Abstract
Heat shock transcription factor 2 (HSF2) is a transcription factor that regulates heat shock protein gene expression, but the mechanisms regulating the function of this factor are unclear. Here we report that HSF2 is a substrate for modification by the ubiquitin-related protein SUMO-1 and that HSF2 colocalizes in cells with SUMO-1 in nuclear granules. Staining with anti-promyelocytic leukemia antibodies indicates that these HSF2-containing nuclear granules are PML bodies. Our results identify lysine 82 as the major site of SUMO-1 modification in HSF2, which is located in a "wing" within the DNA-binding domain of this protein. Interestingly, SUMO-1 modification of HSF2 results in conversion of this factor to the active DNA binding form. This is the first demonstration that SUMO-1 modification can directly alter the DNA binding ability of a transcription factor and reveals a new mechanism by which SUMO-1 modification can regulate protein function.
Highlights
In the past several years, a number of reports have described the covalent attachment of several proteins similar to ubiquitin in their ability to target proteins in the cell
The processed SUMO-1 is a substrate for the SUMO E1 enzyme, which is a heterodimer of two proteins called SUMO-1-activating enzyme 1 (SAE1) and SUMO-1-activating enzyme 2 (SAE2) [14, 15]
The only thing that is really clear is that heat shock transcription factor 2 (HSF2) can bind to heat shock elements and regulate transcription of heat shock protein genes
Summary
In the past several years, a number of reports have described the covalent attachment of several proteins similar to ubiquitin in their ability to target proteins in the cell. We report that HSF2 is a substrate for modification by the ubiquitin-related protein SUMO-1 and that HSF2 colocalizes in cells with SUMO-1 in nuclear granules. Our results identify lysine 82 as the major site of SUMO-1 modification in HSF2, which is located in a “wing” within the DNA-binding domain of this protein.
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