Screening UFMylation-associated genes in heart tissues of Ufm1-transgenic mice.

UFMylation is a ubiquitination-like modification that is related to endoplasmic reticulum stress and unfolded protein response. A recent study reported that Ufl1, a key enzyme of UFMylation, protects against heart failure, indicating that UFMylation may be associated with heart function regulation. In the present study, we initially constructed a Flag-6×His-tagged Ufm1ΔSC transgenic (Tg-Ufm1) mouse model that enables UFMylation studies in vivo. Tg-Ufm1 mice showed significant activation of UFMylation in hearts. By using this model, we identified 38 potential Ufm1-binding proteins in heart tissues through LC‒MS/MS methods. We found that these proteins were associated with mitochondria, metabolism and chaperone binding. By using transcriptomic screening, we identified Tnfaip2 as a novel UFMylation-associated gene. Overexpression of Ufm1 significantly upregulated the protein expression of Tnfaip2, whereas isoproterenol treatment decreased Tnfaip2 expression in Tg-Ufm1 mice. These data may provide novel clues for UFMylation in cardiac hypertrophy.

Detection of multi-pathway genes and analysis of gene mutations in breast cancer / 中华检验医学杂志

Objective:To investigate the germline mutation status in multi-pathway in Chinese female breast cancer patients and explore their correlation with clinicopathological characteristics. Aim to enrich the database of breast cancer germline gene mutations in Chinese population and provide laboratory evidence for the application of breast cancer targeted drugs.Methods:From January 2017 to July 2019, whole blood samples were collected from 148 women (age of onset concentrated in the 24~80 years old) diagnosed pathologically with breast cancer in the Department of breast surgery, Peking University People′s Hospital. Germline mutations in HR, MMR, BER, and KDR pathway related genes were detected by next-generation sequencing. The pathogenicity interpretation was performed, and pathogenic, likely pathogenic, and mutations of uncertain significance were screened. The clinicopathological characteristics including age at the onset, luminal typing, tumor size, metastasis, and family history were analyzed, and the correlation between mutations in different pathway genes and clinicopathological characteristics was analyzed by the Chi-squared test and Fisher′s exact probability test.Results:Among the 148 patients, there were 69 cases of HR mutations (including three types of mutations, including pathogenic, likely pathogenic and uncertain significance), 16 cases of MMR mutations, 6 cases of BER mutations and 8 cases of KDR mutation. ATM mutations in the HR pathway were associated with luminal typing ( P=0.054), and patients with HER2+breast cancer were more likely to carry ATM mutations. PMS2 mutations in the MMR pathway were correlated with tumor size ( P=0.060), and patients with tumor size>50 mm were more likely to carry PMS2 mutations. KDR mutations was significantly correlated with luminal typing and family history. ( P=0.021, P=0.024). Conclusion:The mutation frequency in BER, KDR, MMR and HR pathways in Chinese breast cancer patients increased successively. Germline mutations in ATM, PMS2 and KDR genes may be involved in the development of breast cancer in the Chinese population. Multi-pathway gene detection of breast cancer can provide laboratory evidence for the use of PARP inhibitors, trastuzumab and other targeted drugs.