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New Reagents for Organoid Growth and Harvesting

AMSBIO
5 Jul 2016
Alex Waite
Editorial Assistant

Product news

AMSBIO has introduced two new products to assist the increasing number of scientists adopting organoid culture as a physiologically relevant model for organ development.

These new tools build upon the widespread use of AMSBIO’s BME2 ‘organoid matrix’ by leading research groups worldwide. BME 2 is the extracellular matrix of choice for growing and supporting organoid cultures that are increasingly being adopted in drug screening applications.

A new R-Spondin1 cell line has been developed that provides a cost-effective solution by which labs can obtain a long-term supply of R-Spondin1 (RSPO1), which is a critical ingredient used in the maintenance and proliferation of mouse and human organoid progenitor stem cells. R-Spondins positively regulate Wnt/beta-catenin signaling, most probably by acting as a ligand for LGR4-6 receptors and an inhibitor for ZNRF3. Our 293T cell line is stably transfected to express murine RSPO1 with an N-terminal HA epitope tag and fused to a C-terminal murine IgG2a Fc fragment. As a consequence this cell line can be used to produce either purified RSPO1 or RSPO1 conditioned media. The murine RSPO1 protein from this cell line has been demonstrated to lower the cost of organoid culture and to maintain Lgr5+ stem cells.

AMSBIO has also introduced a new organoid harvesting solution that addresses the challenge of separating intact organoids from extracellular proteins in the hydrogel for passaging, cryopreservation, or biochemical analysis; and to facilitate PDX xenograft models

Typically, organoid cultures exhibit cellular behaviors and morphologies similar to those seen in vivo. Unfortunately, adapting these models to study biochemical processes has been impeded by problems associated with separating intact organoids from the extracellular proteins that comprise the hydrogel. Commonly, proteases have been employed to degrade these extracellular proteins, but protease techniques have the disadvantages that they also degrade proteins on the cell surface, and that protease activity may carry over into subsequent cultures or lysate preparations. The Cultrex® Organoid Harvesting Solution from AMSBIO provides a new non-enzymatic method for depolymerizing extracellular matrix proteins, enabling harvesting of intact organoids for downstream applications.

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Sample PreparationSample preparation can improve the quality and speed of separation techniques. Products to assist sample preparation include filtration equipment, evaporators, membranes and sieves.Cell / Tissue CultureCell culture or tissue culture is used to study the biology of cells or tissues and to isolate cellular products in an environment which can be manipulated and well defined. Accurately control your culture environment with bioreactors or culture incubators, bind your cells to a surface or together with an extracellular matrix. Distinguish cell types with differential media or proliferate cells with certain characteristics using selective media. Enrich your media with supplements such as growth factors, sera and vitamins. 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Find the best microplates for your lab in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Cell Lines Stem Cells and Primary CellsPrimary cell cultures, established cell lines and stem cells are vital for <i>in vitro</i> and <i>ex vivo</i> experimentation. High-quality cells, optimized for your applications, alongside optimized cell substrates, growth medium and supplements, are critical for experimental success. Explore a range of cells suitable for your applications, including isogenic cell lines, competent cells, induced pluripotent stem cell (iPSC)-derived cell lines, fungal/bacterial/mammalian cell lines, stem cells and cancer cell lines. 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Microplate readers deliver a high throughput of samples by reading multiple wells simultaneously, with the 96-well format the most commonly used. As a result, microplate readers are often used in the drug discovery, bioassays, research and pharmaceutical industries for screening applications. Microplate loading can also be automated, with robotic microplate stackers to increase throughput. Find the best microplate readers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Sample ManagementSample management systems include sample storage devices such as freezers and plate storers, sample environment enclosures and sample organization, retrieval and sorter systems. Useful system features include high-throughput, automation, robotic arms, automated liquid handling and associated database systems. Accessories in sample management include barcode scanners, heat sealers and tubes.Microarray AnalysisMicroarrays, also known as biochips, are used for the detection and analysis of multiple genes, proteins, antibodies, or biomarkers on a single microchip. This can reveal information on protein or gene expression, single nucleotide polymorphism (SNP), copy number variation (CNV), epigenetics and patient health in clinical diagnostic tests. Discover a range of microarray scanners and prefabricated antibody, protein, RNA and DNA microarrays for your analysis or consider creating your own custom microarrays with a microarray printer. Find the best microarray products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Cellular PathologyCellular Pathology deals with the microscopic analysis of tissue samples and cells. Sample preparation and processing includes fixation, staining, sectioning and slide mounting, using equipment such microtomes and cryostats. In choosing immunohistochemistry and immunocytochemistry kits, consider chromogens, staining method, antibodies, microscopes and imaging.Cell-Based AssaysCell-based assays are used to monitor the presence, quantity and activities of a desired cellular analyte including drug molecules or biomarkers. This can reveal information on cell health (apoptosis, cytotoxicity, viability and proliferation assays), cell metabolism, cell migration and cell signaling mechanisms. Find the best cell-based assay products, kits and equipment with our peer reviewed product directory: compare products, check customer reviews and receiving pricing direct from manufacturers.In Vivo Imaging Systems<i>In vivo</i> imaging systems, including pre-clinical imaging systems and medical imaging systems are used to non-invasively visualize and capture images of live animals and plants. Monitor the natural processes or diseases of your subjects using small-animal pre-clinical imaging systems, including single photon positron emission tomography (SPECT), positron emission tomography (PET), computed tomography (micro-CT), magnetic resonance imaging (MRI), X-ray radiography, ultrasound, fluorescence and bioluminescence imagers. Multimodal systems and software solutions are also available for correlative analysis of organ, tissue, cell, or molecular-level processes. Find the best in vivo imaging products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.CryopreservationCell AnalysisThe analysis of cells allows researchers to understand the factors which contribute to cell health and function. These influencing processes can then be predicted and altered, leading to the development of medication and disease treatments.Cell ViabilityCell viability assays assess the health of cells and their ability to proliferate. These tests are crucial in drug development, toxicity testing, and cell-based research. Common methods for assessing viability include MTT, live/dead assays, and flow cytometry. Browse our peer-reviewed product directory to find the best tools for cell viability assays, compare products, check reviews, and get pricing directly from manufacturers.Stem Cell ResearchStem cells have the ability to produce identical daughter cells as well as progeny, which commit and differentiate. Stem cell research has exciting prospects of biomedical applications in cellular disease modeling, pharmaceutical screening, and regenerative medicine.

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