Your search keyword '"Hayhow, Thomas G."' showing total 3 results

1. Metabolism-driven in vitro/in vivo disconnect of an oral ERɑ VHL-PROTAC.

Author

Hayhow, Thomas G., Williamson, Beth, Lawson, Mandy, Cureton, Natalie, Braybrooke, Erin L., Campbell, Andrew, Carbajo, Rodrigo J., Cheraghchi-Bashi, Azadeh, Chiarparin, Elisabetta, Diène, Coura R., Fallan, Charlene, Fisher, David I., Goldberg, Frederick W., Hopcroft, Lorna, Hopcroft, Philip, Jackson, Anne, Kettle, Jason G., Klinowska, Teresa, Künzel, Ulrike, and Lamont, Gillian

Subjects

BREAST cancer, ESTROGEN receptors, BINDING sites, CELL lines, CANCER cells

Abstract

Targeting the estrogen receptor alpha (ERα) pathway is validated in the clinic as an effective means to treat ER+ breast cancers. Here we present the development of a VHL-targeting and orally bioavailable proteolysis-targeting chimera (PROTAC) degrader of ERα. In vitro studies with this PROTAC demonstrate excellent ERα degradation and ER antagonism in ER+ breast cancer cell lines. However, upon dosing the compound in vivo we observe an in vitro-in vivo disconnect. ERα degradation is lower in vivo than expected based on the in vitro data. Investigation into potential causes for the reduced maximal degradation reveals that metabolic instability of the PROTAC linker generates metabolites that compete for binding to ERα with the full PROTAC, limiting degradation. This observation highlights the requirement for metabolically stable PROTACs to ensure maximal efficacy and thus optimisation of the linker should be a key consideration when designing PROTACs. An orally available VHL-ERα PROTAC was developed that showed excellent degradation in vitro. When dosing in vivo, the degradation of ERα was lower than expected, due to competitive binding at the ERα binding site between the PROTAC and a linker metabolite. [ABSTRACT FROM AUTHOR]

Published

2024

2. Modulation of macrophage inflammatory function through selective inhibition of the epigenetic reader protein SP140.

Author

Ghiboub, Mohammed, Koster, Jan, Craggs, Peter D., Li Yim, Andrew Y. F., Shillings, Anthony, Hutchinson, Sue, Bingham, Ryan P., Gatfield, Kelly, Hageman, Ishtu L., Yao, Gang, O'Keefe, Heather P., Coffin, Aaron, Patel, Amish, Sloan, Lisa A., Mitchell, Darren J., Hayhow, Thomas G., Lunven, Laurent, Watson, Robert J., Blunt, Christopher E., and Harrison, Lee A.

Subjects

CROHN'S disease, EPIGENETICS, MACROPHAGE inflammatory proteins, SMALL molecules, INTESTINAL mucosa, GENETIC polymorphisms

Abstract

Background: SP140 is a bromodomain-containing protein expressed predominantly in immune cells. Genetic polymorphisms and epigenetic modifications in the SP140 locus have been linked to Crohn's disease (CD), suggesting a role in inflammation. Results: We report the development of the first small molecule SP140 inhibitor (GSK761) and utilize this to elucidate SP140 function in macrophages. We show that SP140 is highly expressed in CD mucosal macrophages and in in vitro-generated inflammatory macrophages. SP140 inhibition through GSK761 reduced monocyte-to-inflammatory macrophage differentiation and lipopolysaccharide (LPS)-induced inflammatory activation, while inducing the generation of CD206+ regulatory macrophages that were shown to associate with a therapeutic response to anti-TNF in CD patients. SP140 preferentially occupies transcriptional start sites in inflammatory macrophages, with enrichment at gene loci encoding pro-inflammatory cytokines/chemokines and inflammatory pathways. GSK761 specifically reduces SP140 chromatin binding and thereby expression of SP140-regulated genes. GSK761 inhibits the expression of cytokines, including TNF, by CD14+ macrophages isolated from CD intestinal mucosa. Conclusions: This study identifies SP140 as a druggable epigenetic therapeutic target for CD. [ABSTRACT FROM AUTHOR]

Published

2022

3. A Buchwald–Hartwig Protocol to Enable Rapid Linker Exploration of Cereblon E3‐Ligase PROTACs**.

Author

Hayhow, Thomas G., Borrows, Rachel E. A., Diène, Coura R., Fairley, Gary, Fallan, Charlene, Fillery, Shaun M., Scott, James S., and Watson, David W.

Subjects

ARYL bromides, AROMATIC amines, AMINATION, PROTEOLYSIS, UBIQUITIN ligases, UBIQUITINATION

Abstract

A palladium‐catalysed Buchwald–Hartwig amination for lenalidomide‐derived aryl bromides was optimised using high throughput experimentation (HTE). The substrate scope of the optimised conditions was evaluated for a range of alkyl‐ and aryl‐ amines and functionalised aryl bromides. The methodology allows access to new cereblon‐based bifunctional proteolysis targeting chimeras with a reduced step count and improved yields. [ABSTRACT FROM AUTHOR]

Published

2020