Progress in the Role of Mechanical Stimulus in Cardiac Development / 中国医学科学院学报

Mechanical stimulus is critical to cardiovascular development during embryogenesis period.The mechanoreceptors of endocardial cells and cardiac myocytes may sense mechanical signals and initiate signal transduction that induce gene expression at a cellular level,and then translate molecular-level events into tissue-level deformations,thus guiding embryo development.This review summarizes the regulatory roles of mechanical signals in the early cardiac development including the formation of heart tube,looping,valve and septal morphogenesis,ventricular development and maturation.Further,we discuss the potential mechanical transduction mechanisms of platelet endothelial cell adhesion molecule 1-vascular endothelial-cadherin-vascular endothelial growth factor receptor 2 complex,primary cilia,ion channels,and other mechanical sensors that affect some cardiac malformations.

Progress of diagnosis and treatment of PIEZO2-related diseases / 国际儿科学杂志

As a basic mechanism of cell function, mechanical transduction plays a key role in human growth and development, physiological and pathological processes.And its molecular mechanism has always been a research hotspot.In recent years, Piezo2 has been identified as a mechanically sensitive cationic channel, which serves as an important component of mechanical transduction participating in regulating and maintaining of respiratory rhythm, bowel movement, cartilage stress, tactile sense and multiple other physiological processes.PIEZO2-related diseases have been reported in recent years before which are characterized by distal joint contracture, scoliosis, low muscular tension, and delayed motor development.In this review, we summarizes the clinical phenotype and progress in diagnosis and possible treatment of PIEZO2-related diseases, hoping to improve the recognition of this disease which is essential for long-term management of patients, and provide ideas for the gene research and development of drug targets.