Litcius/Paper detail

A dual SHOX2:GFP; MYH6:mCherry knockin hESC reporter line for derivation of human SAN-like cells

Zaniar Ghazizadeh, Jiajun Zhu, Faranak Fattahi, Alice Tang, Xiaolu Sun, Sadaf Amin, Su‐Yi Tsai, Mona Khalaj, Ting Zhou, Ryan M. Samuel, Tuo Zhang, Francis A. Ortega, Miriam Gordillo, Dorota Moroziewicz, Daniel Paull, Scott Noggle, Jenny Xiang, Lorenz Studer, David J. Christini, Geoffrey S. Pitt, Todd Evans, Shuibing Chen

2022iScience11 citationsDOIOpen Access PDF

Abstract

The sinoatrial node (SAN) is the primary pacemaker of the heart. The human SAN is poorly understood due to limited primary tissue access and limitations in robust in vitro derivation methods. We developed a dual SHOX2:GFP; MYH6:mCherry knockin human embryonic stem cell (hESC) reporter line, which allows the identification and purification of SAN-like cells. Using this line, we performed several rounds of chemical screens and developed an efficient strategy to generate and purify hESC-derived SAN-like cells (hESC-SAN). The derived hESC-SAN cells display molecular and electrophysiological characteristics of bona fide nodal cells, which allowed exploration of their transcriptional profile at single-cell level. In sum, our dual reporter system facilitated an effective strategy for deriving human SAN-like cells, which can potentially be used for future disease modeling and drug discovery.

Topics & Concepts

mCherryEmbryonic stem cellCell biologyReporter geneComputational biologyGreen fluorescent proteinMYH6Cell cultureBiologyComputer scienceGeneticsGeneActinGene expressionMYH7Myosin light-chain kinasePluripotent Stem Cells ResearchCRISPR and Genetic EngineeringCongenital heart defects research