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Immuno-oncology biomarker measurement with high sensitivity and speed using SimpleStep ELISA kits and SPECTROstar Nano

Mallori Milligan (1) Scott Detmer (1) Carl Peters (2) (1) Abcam, Cambridge, UK (2) BMG LABTECH, Cary, NC 06/2020
  • Determining the expression of biomarkers is essential for optimizing immuno-oncology therapies
  • SimpleStep ELISA® kits from Abcam provide a detection tool for hundreds of cancer-relevant markers
  • SPECTROstar®Nano simplifies data collection, with results quickly achieved using MARS data analysis

Table of contents

Introduction

Cancer therapies based on harnessing patients’ immune responses have shown impressive results in the clinic. Despite these successes, there is still a significant unmet need, as a large proportion of patients either do not respond or can become resistant to current drugs. The development of more efficacious treatments requires better understanding of cancer immune evasion strategies1 as well as the identification of predictive biomarkers for clinical outcomes or pharmacodynamic markers for target engagement. Altogether, this has the potential to tailor therapies to the individual and optimize treatment regimens.


Here we describe the successful implementation of the SimpleStep ELISA® kits for detection of 3 relevant biomarkers: Programmed Death Ligand 1 (PD-L1), Interleukin-8 (IL-8), and Interferon Gamma (IFN-γ). Treatments targeting the Programmed Death 1 (PD-1) / PD-L1 pathway have seen successes due to the role of this pathway as an immune checkpoint. Beyond the immune regulator role, the expression level of PD-L1 in tumors, and in some instances, immune cells, has been correlated to the clinical outcome of blocking this pathway1. In addition, both IL-82 and IFN-γ3 expression have been shown to be modulated in response to PD-1/PD-L1-targeting treat-ments.


Assay Principle

The SimpleStep ELISA® improves upon the established ELISA platform, providing a semi-homogeneous approach that saves both time and effort (Figure 1).

Materials & Methods

  • SPECTROstar® Nano
  • SimpleStep ELISA® kits
  • Human PD-L1 (ab214565)
  • Human IL-8 (ab214030)
  • Human IFN-γ (ab236895)

 

Experimental procedure
Samples were all handled according to kit instructions including an 8-point standard curve, in duplicate, with a 2-fold dilution series. Starting concentrations for PD-L1, IL-8, and IFN-γ were 1100, 250, and 800 pg/mL respectively. Replicates of blanks and appropriate biological replicates for each kit were employed to assess reproducibility of the assays.


Human PD-L1 (ab214565)
The bio-replicates used were human serum, human serum spiked with PD-L1, and the supernatant from a peripheral blood mononuclear cell (PMBC) culture that had undergone a mitogenic stimulation regimen with phytohemagglutinin-M (PHA-M) to promote cytokine expression4


Human IL-8 (ab214030)
Two different dilutions of supernatant from a PHA-M stimulated PMBC culture were used as bio-replicates.

 

Human IFN-γ (ab236895)
Bio-replicates are dilutions of PHA-M stimulated PMBC culture supernatant.


Data analysis (4-parameter curve fit, R2 calculation, minimum detectable dose (MDD) calculation, determination of %CV) was performed in MARS using a data analysis template following absorbance detection using the SPECTROstar® Nano. The following settings were used for detection:


Instrument Settings

 

Optic settings Absorbance spectrum, Endpoint test
Wavelength range (step width) 400-700 (2) nm
General settings Number of flashes 45
Settling time 0.2 s

 

 

Results & Discussion

All SimpleStep ELISA kits demonstrated high data quality and reproducible results. Figure 2 shows outstanding cor-relation for the data from the Human PD-L1 SimpleStep ELISA® kit in the 4-parameter fit, based on the R2 value. MDD showed high sensitivity similar to the value reported in the kit literature and all bio-replicates and blanks exhibited low variability with %CV of less than 5.

MDD (pg/ mL) %CV of blanks (n=16) %CV of bio-replicates
50% Human Serum
(n=8)
50% Human Serum + 500
pg/mL PDL1 (n=8)
50% Stim. PBMC
Culture Sup. (n=8)
<4.5 4.6 4.3 3.1 2.7

 

 

The results from the Human IL-8 SimpleStep ELISA kit are shown in Figure 3. The standard curve correlates with a 4-parameter fit based on Rand the MDD agreed with the kit literature. Both bio-replicates showed very low variability with a %CV of less than 4 while the blanks %CV were less than 5.

Figure 4 shows the results for the Human IFN-γ SimpleStep ELISA® kit. The standard curve correlates to a 4-parameter fit and MDD agreed with kit literature. The blanks and bio-replicates for this assay showed very low variability (%CV < 4).

MDD (pg/mL)%CV of blanks
(n=15)
%CV of bio-replicates
Stim. PBMC Culture Sup.
25 % (n=8)
Stim. PBMC Culture Sup.
12.5% (n=8)
5.53.41.91.4

 

 

Conclusion

This study has demonstrated the ability of SimpleStep ELISA® kits, when used in conjunction with SPECTROstar®Nano and MARS data analysis, to deliver the fast and easy detection of predictive and pharmacodynamic immune-oncology biomarkers to better understand cancer immune evasion strategies and allow for the development of individual, optimized treatment regimens for patients.


References

1. Allard, B. et al. Semin. Cancer Biol. (2018) 52: 1-11. Doi: 10.1016/j.semcancer.2018.02.005
2. Sanmamed, M.F. et al. Ann. Oncol. (2017) 28: 1988-1995. Doi: 10.1093/annonc/mdx190
3. Ni L. and Lu J. Cancer Med. (2018) 7: 4509-4516. Doi: 10.1002/cam4.1700.
4. Sullivan, K.E. et al. Clin Diagn Lab Immunol (2000) 7:920-924 Doi: 10.1128/cdli.7.6.920-924.2000

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