TRIM21 suppresses CHK1 activation by preferentially targeting CLASPIN for K63-linked ubiquitination

Expression of the E3 ligase TRIM21 is increased in a broad spectrum of cancers; however, the functionally relevant molecular pathway targeted by TRIM21 overexpression remains largely unknown. Here, we show that TRIM21 directly interacts with and ubiquitinates CLASPIN, a mediator for ATR-dependent CHK1 activation. TRIM21-mediated K63-linked ubiquitination of CLASPIN counteracts the K6-linked ubiquitination of CLASPIN which is essential for its interaction with TIPIN and subsequent chromatin loading. We further show that overexpression of TRIM21, but not a TRIM21 catalytically inactive mutant, compromises CHK1 activation, leading to replication fork instability and tumorigenesis. Our findings demonstrate that TRIM21 suppresses CHK1 activation by preferentially targeting CLASPIN for K63-linked ubiquitination, providing a potential target for cancer therapy.     

膝关节内干细胞/祖细胞在软骨再生中作用研究进展

关节软骨(AC)由于缺乏血管、神经和淋巴,一旦损伤无法自我修复.虽然以外源性细胞为基础的治疗策略在一定程度上能够再生关节软骨,但仍然存在手术间隔长、供体有限、细胞体外培养易去分化和病原体传播等风险.成人膝关节存在许多类型干细胞/祖细胞(SCPCs),当软骨损伤时,就会被动员,迁移到损伤部位,参与再生修复.因此,基于趋化...     

非洲猪瘟病毒p35蛋白作为诊断抗原的抗原性比较

为了筛选出酶联免疫吸附测定(Enzyme linked immunosorbent assay,ELISA)反应性最佳的非洲猪瘟病毒(African swine fever virus,ASFV)诊断抗原,通过建立ELISA方法,以杆状病毒昆虫细胞表达系统表达的ASFV p30蛋白诊断抗原为参照,首次探讨原核表达系统表...     

LPS/Bcl3/YAP1 signaling promotes Sox9+HNF4α+ hepatocyte-mediated liver regeneration after hepatectomy

Recent reports have demonstrated that Sox9⁺HNF4α⁺ hepatocytes are involved in liver regeneration after chronic liver injury; however, little is known about the origin of Sox9⁺HNF4α⁺ hepatocytes and the regulatory mechanism. Employing a combination of chimeric lineage tracing, immunofluorescence, and immunohistochemistry, we demonstrate that Sox9⁺HNF4α⁺ hepatocytes, generated by transition from mature hepatocytes, play an important role in the initial phase after partial hepatectomy (PHx). Additionally, knocking down the expression of Sox9 suppresses hepatocyte proliferation and blocks the recovery of lost hepatic tissue. In vitro and in vivo assays demonstrated that Bcl3, activated by LPS, promotes hepatocyte conversion and liver regeneration. Mechanistically, Bcl3 forms a complex with and deubiquitinates YAP1 and further induces YAP1 to translocate into the nucleus, resulting in Sox9 upregulation and mature hepatocyte conversion. We demonstrate that Bcl3 promotes Sox9⁺HNF4α⁺ hepatocytes to participate in liver regeneration, and might therefore be a potential target for enhancing regeneration after liver injury.Subject terms: Ubiquitylation, Transdifferentiation, NF-kappaB, Regeneration, Stem-cell research     

iASPP protects the heart from ischemia injury by inhibiting p53 expression and cardiomyocyte apoptosis

Currently, there remains a great need to elucidate the molecular mechanism of acute myocardial infarction in order to facilitate the development of novel therapy. Inhibitor of apoptosis-stimulating protein of p53 (iASPP) is a member of the ASPP family proteins and an evolutionarily preserved inhibitor of p53 that is involved in many cellular processes, including apoptosis of cancer cells. The purpose of this study was to investigate the possible role of iASPP in acute myocardial infarction. The protein level of iASPP was markedly reduced in the ischemic hearts in vivo and hydrogen peroxide-exposed cardiomyocytes in vitro. Overexpression of iASPP reduced the infarct size and cardiomyocyte apoptosis of mice subjected to 24 h of coronary artery ligation. Echocardiography showed that cardiac function was improved as indicated by the increase in ejection fraction and fractional shortening. In contrast, knockdown of iASPP exacerbated cardiac injury as manifested by impaired cardiac function, increased infarct size, and apoptosis rate. Mechanistically, overexpression of iASPP inhibited, while knockdown of iASPP increased the expressions of p53 and Bax, the key regulators of apoptosis. Taken together, our results suggested that iASPP is an important regulator of cardiomyocyte apoptosis, which represents a potential target in the therapy of myocardial infarction.     

The role of ubiquitination and deubiquitination in tumor invasion and metastasis

Ubiquitination is vital for multiple cellular processes via dynamic modulation of proteins related to cell growth, proliferation, and survival. Of the ubiquitination system components, E3 ubiquitin ligases and deubiquitinases have the most prominent roles in modulating tumor metastasis. This review will briefly summarize the observations and underlying mechanisms of multiple E3 ubiquitin ligases and deubiquitinases to regulate tumor metastasis. Further, we will discuss the relationship and importance between ubiquitination components and tumor progression.     

A stop-gain mutation in GXYLT1 promotes metastasis of colorectal cancer via the MAPK pathway

Genomic instability plays a key role in the initiation and progression of colorectal cancer (CRC). Although cancer driver genes in CRC have been well characterized, identifying novel genes associated with carcinogenesis and treatment remains challenging because of tumor heterogeneity. Here, we analyzed the genomic alterations of 45 samples from CRC patients in northern China by whole-exome sequencing. In addition to the identification of six well-known CRC driver genes (APC, TP53, KRAS, FBXW7, PIK3CA, and PABPC), two tumor-related genes (MTCH2 and HSPA6) were detected, along with RRP7A and GXYLT1, which have not been previously linked to cancer. GXYLT1 was mutated in 40% (18/45) of the samples in our cohort. Functionally, GXYLT1 promoted migration and invasion in vitro and metastasis in vivo, while the GXYLT1^S212* mutant induced significantly greater effect. Furthermore, both GXYLT1 and GXYLT1^S212* interacted with ERK2. GXYLT1 induced metastasis via a mechanism involving the Notch and MAPK pathways, whereas the GXYLT1^S212* mutant mainly promoted metastasis by activating the MAPK pathway. We propose that GXYLT1 acts as a novel metastasis-associated driver gene and GXYLT1^S212* might serve as a potential indicator for therapies targeting the MAPK pathway in CRC.Subject terms: Cancer genomics, Colorectal cancer, Metastasis, Oncogenes, Cell signalling     

硅烷偶联剂的研究与应用

硅烷偶联剂是应用最广的一类偶联剂。本文阐述了其结构特征、偶联机理与使用技术,着重综述了硅烷偶联剂的应用范围与具体应用效果,最后展望了硅烷偶联剂的发展方向。