ORM-11372

Modify Date: 2023-01-18 17:41:03

ORM-11372 Structure
ORM-11372 structure
Common Name ORM-11372
CAS Number 2376217-14-8 Molecular Weight 282.318
Density N/A Boiling Point N/A
Molecular Formula C17H15FN2O Melting Point N/A
MSDS N/A Flash Point N/A

 Use of ORM-11372


ORM‐11372 is a potent and highly selective NCX 1.1 inhibitor, inhibits human NCX 1.1 reverse and forward currents with IC50 of 5 and 6 nM respectively.ORM‐11372 weakly inhibits human cardiac sodium 1.5 (I Na) and hERG KV11.1 currents (I hERG) with IC50 of 23.2 and 10.0 uM.ORM‐11372 decreased both the outward and inward currents of hiPSC‐CMs with IC50 of 4.8 and 5.6 nM respectively, reduced the magnitude of outward I NCX (the reverse mode) in rat primary ventricular CMs with IC50 of 11.3 nM.ORM‐11372 concentration‐dependently inhibited the calcium efflux signa with an IC50 of 142 and 164 nM for experimental conditions increasing intracellular calcium and eliciting NCX forward mode activity, repectively.ORM‐11372 induced positive inotropic effects of 18 ± 6% and 35 ± 8% in anaesthetized rats with myocardial infarctions and in healthy rabbits respectively with no other haemodynamic effects.

 Names

Name ORM-11372

 ORM-11372 Biological Activity

Description ORM‐11372 is a potent and highly selective NCX 1.1 inhibitor, inhibits human NCX 1.1 reverse and forward currents with IC50 of 5 and 6 nM respectively.ORM‐11372 weakly inhibits human cardiac sodium 1.5 (I Na) and hERG KV11.1 currents (I hERG) with IC50 of 23.2 and 10.0 uM.ORM‐11372 decreased both the outward and inward currents of hiPSC‐CMs with IC50 of 4.8 and 5.6 nM respectively, reduced the magnitude of outward I NCX (the reverse mode) in rat primary ventricular CMs with IC50 of 11.3 nM.ORM‐11372 concentration‐dependently inhibited the calcium efflux signa with an IC50 of 142 and 164 nM for experimental conditions increasing intracellular calcium and eliciting NCX forward mode activity, repectively.ORM‐11372 induced positive inotropic effects of 18 ± 6% and 35 ± 8% in anaesthetized rats with myocardial infarctions and in healthy rabbits respectively with no other haemodynamic effects.
References 1. Leena Otsomaa, et al. Br J Pharmacol. 2020 Dec;177(24):5534-5554.

 Chemical & Physical Properties

Molecular Formula C17H15FN2O
Molecular Weight 282.318