Using the Proximity Ligation Assay to Visualize Colocalization of Proteins at the Drosophila Larval Neuromuscular Junction.

In the nearly 50 years since the neuromuscular junction (NMJ) was first established as a model synapse, its molecular composition has been extensively characterized. Early work relied on fluorescent signals to determine whether proteins localized to the pre- and postsynaptic regions. As more synaptic molecules were identified, determining the localization of these proteins relative to each other became important. Conventional microscopy lacks the resolving power to assess whether two proteins are within an appropriate distance to bind directly or be part of a larger complex. Super-resolution and immunoelectron microscopies can improve spatial resolution, but these techniques can be difficult to execute and troubleshoot, and access to these instruments is limiting. However, another approach, proximity labeling, overcomes many of these limitations by using a DNA secondary label that can only be amplified if the two proteins of interest are within 40 nm of each other, which is ∼5× greater than the resolving power of conventional microscopy. In this protocol, we describe the use of the proximity ligation assay, which combines immunohistochemistry with DNA amplification, to reveal protein colocalization in the Drosophila NMJ.