A simplified and sensitive immunoprecipitation approach for the analysis of HSF1 in murine liver tissue

Heat shock factor 1, HSF1, is one of several family members that recognize repeated nGAAn sequences associated with the heat shock element of heat shock and other genes. This transactivator is activated from a monomeric to trimeric form by oxidative, thermal and other stressors. Various studies show that HSF1 levels increase with cancer and decrease with aging and neurodegenerative disorders. It has a role in development as well as infections and inflammation. HSF1 is regulated by post-translational modifications and interactions with other proteins such as HSBP-1. Given its central importance in stress responsivity, various methods have been developed to identify HSF1 and its interacting partners. To date, multiple studies use conventional immunoprecipitation of HSF1 with commercially available antibodies which work well in cell lines but not whole tissue extracts. To remedy this shortfall, we developed a technique to retrieve activated HSF1 with an oligonucleotide link to a magnetic bead. The method captures HSF1 using a DNA sequence specific for HSF1 binding sites on promoter of heat shock genes. Confirmation of tissue derived HSF1 is identified using antibody against HSF1. The magnetic beads conjugated with DNA sequence specific to HSF1 binding was capable of yielding a reproducible band of high signal intensity with low background after native gel electrophoresis and ECL. Thus, the trimeric form of HSF1 can be isolated from tissue with magnetic beads conjugated with a short DNA sequence specific to HSF1 binding. This new method to identify HSF1 is economic, easy, and reproducible and does not require specialized equipment. It overcomes limitations of HSF1 tissue extraction by conventional immunoprecipitation, thus allowing for new approaches to understand HSF1 function in animal and human tissue. • HSF1 is a transcription factor that homotrimerize and binds to a conserved regulatory site, the heat shock element (HSE), consists of repeats of pentameric sequence ‘5-nGAAn-3’ present in the promoters of inducible heat shock protein genes. • This protocol allows isolation of trimeric forms of HSF1 from tissue lysate using magnetic beads conjugated with a short DNA sequence with specific binding to HSF1. • This method is easy, economic and does not require unique instrumentation.