Genomic and functional insights into the diversification of the elongation factor eEF1Bγ in fungi

eEF1Bγs are proteins found in all eukaryotes and have a role in protein translation, being part of the nucleotide exchange factor eEF1B of the elongation factor complex 1. They are unique because of their organization as a fusion between a glutathione transferase (GST) domain and an elongation factor EF1G (PF00647) domain. The main described function of the GST domain in eEF1Bγ is to ensure the proper scaffolding of the different subunits in the eEF1B complex, by interacting with eEF1Bα subunit. Several evidences also suggest that this domain has a role in cellular redox control because it displays enzymatic activity using glutathione as co-substrate. This opens the question of a dual role of eEF1Bγ in cells both in protein translation and stress response, either in a concomitant or competitive way. By analyzing the diversity of eEF1Bγ sequences in fungi, we show that this class of proteins is subjected to diversification within these microorganisms. The challenge is now to understand the impact of such diversification in eEF1Bγ functions both related to protein translation and stress response, and whether this could have driven the ability of fungi to adapt to constraints.     

姜黄素通过抑制凋亡信号调节激酶1减弱PM2.5短期暴露致大鼠子宫损伤

细颗粒物(PM2.5)是空气动力学直径≤2.5 μm的颗粒物,能诱发多种疾病.已有大量的流行病学调查证实,PM2.5能够损伤生殖系统,但其致病机制不明确,相关的研究也非常有限.为研究PM2.5短期暴露对大鼠子宫的损伤,以及姜黄素(curcumin,CRC)对其保护作用,本研究将50只雌性SD大鼠随机分为生理盐水对照组、...     

Molecular basis for the selective recognition and ubiquitination of centromeric histone H3 by yeast E3 ligase Psh1

Centromeres are chromosomal loci marked by histone variant Cen H3(centromeric histone H3) and essential for genomic stability and cell division. The budding yeast E3 ubiquitin ligase Psh1 selectively recognizes the yeast Cen H3(Cse4) for ubiquitination and controls the cellular level of Cse4 for proteolysis,but the underlying mechanism remains largely unknown. Here, we show that Psh1 uses a Cse4-binding domain(CBD, residues 1-211) to interact with Cse4-H4 instead of H3-H4, yielding a dissociation constant(K_d) of 27 nM. Psh1 recognizes Cse4-specific residues in the L1 loop and a2 helix to ensure Cse4 binding and ubiquitination. We map the Psh1-binding region of Cse4-H4 and identify a wide range of Cse4-specific residues required for the Psh1-mediated Cse4 recognition and ubiquitination. Further analyses reveal that histone chaperone Scm3 can impair Cse4 ubiquitination by abrogating Psh1-Cse4 binding. Together, our study reveals a novel Cse4-binding mode distinct from those of known Cen H3 chaperones and elucidates the mechanism by which Scm3 competes with Psh1 for Cse4 binding.     

LncRNA TP73-AS1 enhances the malignant properties of pancreatic ductal adenocarcinoma by increasing MMP14 expression through miRNA -200a sponging

Pancreatic ductal adenocarcinoma (PDAC) is an invasive and aggressive cancer that remains a major threat to human health across the globe. Despite advances in cancer treatments and diagnosis, the prognosis of PDAC patients remains poor. New and more effective PDAC therapies are therefore urgently required. In this study, we identified a novel host factor, namely the LncRNA TP73-AS1, as overexpressed in PDAC tissues compared to adjacent healthy tissue samples. The overexpression of TP-73-AS1 was found to correlate with both PDAC stage and lymph node metastasis. To reveal its role in PDCA, we targeted TP73-AS1 using LnRNA inhibitors in a range of pancreatic cancer (PC) cell lines. We found that the inhibition of TP73-AS1 led to a loss of MMP14 expression in PC cells and significantly inhibited their migratory and invasive capacity. No effects of TP73-AS1 on cell survival or proliferation were observed. Mechanistically, we found that TP73-AS1 suppressed the expression of the known oncogenic miR-200a. Taken together, these data highlight the prognostic potential of TP73-AS1 for PC patients and highlight it as a potential anti-PDAC therapeutic target.     

Ghrelin octanoylation by ghrelin O-acyltransferase: protein acylation impacting metabolic and neuroendocrine signalling

The acylated peptide hormone ghrelin impacts a wide range of physiological processes but is most well known for controlling hunger and metabolic regulation. Ghrelin requires a unique posttranslational modification, serine octanoylation, to bind and activate signalling through its cognate GHS-R1a receptor. Ghrelin acylation is catalysed by ghrelin O-acyltransferase (GOAT), a member of the membrane-bound O-acyltransferase (MBOAT) enzyme family. The ghrelin/GOAT/GHS-R1a system is defined by multiple unique aspects within both protein biochemistry and endocrinology. Ghrelin serves as the only substrate for GOAT within the human proteome and, among the multiple hormones involved in energy homeostasis and metabolism such as insulin and leptin, acts as the only known hormone in circulation that directly stimulates appetite and hunger signalling. Advances in GOAT enzymology, structural modelling and inhibitor development have revolutionized our understanding of this enzyme and offered new tools for investigating ghrelin signalling at the molecular and organismal levels. In this review, we briefly summarize the current state of knowledge regarding ghrelin signalling and ghrelin/GOAT enzymology, discuss the GOAT structural model in the context of recently reported MBOAT enzyme superfamily member structures, and highlight the growing complement of GOAT inhibitors that offer options for both ghrelin signalling studies and therapeutic applications.     

单纯疱疹病毒2型潜伏相关转录体ORF1的表达及其抗凋亡作用

旨在研究单纯疱疹病毒2型潜伏相关转录体 (LAT) 开放读码框1 (ORF1) 对放线菌素D诱导的凋亡作用的影响。以HSV-2 333基因组为模板PCR扩增ORF1片段,构建重组质粒pEGFP-ORF1,转染Vero细胞,RT-PCR鉴定ORF1的表达。放线菌素D诱导Vero细胞凋亡,通过荧光显微镜观察凋亡小体,Hochest33258荧光染色观察细胞形态变化,MTT检测细胞活性,流式细胞术检测细胞凋亡率。双酶切和测序确认pEGFP-ORF1构建成功,RT-PCR表明该真核表达载体能在Vero细胞中高效表达。转染了pEGFP-ORF1的Vero细胞经放线菌素D凋亡诱导后,Hochest33258染色显示细胞形态正常。MTT结果表明转染了重组质粒pEGFP-ORF1的Vero细胞经放线菌素D凋亡诱导后Vero细胞活性与未经任何处理的正常对照组相比,无显著差异 (P＞0.05),但高于放线菌素D诱导凋亡的Vero细胞组及与转染空质粒pEGFP-C2且放线菌素D诱导凋亡的Vero细胞组,差异具有统计学意义 (P＜0.05)。流式结果表明,转染重组质粒pEGFP-ORF1且经放线菌素D诱导凋亡组与正常对照组凋亡率差异不显著 (P＞0.05),而显著低于放线菌素D诱导凋亡组和转染空质粒pEGFP-C2且经放线菌素D诱导凋亡组 (P＜0.05)。HSV-2 LAT ORF1具有抗放线菌素D诱导的Vero细胞的凋亡作用。     

Diverse flowering responses subjecting to ambient high temperature in soybean under short-day conditions

Flowering time is one of important agronomic traits determining the crop yield and affected by high temperature. When facing high ambient temperature, plants often initiate early flowering as an adaptive strategy to escape the stress and ensure successful reproduction. However, here we find opposing ways in the short-day crop soybean to respond to different levels of high temperatures, in which flowering accelerates when temperature changes from 25 to 30 °C, but delays when temperature reaches 35 °C under short day. phyA-E1, possibly photoperiodic pathway, is crucial for 35 °C-mediated late flowering, however, does not contribute to promoting flowering at 30 °C. 30 °C-induced up-regulation of FT2a and FT5a leads to early flowering, independent of E1. Therefore, distinct responsive mechanisms are adopted by soybean when facing different levels of high temperatures for successful flowering and reproduction.