Recursos Técnicos - Notas de Aplicación
A Homogeneous FRET-based HTS Assay for Quantification of pRb in Cancer Cell Lines to Monitor Inhibition of G0/ G1 Cell Phase TransitionDescargar
Related Products: Lector Híbrido Multi-Modal Synergy Neo2
April 21, 2020
Related Sample File: HTRF RB dose response-HCT116
Author: Peter J. Brescia, Applications Scientist, Applications Department, BioTek Instruments, Inc., Winooski, VT
The field of cancer biology remains one of the most rapidly expanding areas of investigation in both industry and academia. Understanding disruptions that control pathways and checkpoints leading to uncontrolled tumor progression are key to understating disease progression. Presented here is a novel HTRF cell-based assay that quantifies endogenous phosphorylated retinoblastoma protein as a readout of the G0/ G1 cell phase transition.
Cancer remains a global concern given the significant number of new cases reported annually. Recent advances in understanding the underlying biology of disease progression at the molecular level have proved beneficial for identification of new targets and agents against tumor cell growth1. A key factor of cancer progression in general is a disruption of cell cycle control leading to unobstructed cell proliferation. The ability to identify control pathways and checkpoints to target may provide points of intervention through novel therapeutics2.
During normal cell cycle control the distinct phases of the cell cycle are conserved progressing from G0 (quiescence) followed by G1 (pre-DNA synthesis), S (DNA synthesis), G2 (pre-division), and M (cell division). Of those, the progression from G1 to S provides a sentry point that restricts cell proliferation via the interaction between the cyclin-dependent kinases (CDKs) and cyclin proteins3. One key role of a subgroup of CDKs, serine/threonine kinases, is the hyperphosphorylation of the retinoblastoma (Rb) gene product, pRb, in early G1 by CDK4 and CDK6 interacting with cyclin D1 resulting in inactivation and the subsequent release of a number of transcription factors necessary for passage into S phase4. Previous observations suggest that CDK4/6 inhibition may prevent tumor growth and may help return cells to a near normal phenotype2.
Demonstrated here is a novel HTRF cell-based assay that simply and accurately quantifies endogenous phosphorylated retinoblastoma protein at Ser807/811 as a readout of the G0/ G1 cell phase transition. The dose response and IC50 concentration was determined for a representative kinase inhibitor in a high throughput 384-well, homogeneous cell-based assay format using a representative cancer cell line.
Figure 1. The HTRF® assay. The HTRF proximity assay relies on two different specific antibodies targeting phosphorylated Rb. One antibody is labeled with a europium cryptate (donor) and the second with an acceptor. When the labeled antibodies come into close proximity, a FRET signal is detectable.
Materials and Methods
HTRF Reader Control Kit (PN: 62RCLPEA), Human TNF Alpha Kit (PN:62HTNFAPET) and Phosph- Rb (Ser807/811) Cellular Kit (63ADK105PEG) were from Cisbio (Bedford, MA, USA). HCT116 (PN: ATCC® CCL-247™, ATCC, Manassas, MD, USA) cells were cultured using standard tissue culture methods as per the manufacturers’ recommendations. The phospho Rb assay was performed using the One-plate Assay Protocol. Briefly, the cells were harvested at 80-90% confluence using TrypLE dissociation reagent (PN:12605036, Thermo Fisher, Waltham, MA, USA) with gentle handling. The cells were collected by centrifugation and resuspended at the desired cell density in the appropriate growth medium followed by plating 10,000 cells in 8 μL into a small-volume, white, 384-well microplate (PN:3826, Corning, Tewksbury, MA, USA) and allowed to attach during incubation at 37 °C, 5% CO2 overnight.
Palbociclib (PN: 4786, Tocris, Minneapolis, MN, USA) was prepared as a 3x stock as a half-log dilution series and added in a volume of 4 μL of the appropriate cell growth medium to the cells with mixing and incubated as above for 6 hours. Lysis reagent was prepared as per the manufacturers’ recommendation and added in a volume of 4 μL with mixing for 1 hour. Antibody pre-mix was prepared as per the manufacturers’ recommendation for the single plate protocol. The antibody pre-mix was added in a volume of 4 μL and incubated at room temperature overnight.
Figure 2. Phosho-Rb Assay workflow.
HTRF measurements for the Reader Control Kit and TNFα assay were taken using optimized parameters determined during reader certification. HTRF measurements for Rb detection were taken using the optimized settings show below (Table 1). Briefly, the Synergy Neo2™ was fitted with TRF laser reader cubes for Europium/Red acceptor (Cubes 18 and 41). The read mode selected was TRF Laser in the top position to take advantage of the dual-PMT optical pathway. Dual Photo-Multiplier Tube (PMT) gain settings were optimized using the auto-gain feature. Read height was set to 6.75 mm using auto adjust plate height calibration for use with a 384-well, small-volume plate. The remainder of the settings were based on parameters determined during performance of the HTRF reader certification assays.
Table 1. Synergy Neo2 equipped with TRF laser cubes, with the above settings, was used to rapidly capture dual emission HTRF measurements.
Data normalization to account for cell plating differences was achieved using a calculated signal ratio by dividing acceptor signal by donor signal and multiplying the value times 10,000 for each well as seen in the following equation:
The Delta F (DF%) represents the signal-to-background of the assay using internal assay controls to compare day-to-day variability. The DF% is calculated by dividing the difference between the signal and background ratios by the background ratio as seen in the following formula:
HTRF Reader Control Kit
The HTRF Reader Control Kit was used to validate laser parameters required to exceed the norms provided by Cisbio (Table 2). The data collected surpassed the typical norms of assay performance with as little as 1 flash with a standard 0 CV = 6.5%, low calibrator DF = 39%, and high calibrator DF = 1115%, and S/N = 412 (Table 3).
Table 2. HTRF Reader Control Kit norms.
Table 3. Reader Control Kit performance data. Synergy Neo2 fitted with laser was used in conjunction with HTRF Reader Control Kit for validation of reader parameters necessary to meet or exceed typical norms of assay performance.
Human TNFα Assay
The Human TNFα Assay Kit was used to validate the laser parameters required to meet or exceed assay norms for LOD seen below (Table 4). The Synergy™ Neo2 was able to surpass the typical assay norms with as little as 10 flashes with ratio CVs ≤2% and LOD = 6.6 pg/mL (Table 5 and Figure 3).
Table 4. Human TNFα Assay norms.
Table 5. Human TNFα Assay data.
Figure 3. Human TNFα Assay.
Cells were plated as four replicates for each drug concentration in a high throughput 384-well, solid white, small-volume microplate and allowed to attach overnight with incubation. An 11-point, half-log serial dilution series of the kinase inhibitor palbociclib, including a zero compound addition, was added to each well and allowed to incubate for 6 hours prior to addition of lysis reagent. The HTRF signal was read following a 1 hour incubation period at room temperature. The IC50 concentration was determined using a four-parameter dose-response curve fit in Prism software (GraphPad Software, Inc., La Jolla, CA, USA)(Figure 4). The calculated IC50 value correlate well with previously reported data2.
Figure 4. Inhibitor titration. Palbociclib dose response for HCT116 cells generated by the homogeneous, HTS one-plate protocol in a 384-well microplate.
The Z factor was calculated using eight replicate measurement of +/- palbociclib (10 uM). The assay resulted in Z’ factor of 0.63 indicative of very robust assay performance with low variability in a high-throughput microplate format (Table 6).
Table 6. Z' - Factor.
The Synergy™ Neo2 configured with TRF laser and up to 4 PMTs allows for high throughput assay development and screening. A dose response titration of palbociclib against a representative cancer cell line resulted in an IC50 value which correlate well with previously reported values2. The Synergy Neo2 provides rapid detection which is necessary for high-throughput assay formats. Read time was ~2m42s for 384-wells with 10 flashes per well. The improved sensitivity provided by the laser excitation allows simplified workflows to be performed as indicated by the ability to execute the One-plate protocol in a 384-well assay format. The combination of assay and instrumentation provides an ideal solution for high-throughput detection for a variety of applications.
- Finn, Richard S.; Dering, Judy; Conklin, Dylan; Kalous, Ondrej; Cohen, David J.; Desai, Amrita J.t al. (2009): PD 0332991, a selective cyclin D kinase 4/6 inhibitor, preferentially inhibits proliferation of luminal estrogen receptor-positive human breast cancer cell lines in vitro. In Breast Cancer Research 11 (5), R77. DOI: 10.1186/ bcr2419.
- Fry, David W.; Harvey, Patricia J.; Keller, Paul R.; Elliott, William L.; Meade, MaryAnne; Trachet, Erin et al. (2004): Specific inhibition of cyclin-dependent kinase 4/6 by PD 0332991 and associated antitumor activity in human tumor xenografts. In Molecular Cancer Therapeutics 3 (11), pp. 1427–1437.
- Sage, J.; Mulligan, G. J.; Attardi, L. D.; Miller, A.; Chen, S.; Williams, B. et al. (2000): Targeted disruption of the three Rb-related genes leads to loss of G(1) control and immortalization. In Genes & development 14 (23), pp. 3037–3050. DOI: 10.1101/gad.843200.
- Hsu, Jenny; Arand, Julia; Chaikovsky, Andrea; Mooney, Nancie A.; Demeter, Janos; Brison, Caileen M. et al. (2019): E2F4 regulates transcriptional activation in mouse embryonic stem cells independently of the RB family. In Nature communications 10 (1), p. 2939. DOI: 10.1038/s41467-019-10901-x.