自噬对高糖诱导的人冠状动脉内皮细胞凋亡的保护作用

目的:研究自噬对高糖诱导的人冠状动脉内皮细胞凋亡的影响。方法:将人冠状动脉内皮细胞,分别用常规培养基(正常对照组)、含30 mmol/L D-葡萄糖的高糖培养基(高糖组)、高糖培养基合并雷帕霉素(Rapamycin,RAPA;100 nmol/L)干预(RAPA组)和高糖培养基合并3-甲基腺嘌呤(3-Methyladenine,3-MA,5 mmol/L)干预(3-MA组)培养。利用CCK-8法检测细胞生长活力,使用流式细胞术检测细胞凋亡水平,western blot检测细胞自噬标记蛋白(Beclin1)的表达水平。结果:(1)高糖溶液刺激内皮细胞24 h后,细胞生长活力为正常组的55.0%(P0.01),自噬标记蛋白Beclin1的表达水平明显增加,凋亡水平为正常组的2.0倍;(2)与高糖组相比,RAPA组细胞生长活力明显增加,Beclin1的表达明显升高(P0.01),凋亡水平为高糖组的70.1%;(3)与高糖组相比,3-MA组细胞生长活力明显减少,Beclin1的表达明显降低(P0.01),凋亡水平为高糖组的1.42倍。结论:细胞自噬可能对高糖诱导的人冠状动脉内皮细胞具有凋亡保护作用。     

种子活力与生物膜的研究现状

种子活力与生物膜的结构和功能密切相关.活力高的种子,膜结构比较完整,在吸水时,膜系统恢复的速度较快,并且修复的较完善.研究表明,超干和引发处理可使膜结构得到保持与修复,很多种类的物质参与了膜结构的保护,例如可溶性糖、蛋白质(包括酶)、两性分子、Ca2 、多胺及其他非酶促自由基清除系统等,保护物质协同作用,稳定膜脂及膜蛋白的结构,保持膜系统的完整性,使膜功能得以正常发挥,强化了种子活力.     

紫外灭活CVB3 病毒诱导BALB/c小鼠产生免疫保护作用的研究

目的:探讨紫外灭活型CVB3病毒诱导BALB/c小鼠产生特异性免疫应答及保护作用的评估。方法:采用紫外灭活的方法处理野生型CVB3m株,按照0.1 LD50(10~4 PFU)的剂量免疫小鼠,设置PBS免疫组作为对照,免疫后第3,5,7天收集小鼠血清,检测细胞因子含量;在第3,5,7,14天分离小鼠脾脏,流式分析T细胞亚群的分布比例;在免疫后一个月分离小鼠血清,检测中和抗体的滴度;同时间给予小鼠100LD 50野生型CVB3感染,观察小鼠的死亡率。结果:与对照组相比,在检测日期内紫外灭活型CVB3组小鼠血清中细胞因子IL-1α,TNF-α,IL-6的表达量明显增高(P0.05),IL-4的表达量没有明显差异;免疫后第14天CD3~+CD4~+T细胞的分布较对照组明显升高(P0.05);在免疫后一个月,紫外灭活型CVB3免疫组可以诱导机体产生高滴度中和抗体,同时,小鼠应对高致死量CVB3感染时有较高的存活率。结论:紫外灭活型CVB3感染能诱导机体产生特异性免疫应答,同时,产生的中和抗体可以提高小鼠应对致死剂量CVB3感染时的生存率,对机体有明显的保护作用。     

The root–soil system of Norway spruce subjected to turning moment: resistance as a function of rotation

The reactions of trees to wind, rockfall, and snow and debris flow depend largely on how strong and deformable their anchorage in the soil is. Here, the resistive turning moment M of the root–soil system as a function of the rotation ϕ at the stem base plays the major role. M(ϕ) describes the behavior of the root–soil system when subject to rotational moment, with the maximum M(ϕ) indicating the anchorage strength M _a of the tree. We assessed M(ϕ) of 66 Norway spruce (Picea abies L. Karst) by pulling them over with a winch. These 45- to 170-year-old trees grew at sites of low and high elevation, with a diameter at breast height DBH = 14–69 cm and a height H = 9–42 m. M(ϕ) displayed a strong nonlinear behavior. M _a was reached at a lower ϕ for large trees than for small trees. Thus overhanging tree weight contributed less to M _a for the large trees. Overturning also occurred at a lower ϕ for the large trees. These observations show that the rotational ductility of the root–soil system is higher for small trees. M _a could be described by four monovariate linear regression equations of tree weight, stem weight, stem volume and DBH ² ·H (0.80 < R ² < 0.95), and ϕ at M _a, ϕ _a, by a power law of DBH²·H (R ² = 0.85). We found significantly higher M _a for the low-elevation spruces than for the high-elevation spruces, which were more shallowly anchored, but no significant difference in ϕ _a. The 66 curves of M(ϕ), normalized (_n) by M _a in M-direction and by ϕ _a in ϕ-direction, yielded one characteristic average curve: . Using and the predictions of M _a and ϕ _a, it is shown that M(ϕ) and the curves associated with M(ϕ) can be predicted with a relative standard error ≤25%. The parameterization of M(ϕ) by tree size and weight is novel and provides useful information for predicting with finite-element computer models how trees will react to natural hazards.     

The influence of enhanced UV-B radiation on the spring geophyte Pulmonaria officinalis

Pulmonaria officinalis is an understorey spring geophyte, which starts its vegetative period before full foliation of the tree storey. During its early growth phase it is exposed to full solar radiation, therefore the enhanced UV-B radiation could present a threat to this species. An outdoor experiment in which potted plants were exposed to below ambient, ambient, and above ambient (corresponding to 17% ozone reduction) UV-B radiation, was conducted in order to evaluate the radiation effects. The amount of photosynthetic pigments and photochemical efficiency of PSII were not affected, but the amount of UV-B absorbing compounds was lower in plants grown under reduced UV-B. This change was measurable after only fourteen days in reproductive shoots, while in the vegetative shoots, it was not detectable until after three months. The leaves of P. officinalis are variegated and the light green spots became less transparent to PAR under enhanced UV-B. The results reveal that under simulated 17% ozone depletion the harmful effects of UV-B on the measured parameters were negligible.     

Synthetic and therapeutic perspectives of nitrogen containing heterocycles as anti-convulsants

Epilepsy is one of the commonly prevailing neurological disorders. According to the reports, it is evident that about 80% of the epileptic cases have been observed in developing countries. Although there are many drugs with significant potency available in the market; still there is an issue of selectivity and toxicity. Therefore, continuous attempts have been made by the researchers to develop newer therapeutic agents against epilepsy. Many synthetic strategies have been available in the literature to synthesize various classes of anticonvulsants with promising activity. In the presented review, authors have summarized some newer synthetic routes being used for the synthesis of nitrogen-containing anticonvulsants taking a cue from the reported established anticonvulsant drugs viz. vigabatrin, sodium valproate, oxcarbazepine, felbamate, retigabine, and gabapentin. Various derivatives with the substitution for better anticonvulsant profile have been described in the figures for easy comparative study. The structure–activity relationship (SAR) of compounds with maximum potency has also been discussed. This article may serve as a boost for the researchers to modify the pre-existing synthetic routes as well as to improve potency and yield of the compounds.     

车前对铝胁迫生理响应的研究

为探讨车前(Plantago asiatica)对铝胁迫的耐受特性及生理机理,在不同铝浓度及胁迫时间下,对其叶片的渗透调节物质、膜脂过氧化程度和体内保护酶系统进行了研究。结果表明,低浓度铝处理对车前的生理指标无明显影响。随着铝浓度的升高,叶片脯氨酸、可溶性糖、可溶性蛋白质含量呈先升高后下降趋势,细胞质膜透性显著增大、MDA含量显著增加。500 mg L–1的Al3+处理,车前叶片的SOD、CAT、POD活性均明显提高。因此,在铝胁迫下,野生草本植物车前能通过体内的生理保护机制来减少Al胁迫,表现出较强的耐铝特性。     

Structural relationship between the S1 and S4 subunits of pertussis toxin

Abstract Pertussis toxin, the most important protective antigen of Bordetella pertussis , is a 106-kDa hexameric protein composed of an A-promoter (subunit S1) and a pentameric B-oligomer (S2 + S3 + 2S4 + S5). The most potent mouse-protective monoclonal antibodies against both respiratory and intracerebral infections were specified for either S1 or S4 and competed with each other in binding to epitopes of native pertussis toxin captuted by haptoglobin or in solution, although they did not compete on unfolded pertussin toxin. These data suggest that the protective epitope(s) of S1 and S4 are very closely correlated; they are probably close] together sterically. Non-protective anti-S1 and anti-S4 monoclonal antibodies recognized inner antigenic determinants which are not exposed on the surface o native pertussis toxin and interfered with association of the A-protomer and the B-oligomer. These data suggest that the A-protomer and the S4 subunit of the B-oligomer may be closely associated in the native hexameric pertussis toxin molecule.     

三种植物提取物对菟丝子及大豆生长发育和宿主保护酶活性的影响

利用不同浓度的苦楝树皮和叶、隆缘桉叶和乌桕叶的乙醇提取物对菟丝子及其宿主大豆幼苗进行处理,15d后评价三种提取物对菟丝子和大豆幼苗的影响。结果表明:三种提取物在低浓度时对菟丝子及其宿主大豆幼苗生长发育均无显著影响,在高浓度(0.25g/mL)下,桉树叶提取物对大豆和菟丝子的损伤程度分别达到了64%和70%,苦楝树皮提取物对菟丝子损伤程度为78%,但对大豆幼苗仅为7%。桉树叶和苦楝树皮提取物处理均导致大豆叶片超氧化物歧化酶(SOD)活性升高,最高值分别为相应对照组的2.37倍和2.0倍;但对过氧化物酶(POD)和过氧化氢酶(CAT)活性的影响不同,桉树叶提取物使大豆幼苗POD活性最大值为对照组的2.28倍,而苦楝树皮提取物处理则是CAT活性升高,最大值为对照组的1.58倍,提示桉树叶提取物对大豆较强的伤害作用与其较低的CAT活性有关。