ToxReporter: Cell-Based Toxicity ELISA
An innovative platform to measure toxicity levels in a variety of pathways using a single ELISA
These are areas where new solutions are required – solutions that allow the identification of “bad” compounds and either “fail” these drugs as soon as practically possible in the drug discovery continuum or be aware of potential risks and "flag" compounds as they move down the pipeline. Identifying potential toxicity issues earlier will save significant amounts of money, as well as lives and the avoidance of serious side effects. Millipore, in collaboration with CXR Biosciences, is pleased to offer ToxReporter: nine unique cell-based toxicity assays that address the in vitro market segment and allow the analysis of many of the common cellular events that lead to compound failure in the clinic or during clinical development, including:
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The Science of ToxReporter
Virtually all toxic responses are preceded by the transcriptional activation of stress response pathways with many therapeutic responses involving downstream transcriptional events. Consequently, the promoters of genes activated in this manner have the potential to be used as early biomarkers of toxicity response.
ToxReporter was designed to provide in vitro cell lines in which a series of promoters were used to drive the expression of a common reporter molecule. This reporter molecule is easily detected in blood, urine and tissue culture medium using an ELISA. ToxReporter cell lines allow the detection of early biomarkers of toxicity and cellular stress. Examples of stressful stimuli include compounds in drug discovery and organic or inorganic molecules potentially requiring environmental monitoring.
ToxReporter currently consists of five cell lines containing unique reporter gene constructs. Each contains toxicological pathway specific response elements downstream of a common reporter biomarker, as shown above.
- AP-1 ToxReporter Cell Line: stress response induced by toxic agents leads to the dimerization of c-fos and c-jun (AP-1 complex) that leads to the activation the AP-1 promoter
- GRE ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of the GRE promoter
- HSP70 ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of the HSP70 promoter
- NFκB ToxReporter Cell Line: stress response induced by toxic agents leads to the activation and translocation of NFkB from cytoplasm to the nucleus, leading to the activation the NFkB promoter
- p21waf1 ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of the p21 promoter
- ARE ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of nuclear factor erythoid 2-related factor (Nf2) which binds and activates the ARE promoter
- Hmox1 ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of various transcription factors which then bind and activate the Hmox1 promoter
- HRE ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of hypoxia-induced factor 1 (HIF-1) which then binds and activates the HRE promoter
- XRE ToxReporter Cell Line: stress response induced by toxic agents leads to the activation of aryl hydrocarbon receptor (AH) which then binds and activates the XRE promoter
| Potential Toxicity Mechanism | ||
AP-1 | Oxidative stress, DNA damage and Apoptosis | Activator Protein-1 is a redox sensitive transcription factor associated with oxidative stress, DNA damage and apoptosis. Effect is down regulated by activated GR (Glucocorticoid receptor). |
GRE | Immunosuppressant | Glucocorticoid Response Element regulates immunosuppressive and anti-inflammatory activities in multiple physiological systems. |
HSP70 | Cellular stress, Heavy metal toxicity | Heat Shock Protein 70 is a chaperone protein associated with heat shock, metal toxicity and cellular stress responses. |
NFκB | Oxidative stress, DNA damage | A redox sensitive transcription factor associated with oxidative stress, DNA damage and apoptosis. Effect is down regulated by activated GR (Glucocorticoid receptor). |
p21waf1 | DNA damage | p21waf1 is associated with DNA damage |
ARE | Oxidative stress | Anti-Oxidant Response Element leads to the expression of a number of phase II detoxification genes in response to electrophilic compounds or oxidants. |
Hmox1 | Oxidative stress | Hemoxygenase I associated with oxidative stress response. |
HRE | Mitochondrial DNA damage | Hypoxia Response Element associated with hypoxic stress, DNA damage, especially mitochondrial. |
XRE | Induction of CYP450s | Xenobiotic Response Element is associated with the AR receptor (Aryl hydrocarbon Receptor) which induces the expression of cytochrome P450s (1A1) |
Assay Performance Characteristics
EXAMPLE: AP1 ToxReporter Assay
Z'-Factor
Untreated (n=16) and TPA treated (n=16) cells were assayed for ToxReporter levels using ToxReporter ELISA kit. This is representative of one independent experiment.
(Positive Control) | ||||
AP-1 | TPA | 16 | 16 | 0.6 |
GRE | Dexamethasone | 16 | 16 | 0.7 |
HSP70 | CuSO4 | 16 | 16 | 0.6 |
NFκB | TNFα | 16 | 16 | 0.6 |
p21waf-1 | Etoposide | 16 | 16 | 0.6 |
ARE | TBHQ | 24 | 24 | 0.5 |
Hmox1 | Hemin | 24 | 24 | 0.5 |
HRE | COCL2 | 24 | 24 | 0.6 |
XRE | 3-MC | 24 | 24 | 0.5 |
Dose Response Curves
ToxReporter cells were cultured on a 96-well microtiter plate as quadruplicate samples for 2 days. Cells were stimulated with the appropriate dilutions of stimulant for 24 hours. ToxReporter levels were assayed using ToxReporter ELISA kit. For EC50 calculations, non-linear best-fit dose response was used (GraphPad PRISM 5.0 software).AP-1 Dose Response
EC50 for TPA = 1.5 nM
Time Course Curves for Dose Response
ToxReporter cells were cultured on a 96-well microtiter plate as quadruplicate samples for 2 days. Cells were treated with appropriate dilutions of stimulant for 8, 16 and 24 hours. At each time point, 5 mL of media from each well was removed and frozen at -20 °C. ToxReporter levels were assayed when samples from all time points were collected. The asterisk represents the optimal time and stimulant concentration.AP-1 Time Course
ToxReporter Advantages
Advantages of Millipore’s ToxReporter technology include:- A quantitative vs. a qualitative assay: the ELISA can be used to generate a standard curve while other cell-based toxicity assays can only establish a ratio
- Flexibility of experimental design: In one assay (ELISA) you can test supernatants from more than one cell line or test one cell line with various compounds – and at various time points
- A stable reporter biomarker: you can collect, freeze and store samples to run later on one ELISA plate
- The ability to collect 1 – 10 µL samples across multiple time points from a single treated well
- The only instrument needed is a plate reader capable of reading ELISA plates
- A greatly diminished risk of test compound fluorescence being an issue
Ordering ToxReporter Products
» View ToxReporter in the Product CatalogueConsult the following chart when ordering the ToxReporter products you need to run your assays. Click to enlarge.
Other Millipore Toxicity Products | Download our product selection guide: ToxReporter ELISA: Cell-based Toxicity |
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