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Abstract
The ‘masking effect’ is the observation that heat shock reduces or masks the apparent expression of ionizing radiation (IR) damage to DNA. The mechanism of this effect is thought to involve the aggregation of proteins to the nuclear matrix or chromatin, thereby stabilizing these structures and masking actual DNA damage from assays and presumably from DNA repair complexes. Previously, using the ‘halo assay’, it has been shown that nucleoids treated with 1 mm dithiothreitol (DTT) and/or IR inhibited the rewinding of DNA supercoils and that this effect was masked in nucloids isolated from heated cells. Here it is reported that treatment of living cells with reducing agents diminishes the interaction between DNA and Protein Disulphide Isomerase (PDI) and that hyperthermia restored the PDI-DNA interaction, indicating that the masking effect occurred in vivo. PDI is a nuclear matrix protein which binds MAR DNA sequences and may be involved in regulating the degree of DNA supercoiling. It is hypothesized that heat-induced stabilization of PDI-DNA interaction will mask changes in supercoiling observed with reducing reagents and also IR. This stabilization may be affected through either the heat-induced association or enhancement of the binding of proteins to MAR DNA at the NM. Several proteins, including B23 and Hsp60, have been identified whose interaction with DNA increased following heat shock. Further work will be needed to determine if these proteins do, in fact, play a role in the masking effect.