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Proximity Ligation Assay (PLA) for Dummies

Posted in: Protein Expression and Analysis
Proximity Ligation Assay (PLA) for Dummies

It’s a familiar story – molecular biology meets protein science, they get closer and sparks fly. But how exactly does a proximity ligation assay (PLA) work and how do you make sure yours will have a happy ending?

What PLA Does

PLA allows you to detect individual proteins or individual protein interactor pairs without ectopic overexpression. It can provide information on the location and concentration of your target proteins. And it can be used to detect post-translational modifications of proteins.

How PLA Works

Put simply, PLA is the conversion of protein recognition events into detectable DNA molecules. PLA works via the simultaneous and close binding of affinity probe pairs onto a target protein (that’s the protein science part) that results in an amplifiable detection signal in the form of a DNA hybrid product (and that’s the molecular biology part). Sound good so far? Let’s break down the steps.

The Method

1. Get Your Sample

You can perform PLA on many different samples including protein suspensions (e.g. cell lysates, conditioned media, blood serum or plasma) or fixed tissues (e.g. cell culture slides, cytospin preparations or tissue sections).

2. Add Your Affinity Probes

The probes in a PLA experiment are usually either purified antibodies, or specially designed DNA aptamers that bind specifically to your protein(s) of interest. You will need either one polyclonal or two monoclonal affinity probes in each PLA experiment – in either case, the affinity probes are capable of binding at least two different sites. In a single protein detection PLA, the affinity probes will bind to different sites on the same protein; whereas in a two protein detection assay, the affinity probes will each bind specifically to one of your-proteins-of-interest. If you want to detect post-translational modifications, at least one of your affinity probes needs to be able to bind the modified protein.

3. Attach Ligation Arms

Ligation arms are short sequences of DNA attached to the affinity probes. Ligation arms can be directly attached to your affinity probe. But if they are not, you will need to indirectly attach them via a secondary antibody with the ligation arm conjugated. Expert tip: In every PLA there will be two ligation probes – one known as a “PLUS probe” and the other as a “MINUS probe” – including in experiments where there is only one polyclonal affinity probe. In this case, despite all of the affinity probes having the same specificity for your protein some of them need to have the “plus ligation arm” bound to them and others need to have the “minus ligation arm” bound to them, otherwise your experiment won’t work.

 4. Add Connector Oligonucleotide & DNA Ligase

The connector oligo is a short sequence of DNA that hybridizes to the two ligation arms and guides their free ends together where they can ligate to each other (with the help of DNA ligase) to form a ligation product.

5. Amplify & Detect

Next you need to amplify your DNA ligation product and perform the detection step.There are three possible detection methods for PLA:

a. qPCR Detection

During a qPCR-based detection method, amplification and detection occurs simultaneously. In this method you just add standard qPCR reaction components (primers specific for your ligation hybrid product, DNA polymerase, dNTPs, reverse transcriptase, DNA dye, etc) to replicate your products for quantification.

b. Fluorescence or Brightfield Detection

In these methods the amplification and detection steps are performed separately for fluorescent probe detection. These methods rely on rolling circle amplification (RCA) of DNA. Instead of forming a linear ligation product as in qPCR, in RCA circular product is formed. More precisely one of the ligation arms serves as a primer for the RCA reaction while phi29 DNA polymerase replicates and unwinds the other ligation arm from the DNA circle. This generates a randomly coiled, single-stranded product composed of hundreds of copies of the DNA circle, covalently linked to one ligation arm. These DNA copies can then be detected through hybridisation of fluorescent- or enzyme-labelled oligonucleotides, which can be visualized with fluorescent or brightfield microscopy.

c. Blot Detection

This method involves the attachment of your separated proteins onto a solid-phase support (generally a PVDF membrane) by standard SDS-PAGE and Western blot methods, before subsequent PLA as described above from Step 2. Detection is then performed using RCA (see Step 5b) followed by hybridisation of an enzyme-, fluorescent-, or radio-labelled oligonucleotide complementary to the circular DNA sequence, and corresponding visualization method. See table 1 below for a summary of PLA method.

A Quick Guide to PLA in a Table.

PLA methodWhat?Why?
Used to Measure
Detection Method
Concentration?Location?Protein-Protein Interaction?qPCRFluorescence or brightfieldWestern Blot
Homogenous (i.e. in solution)Assay performed with your sample and reagents as a homogenous mixture in a single tube.Simple

Readily adapted to high-throughput applications
YesNoYesYesNoNo
Solid-PhaseAssay performed with your protein(s) of interest immobilised on a solid-support, such as the walls of the reaction tube or affinity-beads.More sensitive
Able to detect very low concentrations of your protein of interest

Permits wash steps – useful for reducing background signal or to remove contaminants that inhibit ligation or amplification
YesNoYesYesNoYes – but this detection method can’t measure protein-protein interactions as proteins aren’t fixed
In situAssay performed in fixed cultured cells, cytospin preparations, or tissue sections.Allows resolution of protein localisationNo – however quantitation is possibleYesYesNoYesNo
How have you used PLA in your research? Do you have any tips and tricks to share that made you and your PLA live happily ever after?

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