-cell invasion across this barrier. We demonstrate that certain cancer cells extend exceptionally long (~30–100 μm) protrusions through basement membranes via actin and microtubule cytoskeletal function. These long protrusions use integrin adhesion and myosin II-based contractility to pull cells through the basement membrane for initial invasion. Concurrently, these long, organelle-rich protrusions pull surrounding collagen inward while propelling cancer cells outward through perforations in the basement-membrane barrier. These exceptionally long, contractile cellular protrusions can facilitate the breaching of the basement-membrane barrier as a first step in cancer metastasis. [ABSTRACT FROM AUTHOR]

Published

2023

31. Lactate receptor GPR81 drives breast cancer growth and invasiveness through regulation of ECM properties and Notch ligand DLL4.

Author

Lundø, Kathrine, Dmytriyeva, Oksana, Spøhr, Louise, Goncalves-Alves, Eliana, Yao, Jiayi, Blasco, Laia P., Trauelsen, Mette, Ponniah, Muthulakshmi, Severin, Marc, Sandelin, Albin, Kveiborg, Marie, Schwartz, Thue W., and Pedersen, Stine F.

Abstract

Background: The lactate receptor GPR81 contributes to cancer development through unclear mechanisms. Here, we investigate the roles of GPR81 in three-dimensional (3D) and in vivo growth of breast cancer cells and study the molecular mechanisms involved. Methods: GPR81 was stably knocked down (KD) in MCF-7 human breast cancer cells which were subjected to RNA-seq analysis, 3D growth, in situ- and immunofluorescence analyses, and cell viability- and motility assays, combined with KD of key GPR81-regulated genes. Key findings were additionally studied in other breast cancer cell lines and in mammary epithelial cells. Results: GPR81 was upregulated in multiple human cancer types and further upregulated by extracellular lactate and 3D growth in breast cancer spheroids. GPR81 KD increased spheroid necrosis, reduced invasion and in vivo tumor growth, and altered expression of genes related to GO/KEGG terms extracellular matrix, cell adhesion, and Notch signaling. Single cell in situ analysis of MCF-7 cells revealed that several GPR81-regulated genes were upregulated in the same cell clusters. Notch signaling, particularly the Notch ligand Delta-like-4 (DLL4), was strikingly downregulated upon GPR81 KD, and DLL4 KD elicited spheroid necrosis and inhibited invasion in a manner similar to GPR81 KD. Conclusions: GPR81 supports breast cancer aggressiveness, and in MCF-7 cells, this occurs at least in part via DLL4. Our findings reveal a new GPR81-driven mechanism in breast cancer and substantiate GPR81 as a promising treatment target. [ABSTRACT FROM AUTHOR]

Published

2023

32. Preclinical Testing Techniques: Paving the Way for New Oncology Screening Approaches.

Author

van Rijt, Antonia, Stefanek, Evan, and Valente, Karolina

Subjects

*DRUG efficacy, *STRUCTURAL models, *MEDICAL screening, *CELL physiology, *DRUG development, *DRUG toxicity

Abstract

Simple Summary: Traditional preclinical testing, including 2D cell culture and animal models, often fails to accurately predict drug efficacy in humans, especially for oncology drugs, where drug candidates that enter clinical trials have very high failure rates. Advancements in biology and tissue engineering techniques allow researchers to evaluate drug candidates before human trials using 3D cell culture models that more closely resemble human tissues than 2D culture methods. These techniques can better mimic the patterns of drug diffusion, cell–cell signalling, and the presence of vasculature in tumours in vivo. Furthermore, the FDA Modernization Act 2.0 promotes the use of higher complexity in vitro models such as 3D cell cultures. By offering more accurate representations of human tissue, 3D culture platforms have the potential to enhance preclinical drug development and lead to safer and more effective cancer treatments. Prior to clinical trials, preclinical testing of oncology drug candidates is performed by evaluating drug candidates with in vitro and in vivo platforms. For in vivo testing, animal models are used to evaluate the toxicity and efficacy of drug candidates. However, animal models often display poor translational results as many drugs that pass preclinical testing fail when tested with humans, with oncology drugs exhibiting especially poor acceptance rates. The FDA Modernization Act 2.0 promotes alternative preclinical testing techniques, presenting the opportunity to use higher complexity in vitro models as an alternative to in vivo testing, including three-dimensional (3D) cell culture models. Three-dimensional tissue cultures address many of the shortcomings of 2D cultures by more closely replicating the tumour microenvironment through a combination of physiologically relevant drug diffusion, paracrine signalling, cellular phenotype, and vascularization that can better mimic native human tissue. This review will discuss the common forms of 3D cell culture, including cell spheroids, organoids, organs-on-a-chip, and 3D bioprinted tissues. Their advantages and limitations will be presented, aiming to discuss the use of these 3D models to accurately represent human tissue and as an alternative to animal testing. The use of 3D culture platforms for preclinical drug development is expected to accelerate as these platforms continue to improve in complexity, reliability, and translational predictivity. [ABSTRACT FROM AUTHOR]

Published

2023

33. Impact of media compositions and culture systems on the immunophenotypes of patient-derived breast cancer cells.

Author

Ryu, Seungyeon, Yoon, So-Hyun, Song, Junhyuk, Choi, Yoonjung, Lee, Sangeun, Baek, Moonjou, Lee, Han-Byoel, Jeon, Sook Young, Jon, Sangyong, Lee, Daeyoup, Kim, Hoe Suk, and Han, Wonshik

Subjects

*CANCER cells, *BREAST cancer, *GENETIC profile, *GENE ontology, *ENTEROENDOCRINE cells, *CANCER relapse, *GENE expression, *BREAST cancer prognosis, *HORMONE receptor positive breast cancer

Abstract

Background: Heterogeneous tumor cells are thought to be a significant factor in the failure of endocrine therapy in estrogen receptor-positive (ER+) cancers. Culturing patient-derived breast cancer cells (PDBCCs) provides an invaluable tool in pre-clinical and translational research for the heterogeneity of cancer cells. This study aimed to investigate the effects of different media components and culture methods on the BCSC-associated immunophenotypes and gene expression in ER + PDBCCs. Methods: Ten patients with ER + breast cancer were employed in this study, six of whom had neoadjuvant chemotherapy and four of whom did not. PDBCCs were isolated by enzymatic methods using collagen I and hyaluronidase. PDBCCs were grown as monolayers in mediums with different compositions and as multicellular spheroid in a suspended condition. Collagen I-coated plate and ultralow attachment plate coated with polymer-X were used for monolayer and spheroid culture. Flow cytometry, immunofluorescent staining, RT-PCR, and RNA-sequencing were employed to examine the immunophenotype and genetic profile of PDBCCs. Results: More than 95% of PDBCCs sustain EpCAM high/+/fibroblast marker- phenotypes in monolayer conditions by subculturing 3–4 times. A83-01 removal induced senescent cells with high β-galactosidase activity. PDBCCs grown as monolayers were characterized by the majority of cells having an EpCAM+/CD49f + phenotype. Compared to full media in monolayer culture, EGF removal increased EpCAM+/CD49f − phenotype (13.8-fold, p = 0.028), whereas R-spondin removal reduced it (0.8-fold, p = 0.02). A83-01 removal increased EpCAM+/CD24 + phenotype (1.82-fold, p = 0.023) and decreased EpCAM low/-/CD44+/CD24- phenotype (0.45-fold, p = 0.026). Compared to monolayer, spheroid resulted in a significant increase in the population with EpCAM-/CD49+ (14.6-fold, p = 0.006) and EpCAM low/-/CD44+/CD24- phenotypes (4.16-fold, p = 0.022) and ALDH high activity (9.66-fold, p = 0.037). ALDH1A and EMT-related genes were upregulated. In RNA-sequencing analysis between spheroids and monolayers, a total of 561 differentially expressed genes (2-fold change, p < 0.05) were enriched in 27 KEGG pathways including signaling pathways regulating pluripotency of stem cells. In a recurrence-free survival analysis based on the Kaplan-Meier Plotter database of the up-and down-regulated genes identified in spheroids, 15 up-, and 14 down-regulated genes were associated with poor prognosis of breast cancer patients. Conclusion: The media composition and spheroid culture method change in the BCSCs and EMT markers of PDBCCs, implying the importance of defining the media composition and culture method for studying PDBCCs in vitro. [ABSTRACT FROM AUTHOR]

Published

2023

34. Patient-Derived Ex Vivo Cultures and Endpoint Assays with Surrogate Biomarkers in Functional Testing for Prediction of Therapeutic Response.

Author

Tsukamoto, Yoshiyuki, Hirashita, Yuka, Shibata, Tomotaka, Fumoto, Shoichi, Kurogi, Shusaku, Nakada, Chisato, Kinoshita, Keisuke, Fuchino, Takafumi, Murakami, Kazunari, Inomata, Masafumi, Moriyama, Masatsugu, and Hijiya, Naoki

Subjects

*DRUG efficacy, *SEQUENCE analysis, *GENETIC mutation, *RESEARCH methodology, *TISSUE culture, *GENETIC testing, *FUNCTIONAL assessment, *TREATMENT effectiveness, *TUMOR markers, *BIOLOGICAL assay, *PREDICTION models, *EVALUATION

Abstract

Simple Summary: Studies aimed at prediction of chemotherapeutic efficacy using patient-derived ex vivo cultures (referred to here as "functional testing") have been increasing. The present review provides information on the various types of ex vivo cultures and endpoint assays that employ a range of surrogate biomarkers of drug response. As ex vivo cultures for functional testing, two-dimensional cultures, spheroids, organoids, explants (including histoculture), microfluid-based culture, and micro-organospheres are introduced. The endpoint assays described include ATP-based bulk assay, dynamic BH3 profiling, optical metabolic imaging, fluorescence lifetime imaging microscopy, fluorescent dye-based assay, mass accumulation rate assay, live cell imaging-based assay, and immunostaining for drug-specific response biomarkers. The advantages and disadvantages of these culture systems and endpoint assays are discussed. Prediction of therapeutic outcomes is important for cancer patients in order to reduce side effects and improve the efficacy of anti-cancer drugs. Currently, the most widely accepted method for predicting the efficacy of anti-cancer drugs is gene panel testing based on next-generation sequencing. However, gene panel testing has several limitations. For example, only 10% of cancer patients are estimated to have druggable mutations, even if whole-exome sequencing is applied. Additionally, even if optimal drugs are selected, a significant proportion of patients derive no benefit from the indicated drug treatment. Furthermore, most of the anti-cancer drugs selected by gene panel testing are molecularly targeted drugs, and the efficacies of cytotoxic drugs remain difficult to predict. Apart from gene panel testing, attempts to predict chemotherapeutic efficacy using ex vivo cultures from cancer patients have been increasing. Several groups have retrospectively demonstrated correlations between ex vivo drug sensitivity and clinical outcome. For ex vivo culture, surgically resected tumor tissue is the most abundant source. However, patients with recurrent or metastatic tumors do not usually undergo surgery, and chemotherapy may be the only option for those with inoperable tumors. Therefore, predictive methods using small amounts of cancer tissue from diagnostic materials such as endoscopic, fine-needle aspirates, needle cores and liquid biopsies are needed. To achieve this, various types of ex vivo culture and endpoint assays using effective surrogate biomarkers of drug sensitivity have recently been developed. Here, we review the variety of ex vivo cultures and endpoint assays currently available. [ABSTRACT FROM AUTHOR]

Published

2023

35. Macrophage Profiling in Head and Neck Cancer to Improve Patient Prognosis and Assessment of Cancer Cell–Macrophage Interactions Using Three-Dimensional Coculture Models.

Author

Mhaidly, Nour, Journe, Fabrice, Najem, Ahmad, Stock, Louis, Trelcat, Anne, Dequanter, Didier, Saussez, Sven, and Descamps, Géraldine

Subjects

*HEAD & neck cancer, *CANCER prognosis, *MACROPHAGES, *THREE-dimensional modeling, *CANCER cells, *P16 gene, *CANCER cell culture, *PROGRESSION-free survival, *ONE-way analysis of variance

Abstract

Tumor-associated macrophages are key components of the tumor microenvironment and play important roles in the progression of head and neck cancer, leading to the development of effective strategies targeting immune cells in tumors. Our study demonstrated the prognostic potential of a new scoring system (Macroscore) based on the combination of the ratio and the sum of the high and low densities of M1 (CD80+) and M2 (CD163+) macrophages in a series of head and neck cancer patients, including a training population (n = 54) and a validation population (n = 19). Interestingly, the Macroscore outperformed TNM criteria and p16 status, showing a significant association with poor patient prognosis, and demonstrated significant predictive value for overall survival. Additionally, 3D coculture spheroids were established to analyze the crosstalk between cancer cells and monocytes/macrophages. Our data revealed that cancer cells can induce monocyte differentiation into protumoral M2 macrophages, creating an immunosuppressive microenvironment. This coculture also induced the production of immunosuppressive cytokines, such as IL10 and IL8, known to promote M2 polarization. Finally, we validated the ability of the macrophage subpopulations to induce apoptosis (M1) or support proliferation (M2) of cancer cells. Overall, our research highlights the potential of the Macroscore as a valuable prognostic biomarker to enhance the clinical management of patients and underscores the relevance of a spheroid model in gaining a better understanding of the mechanisms underlying cancer cell–macrophage interactions. [ABSTRACT FROM AUTHOR]

Published

2023

36. Irradiated Mammary Spheroids Elucidate Mechanisms of Macrophage-Mediated Breast Cancer Recurrence.

Author

Hacker, Benjamin C., Lin, Erica J., Herman, Dana C., Questell, Alyssa M., Martello, Shannon E., Hedges, Rebecca J., Walker, Anesha J., and Rafat, Marjan

Subjects

*CANCER relapse, *TRIPLE-negative breast cancer, *BREAST, *BREAST cancer, *PATIENT experience, *CANCER invasiveness

Abstract

Introduction: While most patients with triple negative breast cancer receive radiation therapy to improve outcomes, a significant subset of patients continue to experience recurrence. Macrophage infiltration into radiation-damaged sites has been shown to promote breast cancer recurrence in pre-clinical models. However, the mechanisms that drive recurrence are unknown. Here, we developed a novel spheroid model to evaluate macrophage-mediated tumor cell recruitment. Methods: We characterized infiltrating macrophage phenotypes into irradiated mouse mammary tissue via flow cytometry. We then engineered a spheroid model of radiation damage with primary fibroblasts, macrophages, and 4T1 mouse mammary carcinoma cells using in vivo macrophage infiltration results to inform our model. We analyzed 4T1 infiltration into spheroids when co-cultured with biologically relevant ratios of pro-healing M2:pro-inflammatory M1 macrophages. Finally, we quantified interleukin 6 (IL-6) secretion associated with conditions favorable to tumor cell infiltration, and we directly evaluated the impact of IL-6 on tumor cell invasiveness in vitro and in vivo. Results: In our in vivo model, we observed a significant increase in M2 macrophages in mouse mammary glands 10 days post-irradiation. We determined that tumor cell motility toward irradiated spheroids was enhanced in the presence of a 2:1 ratio of M2:M1 macrophages. We also measured a significant increase in IL-6 secretion after irradiation both in vivo and in our model. This secretion increased tumor cell invasiveness, and tumor cell invasion and recruitment were mitigated by neutralizing IL-6. Conclusions: Our work suggests that interactions between infiltrating macrophages and damaged stromal cells facilitate breast cancer recurrence through IL-6 signaling. [ABSTRACT FROM AUTHOR]

Published

2023

37. Aspirin Affects MDA-MB-231 Vesicle Production and Their Capacity to Induce Fibroblasts towards a Pro-Invasive State.

Author

Louback, Rafaela de Assiz, Martins-Cardoso, Karina, Tinoco, Luzineide W., Collino, Federica, de Barros, Ana Paula D. N., Fortuna-Costa, Anneliese, Monteiro, Robson Q., Rossi, Maria Isabel Doria, and Lindoso, Rafael Soares

Subjects

*FIBROBLASTS, *INDUSTRIAL capacity, *ASPIRIN, *CANCER cells, *EXTRACELLULAR vesicles, *BREAST

Abstract

Long-term administration of aspirin (ASA, acetylsalicylic acid) in oncogenic patients has been related to a reduction in cancer risk incidence, but its precise mechanism of action is unclear. The activation of cancer-associated fibroblasts (CAFs) is a key element in tumor progression and can be triggered by cancer-derived extracellular vesicles (EVs). Targeting the communication between cancer cells and the surrounding tumor microenvironment (TME) may control cancer progression. Our aim was to investigate the effect of ASA on breast cancer cells, focusing on EV secretion and their effect on the biological properties of CAFs. As a result, ASA was shown to reduce the amount and alter the size distribution of EVs produced by MDA-MB-231 tumor cells. Fibroblasts stimulated with EVs derived from MDA-MB-231 treated with ASA (EV-ASA) showed a lower expression of alpha-smooth muscle actin (α-SMA), matrix metalloproteinase-2 (MMP2) but not fibroblast activation protein (FAP) in respect to the ones stimulated with EVs from untreated breast cancer cells (EV-CTR). Furthermore, invasion assays using a three-dimensional (3D) fibroblast spheroid model showed reduced MDA-MB-231 invasion towards fibroblast spheroids pretreated with EV-ASA as compared to spheroids prepared with EV-CTR-stimulated fibroblasts. This suggests that ASA partially inhibits the ability of tumor EVs to stimulate CAFs to promote cancer invasion. In conclusion, ASA can interfere with tumor communication by reducing EV secretion by breast tumor cells as well as by interfering with their capacity to stimulate fibroblasts to become CAFs. [ABSTRACT FROM AUTHOR]

Published

2023

38. Spheroid formation induces chemokine production in trophoblast‐derived Swan71 cells.

Author

Kanda, Tatsuhito, Kagami, Kyosuke, Iizuka, Takashi, Kasama, Haruki, Matsumoto, Takeo, Sakai, Yuya, Suzuki, Takuma, Yamamoto, Megumi, Matsuoka, Ayumi, Yamazaki, Rena, Hattori, Akira, Horie, Akihito, Daikoku, Takiko, Ono, Masanori, and Fujiwara, Hiroshi

Subjects

*MACROPHAGE inflammatory proteins, *GENE expression, *CELL differentiation, *CHEMOKINES, *IMMUNE response

Abstract

Problem: In the cell column of anchoring villi, the cytotrophoblast differentiates into extravillous trophoblast (EVT) and invades the endometrium in contact with maternal immune cells. Recently, chemokines were proposed to regulate the decidual immune response. To investigate the roles of chemokines around the anchoring villi, we examined the expression profiles of chemokines in the first‐trimester trophoblast‐derived Swan71 cells using a three‐dimensional culture model. Method of Study: The gene expressions in the spheroid‐formed Swan71 cells were examined by microarray and qPCR analyses. The protein expressions were examined by immunochemical staining. The chemoattractant effects of spheroid‐formed Swan71 cells were examined by migration assay using monocyte‐derived THP‐1 cells. Results: The expressions of an EVT marker, laeverin, and matrix metalloproteases, MMP2 and MMP9, were increased in the spheroid‐cultured Swan71 cells. Microarray and qPCR analysis revealed that mRNA expressions of various chemokines, CCL2, CCL7, CCL20, CXCL1, CXCL2, CXCL5, CXCL6, CXCL8, and CXCL10, in the spheroid‐cultured Swan71 cells were up‐regulated as compared with those in the monolayer‐cultured Swan71 cells. These expressions were significantly suppressed by hypoxia. Migration assay showed that culture media derived from the spheroid‐formed Swan71 cells promoted THP‐1 cell migration. Conclusion: This study indicated that chemokine expressions in Swan71 cells increase under a spheroid‐forming culture and the culture media have chemoattractant effects. Since three‐dimensional cell assembling in the spheroid resembles the structure of the cell column, this study also suggests that chemokines play important roles in the interaction between EVT and immune cells in their early differentiation stage. [ABSTRACT FROM AUTHOR]

Published

2023

39. Bioreactor Technologies for Enhanced Organoid Culture.

Author

Licata, Joseph P., Schwab, Kyle H., Har-el, Yah-el, Gerstenhaber, Jonathan A., and Lelkes, Peter I.

Subjects

*DRUG discovery, *BIOREACTORS, *ORGANOIDS, *CLINICAL medicine, *OXYGEN in the blood

Abstract

An organoid is a 3D organization of cells that can recapitulate some of the structure and function of native tissue. Recent work has seen organoids gain prominence as a valuable model for studying tissue development, drug discovery, and potential clinical applications. The requirements for the successful culture of organoids in vitro differ significantly from those of traditional monolayer cell cultures. The generation and maturation of high-fidelity organoids entails developing and optimizing environmental conditions to provide the optimal cues for growth and 3D maturation, such as oxygenation, mechanical and fluidic activation, nutrition gradients, etc. To this end, we discuss the four main categories of bioreactors used for organoid culture: stirred bioreactors (SBR), microfluidic bioreactors (MFB), rotating wall vessels (RWV), and electrically stimulating (ES) bioreactors. We aim to lay out the state-of-the-art of both commercial and in-house developed bioreactor systems, their benefits to the culture of organoids derived from various cells and tissues, and the limitations of bioreactor technology, including sterilization, accessibility, and suitability and ease of use for long-term culture. Finally, we discuss future directions for improvements to existing bioreactor technology and how they may be used to enhance organoid culture for specific applications. [ABSTRACT FROM AUTHOR]

Published

2023

40. Aminosteroid RM-581 Decreases Cell Proliferation of All Breast Cancer Molecular Subtypes, Alone and in Combination with Breast Cancer Treatments.

Author

Burguin, Anna, Roy, Jenny, Ouellette, Geneviève, Maltais, René, Bherer, Juliette, Diorio, Caroline, Poirier, Donald, and Durocher, Francine

Subjects

*BREAST cancer, *CELL proliferation, *CANCER treatment, *PROGESTERONE receptors, *TRIPLE-negative breast cancer

Abstract

Breast cancer (BC) is a heterogenous disease classified into four molecular subtypes (Luminal A, Luminal B, HER2 and triple-negative (TNBC)) depending on the expression of the estrogen receptor (ER), the progesterone receptor (PR) and the human epidermal receptor 2 (HER2). The development of effective treatments for BC, especially TNBC, remains a challenge. Aminosteroid derivative RM-581 has previously shown an antiproliferative effect in multiple cancers in vitro and in vivo. In this study, we evaluated its effect in BC cell lines representative of BC molecular subtypes, including metastatic TNBC. We found that RM-581 has an antiproliferative effect on all BC molecular subtypes, especially on Luminal A and TNBC, in 2D and 3D cultures. The combination of RM-581 and trastuzumab or trastuzumab-emtansine enhanced the anticancer effect of each drug for HER2-positive BC cell lines, and the combination of RM-581 and taxanes (docetaxel or paclitaxel) improved the antiproliferative effect of RM-581 in TNBC and metastatic TNBC cell lines. We also confirmed that RM-581 is an endoplasmic reticulum (EnR)-stress aggravator by inducing an increase in EnR-stress-induced apoptosis markers such as BIP/GRP78 and CHOP and disrupting lipid homeostasis. This study demonstrates that RM-581 could be effective for the treatment of BC, especially TNBC. [ABSTRACT FROM AUTHOR]

Published

2023

41. Cancer Wars: Revenge of the AMPs (Antimicrobial Peptides), a New Strategy against Colorectal Cancer.

Author

Răileanu, Mina and Bacalum, Mihaela

Subjects

*ANTIMICROBIAL peptides, *COLORECTAL cancer, *MELITTIN, *REVENGE, *CELLULAR aging, *CELL cycle, CAUSE of death statistics

Abstract

Cancer is a multifaceted health issue that affects people globally and it is considered one of the leading causes of death with a high percentage of victims worldwide. In recent years, research studies have uncovered great advances in cancer diagnosis and treatment. But, there are still major drawbacks of the conventional therapies used including severe side effects, toxicity, and drug resistance. That is why it is critical to develop new drugs with advantages like low cytotoxicity and no treatment resistance to the cancer cells. Antimicrobial peptides (AMPs) have recently attracted attention as a novel therapeutic strategy for the treatment of various cancers, targeting tumor cells with less toxicity to normal tissues. The aim of the study was to discover alternate treatments that do not lead to cancer resistance and have fewer side effects. Here, we report the effects induced by several AMPs, Melittin, Cecropin A, and a Cecropin A—Melittin hybrid, against two human colorectal cancer-derived spheroids. To study the effects of the peptides, cell viability was investigated using MTT, LDH, and ATP assays. Furthermore, cellular senescence and cell cycle were investigated. We found that using different concentrations of these peptides affected the spheroids, their structure being highly compromised by reducing cell viability, and the increase in ATP and LDH levels. Also, the cells are arrested in the G2/M phase leading to an increase in senescent cells. We show that Melittin and the hybrid are most effective against the 3D colorectal cancer cells compared to Cecropin A. [ABSTRACT FROM AUTHOR]

Published

2023

42. Core–Shell Spheroid Structure TiO 2 /CdS Composites with Enhanced Photocathodic Protection Performance.

Author

Chen, Tingting, Li, Bo, Zhang, Xiaolong, Ke, Xiang, and Xiao, Rengui

Subjects

*EPOXY coatings, *PHOTOELECTROCHEMISTRY, *COMPOSITE coating, *TITANIUM dioxide, *HETEROJUNCTIONS, *PHOTOELECTROCHEMICAL cells, *CARBON steel, *CORROSION potential

Abstract

In order to improve the conversion and transmission efficiency of the photoelectron, core–shell spheroid structure titanium dioxide/cadmium sulfide (TiO2/CdS) composites were synthesized as epoxy-based coating fillers using a simple hydrothermal method. The electrochemical performance of photocathodic protection for the epoxy-based composite coating was analyzed by coating it on the Q235 carbon steel surface. The results show that the epoxy-based composite coating possesses a significant photoelectrochemical property with a photocurrent density of 0.0421 A/cm2 and corrosion potential of −0.724 V. Importantly, the modified composite coating can extend absorption in the visible region and effectively separate photoelectron hole pairs to improve the photoelectrochemical performance synergistically, because CdS can be regarded as a sensitizer to be introduced into TiO2 to form a heterojunction system. The mechanism of photocathodic protection is attributed to the potential energy difference between Fermi energy and excitation level, which leads to the system obtaining higher electric field strength at the heterostructure interface, thus driving electrons directly into the surface of Q235 carbon steel (Q235 CS). Moreover, the photocathodic protection mechanism of the epoxy-based composite coating for Q235 CS is investigated in this paper. [ABSTRACT FROM AUTHOR]

Published

2023

43. Antioxidant Supplementation Alleviates Mercury-Induced Cytotoxicity and Restores the Implantation-Related Functions of Primary Human Endometrial Cells.

Author

Palomar, Andrea, Quiñonero, Alicia, Medina-Laver, Yassmin, Gonzalez-Martin, Roberto, Pérez-Debén, Silvia, Alama, Pilar, and Domínguez, Francisco

Subjects

*ENDOMETRIUM, *INSULIN-like growth factor-binding proteins, *MERCURY, *CELL physiology, *REACTIVE oxygen species, *DIETARY supplements, *TROPHOBLAST

Abstract

Mercury (Hg) cytotoxicity, which is largely mediated through oxidative stress (OS), can be relieved with antioxidants. Thus, we aimed to study the effects of Hg alone or in combination with 5 nM N-Acetyl-L-cysteine (NAC) on the primary endometrial cells' viability and function. Primary human endometrial epithelial cells (hEnEC) and stromal cells (hEnSC) were isolated from 44 endometrial biopsies obtained from healthy donors. The viability of treated endometrial and JEG-3 trophoblast cells was evaluated via tetrazolium salt metabolism. Cell death and DNA integrity were quantified following annexin V and TUNEL staining, while the reactive oxygen species (ROS) levels were quantified following DCFDA staining. Decidualization was assessed through secreted prolactin and the insulin-like growth factor-binding protein 1 (IGFBP1) in cultured media. JEG-3 spheroids were co-cultured with the hEnEC and decidual hEnSC to assess trophoblast adhesion and outgrowth on the decidual stroma, respectively. Hg compromised cell viability and amplified ROS production in trophoblast and endometrial cells and exacerbated cell death and DNA damage in trophoblast cells, impairing trophoblast adhesion and outgrowth. NAC supplementation significantly restored cell viability, trophoblast adhesion, and outgrowth. As these effects were accompanied by the significant decline in ROS production, our findings originally describe how implantation-related endometrial cell functions are restored in Hg-treated primary human endometrial co-cultures by antioxidant supplementation. [ABSTRACT FROM AUTHOR]

Published

2023

44. Microstructured soft devices for the growth and analysis of populations of homogenous multicellular tumor spheroids.

Author

Tartagni, Ottavia, Borók, Alexandra, Mensà, Emanuela, Bonyár, Attila, Monti, Barbara, Hofkens, Johan, Porcelli, Anna Maria, and Zuccheri, Giampaolo

Abstract

Multicellular tumor spheroids are rapidly emerging as an improved in vitro model with respect to more traditional 2D culturing. Microwell culturing is a simple and accessible method for generating a large number of uniformly sized spheroids, but commercially available systems often do not enable researchers to perform complete culturing and analysis pipelines and the mechanical properties of their culture environment are not commonly matching those of the target tissue. We herein report a simple method to obtain custom-designed self-built microwell arrays made of polydimethylsiloxane or agarose for uniform 3D cell structure generation. Such materials can provide an environment of tunable mechanical flexibility. We developed protocols to culture a variety of cancer and non-cancer cell lines in such devices and to perform molecular and imaging characterizations of the spheroid growth, viability, and response to pharmacological treatments. Hundreds of tumor spheroids grow (in scaffolded or scaffold-free conditions) at homogeneous rates and can be harvested at will. Microscopy imaging can be performed in situ during or at the end of the culture. Fluorescence (confocal) microscopy can be performed after in situ staining while retaining the geographic arrangement of spheroids in the plate wells. This platform can enable statistically robust investigations on cancer biology and screening of drug treatments. [ABSTRACT FROM AUTHOR]

Published

2023

45. Spheroids derived from the stromal vascular fraction of adipose tissue self-organize in complex adipose organoids and secrete leptin.

Author

Robledo, Fermín, González-Hodar, Lila, Tapia, Pablo, Figueroa, Ana-María, Ezquer, Fernando, and Cortés, Víctor

Subjects

*ADIPOGENESIS, *BROWN adipose tissue, *LEPTIN receptors, *LEPTIN, *EXTRACELLULAR matrix, *FAT cells, *TRANSMISSION electron microscopy, *ORGANOIDS, *ADIPOSE tissues

Abstract

Background: Adipose tissue-derived stromal vascular fraction (SVF) harbors multipotent cells with potential therapeutic relevance. We developed a method to form adipose spheroids (AS) from the SVF with complex organoid structure and enhanced leptin secretion upon insulin stimulation. Methods: SVF was generated from the interscapular brown adipose tissue of newborn mice. Immunophenotype and stemness of cultured SVF were determined by flow cytometry and in vitro differentiation, respectively. Spheroids were generated in hanging drops and non-adherent plates and compared by morphometric methods. The adipogenic potential was compared between preadipocyte monolayers and spheroids. Extracellular leptin was quantified by immunoassay. Lipolysis was stimulated with isoprenaline and quantified by colorimetric methods. AS viability and ultrastructure were determined by confocal and transmission electron microscopy analyses. Results: Cultured SVF contained Sca1 + CD29 + CD44 + CD11b- CD45- CD90- cells with adipogenic and chondrogenic but no osteogenic potential. Culture on non-adherent plates yielded the highest quantity and biggest size of spheroids. Differentiation of AS for 15 days in a culture medium supplemented with insulin and rosiglitazone resulted in greater Pparg, Plin1, and Lep expression compared to differentiated adipocytes monolayers. AS were viable and maintained leptin secretion even in the absence of adipogenic stimulation. Glycerol release after isoprenaline stimulation was higher in AS compared to adipocytes in monolayers. AS were composed of outer layers of unilocular mature adipocytes and an inner structure composed of preadipocytes, immature adipocytes and an abundant loose extracellular matrix. Conclusion: Newborn mice adipose SVF can be efficiently differentiated into leptin-secreting AS. Prolonged stimulation with insulin and rosiglitazone allows the formation of structurally complex adipose organoids able to respond to adrenergic lipolytic stimulation. [ABSTRACT FROM AUTHOR]

Published

2023

46. MUG CCArly: A Novel Autologous 3D Cholangiocarcinoma Model Presents an Increased Angiogenic Potential.

Author

Schrom, Silke, Kleinegger, Florian, Anders, Ines, Hebesberger, Thomas, Karner, Christina, Liesinger, Laura, Birner-Gruenberger, Ruth, Renner, Wilfried, Pichler, Martin, Grillari, Regina, Aigelsreiter, Ariane, and Rinner, Beate

Subjects

*COMPUTER simulation, *THREE-dimensional imaging, *CHOLANGIOCARCINOMA, *STRUCTURAL models, *NEOVASCULARIZATION, *ANIMAL experimentation, *CELL physiology, *PROTEOMICS, *GENE expression, *COMPARATIVE studies, *DESCRIPTIVE statistics, *RESEARCH funding, *CELL lines, *MICE, *DRUG resistance in cancer cells

Abstract

Simple Summary: Cholangiocarcinoma is a rare, aggressive, and heterogeneous malignancy of the bile duct. A typical feature of cholangiocarcinoma is that the cancer cells are embedded in a dense stroma. However, the functional role of the reactive tumor stroma has not been fully elucidated, which is certainly due to the lack of suitable in vitro models. Tumor stromal cells or tumor-associated fibroblasts play a central role in angiogenesis, metastasis, and the development of resistance to therapy in cholangiocarcinoma. We successfully isolated tumor cells and tumor-associated fibroblasts from a patient, generated cell lines, characterized the cells in detail, and established an innovative autologous tumor model. By detailed characterization of the tumor/tumor-associated fibroblast model we demonstrated that tumor cells interact with tumor-associated fibroblasts. This model can be used to study tumor stromal crosstalk, tumor angiogenesis and invasion, and the development of drug resistance. Cholangiocarcinoma (CCA) are characterized by their desmoplastic and hypervascularized tumor microenvironment (TME), which is mainly composed of tumor cells and cancer-associated fibroblasts (CAFs). CAFs play a pivotal role in general and CCA tumor progression, angiogenesis, metastasis, and the development of treatment resistance. To our knowledge, no continuous human in vivo-like co-culture model is available for research. Therefore, we aimed to establish a new model system (called MUG CCArly) that mimics the desmoplastic microenvironment typically seen in CCA. Proteomic data comparing the new CCA tumor cell line with our co-culture tumor model (CCTM) indicated a higher gene expression correlation of the CCTM with physiological CCA characteristics. A pro-angiogenic TME that is typically observed in CCA could also be better simulated in the CCTM group. Further analysis of secreted proteins revealed CAFs to be the main source of these angiogenic factors. Our CCTM MUG CCArly represents a new, reproducible, and easy-to-handle 3D CCA model for preclinical studies focusing on CCA-stromal crosstalk, tumor angiogenesis, and invasion, as well as the immunosuppressive microenvironment and the involvement of CAFs in the way that drug resistance develops. [ABSTRACT FROM AUTHOR]

Published

2023

47. Patient-derived cell models for personalized medicine approaches in cystic fibrosis.

Author

Ramalho, Anabela S., Amato, Felice, and Gentzsch, Martina

Subjects

*CYSTIC fibrosis transmembrane conductance regulator, *CYSTIC fibrosis, *INDIVIDUALIZED medicine, *ION transport (Biology), *NASAL polyps, *ION channels

Abstract

• Primary human epithelial tissues are more reliable than cell lines to evaluate cystic fibrosis therapies. • Nasal, bronchial, and rectal epithelia have proven most useful in analyzing CFTR function and responses to cystic fibrosis therapeutics. • 2D and 3D patient-derived cell models are considered the most reliable disease models since they mimic the in vivo ion channel pathophysiology. • Personalized medicine approaches utilize advanced models based on patient-derived tissues to tailor therapies for specific patients to cure cystic fibrosis. Cystic fibrosis is caused by mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) channel that perturb anion transport across the epithelia of the airways and other organs. To treat cystic fibrosis, strategies that target mutant CFTR have been developed such as correctors that rescue folding and enhance transfer of CFTR to the apical membrane, and potentiators that increase CFTR channel activity. While there has been tremendous progress in development and approval of CFTR therapeutics for the most common (F508del) and several other CFTR mutations, around 10-20% of people with cystic fibrosis have rare mutations that are still without an effective treatment. In the current decade, there was an impressive evolution of patient-derived cell models for precision medicine. In cystic fibrosis, these models have played a crucial role in characterizing the molecular defects in CFTR mutants and identifying compounds that target these defects. Cells from nasal, bronchial, and rectal epithelia are most suitable to evaluate treatments that target CFTR. In vitro assays using cultures grown at an air-liquid interface or as organoids and spheroids allow the diagnosis of the CFTR defect and assessment of potential treatment strategies. An overview of currently established cell culture models and assays for personalized medicine approaches in cystic fibrosis will be provided in this review. These models allow theratyping of rare CFTR mutations with available modulator compounds to predict clinical efficacy. Besides evaluation of individual personalized responses to CFTR therapeutics, patient-derived culture models are valuable for testing responses to developmental treatments such as novel RNA- and DNA-based therapies. [ABSTRACT FROM AUTHOR]

Published

2023

48. Human platelet lysate enhances proliferation but not chondrogenic differentiation of pediatric mesenchymal progenitors.

Author

Gardner, Oliver F.W., Agabalyan, Natacha, Weil, Ben, Ali, Mohammed H.I., Lowdell, Mark W., Bulstrode, Neil W., and Ferretti, Patrizia

Subjects

*CELL surface antigens, *TISSUE differentiation, *PROGENITOR cells, *BLOOD platelets, *STEM cells, *CARTILAGE cells, *CARTILAGE regeneration

Abstract

Cell therapies have the potential to improve reconstructive procedures for congenital craniofacial cartilage anomalies such as microtia. Adipose-derived stem cells (ADSCs) and auricular cartilage stem/progenitor cells (CSPCs) are promising candidates for cartilage reconstruction, but their successful use in the clinic will require the development of xeno-free expansion and differentiation protocols that can maximize their capacity for chondrogenesis. We assessed the behavior of human ADSCs and CSPCs grown either in qualified fetal bovine serum (FBS) or human platelet lysate (hPL), a xeno-free alternative, in conventional monolayer and 3-dimensional spheroid cultures. We show that CSPCs and ADSCs display greater proliferation rate in hPL than FBS and express typical mesenchymal stromal cell surface antigens in both media. When expanded in hPL, both cell types, particularly CSPCs, maintain a spindle-like morphology and lower surface area over more passages than in FBS. Both media supplements support chondrogenic differentiation of CSPCs and ADSCs grown either as monolayers or spheroids. However, chondrogenesis appears less ordered in hPL than FBS, with reduced co-localization of aggrecan and collagen type II in spheroids. hPL may be beneficial for the expansion of cells with chondrogenic potential and maintaining stemness, but not for their chondrogenic differentiation for tissue engineering or disease modeling. [ABSTRACT FROM AUTHOR]

Published

2023

49. Characterization of a triple-negative breast cancer spheroid model for drug screening.

Author

Burger, Gavriel and Rhodes, Lyndsay

Subjects

*TRIPLE-negative breast cancer, *EARLY detection of cancer, *MEDICAL screening, *CELL lines, *ANTINEOPLASTIC agents

Abstract

Multicellular tumor spheroids (MTSs) are cells grown in aggregates to form a 3D tumor model. While 20 cell culture-cells grown in a monolayer-is useful for cancer research and drug screening, the response is often variable from what would occur in vivo. 3D cell culture mimics the tumor micro-environment and contains other similarities to in vivo tumors, such as necrotic and hypoxic regions, allowing for a more realistic prediction of treatment response. In this study, the protocol for generating MTSs from multiple triple-negative breast cancer (TNBC) cell lines was developed to use as a drug screening tool for potential treatments. For each cell line, an MTS model was developed and characterized to determine the cell number required to achieve spheroids with a diameter of -400 microns after 72 hours of growth. All spheroids were generated in low-adhesion cell culture plates. Developed spheroids were then tested in drug screening assays, and results were compared to previous 2D results. Data collection included final spheroid diameter, cell density, and cell viability count to assess the effects of administered treatment. This model will be used in future studies to better understand the impacts ofdrug treatments in a inore translational model. [ABSTRACT FROM AUTHOR]

Published

2024

50. A Novel Preclinical In Vitro 3D Model of Oral Carcinogenesis for Biomarker Discovery and Drug Testing.

Author

Chitturi Suryaprakash, Ravi Teja, Shearston, Kate, Farah, Camile S., Fox, Simon A., Iqbal, Muhammad Munir, Kadolsky, Ulrich, Zhong, Xiao, Saxena, Alka, and Kujan, Omar

Subjects

*CELL culture, *DRUG use testing, *CARCINOGENESIS, *BIOMARKERS, *SQUAMOUS cell carcinoma, *GENETIC overexpression

Abstract

This study aimed to develop an in vitro three-dimensional (3D) cell culture model of oral carcinogenesis for the rapid, scalable testing of chemotherapeutic agents. Spheroids of normal (HOK) and dysplastic (DOK) human oral keratinocytes were cultured and treated with 4-nitroquinoline-1-oxide (4NQO). A 3D invasion assay using Matrigel was performed to validate the model. RNA was extracted and subjected to transcriptomic analysis to validate the model and assess carcinogen-induced changes. The VEGF inhibitors pazopanib and lenvatinib were tested in the model and were validated by a 3D invasion assay, which demonstrated that changes induced by the carcinogen in spheroids were consistent with a malignant phenotype. Further validation was obtained by bioinformatic analyses, which showed the enrichment of pathways associated with hallmarks of cancer and VEGF signalling. Overexpression of common genes associated with tobacco-induced oral squamous cell carcinoma (OSCC), such as MMP1, MMP3, MMP9, YAP1, CYP1A1, and CYP1B1, was also observed. Pazopanib and lenvatinib inhibited the invasion of transformed spheroids. In summary, we successfully established a 3D spheroid model of oral carcinogenesis for biomarker discovery and drug testing. This model is a validated preclinical model for OSCC development and would be suitable for testing a range of chemotherapeutic agents. [ABSTRACT FROM AUTHOR]

Published

2023