Antisense regulation of atrial natriuretic peptide expression
Selvi Celik, Mardjaneh Karbalaei Sadegh, Michael Morley, Carolina Roselli, Patrick T. Ellinor, Thomas Cappola, J. Gustav Smith, Olof Gidlöf
Selvi Celik, Mardjaneh Karbalaei Sadegh, Michael Morley, Carolina Roselli, Patrick T. Ellinor, Thomas Cappola, J. Gustav Smith, Olof Gidlöf
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Research Article Cardiology

Antisense regulation of atrial natriuretic peptide expression

Abstract

The cardiac hormone atrial natriuretic peptide (ANP) is a central regulator of blood volume and a therapeutic target in hypertension and heart failure. Enhanced ANP activity in such conditions through inhibition of the degradative enzyme neprilysin has shown clinical efficacy but is complicated by consequences of simultaneous accumulation of a heterogeneous array of other hormones. Targets for specific ANP enhancement have not been available. Here, we describe a cis-acting antisense transcript (NPPA-AS1), which negatively regulates ANP expression in human cardiomyocytes. We show that NPPA-AS1 regulates ANP expression via facilitating NPPA repressor RE1-silencing transcription factor (REST) binding to its promoter, rather than forming an RNA duplex with ANP mRNA. Expression of ANP mRNA and NPPA-AS1 was increased and correlated in isolated strained human cardiomyocytes and in hearts from patients with advanced heart failure. Further, inhibition of NPPA-AS1 in vitro and in vivo resulted in increased myocardial expression of ANP, increased circulating ANP, increased renal cGMP, and lower blood pressure. The effects of NPPA-AS1 inhibition on NPPA expression in human cardiomyocytes were further marked under cell-strain conditions. Collectively, these results implicate the antisense transcript NPPA-AS1 as part of a physiologic self-regulatory ANP circuit and a viable target for specific ANP augmentation.

Authors

Selvi Celik, Mardjaneh Karbalaei Sadegh, Michael Morley, Carolina Roselli, Patrick T. Ellinor, Thomas Cappola, J. Gustav Smith, Olof Gidlöf

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Figure 6

Tethering of NPPA-AS1 to chromatin is RNA polymerase II dependent.

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Tethering of NPPA-AS1 to chromatin is RNA polymerase II dependent. (A) A...
(A) Assessment of the amount of chromatin-enriched NPPA-AS1 in response to DRB treatment. HEK293 cells were treated with 100 μM DRB or vehicle control for 2 hours and chromatin-enriched RNA was prepared using nuclear fractionation. Expression of NPPA-AS1, HOTTIP, and XIST was assessed using qRT-PCR. Data are expressed relative to 18S RNA and normalized to the mean of the control group. Results are based on 2 separate experiments with 3 replicates in each group. *P < 0.05, **P < 0.01 comparing expression between control and DRB-treated cells using the Mann-Whitney U test. Mean and standard deviation are shown. (B) Overview of the positions of each primer pair assessment of RNA polymerase II occupancy across the NPPA-AS1 promoter and gene body for ChIP-qPCR (GRCh37/hg19 assembly). (C) RNA polymerase II and negative control IgG ChIP signal for each genomic region in iPS-CMs. The signal is expressed relative to the DNA input sample. GB, gene body. Data are from 2 separate experiments with 2 technical replicates.