High Fat and Diet Induced Obesity

i-FectTM Delivers Again!Research shows that rats and humans on a high-fat diet (HFD) are less sensitive to satiety signals known to act via vagal afferent pathways. Impaired vagal afferent responsiveness to both gastric satiety hormones (CCK and leptin) and mechanical stimulation raises the possibility that changes in electrophysiological properties may be the underlying mechanism responsible for impaired vagal responsiveness to a wide variety of satiety signals.Potassium channels play a central role. To demonstrate this researchers used ouri-Fect siRNA Transfection Kit to silence TRESK and TASK1 to understand their impact on HFD and vagal responsiveness. Gintautas Grabauskas, Xiaoyin Wu, ShiYi Zhou, JiYao Li, Jun Gao, and Chung Owyang. (2019).High-fat diet –induced vagal afferent dysfunction via upregulation of 2-pore domain potassium TRESK channel. JCI Insight. https://doi.org/10.1172/jci.insight.130402.Images: (A) Representative recordings of NG neuron responses to intra –superior pancreaticoduodenal artery infusions of CCK-8 (60 pmol/kg) and leptin (60 pmol/kg) in LFD-fed or HFD-fed rats and transfected with control siRNA or TRESK siRNA. Note that CCK-8 generated significantly fewer action potentials in HFD-fed rats compared with those fed an LFD. (B) Summary his tograms showing single-unit discharges in response to CCK-8 in rats given an LFD and transfected with control siRNA (n = 11) or TRESK siRNA (n = 6), HFD + control siRNA (n = 12), and HFD treated with TRESK si...
Source: siRNA and DsiRNA Transfection Efficiency - Category: Neuroscience Tags: iFect in vivo siRNA intrathecal delivery of siRNA RNAi TRESK Source Type: news