Discover Fast and Reproducible Cytokine Quantitation
App Note / Case Study
Last Updated: July 1, 2024
(+ more)
Published: April 8, 2024
Credit: iStock
Cytokine detection and monitoring is an important technique for researchers and clinicians alike, where it can shed light on immune status and disease progression.
Traditionally, enzyme-linked immunosorbent assays (ELISAs) are used for cytokine detection. However, they often lack the sensitivity and reproducibility required to detect endogenous levels of an analyte reliably.
This application note showcases an automated immunoassay platform, EllaTM, which surpasses the capabilities of ELISAs for single- or multi-analyte quantitation in biological matrices.
Download this application note to discover:
- How to eliminate protocol challenges associated with ELISAs
- A platform which generates highly precise, quantitative cytokine data in one hour
- Simplified multiplexing to save on time and sample volume
DETECTING AND ANALYZING
CYTOKINES THE SIMPLE PLEX WAY
FAST AND REPRODUCIBLE QUANTITATION
OF CYTOKINES WITH ELLA
INTRODUCTION
As small soluble protein messengers released by cells, cytokines interact and communicate with other nearby cells. The results are
pleiotropic and affect cellular function in ways that can indicate inflammation or disease progression, making cytokine detection,
measurement and monitoring important to clinicians and researchers alike. The enzyme-linked immunosorbent assay (ELISA) is the
traditional way to detect and validate protein biomarkers in serum, cell preparations or other biological sample types because the
assay offers high target specificity.
However, the standard ELISA approach doesn’t always have the sensitivity or reproducibility required to detect endogenous levels of
an analyte reliably. Moreover, analyte cross-reactivity complicates multiplexing, and the tedious manual workflow that calls for hours
of time to produce a result followed by hours of time for analysis has necessitated change and produced an improved, alternative
approach that streamlines the entire process. In this application note, we’ll show you how scientists are already using Simple Plex™
assays on Ella™ to do everything an ELISA does, but faster. Oh, and with greater sensitivity and reproducibility.
WHAT IS THE SIMPLE PLEX WAY?
All steps of a Simple Plex immunoassay on Ella are highly
automated thanks to her microfluidic cartridge—everything is
preloaded, even the calibration curve. Just pipette your diluted
samples onto the cartridge, add wash buffer, press Start in the
Ella Runner Software and walk away to the sound of automatic
processing. Inside the Simple Plex cartridge, samples are routed
through microfluidic channels containing Glass Nano Reactors
(GNRs) (FIGURE 1). Each GNR is coated with an analyte-specific
and pre-optimized capture antibody. With three GNRs in each
microfluidic channel, you automatically get triplicate results for
every analyte. Setup only takes 10–15 minutes, and results are
ready in about 1 hour. With the Simple Plex workflow, you’ll
have low-pg/mL detection and single-digit inter- and intra-assay
coefficient of variation (CV) values giving you superior assay
sensitivity and data reproducibility.
FROM THE FIELD: USING SIMPLE PLEX
ASSAYS TO DETECT CYTOKINES
In all areas of life science research, the peer review process is, in
more ways than one, a hurdle to your success. This is especially
true with regard to cytokine immunoassays, where scientists
are regularly challenged on the reproducibility and variability
of results. We just told you how Ella works and why she is your
immunoassay problem solver; now, we’re including a selection of
peer-reviewed work for that extra seal of external approval you’d
expect.
APPLICATION NOTE
2
CHARACTERIZATION AND
VALIDATION OF SIMPLE PLEX
Researchers at Yale University School of Medicine and
collaborating colleagues used Simple Plex assays to
quantitatively measure cytokine levels in various human and
mouse sample types, including tissue, serum, plasma, cell lysate
and supernatant¹.
To examine inter-assay reproducibility, samples were run by two
analysts using separate Ella instruments and at independent
laboratory sites. The team measured the concentration levels
of four cytokines—IL1-b, IL-5, IL-10 and IL-6—in 15 individual
human serum and plasma samples in duplicate. To generate
standard curves that are independent of being factory-calibrated,
samples were run blind, each spiked at low, medium, and high
concentrations, and analyzed using data from the two sites/
users. The analysis demonstrated a strong linear relationship
(R² > 0.98) between the sites, instruments and users for all sample
types and analytes tested (FIGURE 2A). To further attest to assay
reproducibility, the team generated 11 standard curves for the
cytokine IL-6 over 31 days, for which a representative curve is
shown in FIGURE 2B. With a CV of <5%, the researchers were
able to conclude that Simple Plex assays have “a high level of
precision and reproducibility” and that the “resultant calculated
concentrations also demonstrated excellent reproducibility”¹.
Finally, to address inter-assay precision, they ran high- and
low-quality control values of the four analytes under study and
determined excellent reproducibility across different cartridges
over a multi-day period (FIGURE 2C).
In summary, this work both characterizes and validates Ella for
quantitative and reproducible analyses of cytokines in human
and mouse samples. It also shows the excellent transferability
of a Simple Plex assay. Multiple users at different sites were
able to leverage Simple Plex technology to get the same
high-quality cytokine measurements. This gives you the peace of
mind that your work can be easily transferred to collaborators, or
into publication.
MULTIPLEX WITH SENSITIVITY
The work published in the high-impact journal Cell by researchers
in The Netherlands attests to the highly sensitive detection
capabilities of the Ella platform². Therein, Simple Plex assays
are used to assess cytokine levels in the fg/mL to low pg/mL
concentration range! To examine various environmental and
non-genetic host factors that alter the immune response, Rob ter
Horst and colleagues use a systematic approach including over
500 healthy subjects within a broad age range to measure the
production and release of cytokines in response to bacterial,
fungal, viral and nonmicrobial metabolic stimuli.
Initially unable to measure resting levels of cytokines in
healthy individuals due to their low abundance, the team
turned to Simple Plex assays on Ella to obtain this baseline.
Because Simple Plex assays have a wide dynamic range—
3 to 5 logs—which is typically 1 to 2 logs greater than a standard
ELISA, researchers could detect IL-1β, IL-6, IL-18 and VEGF
in the fg/mL to low pg/mL range². This ability allowed for the
comprehensive analysis of circulating cytokines and facilitated
FIGURE 1. Ella performs immunoassays in a microfluidic Simple Plex cartridge. The sample is first routed through the
microfluidic channels, then a capture antibody captures the target analyte. Stringent washes follow, which remove
unbound analyte. Detection antibody migrates through the microfluidic channel, while stringent washes remove any
that is unbound. Finally, GNRs are scanned for further data analysis.
3
y = 1.0309x
R = 0.98507
0
1,000
2,000
3,000
4,000
5,000
0 1,000 2,000 3,000 4,000 5,000
Yale Avg (pg/mL)
Internal Avg (pg/mL)
IL-10 all samples
IL-10 all samples
Linear (IL-10 all samples)
y = 1.1084x
R = 0.98745 2
0
100
200
300
400
500
600
0 100 200 300 400 500 600
Yale Avg (pg/mL)
Internal Avg (pg/mL)
IL1b- Samples under ULOQ only
IL1b- Samples under ULOQ only
Linear (IL1b- Samples under ULOQ only)
y = 1.1058x
R = 0.98719
0
1,000
2,000
3,000
4,000
5,000
6,000
0 1,000 2,000 3,000 4,000 5,000 6,000
Yale Avg (pg/mL)
Internal Avg (pg/mL)
IL-6 all samples
IL-6 all samples
Linear (IL-6 all samples)
y = 1.1595x
R = 0.98251
0
1,000
2,000
3,000
4,000
5,000
6,000
0 1,000 2,000 3,000 4,000 5,000
Yale Avg (pg/mL)
Internal Avg (pg/mL)
IL5 all samples
IL5 all samples
Linear (IL5 all samples)
1
10
100
1,000
0 1 10 100 1,000 10,000
Relative fluorescence units (RFUs)
Human IL-6 concentration (pg/mL)
1
10
100
1,000
01234 5
Concentration (pg/mL)
QC Test Day
IL10 High IL1B High IL5 High IL6 High
IL10 Low IL1B Low IL5 Low IL6 Low
2
2 2
A B
C
FIGURE 2. Sample Reproducibility: A standard curve for analytes was generated by two separate laboratories at different times using the same
batch of panels. Representative curves for four analytes (A). Standard Curve Reproducibility: Stability and reproducibility of the assay were
established by generating 11 individual standard curves for human IL-6 run over the course of 31 days (B). Intra-assay Precision: Intra-assay precision
was determined for each analyte (IL-10, IL-1b, IL-6 and IL-5) by running cartridges containing eight replicates of either high or low QCs over a period
of 4 days (C). Adapted from Aldo et al., 2016, CC BY 4.0¹.
the reported correlation between cytokine production and age
and gender in healthy individuals. Moreover, in an ex-vivo system,
cytokine expression monitoring after exposure to microbial
stimuli also resulted in differences that could be attributed to age,
gender and seasonality. This work has important implications in
our understanding of how variations in the immune response
could influence one’s susceptibility to a number of autoimmune
diseases and other pathologies.
LEVERAGE IMMUNODETECTION DATA
The ability to measure several proteins at once in any given
cellular or bodily fluid preparation provides researchers with a
more sophisticated view of their biology while saving on both
sample volume and time spent. This has been doable using other
immunodetection-based techniques such as Western blotting
(due to size differentiation) but is otherwise a struggle using
traditional ELISA.
Working with primary human nucleus pulposus cells to
investigate the impact of pH on the inflammasome-regulated
inflammatory response, researchers in the Department of
Neurological Surgery at the University of Miami used Simple
Plex assays to study the role of cytokines IL-1β and IL-18 in
lower back pathology³. A representative immunoblot and
the associated densitometry analysis (FIGURE 3 A-C) shows
significant changes in intracellular IL-1β and IL-18 protein
expression in response to decreasing pH levels. This result is
further strengthened by the quantitative results obtained from
the Simple Plex assays (FIGURE 3 D AND E), which show
the concentration of released extracellular protein also being
meaningfully reduced at a pathological pH (p < 0.05, n = 5–6
wells/group run in triplicates). With Ella, researchers were able
to leverage the protein expression information gained
by traditional immunoblotting to provide confirmatory results
for their initial observation, paving the way for the mechanistic
studies that follow.
4
FIGURE 3. IL-1 cytokine expression is reduced at pathological pH. Representative
immunoblot analysis of IL-1β and IL-18 at three different pH levels (7.4, 6.8 and 6.5) (A).
Densitometric analysis corresponds to the active forms of IL-1β (15 kDa, B) and IL-18 (18
kDa, C). Data presented as mean ± SEM. N = 6 wells per group. β-actin was used as an
internal standard for protein loading control. Cell media were used to measure protein
concentration of released IL-1β (D) and IL-18 (E). Data presented as mean ± SEM. N = 5–6
wells per group. **p < 0.05 compared to 6.8 and *p < 0.05 compared to 7.4. Data on A, B
and C were obtained from lysates measured by immunoblotting, and data from D to E
correspond to supernatants measured by a Simple Plex assay. Adapted from Brand III et al.,
2016, CC BY 4.0³.
A
B C
D E
5
CONCLUSION
Ella will transform the way you measure cytokines. She offers
a fast, robust method for single- or multi-analyte quantitation
in biological matrices. With a fully automated workflow, the
protocol challenges that come with performing traditional ELISAs
are eliminated. In this application note, we’ve shown you some of
the ways in which researchers are using Ella to generate highly
precise and quantitative cytokine data—all without any of the
hassle and in just 1 hour.
REFERENCES
1. Simple Plex™: A novel multi-analyte, automated microfluidic
immunoassay platform for the detection of human and mouse
cytokines and chemokines, P Aldo, G Marusov, D Svancara, J
David, and G Mor American Journal of Reproductive Immunology.
2. Host and environmental factors influencing individual human
cytokine responses, R Horst, M Jaeger, SP Smeekens, M Oosting,
MA Swertz, Y Li, V Kumar, DA Diavatopoulos, AFM Jansen, H
Lemmers, H Toenhake-Dijkstra, AE van Herwaarden, M Janssen,
RG van der Molen, I Joosten, FCGJ Sweep, JW Smit, RT NeteaMaier, MMJF Koenders, RJ Xavier, JWM van der Meer, CA
Dinarello, N Pavelka, C Wijmenga, RA Notebaart, LAB Joosten,
and MG Netea, Cell, 2016; 167:1111–24.
3. Acidification changes affect the inflammasome in human
nucleus pulposus cells, FJ Brand III, M Forouzandeh, H Kaur, F
Travascio and JP de Rivero Vaccari, Journal of Inflammation,
2016; 13:29.
6
NOTES
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NOTES
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