Transgenic LQT2, LQT5, and LQT2‐5 rabbit models with decreased repolarisation reserve for prediction of drug‐induced ventricular arrhythmias

Background and Purpose Reliable prediction of pro‐arrhythmic side effects of novel drug candidates is still a major challenge. Although drug‐induced pro‐arrhythmia occurs primarily in patients with pre‐existing repolarisation disturbances, healthy animals are employed for pro‐arrhythmia testing. To...

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Bibliographic Details
Published in:	British journal of pharmacology Vol. 177; no. 16; pp. 3744 - 3759
Main Authors:	Hornyik, Tibor, Castiglione, Alessandro, Franke, Gerlind, Perez‐Feliz, Stefanie, Major, Péter, Hiripi, László, Koren, Gideon, Bősze, Zsuzsanna, Varró, András, Zehender, Manfred, Brunner, Michael, Bode, Christoph, Baczkó, István, Odening, Katja E.
Format:	Journal Article
Language:	English
Published:	England Blackwell Publishing Ltd 01-08-2020 John Wiley and Sons Inc
Subjects:	Action potential Animal models Arrhythmia Cardiac arrhythmia Drug development EKG Heart Potassium channels Predictions Research Paper Research Papers Transgenes Ventricle
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Summary:	Background and Purpose Reliable prediction of pro‐arrhythmic side effects of novel drug candidates is still a major challenge. Although drug‐induced pro‐arrhythmia occurs primarily in patients with pre‐existing repolarisation disturbances, healthy animals are employed for pro‐arrhythmia testing. To improve current safety screening, transgenic long QT (LQTS) rabbit models with impaired repolarisation reserve were generated by overexpressing loss‐of‐function mutations of human HERG (HERG‐G628S, loss of IKr; LQT2), KCNE1 (KCNE1‐G52R, decreased IKs; LQT5), or both transgenes (LQT2‐5) in the heart. Experimental Approach Effects of K+ channel blockers on cardiac repolarisation and arrhythmia susceptibility were assessed in healthy wild‐type (WT) and LQTS rabbits using in vivo ECG and ex vivo monophasic action potential and ECG recordings in Langendorff‐perfused hearts. Key Results LQTS models reflect patients with clinically “silent” (LQT5) or “manifest” (LQT2 and LQT2‐5) impairment in cardiac repolarisation reserve: they were more sensitive in detecting IKr‐blocking (LQT5) or IK1/IKs‐blocking (LQT2 and LQT2‐5) properties of drugs compared to healthy WT animals. Impaired QT‐shortening capacity at fast heart rates was observed due to disturbed IKs function in LQT5 and LQT2‐5. Importantly, LQTS models exhibited higher incidence, longer duration, and more malignant types of ex vivo arrhythmias than WT. Conclusion and Implications LQTS models represent patients with reduced repolarisation reserve due to different pathomechanisms. As they demonstrate increased sensitivity to different specific ion channel blockers (IKr blockade in LQT5 and IK1 and IKs blockade in LQT2 and LQT2‐5), their combined use could provide more reliable and more thorough prediction of (multichannel‐based) pro‐arrhythmic potential of novel drug candidates.
Bibliography:	István Baczkó and Katja E. Odening shared last authorship. Tibor Hornyik and Alessandro Castiglione shared first authorship. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 The copyright line for this article was changed on 3 September 2020 after original online publication.
ISSN:	0007-1188 1476-5381
DOI:	10.1111/bph.15098