Repurposing HDAC inhibitors to enhance ribonuclease 4 and 7 expression and reduce urinary tract infection.
Laura SchwartzMatthew S BochterAaron SimoniKristin BenderJuan de Dios Ruiz RosadoIsrael Cotzomi-OrtegaYuriko Itzel Sánchez-ZamoraBrian BecknellSarah C Linn-PeiranoBirong LiNicholas SantoroTad EichlerJohn David SpencerPublished in: Proceedings of the National Academy of Sciences of the United States of America (2023)
With the emergence of antibiotic-resistant bacteria, innovative approaches are needed for the treatment of urinary tract infections. Boosting antimicrobial peptide expression may provide an alternative to antibiotics. Here, we developed reporter cell lines and performed a high-throughput screen of clinically used drugs to identify compounds that boost ribonuclease 4 and 7 expression (RNase 4 and 7), peptides that have antimicrobial activity against antibiotic-resistant uropathogens. This screen identified histone deacetylase (HDAC) inhibitors as effective RNase 4 and RNase 7 inducers. Validation studies in primary human kidney and bladder cells confirmed pan-HDAC inhibitors as well as the HDAC class I inhibitor, MS-275, induce RNase 4 and RNase 7 to protect human kidney and bladder cells from uropathogenic Escherichia coli . When we administered MS-275 to mice, RNase 4 and 7 expression increased and mice were protected from acute transurethral E. coli challenge. In support of this mechanism, MS-275 treatment increased acetylated histone H3 binding to the RNASE4 and RNASE7 promoters. Overexpression and knockdown of HDAC class I proteins identified HDAC3 as a primary regulator of RNase 4 and 7. These results demonstrate the protective effects of enhancing RNase 4 and RNase 7, opening the door to repurposing medications as antibiotic conserving therapeutics for urinary tract infection.
Keyphrases
- urinary tract infection
- histone deacetylase
- escherichia coli
- poor prognosis
- high throughput
- mass spectrometry
- multiple sclerosis
- endothelial cells
- spinal cord injury
- ms ms
- type diabetes
- squamous cell carcinoma
- pseudomonas aeruginosa
- cell death
- insulin resistance
- induced apoptosis
- oxidative stress
- cell cycle arrest
- lymph node
- signaling pathway
- respiratory failure
- clinical evaluation