Treatment strategies for hypertension in patients with type 1 diabetes

ABSTRACT

Introduction

Type 1 diabetes mellitus (T1DM) is a chronic, autoimmune disease that is characterized by total absence of insulin production. Hypertension is a common comorbidity in T1DM with complex pathophysiology, while it is also a well-recognized risk factor for the development of cardiovascular disease (CVD), as well as other microvascular diabetic complications.     

冠状病毒感染对心血管系统的损伤及可能机制

冠状病毒(coronavirus,CoVs)感染主要累及肺部,但对心血管系统损伤作用也不容忽视。CoVs感染引起的心脏损伤并非罕见,其发生与病情的严重程度密切相关。本文首先从CoVs引起心血管损伤的证据入手,进一步探讨了CoVs对心肌的直接损伤,以及肾素血管紧张素(RAS)系统激活和细胞因子风暴与炎症反应对心血管损伤的可能作用机制。相关心血管损伤的可能机制包括,(1)病毒直接作用:CoVs在心肌细胞复制,损伤心肌;(2)RAS系统激活:感染CoVs后,心脏血管紧张素转化酶2(angiotensin-converting enzyme 2,ACE2)的表达下调,激活RAS系统,使得血管紧张素Ⅱ(AngiotensinⅡ,AngⅡ)收缩血管功能增强,Ang1-7保护心脏效应减弱;(3)诱发细胞因子风暴:循环细胞因子和全身炎症反应引起心脏损伤;(4)其他:包括低氧血症和儿茶酚胺心脏毒性。本文就相关内容作一综述,为后续的详尽机制和治疗策略研究提供思路。     

Development of an IgG-Fc fusion COVID-19 subunit vaccine,AKS-452

AKS-452 is a biologically-engineered vaccine comprising an Fc fusion protein of the SARS-CoV-2 viral spike protein receptor binding domain antigen (Ag) and human IgG1 Fc (SP/RBD-Fc) in clinical development for the induction and augmentation of neutralizing IgG titers against SARS-CoV-2 viral infection to address the COVID-19 pandemic. The Fc moiety is designed to enhance immunogenicity by increasing uptake via Fc-receptors (FcγR) on Ag-presenting cells (APCs) and prolonging exposure due to neonatal Fc receptor (FcRn) recycling. AKS-452 induced approximately 20-fold greater neutralizing IgG titers in mice relative to those induced by SP/RBD without the Fc moiety and induced comparable long-term neutralizing titers with a single dose vs. two doses. To further enhance immunogenicity, AKS-452 was evaluated in formulations containing a panel of adjuvants in which the water-in-oil adjuvant, Montanide™ ISA 720, enhanced neutralizing IgG titers by approximately 7-fold after one and two doses in mice, including the neutralization of live SARS-CoV-2 virus infection of VERO-E6 cells. Furthermore, ISA 720-adjuvanted AKS-452 was immunogenic in rabbits and non-human primates (NHPs) and protected from infection and clinical symptoms with live SARS-CoV-2 virus in NHPs (USA-WA1/2020 viral strain) and the K18 human ACE2-trangenic (K18-huACE2-Tg) mouse (South African B.1.351 viral variant). These preclinical studies support the initiation of Phase I clinical studies with adjuvanted AKS-452 with the expectation that this room-temperature stable, Fc-fusion subunit vaccine can be rapidly and inexpensively manufactured to provide billions of doses per year especially in regions where the cold-chain is difficult to maintain.     

Computational and experimental studies on the interaction between butyrylcholinesterase and fluoxetine: implications in health and disease

1. Butyrylcholinesterase (BChE) is a serine esterase that plays a role in the detoxification of natural as well as synthetic ester-bond-containing compounds. Alterations in BChE activity are associated with a number of diseases. Cholinergic system abnormalities in particular are correlated with the formation of senile plaques in Alzheimer’s disease (AD), and administration of cholinesterase inhibitors is a common therapeutic approach used to treat AD.

2. Here, our aim was to study the interaction between BChE and fluoxetine.

3. Molecular docking simulations revealed that fluoxetine penetrated deep into the active-site gorge of BChE and that it was engaged in stabilizing noncovalent interactions with multiple subsites. In substrate kinetic studies, the V_m, K_m, k_cat and k_cat/K_m values were found to be 20.59?±?0.36?U mg^?1 protein, 194?±?14?µM, 1.3?×?10⁸?s^?1 and 6.7?×?10⁵?µM^?1s^?1, respectively. Based on inhibitory studies, fluoxetine appeared to inhibit BChE competitively, with an IC₅₀ value of 104?µM and a K_i value of 36.3?±?4.7?µM.

4. Overall, both the low K_i value and the high number of BChE–fluoxetine interactions suggest that fluoxetine is a potent inhibitor of BChE, although in vivo mechanisms for the direct effects of BChE inhibition on various pathologies remain to be further investigated.

     

中国优秀马拉松运动员ACE基因I/D多态性频率分布特征

通过分析中国马拉松运动员ACE基因I/D多态频率分布特征,探讨其作为杰出耐力基因标记的可行性。选择我国马拉松健将、国际健将级运动员26名作为马拉松运动员组,汉族学生216名作为对照组。对两组受试者进行ACE基因I/D多态性测定。结果显示:我国马拉松运动员组的等位基因频率和基因型频率与对照组比较无显著差异,其中15名国际健将中无一DD型纯合子,提示我国优秀马拉松运动员的纯合子DD型频率低下是其ACE基因多态频率分布的主要特征。     

肝癌患者HBV血清学标志和HBV-DNA的关系

目的 为了探讨肝癌患血清中HBV标志物与HBV－DNA之间的相关性。方法 运用酶联免疫吸附试验和聚合酶链式反应同时检测血清中HBV标志物和HBV－DNA。结果 在427例肝癌患的血清中，HBV－M（＋）为74．0％，HBV－DNA（＋）为44．0％，与正常对照组差异非常显。结论 乙型肝炎病毒的感染与复制仍是肝癌的主要致病因素。     

异丙酚与安氟醚或七氟醚静吸复合麻醉对心肌酶的影响

目的:观察异丙酚与安氟醚或七氟醚静吸复合麻醉对心肌酶的影响.方法:32例择期非心脏手术的全麻病人,随机分为4组(每组8例),分别给予安氟醚麻醉(A组)、七氟醚麻醉(B组)、异丙酚-安氟醚麻醉(C组)、异丙酚-七氟醚麻醉(D组).其中A、B组为对照组,C、D组为观察组.分别于麻醉前、麻醉诱导后2 h和术后3 d采集静脉血测血清磷酸肌酸激酶(CK)及其同功酶(CK-MB)、天门冬氨酸氨基转移酶(AST)、乳酸脱氢酶(LDH)、α-羟丁酸脱氢酶(HBDH).结果:麻醉诱导后2 h,A组CK、CK-MB值、LDH及HBDH值升高,与麻醉前比较差异有显著性(P<0.01或P<0.05);B组CK和CK-MB值升高,与麻醉前比较差异有显著性(P<0.05或P<0.01).术后3 d,A、B两组CK值升高,与麻醉前和麻醉诱导后2 h比较差异有显著性(P<0.01或P<0.05),AST值升高,与麻醉前比较差异有显著性(P<0.01或P<0.05).而且A、B两组相比较,A组的CK、LDH值升高幅度明显大于B组(P<0.05).C、D两组仅CK值在术后3 d与麻醉前比较差异均有显著性(P<0.01),但其升高幅度均明显低于A、B两组的同时值(P<0.01),其余各项心肌酶的变化在麻醉诱导后2 h及术后3 d差异均无显著性(P>0.05).与C组比较,A组在麻醉诱导后2 h CK、CK-MB、HBDH值升高(P<0.01),LDH值升高(P<0.05);在术后3 d CK值升高(P<0.01).与D组比较,B组CK值在麻醉诱导后2 h及术后3 d升高(P<0.01),CK-MB值在麻醉诱导后2 h升高(P<0.05).结论:安氟醚和七氟醚两者均能使心肌酶升高,但安氟醚所致的心肌酶升高幅度更明显;临床麻醉剂量的异丙酚能有效地防止安氟醚和七氟醚麻醉时心肌酶的升高.     

多柔比星肾病肾损伤早期核因子-κB和血管紧张素ⅠⅡ的表达及关系探讨

目的　探讨在多柔比星 (阿霉素 )肾病综合征 (NS)幼年大鼠肾损伤过程中核因子 (NF) κB和血管紧张素ATⅠ、ATⅡ的表达及其相关性。方法　 4周龄雄性Wistar大鼠单侧肾切除加腹腔注射阿霉素造成NS模型 ,分别以免疫组织化学和原位杂交检测ATⅠ、ATⅡ和NF κB。结果　肾病组随着病变时间的延长 ,NF κB和ATⅠ、ATⅡ表达的强度和部位均呈增强趋势 ,治疗组在相同时间点则两者都有不同程度下调 (P <0 .0 5 )。结论　在阿霉素肾病损伤过程中NF κB和ATⅠ、ATⅡ起着介导作用。     

Statins, fenofibrate, and quinapril increase clot permeability and enhance fibrinolysis in patients with coronary artery disease

BACKGROUND: Aspirin increases fibrin clot porosity and susceptibility to lysis. It is unknown whether other drugs, in combination with aspirin, used in the treatment of coronary artery disease (CAD) might affect clot structure and resistance to lysis. AIM: The aim of the study was to assess the effects of statins, fibrates, or angiotensin-converting enzyme inhibitors (ACEIs) on fibrin clot properties. PATIENTS AND METHODS: In a randomized double-blind study, men with advanced CAD taking low-dose aspirin were assigned to receive one of the four drugs: simvastatin 40 mg day(-1) (n = 13), atorvastatin 40 mg day(-1) (n = 12), fenofibrate 160 mg day(-1) (n = 12), and quinapril 10 mg day(-1) (n = 11) for 28 +/- 2 days. Moreover, CAD patients (n = 13) taking aspirin (75 mg day(-1)) for 8 weeks were studied after additional 4 weeks on an open-label basis. Thirty men served as healthy controls. Plasma clot permeability and tissue plasminogen activator-induced fibrinolysis were evaluated at baseline and after drug administration. RESULTS: Permeability increased following the administration of simvastatin (by 20%; P = 0.01), atorvastatin (by 22%; P = 0.001), fenofibrate (by 16%; P = 0.02), and quinapril (by 13%; P = 0.04) like for aspirin (P < 0.001). Turbidity analysis showed that administration of any of the drugs was associated with higher maximum absorbancy, suggesting thicker fibers, and shorter fibrinolysis time (P < 0.001). Post-treatment reduction in lysis time correlated with an increase in clot porosity in all the groups (r from 0.42 to 0.61; P from 0.01 to 0.001). CONCLUSIONS: Statins, fibrates, and ACEIs may increase plasma clot permeability and susceptibility to fibrinolysis in CAD patients receiving aspirin. This novel antithrombotic mechanism might contribute to clinical benefits of the drugs tested.