Scientists at Duke University School of Medicine in Durham, N.C., have developed a small-molecule inhibitor of the cellular stress-protective transcription factor, heat-shock factor 1, which showed developmental promise against treatment-resistant prostate cancer and other cancers. The small molecule, Direct Targeted HSF1 InhiBitor (DTHIB), may also be a useful research tool for investigating the regulation and role of HSF1 in basic stress biology and in cancer.

Scientists at Duke University School of Medicine in Durham, North Carolina, have developed a small-molecule inhibitor of the cellular stress-protective transcription factor, heat-shock factor 1, which showed developmental promise against treatment-resistant prostate cancer and other cancers.

Scientists at Duke University School of Medicine in Durham, North Carolina, have developed a small-molecule inhibitor of the cellular stress-protective transcription factor, heat shock factor 1 (HSF1), which showed developmental promise against treatment-resistant prostate cancer and other cancers.