In Vitro Dermal Safety Assessment of Silver Nanowires after Acute Exposure: Tissue vs. Cell Models

Abstract Medulloblastoma (MB) is the most common malignant brain tumor in children and is frequently metastatic at diagnosis. Treatment with surgery, radiation and multi-agent chemotherapy may leave survivors of these brain tumors with long-term deficits as a consequence. One of the four consensus molecular subgroups of MB is the MYC-driven group 3 MB, which is the most malignant type and has a poor prognosis under current therapy. Thus, it is important to discover more effective targeted therapeutic approaches. We conducted a high-throughput drug screening to identify novel compounds showing efficiency in group 3 MB using both clinically established inhibitors (n=196) and clinically-applicable compounds (n=464). More than 20 compounds demonstrated a significantly higher anti-tumoral effect in MYChigh (n=7) compared to MYClow (n=4) MB cell models. Among these compounds, Navitoclax and Clofarabine showed the strongest effect in inducing cell cycle arrest and apoptosis in MYChigh MB models. Furthermore, we show that Navitoclax, an orally bioavailable and blood-brain barrier passing anti-cancer drug, inhibits specifically Bcl-xL proteins. In line, we found a significant correlation between BCL-xL and MYC mRNA levels in 763 primary MB patient samples (Data source: “R2 https://hgserver1.amc.nl”). In addition, Navitoclax and Clofarabine have been tested in cells obtained from MB patient-derived-xenografts, which confirmed their specific efficacy in MYChigh versus MYClow MB. In summary, our approach has identified promising new drugs that significantly reduce cell viability in MYChigh compared to MYClow MB cell models. Our findings point to novel therapeutic vulnerabilities for MB that need to be further validated in vitro and in vivo.

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Establishment of an in vitro safety assessment model for lipid-lowering drugs using same-origin human pluripotent stem cell-derived cardiomyocytes and endothelial cells

Acta Pharmacologica Sinica ◽

10.1038/s41401-021-00621-8 ◽

2021 ◽

Author(s):

Xuan Ni ◽

Zhuang-zhuang Yang ◽

Ling-qun Ye ◽

Xing-long Han ◽

Dan-dan Zhao ◽

...

Keyword(s):

Endothelial Cells ◽

Stem Cell ◽

Pluripotent Stem Cell ◽

Safety Assessment ◽

Assessment Model ◽

Lipid Lowering ◽

Human Pluripotent Stem Cell ◽

Lipid Lowering Drugs

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Antioxidant and Hypolipidemic Activity of Açai Fruit Makes It a Valuable Functional Food

Antioxidants ◽

10.3390/antiox10010040 ◽

2020 ◽

Vol 10 (1) ◽

pp. 40

Author(s):

Anna Virginia Adriana Pirozzi ◽

Paola Imbimbo ◽

Antonella D’Agostino ◽

Virginia Tirino ◽

Rosario Finamore ◽

...

Keyword(s):

Functional Food ◽

Subcutaneous Fat ◽

Cell Models ◽

Alcoholic Fatty Liver ◽

Hypoxic Conditions ◽

Tnf Α ◽

Different Types ◽

Vitro Model ◽

Alcoholic Fatty Liver Disease

Several plant extracts are acquiring increasing value because of their antioxidant activity and hypolipidemic properties. Among them, great interest has been recently paid to açai fruit as a functional food. The aim of this study was to test the ability of açai extract in reducing oxidative stress and modulating lipid metabolism in vitro using different cell models and different types of stress. In fact, lipid peroxidation as evaluated in a HepG2 model was reduced five-fold when using 0.25 µg/mL of extract, and it was further reduced (20-fold) with the concentration increase up to 2.5 µg/mL. With the non alcoholic fatty liver disease (NAFLD)in vitro model, all concentrations tested showed at least a two-fold reduced fat deposit. In addition, primary adipocytes challenged with TNF-α under hypoxic conditions to mimic the persistent subcutaneous fat, treated with açai extract showed an approximately 40% reduction of fat deposit. Overall, our results show that açai is able to counteract oxidative states in all the cell models analysed and to prevent the accumulation of lipid droplets. No toxic effects and high stability overtime were highlighted at the concentrations tested. Therefore, açai can be considered a suitable support in the prevention of different alterations of lipid and oxidative metabolism responsible for fat deposition and metabolic pathological conditions.

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O23: CHARACTERISING PATIENT-DERIVED COLORECTAL CANCER TISSUE-ORIGINATED ORGANOIDAL SPHEROIDS FOR HIGH-THROUGHPUT MICROFLUIDIC APPLICATIONS

British Journal of Surgery ◽

10.1093/bjs/znab117.023 ◽

2021 ◽

Vol 108 (Supplement_1) ◽

Author(s):

MI Khot ◽

M Levenstein ◽

R Coppo ◽

J Kondo ◽

M Inoue ◽

...

Keyword(s):

Colorectal Cancer ◽

Fluid Flow ◽

High Throughput ◽

Microfluidic Devices ◽

In Vitro Models ◽

Fluorescent Imaging ◽

Cancer Tissue ◽

Cell Models

Abstract Introduction Three-dimensional (3D) cell models have gained reputation as better representations of in vivo cancers as compared to monolayered cultures. Recently, patient tumour tissue-derived organoids have advanced the scope of complex in vitro models, by allowing patient-specific tumour cultures to be generated for developing new medicines and patient-tailored treatments. Integrating 3D cell and organoid culturing into microfluidics, can streamline traditional protocols and allow complex and precise high-throughput experiments to be performed with ease. Method Patient-derived colorectal cancer tissue-originated organoidal spheroids (CTOS) cultures were acquired from Kyoto University, Japan. CTOS were cultured in Matrigel and stem-cell media. CTOS were treated with 5-fluorouracil and cytotoxicity evaluated via fluorescent imaging and ATP assay. CTOS were embedded, sectioned and subjected to H&E staining and immunofluorescence for ABCG2 and Ki67 proteins. HT29 colorectal cancer spheroids were produced on microfluidic devices using cell suspensions and subjected to 5-fluorouracil treatment via fluid flow. Cytotoxicity was evaluated through fluorescent imaging and LDH assay. Result 5-fluorouracil dose-dependent reduction in cell viability was observed in CTOS cultures (p<0.01). Colorectal CTOS cultures retained the histology, tissue architecture and protein expression of the colonic epithelial structure. Uniform 3D HT29 spheroids were generated in the microfluidic devices. 5-fluorouracil treatment of spheroids and cytotoxic analysis was achieved conveniently through fluid flow. Conclusion Patient-derived CTOS are better complex models of in vivo cancers than 3D cell models and can improve the clinical translation of novel treatments. Microfluidics can streamline high-throughput screening and reduce the practical difficulties of conventional organoid and 3D cell culturing. Take-home message Organoids are the most advanced in vitro models of clinical cancers. Microfluidics can streamline and improve traditional laboratory experiments.

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Safety Assessment of Bacillus subtilis MB40 for Use in Foods and Dietary Supplements

Nutrients ◽

10.3390/nu13030733 ◽

2021 ◽

Vol 13 (3) ◽

pp. 733

Author(s):

Jessica L. Spears ◽

Richard Kramer ◽

Andrey I. Nikiforov ◽

Marisa O. Rihner ◽

Elizabeth A. Lambert

Keyword(s):

Antibiotic Resistance ◽

Bacillus Subtilis ◽

Dietary Supplements ◽

Genome Sequencing ◽

In Silico ◽

Safety Assessment ◽

In Vivo Studies ◽

Strain Identification ◽

Consumer Safety

With the growing popularity of probiotics in dietary supplements, foods, and beverages, it is important to substantiate not only the health benefits and efficacy of unique strains but also safety. In the interest of consumer safety and product transparency, strain identification should include whole-genome sequencing and safety assessment should include genotypic and phenotypic studies. Bacillus subtilis MB40, a unique strain marketed for use in dietary supplements, and food and beverage, was assessed for safety and tolerability across in silico, in vitro, and in vivo studies. MB40 was assessed for the absence of undesirable genetic elements encoding toxins and mobile antibiotic resistance. Tolerability was assessed in both rats and healthy human volunteers. In silico and in vitro testing confirmed the absence of enterotoxin and mobile antibiotic resistance genes of safety concern to humans. In rats, the no-observed-adverse-effect level (NOAEL) for MB40 after repeated oral administration for 14 days was determined to be 2000 mg/kg bw/day (equivalent to 3.7 × 1011 CFU/kg bw/day). In a 28 day human tolerability trial, 10 × 109 CFU/day of MB40 was well tolerated. Based on genome sequencing, strain characterization, screening for undesirable attributes and evidence of safety by appropriately designed safety evaluation studies in rats and humans, Bacillus subtilis MB40 does not pose any human health concerns under the conditions tested.

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Urine-Derived Epithelial Cells as Models for Genetic Kidney Diseases

Cells ◽

10.3390/cells10061413 ◽

2021 ◽

Vol 10 (6) ◽

pp. 1413

Author(s):

Tjessa Bondue ◽

Fanny O. Arcolino ◽

Koenraad R. P. Veys ◽

Oyindamola C. Adebayo ◽

Elena Levtchenko ◽

...

Keyword(s):

Epithelial Cells ◽

Kidney Diseases ◽

Cell Types ◽

Cell Models ◽

Tubular Epithelial Cells ◽

Disease Mechanisms ◽

Proximal Tubular Epithelial Cells ◽

Proximal Tubular ◽

Disease Cell

Epithelial cells exfoliated in human urine can include cells anywhere from the urinary tract and kidneys; however, podocytes and proximal tubular epithelial cells (PTECs) are by far the most relevant cell types for the study of genetic kidney diseases. When maintained in vitro, they have been proven extremely valuable for discovering disease mechanisms and for the development of new therapies. Furthermore, cultured patient cells can individually represent their human sources and their specific variants for personalized medicine studies, which are recently gaining much interest. In this review, we summarize the methodology for establishing human podocyte and PTEC cell lines from urine and highlight their importance as kidney disease cell models. We explore the well-established and recent techniques of cell isolation, quantification, immortalization and characterization, and we describe their current and future applications.

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Electrical percolation in extrinsically conducting, poly(ε-decalactone) composite neural interface materials

Scientific Reports ◽

10.1038/s41598-020-80361-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Katarzyna Krukiewicz ◽

James Britton ◽

Daria Więcławska ◽

Małgorzata Skorupa ◽

Jorge Fernandez ◽

...

Keyword(s):

Silver Nanowires ◽

Electrochemical Characteristics ◽

Electrical Percolation ◽

Electrically Conducting ◽

Biomedical Device ◽

Conducting Materials ◽

Bidirectional Communication ◽

Polyester Matrix ◽

Electrical Percolation Threshold

AbstractBy providing a bidirectional communication channel between neural tissues and a biomedical device, it is envisaged that neural interfaces will be fundamental in the future diagnosis and treatment of neurological disorders. Due to the mechanical mismatch between neural tissue and metallic neural electrodes, soft electrically conducting materials are of great benefit in promoting chronic device functionality. In this study, carbon nanotubes (CNT), silver nanowires (AgNW) and poly(hydroxymethyl 3,4-ethylenedioxythiophene) microspheres (MSP) were employed as conducting fillers within a poly(ε-decalactone) (EDL) matrix, to form a soft and electrically conducting composite. The effect of a filler type on the electrical percolation threshold, and composite biocompatibility was investigated in vitro. EDL-based composites exhibited favourable electrochemical characteristics: EDL/CNT—the lowest film resistance (1.2 ± 0.3 kΩ), EDL/AgNW—the highest charge storage capacity (10.7 ± 0.3 mC cm− 2), and EDL/MSP—the highest interphase capacitance (1478.4 ± 92.4 µF cm−2). All investigated composite surfaces were found to be biocompatible, and to reduce the presence of reactive astrocytes relative to control electrodes. The results of this work clearly demonstrated the ability of high aspect ratio structures to form an extended percolation network within a polyester matrix, resulting in the formulation of composites with advantageous mechanical, electrochemical and biocompatibility properties.

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