We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
High-throughput screening system for inhibitors of human Heat Shock Factor 2.
- Authors
Smith, Levi; Bhattacharya, Dwipayan; Williams, Daniel; Dixon, Ivan; Powell, Nicholas; Erkina, Tamara; Erkine, Alexandre
- Abstract
Development of novel anti-cancer drug leads that target regulators of protein homeostasis is a formidable task in modern pharmacology. Finding specific inhibitors of human Heat Shock Factor 1 (hHSF1) has proven to be a challenging task, while screening for inhibitors of human Heat Shock Factor 2 (hHSF2) has never been described. We report the development of a novel system based on an in vivo cell growth restoration assay designed to identify specific inhibitors of human HSF2 in a high-throughput format. This system utilizes a humanized yeast strain in which the master regulator of molecular chaperone genes, yeast HSF, has been replaced with hHSF2 with no detrimental effect on cell growth. This replacement preserves the general regulatory patterns of genes encoding major molecular chaperones including Hsp70 and Hsp90. The controlled overexpression of hHSF2 creates a slow-growth phenotype, which is the basis of the growth restoration assay used for high-throughput screening. The phenotype is most robust when cells are cultured at 25 °C, while incubation at temperatures greater than 30 °C leads to compensation of the phenotype. Overexpression of hHSF2 causes overexpression of molecular chaperones which is a likely cause of the slowed growth. Our assay is characterized by two unique advantages. First, screening takes place in physiologically relevant, in vivo conditions. Second, hits in our screen will be of medically relevant potency, as compounds that completely inhibit hHSF2 function will further inhibit cell growth and therefore will not be scored as hits. This caveat biases our screening system for compounds capable of restoring hHSF2 activity to a physiologically normal level without completely inhibiting this essential system.
- Subjects
HEAT shock factors; MEDICAL screening; DRUG development; ANTINEOPLASTIC agents; TARGETED drug delivery
- Publication
Cell Stress & Chaperones, 2015, Vol 20, Issue 5, p833
- ISSN
1355-8145
- Publication type
Article
- DOI
10.1007/s12192-015-0605-0