The Micro‐RNA let‐7f Regulates Expression of the Voltage‐gated Mechanosensitive Ion Channel Na V 1.5 in Human Gastrointestinal Smooth Muscle

Background SCN5A ‐encoded Na V 1.5 is a mechanosensitive voltage‐gated sodium channel expressed in human gastrointestinal smooth muscle cells. In the gastrointestinal tract, alterations in Na V 1.5 current density by naturally occurring mutations or by pharmaceutical block of channel function are associated with constipation. In the heart loss of Na V 1.5 current is associated with cardiac contractility disorders such as dilated cardiomyopathy. Ion channel expression level is regulated by miRNAs, and Na V 1.5 is known to be regulated by miRNA in heart. However , it is not known if miRNAs regulate Na V 1.5 expression in GI smooth muscle. Aim To identify miRNAs that regulate Na V 1.5 expression in gastrointestinal smooth muscle in health and disease. Methods A qPCR array was used to screen for differential expression of 372 of the most common miRNAs in the miRBase database to test the differential expression of miRNA between control tissue and tissues from patients with slow transit constipation. qRT‐PCR was done to determine expression levels of SCN5A mRNA. A cell line (HuJej) was derived from human jejunum smooth muscle cells by immortalization using the SV40 large T antigen. Whole cell voltage clamp experiments were done by standard patch clamp techniques. Results SCN5A mRNA expression was reduced by 66±0.08% in patients with slow transit constipation (57.5±1.8 years) compared to age matched controls (53±1.7 years). qPCR array screening showed that 12 miRNAs were significantly upregulated in colonic muscularis externa from patients with STC compared to controls. Let‐7f miRNA was increased 6.46‐fold in slow transit constipation compared to controls and was the only miRNA with strong negative correlation to SCN5A mRNA expression in the same tissues. HuJej cells express Na V 1.5; therefore, we investigated the effect of let‐7f on Na V 1.5 currents by transfection with a stable miRNA mimic. 48 hours after transfection with let‐7f mimic, Na V 1.5 currents were significantly decreased compared to untransfected cells or to cells transfected with non‐targeting miRNA (let‐7f, −0.6±0.1 pA/pF versus untransfected, −3.9±0.6 pA/pF or non‐targeting, −2.3±0.6 pA/pF). Summary and Conclusions SCN5A mRNA is decreased in slow transit constipation. Expression levels of let‐7f and Na V 1.5 RNA are negatively correlated in human colonic smooth muscle. miRNA let‐7f regulates Na V 1.5 current density. Regulation of Na V 1.5 current density may have relevance in health and disease. Support or Funding Information This work was supported by grant DK52766.