厚壳贻贝鸟氨酸-尿素循环中的关键代谢物及基因分析

鸟氨酸-尿素循环(OUC)是生物新陈代谢过程中的重要循环过程,但在贝类中尚缺乏相关研究。为此,以厚壳贻贝为研究对象,分别采用氨基酸分析仪和荧光定量PCR研究了其外套膜和后闭壳肌组织中的鸟氨酸-尿素循环途径的主要代谢物和关键基因的含量及其表达量;进一步测试了在精氨酸注射条件下,各主要代谢物和关键基因的含量及表达量变化,以及¹³C标记尿素注射贻贝后,其贝壳中δ¹³C比值(¹³C/¹²C)变化。结果表明,厚壳贻贝外套膜和后闭壳肌均含有较高浓度的尿素;精氨酸注射导致其两种组织中尿素浓度显著上升(P<0.01),以及瓜氨酸浓度显著下降(P<0.01),但鸟氨酸浓度维持相对稳定的水平。精氨酸注射显著上调了两种组织中的脲酶基因的表达量(P<0.01),但其他基因表达量的变化在两种组织中存在差异,显示出鸟氨酸-尿素循环途径在其两种组织中具有复杂而不同的调控过程。¹³C标记尿素注射贻贝显著上调了贝壳中δ¹³C的比值(P <0.01),表明尿素分子可能参与了贻贝贝壳的生物矿化过程。上述研究为深入了解贻贝鸟氨酸-尿素途径与生物矿化之间的关联,以及探讨贻贝对海水酸化耐受性的内在分子机制奠定了基础。     

聚腺苷二磷酸-核糖聚合酶1功能与其抑制剂的作用及耐药机制

聚腺苷二磷酸-核糖聚合酶1(poly ADP-ribose polymerase-1,PARP1)是细胞中重要的修饰酶,其最广为人知的作用是通过自身PAR修饰,募集以XRCC1为首的多种DNA损伤修复效应蛋白质,参与DNA单、双链损伤修复。PARP1还能通过促进复制叉停滞与核小体解聚,为DNA损伤修复提供有利条件,维持基因组稳定性。近年来,除DNA损伤修复方面的作用,还发现PARP1能影响细胞凋亡、自噬与炎症通路,与神经退行性疾病的发生发展密切相关。而PARP抑制剂(PARP inhibitor,PARPi)是一种靶向PARP1,与细胞同源重组(homologous recombination,HR)缺陷表型共同作用,产生合成致死效应的抗肿瘤药物。该药物可捕获PARP1并抑制其活性,一方面直接干扰PARP1参与的DNA损伤修复通路,另一方面也抑制了PARP1介导的DNA损伤修复通路选择和复制叉停滞,使细胞基因组不稳定。然而,在临床治疗中常发现肿瘤细胞对PARPi不敏感。肿瘤细胞对PARPi耐药与自身基因突变高度相关,这些基因分别作用于细胞HR修复途径、PARP1循环途径、复制叉稳定性和药物主动外排等方面,在耐药肿瘤患者中确定具体的突变位点,将为临床治疗提供帮助。本文旨在对PARP1的功能作一综述,并重点介绍PARPi的作用机制和与肿瘤耐药相关的突变基因及其耐药机制,以期加深对细胞中PARP1介导的DNA损伤修复通路的认识,并为将来的临床治疗提供新思路。     

Structures of SARS-CoV-2 spike protein alert noteworthy sites for the potential approaching variants

Highlights
1 Deletion of residues 156–157 warps the neighboring beta-sheet and leads NTD and RBD to shift.
2 T859N stabilizes the packing of the 630 loop motif to make RBD standing transition more difficult.
3 The overall structures of the closed state S complex from different variants resemble each other.
4 Mutations in FPPR may affect the overall structure of the trimeric spike protein.     

环足施氏冠蜂——中国新记录种（膜翅目：冠蜂科）

本文结合形态学特征和线粒体COI基因分子数据,记述了采集于我国山东省的冠蜂科一新记录种：环足施氏冠蜂Schlettererius cinctipes (Cresson, 1880),详细描述了该种的形态特征,并提供鉴定特征图以及COI序列。通过与来自于北美、日本和澳洲的环足施氏冠蜂的COI序列对比,相似度达到99.79%。虽然环足施氏冠蜂在我国的寄主未能明确,但由于该蜂从松幽天牛Asemum amurense Kraatz, 1879为害的松木中羽化出来,能为其寄主的确定提供参考。研究标本分别保存在华南农业大学膜翅目标本室（SCAU）和山东省林业科学研究院林业有害生物标本室。     

Metformin protects PC12 cells and hippocampal neurons from H2O 2-induced oxidative damage through activation of AMPK pathway

Metformin, a first line anti type 2 diabetes drug, has recently been shown to extend lifespan in various species, and therefore, became the first antiaging drug in clinical trial. Oxidative stress due to excess reactive oxygen species (ROS) is considered to be an important factor in aging and related disease, such as Alzheimer's disease (AD). However, the antioxidative effects of metformin and its underlying mechanisms in neuronal cells is not known. In the present study, we showed that metformin, in clinically relevant concentrations, protected neuronal PC12 cells from H₂O₂-induced cell death. Metformin significantly ameliorated cell death due to H₂O₂ insult by restoring abnormal changes in nuclear morphology, intracellular ROS, lactate dehydrogenase, and mitochondrial membrane potential induced by H₂O₂. Hoechst staining assay and flow cytometry analysis revealed that metformin significantly reduced the apoptosis in PC12 cells exposed to H₂O₂. Western blot analysis further demonstrated that metformin stimulated the phosphorylation and activation of AMP-activated protein kinase (AMPK) in PC12 cells, while application of AMPK inhibitor compound C, or knockdown of the expression of AMPK by specific small interfering RNA or short hairpin RNA blocked the protective effect of metformin. Similar results were obtained in primary cultured hippocampal neurons. Taken together, these results indicated that metformin is able to protect neuronal cells from oxidative injury, at least in part, via the activation of AMPK. As metformin is comparatively cheaper with much less side effects in clinic, our findings support its potential to be a drug for prevention and treatment of aging and aging-related diseases.     

Recent advances in TMEM16A: Structure,function, and disease

TMEM16A (also known as anoctamin 1, ANO1) is the molecular basis of the calcium-activated chloride channels, with ten transmembrane segments. Recently, atomic structures of the transmembrane domains of mouse TMEM16A (mTMEM16A) were determined by single-particle electron cryomicroscopy. This gives us a solid ground to discuss the electrophysiological properties and functions of TMEM16A. TMEM16A is reported to be dually regulated by Ca²⁺ and voltage. In addition, the dysfunction of TMEM16A has been found to be involved in many diseases including cystic fibrosis, various cancers, hypertension, and gastrointestinal motility disorders. TMEM16A is overexpressed in many cancers, including gastrointestinal stromal tumors, gastric cancer, head and neck squamous cell carcinoma (HNSCC), colon cancer, pancreatic ductal adenocarcinoma, and esophageal cancer. Furthermore, overexpression of TMEM16A is related to the occurrence, proliferation, and migration of tumor cells. To date, several studies have shown that many natural compounds and synthetic compounds have regulatory effects on TMEM16A. These small molecule compounds might be novel drugs for the treatment of diseases caused by TMEM16A dysfunction in the future. In addition, recent studies have shown that TMEM16A plays different roles in different diseases through different signal transduction pathways. This review discusses the topology, electrophysiological properties, modulators and functions of TMEM16A in mediates nociception, gastrointestinal dysfunction, hypertension, and cancer and focuses on multiple regulatory mechanisms regarding TMEM16A.     

山西兴县中奥陶统马家沟组五5亚段遗迹化石组合及其古环境意义

鄂尔多斯盆地东缘关家崖剖面奥陶系马家沟组五5亚段地层中保存大量无脊椎动物遗迹化石,可识别出居住迹、牧食迹、觅食迹三大类,共7个遗迹属、14个遗迹种,分别是Arenicolites isp.,Cylindricumisp.,Helminthopsis abeli,Helminthopsis isp.1,Helminthopsis isp.2,Lorenziniaisp.,Planolites isp.,Planolites beverleyensis,Planolites montanus,Teichichnus rectus,Thalassinoides isp.1,Thalassinoides isp.2,Thalassinoides isp.3,Thalassinoides isp.4。根据遗迹化石特征及其沉积环境,可划分3个遗迹组合:1、Helminthopsis-Planolites组合,该组合以觅食迹为主,部分为居住迹,出现在潮间带和潮下带;2、Thalassinoides-Teichichnus组合,该组合遗迹化石种类较单一,主要为觅食迹,分布于潮间带和潮上带;3、Thalassinoides-Helminthopsis组合,该组合出现在潮间带。基于遗迹化石组合的分布特点,提出山西兴县奥陶系马家沟组五5亚段的沉积环境模式。     

Thioredoxin-interacting protein deficiency alleviates phenotypic alterations of podocytes via inhibition of mTOR activation in diabetic nephropathy

Thioredoxin-interacting protein (TXNIP) is induced by high glucose (HG), whereupon it acts to inhibit thioredoxin, thereby promoting oxidative stress. We have found that TXNIP knockdown in human renal tubular cells helped prevent the epithelial-to-mesenchymal transition (EMT). Here, we studied the potential effect of TXNIP on podocyte phenotypic alterations in diabetic nephropathy (DN) in vivo and in vitro. In conditionally immortalized mouse podocytes under HG conditions, knocking down TXNIP disrupted EMT, reactive oxygen species (ROS) production, and mammalian target of rapamycin (mTOR) pathway activation. Further, Raptor short hairpin RNA (shRNA), Rictor shRNA, and mTOR specific inhibitor KU-0063794 were used to assess if the mTOR signal pathway is involved in HG-induced EMT in podocytes. We found that Raptor shRNA, Rictor shRNA, and KU-0063794 could all restrain HG-induced EMT and ROS production in podocytes. In addition, antioxidant Tempol or N-acetylcysteine presented a prohibitive effect on HG-induced EMT in podocytes. Streptozotocin was utilized to render equally diabetic in wild-type (WT) control and TXNIP ^−/− (TKO) mice. Diabetes did not increase levels of 24-hr urinary protein, serum creatinine, blood urea nitrogen, and triglyceride in TXNIP ^−/− mice. Podocyte phenotypic alterations and podocyte loss were detected in WT but not in TKO diabetic mice. Oxidative stress was also suppressed in diabetic TKO mice relative to WT controls. Also, TXNIP deficiency suppresses the activation of mTOR in glomeruli of streptozotocin-induced diabetic mice. Moreover, TXNIP expression, mTOR activation, Nox1, and Nox4 could be detected in renal biopsy tissues of patients with DN. This suggests that decreased TXNIP could ameliorate phenotypic alterations of podocytes via inhibition of mTOR in DN, highlighting TXNIP as a promising therapeutic target.     

Comparison of two noninvasive methods for measuring the pigment content in foliose macrolichens

Photosynthesis Research - Chlorophyll content in lichens is routinely used as an accurate indicator of lichen vigor, interspecific differences, and the effect of site-related environmental...