Objective To identify mechanisms regulating disease progression in rat models of pulmonary arterial hy-pertension(PAH).Methods Rat PAH models were established using subcutaneous monocrotaline(MCT)injec-tion and the SU5416/hypoxia(SU/Hx)method.Transcriptomic sequencing of lung tissues was performed to identify gene expression and pathway alterations in PAH rats,followed by a comparative analysis with transcriptomic data of patients with idiopathic pulmonary arterial hypertension(IPAH)in NCBI database.Results Inflammatory-related genes such as CXCL9,CCL24,and SECTM1 were upregulated in both PAH rat models and IPAH patient lungs,while genes such as DGKG and DOCK9 were downregulated(P＜0.05).Pathways related to endothelial cell proliferation regulation and extracellular matrix(ECM)remodeling were significantly upregulated(P＜0.05).Conclusions The imbalance in endothelial cell proliferation and abnormal ECM remodeling may collectively contribute to PAH pathogenesis.Further exploration of these signaling pathways may provide deep in-sights for early diagnosis and targeted therapy of PAH.

Chronic thromboembolic pulmonary hypertension(CTEPH)is a form of pulmonary hypertension caused by unresolved thrombi and chronic embolization in the pulmonary arteries.In recent years,multi-omics technologies have provided multidimensional insights into CTEPH.Single-cell transcriptomics has identified key pathogenic cell subsets and related mechanisms;Genomics has revealed susceptibility genes associated with coagulation;Proteomics has uncovered differentially expressed proteins closely linked to vascular remodeling;And metabolomics has characterized metabolic reprogramming features and potential sub-typing biomarkers.This review summarizes re-cent advances in these omics fields and discusses their value and prospects in mechanistic exploration,biomarker discovery,and personalized therapeutic strategies.

Social isolation represents the development of a certain level, either partial or complete, of deprivation of socialization and may have adverse effects in many aspects for the elderly, which can be physiological, psychological and social.Meanwhile, during the course of human life, aging becomes an inevitable process and brings about changes in cognitive ability, which become an important focus of our attention.This paper reviews the research progress on the relationship between social isolation and cognitive ability in the elderly, in order to provide a new perspective for future research on social isolation and cognitive ability in the elderly and also to offer new insight on how to construct a model of intervention and health management for the elderly population with social isolation.

Objectives: To explore the differences in signal pathway and gene expression related to the pathogenesis of congenital microtia by the in-depth analysis of DNA methylation profiling of auricular chondrocytes from congenital microtia patients. Methods: Genome wide methylation profile of congenital microtia was obtained by MeDIP chip technology, and analyzed by Gene ontology (GO) and Pathway analysis. The gene expression levels of Wnt1 and Wnt11 were evaluated by Real-time PCR in the auricular cartilage from the healthy side and affected side of the congenital microtia patients , and healthy controls. Results: The GO and Pathway assay showed that Wnt signal pathway was enriched in differential methylated levels. The Wnt1 and Wnt11 genes were with higher methylation in the promoter region and CpG islands in healthy control group than that in microtia group, in addition the methylation level in the affected side auricular cartilage was lower than that in the healthy side. There was no difference in Wnt1 and Wnt11 gene expression in microtia patients and healthy controls. The higher Wnt11 gene expression was detected in the affected side residual cartilage tissues than in the healthy side cartilage tissues of the same congenital microtia patient. Conclusions The over expression of Wnt11 during embryonic development might be associated with the pathogenesis of congenital microtia. The mechanism of the difference in methylation levles of Wnt11 affecting pathogenesis of congenital microtia needs further research.