基因组学和蛋白质组学数据挖掘杂志

抽象的

Proteomics Study of the Effect Left Atrial Appendage Resection on the Energy Metabolism of Atrial Muscle in Beagle Dogs with Rapid Atrial Pacing

Chang Jing, Xing Yue, Na Lin, Cui Wenjing, Yu Ting, Xue Xin

Aims: The myocardial energy metabolism during Atrial Fibrillation (AF) a research hotspot. Proteomics provides a new method for the study of atrial fibrillation; however, there are no related studies of the effect of the Left Atrial Appendage (LAA) on the energy metabolism of the atrial muscle. We use proteomics to analyze the effect of resection of the LAA on the energy metabolism of the left atrial myocardial cells in beagle dogs with rapid atrial pacing.

Methods: Nine beagle dogs were divided into three groups: the model group (rapid atrial pacing/LAA resection), the positive control group (rapid atrial pacing/LAA preservation), and the negative control group (sinus rhythm). Twelve weeks later, the atrial tissues were resected for proteomics study. Parallel Reaction Monitoring (PRM) was used for the validation of the targeted proteomics.

Results: 55 proteins were up regulated and 68 proteins were down regulated in the experimental vs. the positive control group. Proteins related to glucose and lipid metabolism were mainly down regulated, and mitochondria- related proteins were mainly down regulated during rapid atrial pacing compared with sinus rhythm. After resection of the LAA, glucose-metabolism-related proteins showed a significant up regulation trend, lipid metabolism-related proteins were further down regulated, whereas mitochondria-related proteins were up regulated compared with rapid atrial pacing with LAA preservation. PRM confirmed the reliability of the proteomics results.

Conclusion: In the setting of AF, the resection of the LAA had a relatively large effect on the energy metabolism structure by affecting the quantity and functions of mitochondria.