Tracking Tau in Neurons: How to Grow, Fix, and Stain Primary Neurons for the Investigation of Tau in All Developmental Stages.

Abstract

Primary murine neurons are a well-established tool for investigating Tau in the context of neuronal development and neurodegeneration. However, culturing primary neurons is usually time-consuming and requires multiple feeding steps, media exchanges, proprietary media supplements, and/or preparation of complex media. Here, we describe (i) a relatively cheap and easy cell culture procedure for the cultivation of forebrain neurons from embryonic mice (E13.5) based on a commercially available neuronal supplement (NS21), (ii) a protocol for the cultivation of hippocampal and cortical neurons from postnatal (P0-P3) animals, and (iii) basic fixation and immunofluorescence techniques for the staining of neuronal markers and endogenous Tau. We demonstrate a staining technique, which minimizes antibody consumption and allows for fast and convenient processing of samples for immunofluorescence microscopy of endogenous Tau in primary neurons. We also provide a protocol that enables cryopreservation of fixed cells for years without measurable loss of Tau signal. In sum, we provide reliable protocols enabling microscopy-based studies of Tau in primary murine neurons.