Molecular and cellular remodeling of HepG2 cells upon treatment with antitubercular drugs

Drug-induced liver injury (DILI) is an adverse outcome of the currently used tuberculosis treatment regimen, which results in patient noncompliance, poor treatment outcomes, and the emergence of drug-resistant tuberculosis. DILI is primarily caused by the toxicity of the drugs and their metabolites, which affect liver cells, biliary epithelial cells, and liver vasculature. However, the precise mechanism behind the cellular damage attributable to first-line antitubercular drugs (ATDs), as well as the effect of toxicity on the cell survival strategies, is yet to be elucidated. In the current study, HepG2 cells upon treatment with a high concentration of ATDs showed increased perforation within the cell, cuboidal shape, and membrane blebbing as compared with control/untreated cells. It was observed that ATD-induced toxicity in HepG2 cells leads to altered mitochondrial membrane permeability, which was depicted by the decreased fluorescence intensity of the MitoRed tracker dye at higher drug concentrations. In addition, high doses of ATDs caused cell damage through an increase in reactive oxygen species production in HepG2 cells and a simultaneous reduction in glutathione levels. Further, high dose of isoniazid (50–200 mM), pyrazinamide (50–200 mM), and rifampicin (20–100 µM) causes cell apoptosis and affects cell survival during toxic conditions by decreasing the expression of potent autophagy markers Atg5, Atg7, and LC3B. Thus, ATD-mediated toxicity contributes to the reduced ability of hepatocytes to tolerate cellular damage caused by altered mitochondrial membrane permeability, increased apoptosis, and decreased autophagy. These findings further emphasize the need to develop adjuvant therapies that can mitigate ATD-induced toxicity for the effective treatment of tuberculosis.     

Fluorescence Microscopy of Fresh Tissue as a Rapid Technique for Assessing Early Injury to Mesophyll

A technique was developed for sectioning fresh red spruce foliage (Picea rubens Sarg.) for use in fluorescence microscopy. This allowed rapid examination of mesophyll in 3-5 mm needle sections. Healthy, ozone treated and cold stressed needles were examined to assess the utility of this technique for early detection of damage. Healthy mesophyll cells fluoresced bright red, while injured cells fluoresced yellow-green in ozone treated needles, and yellow-orange in frozen needles. Shifts in fluorescence wavelengths may be useful for early detection of injury to mesophyll before it is evident by standard light or electron microscopy.     

肠道菌群在脊髓损伤后胃肠道炎症反应中的研究进展

脊髓损伤(spinal cord injury, SCI)目前尚无有效的治疗手段。脊髓损伤后,患者常伴有严重的胃肠功能障碍,严重影响患者的生活质量。研究发现,脊髓损伤后肠道菌群的紊乱和脊髓损伤后的胃肠道功能障碍密切相关。因此,本文围绕脊髓损伤后肠道菌群的变化,探讨肠道菌群在迷走神经、下丘脑-垂体-肾上腺和肠道菌群代谢物3个途径中发挥的作用,及与胃肠道炎症反应相关的研究进展。     

Carbohydrate distribution and cellular injuries in acid rain and cold-treated spruce needles

Summary The cellular structures of acid rain-irrigated needles of several provenances of Norway spruce (Picea abies L. Karst) seedlings were studied after winter experimental freezing. Frost injuries and recovery were characterized by visual damage scoring and classification of mesophyll cell alterations, also using histochemical methods for carbohydrate fluorescent staining. The treatment with-30° C during the late dormancy period was sufficient to cause significant injuries and intracellular degradation in the tissues of the green needles. The most affected seedlings in terms of visual injury scoring were found among those treated with clean water or at pH 3, while freezing injury, defined as an occlusion of phenolic substances in the central vacuole of the mesophyll cells, was most abundant in the needles from spruces irrigated either with clean water or at pH 4 or pH 3. Electron microscopy revealed the details of the injury, e. g. thinning out of the cytoplasm and chloroplast stroma, darkening of the chloroplasts and eventually swelling of the chloroplasts and protoplast. PAS and ConA reactions in the needle tissue revealed intense starch accumulation in the mesophyll and transfusion tissues as early as in March, with a tendency to increase, especially in the untreated needles during the recovery period. Plasma membrane disturbances were indicated by histochemical identification of callose deposits in the mesophyll cell walls, these being most abundant in the acid rain-treated needles. All these findings suggest that freezing at –30° C was more deleterious to the seedlings pretreated with acid or clean water than to those not given additional irrigation.     

肠道菌群影响脊髓损伤后焦虑情绪的研究进展

脊髓损伤作为一种严重的创伤性应激可以引发焦虑情绪,对患者心理健康造成极大影响。研究发现,脊髓损伤后肠道菌群失调与焦虑情绪的发生存在密切联系,因此本文从5-羟色胺系统失调、多巴胺系统失调、脑源性神经营养因子缺乏及炎症反应4个方面,探讨脊髓损伤后肠道菌群改变影响焦虑情绪发生的机制,为今后治疗脊髓损伤后焦虑情绪的深入研究和药物开发提供理论依据。     

细胞外基质刚度调控压电型机械敏感离子通道组件1对神经干细胞分化的影响

目的 本研究旨在探讨细胞外基质刚度变化对神经干细胞（neural stem cells,NSCs）分化的影响及其作用机制。方法 本研究基于成功构建脊髓损伤大鼠模型,并制备不同刚度（0.7 kPa、40 kPa）的聚丙烯酰胺凝胶基底,将大鼠原代NSCs于不同刚度基底上培养。压电型机械敏感离子通道组件1（piezo type mechanosensitive ion channel component 1,Piezo1）shRNA质粒转染NSCs细胞。免疫荧光染色检测神经元标志物双皮质醇（doublecortion,DCX）和星形胶质细胞标志物胶质纤维酸性蛋白（glial fibrillary acidic protein,GFAP）阳性细胞百分比。免疫组织化学及蛋白质免疫印迹（Western blot）法检测损伤组织及NSCs细胞中Piezo1蛋白的表达水平。结果 与0.7 kPa基质刚度组相比,40 kPa基质刚度组中DCX阳性细胞数增加,而GFAP阳性细胞数减少,Piezo1蛋白表达量上升。脊髓损伤大鼠损伤组织Piezo1蛋白表达显著高于空白对照（sham）组。40 kPa基质刚度条件下沉默Piezo1后,DCX阳性细胞数减少,而GFAP阳性细胞数增加,差异具有统计学意义（P<0.05）。机制研究发现,沉默Piezo1导致IV型胶原及纤连蛋白表达下降。重组纤连蛋白逆转了Piezo1 shRNA对NSCs分化的影响,即DCX阳性细胞数增加,而GFAP阳性细胞数减少。结论 综上可见,硬基底刚度通过促进Piezo1蛋白表达,上调IV型胶原及纤连蛋白表达,从而调控NSCs细胞分化。本研究为基于生物材料治疗脊髓损伤提供了新的视角。     

钙对臭氧伤害小麦的防护作用

春小麦分别用0、1‰、3‰、5‰浓度的CaCl_2溶液浸种及培养,9天后,用0.3—0.7ppm浓度的臭氧(O_3)对幼苗熏气0、4、8、12h,观测到来经Ca~(2+)处理材料的叶片,其外渗液紫外吸收值和电导率随O_3处理时间延长都有不同程度的升高,而叶内可溶性糖和叶绿素含量都明显降低,经过3‰Ca~(2+)处理O_3熏气4—12h的材料,其外渗液紫外吸值、电导率、外渗糖、蒸腾强度都低于对照,其叶内可溶性糖及叶绿素含量均高于对照,证收明在一定O_3浓度范围内,3‰CaCl_2对O_3侵害小麦有明显的防护作用。     

冷害条件下凤眼莲某些生理特性变化的研究

研究了凤眼莲在冷害条件下细胞膜透性、体内生理代谢过程中一些大分子物质的变化。①０℃条件下细胞内大量电解质外渗,质膜性明显增加。此时,植株外部已发生了严重的伤害症状,②低温处理后,叶片内可溶性糖和游离脯氨酸累积,可溶性蛋白质含量基本不变。③过氧化物酶活性在低温下减弱,其同工酶谱带增加１－４条。过氧化氢酶活性明显增加,其同工酶谱带增加１－２条。ＳＯＤ活性有所降低,其同工酶谱带在０℃、３６小时后增加了１     

尿铜蓝蛋白、肾损伤因子1与糖尿病肾病患者肾功能的关系及对预后不良的预测价值研究

摘要 目的：探讨尿铜蓝蛋白（CP）、肾损伤因子1（KIM-1）与糖尿病肾病（DKD）患者肾功能的关系及对预后不良的预测价值。方法：回顾性分析2017年1月～2019年1月陆军第八十二集团军医院肾内科收治的160例DKD患者（DKD组）的临床资料,随访3年,根据是否发展为终末期肾脏疾病（ESRD）分为预后不良组42例和预后良好组118例,另选取同期56例单纯2型糖尿病（T2DM）患者作为T2DM组和47例体检健康者作为对照组。采用微量法和酶联免疫吸附试验法检测尿CP、KIM-1水平,并计算尿白蛋白/肌酐比值（UACR）和估算肾小球滤过率（eGFR）。通过Spearman相关性分析DKD患者尿CP、KIM-1与UACR、eGFR的相关性,单因素和多因素Logistic回归分析DKD患者预后不良的影响因素,受试者工作特征（ROC）曲线分析尿CP、KIM-1对DKD患者预后不良的预测价值。结果：随访3年,160例DKD患者有42例发展为ESRD,预后不良发生率为26.25％（42/160）。DKD组尿CP、KIM-1、UACR高于T2DM组、对照组,eGFR低于T2DM组、对照组（P＜0.05）;T2DM组尿CP、KIM-1、UACR高于对照组,eGFR低于对照组（P＜0.05）。Spearman相关性分析显示,DKD患者尿CP、KIM-1与UACR呈正相关（P均＜0.001）,与eGFR呈负相关（P均＜0.001）。多因素Logistic回归分析显示,高血压、DKD分期4期和糖化血红蛋白（HbA1c）（较高）、低密度脂蛋白胆固醇（LDL-C）（较高）、UACR（较高）、尿CP（较高）、尿KIM-1（较高）为DKD患者预后不良的独立危险因素（P＜0.05）,eGFR（较高）为独立保护因素（P＜0.05）。ROC曲线分析显示,尿CP、KIM-1联合预测DKD患者预后不良的曲线下面积大于各指标单独预测。结论：DKD患者尿CP、KIM-1升高与肾功能降低和预后不良密切相关,尿CP、KIM-1联合预测DKD患者预后不良的价值较高。     

红茶菌在脑缺血再灌注损伤大鼠模型中的作用研究

摘要 目的：探讨红茶菌在脑缺血再灌注损伤大鼠模型中是否有改善效果。方法：将48只清洁级SD大鼠根据随机数字表法分为假手术组、模型组、红茶菌组、依达拉奉组。红茶菌组术前给予红茶菌液灌胃7天以及再灌注麻醉清醒后追加灌胃1次,依达拉奉组大鼠在再灌注前15 min经腹腔注射依达拉奉,模型组和假手术组给予生理盐水。遵循Zea Longa线栓法阻断大鼠大脑中动脉血流2 h后恢复再灌注24 h 建立MCAO模型,假手术组大鼠仅分离劲总动脉。再灌注24 h后,神经行为学评分评估脑损伤程度;TTC染色观察红茶菌对大鼠脑梗死面积比的影响并用Image J软件测定梗死面积;HE染色后观察大鼠脑组织皮层神经元病理形态学;透射电镜观察大鼠皮层神经元超微结构及线粒体形态。结果：脑缺血再灌注24 h后,对大鼠进行神经行为学评分,红茶菌组神经神经行为学评分为（2.21±0.60）,依达拉奉组神经行为学评分为（2.01±0.66）,均显著低于模型组（2.52±0.52）（P＜0.05）;TTC染色后观察到模型组大鼠大脑梗死灶明显,红茶菌组与依达拉奉组较模型组大鼠梗死面积明显减小;HE结果显示模型组大脑皮层神经元损伤明显,红茶菌组与依达拉奉组较模型组大脑皮层神经元坏死减轻,梗死面积缩小;透射电镜下观察到模型组大鼠染色质溶解,线粒体肿胀,红茶菌组与依达拉奉组较模型组溶解减少,线粒体结构较完整。结论：红茶菌可减轻脑缺血再灌注损伤大鼠模型的神经元损伤,有望成为改善脑缺血再灌注损伤的疗法或辅助疗法。