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Paradoxical effects on force generation after efficient β1-adrenoceptor knockdown in reconstituted heart tissue.

The Journal of pharmacology and experimental therapeutics (2014-01-17)
Christiane Neuber, Oliver J Müller, Felix C Hansen, Alexandra Eder, Anika Witten, Frank Rühle, Monika Stoll, Hugo A Katus, Thomas Eschenhagen, Ali El-Armouche
RESUMEN

Stimulation of myocardial β(1)-adrenoceptors (AR) is a major mechanism that increases cardiac function. We investigated the functional consequences of genetic β(1)-AR knockdown in three-dimensional engineered heart tissue (EHT). For β(1)-AR knockdown, short interfering RNA (siRNA) sequences targeting specifically the β(1)-AR (shB1) and a scrambled control (shCTR) were subcloned into a recombinant adeno-associated virus (AAV)-short hairpin RNA (shRNA) expression system. Transduction efficiency was ∼100%, and radioligand binding revealed 70% lower β(1)-AR density in AAV6-shB1-transduced EHTs. Force measurements, performed over the culture period of 14 days, showed paradoxically higher force generation in AAV6-shB1 compared with shCTR under basal (0.19 ± 0.01 versus 0.13 ± 0.01 mN) and after β-AR-stimulated conditions with isoprenaline (Δfractional shortening: 72 ± 5% versus 34 ± 4%). Large scale gene expression analysis revealed that AAV6-shCTR compared with nontransduced EHTs showed only few differentially regulated genes (<20), whereas AAV6-shB1 induced marked changes in gene expression (>250 genes), indicating that β(1)-AR knockdown itself determines the outcome. None of the regulated genes pointed to obvious off-target effects to explain higher force generation. Moreover, compensational regulation of β(2)-AR signaling or changes in prominent β(1)-AR downstream targets could be ruled out. In summary, we show paradoxically higher force generation and isoprenaline responses after efficient β(1)-AR knockdown in EHTs. Our findings 1) reveal an unexpected layer of complexity in gene regulation after specific β(1)-AR knockdown rather than unspecific dysregulations through transcriptional interference, 2) challenge classic assumptions on the role of cardiac β(1)-AR, and 3) may open up new avenues for β-AR loss-of-function research in vivo.

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Isoprenaline hydrochloride
Isoprenaline hydrochloride, European Pharmacopoeia (EP) Reference Standard
Isoprenaline sulfate, European Pharmacopoeia (EP) Reference Standard