PBMC isolation and cytokine assays made easy

Tips & Guidelines
Sahra L.  
By Sahra L.    time to read 3 min

Are you working on PBMC from buffy coat or whole blood, but struggling with your PBMC isolation? You asked all your lab colleagues for advice, but you still experience platelet contamination or low yield?
Challenges like this in the first steps of a protocol can be very frustrating. But you can’t move forward, as good PBMC isolation is essential when you are trying measure cytokine secretion!
To help you over the hurdle, we prepared a complete and easy protocol to help you to purify PBMC and set up your cytokine assay.

But first, what is PBMC?

Peripheral Blood Mononucleal Cells (PBMC) are blood cells with a single round nucleus. This includes T-cells, B-cells, monocytes, and macrophages, but excludes platelets and erythrocytes that do not have any nucleus, as well as granulocytes, which have a polynuclear nucleus (that is, a non-round nucleus).

Table summarizing PBMC cells
Table summarizing not PBMC cells

PBMCs play an important role in innate and adaptive immunity. They synthetize cytokines, which are involved in immunology, cancerology, and many disorders.

How does PBMC isolation work?

By gradient! Blood cells have different size and weight, so centrifugation distributes cells according to their weight. Heavier cells sink towards the bottom and lighter cells rise towards the top.

But wait! Simply centrifuging blood cells produces a pellet at the bottom of the tube! The trick is to use an ingredient to produce the separation gradient effect: Ficoll®.

The protocol is very easy. Add a volume of Ficoll® to a tube, then add a volume of blood cells. Blood is lighter than Ficoll® and therefore remains on top.

A blood tube after Ficoll® addition
The magic happens after centrifugation. Red cells are found in the lower part. Above that is a layer of Ficoll®, on which sits a clear layer of lighter cells such as thrombocytes. PBMC forms a thin orange interphase between Ficoll® and thrombocytes.

Tip: centrifugation must be performed without braking. Otherwise, the separation of upper and lower parts will be disturbed.

Carefully pipet PBMC, transfer it to a new tube, and discard the supernatant centrifugation. After cell resuspension in medium, cytokine measurement can be performed directly or cells can be frozen.

A tube containing blood and Ficoll® after

Which method to choose?

The method of choice is to use an HTRF® assay.
HTRF® is a reliable, fast, and easy assay that does not require washing and can be set up in just a few hours.
HTRF® is based on the FRET method. The compound is detected by two antibodies linked to a donor and an acceptor fluorophore. A signal is emitted when the donor and acceptor are in close proximity. This provides accurate and sensitive measurement.

Assay

How to carry out the experiment?

Dispense a volume of your cells onto a plate and use a compound for stimulation. Then, simply add HTRF® reagents and measure the signal. That’s how easy it is to set up an HTRF assay. We provide many ready-to-use kits for your work on cytokine and immune checkpoints (PD1/PDL1, IL1, IFNɣ, TNFα, and more).

Equipped with this protocol, you are now ready to purify the PBMC and dose any cytokine you are working on reliably and reproducibly.

Discover a complete guideline for PBMC isolation and cytokine assays, complete with a method to optimize every step of your experiment!

Application note - PBMC

Guidelines from PBMC isolation
to cytokine assay optimisation

Technical note

Download protocol