A study of oxidative stress in cervical cancer- an institutional study

Cervical cancer is the second most common cause of cancer-related death among women worldwide, especially in developing countries. Oxidative stress has been associated with cervical cancer. Many studies demonstrated that the low level of antioxidants induces the production of free radicals that cause lipid peroxidation, DNA, and protein damage leading to mutations that favors malignant transformation. This is a case-control institutional study conducted to evaluate the level of oxidative stress in cervical cancer patients and the age-matched healthy controls. We measured level of TBARS expressed as MDA, activity of SOD and GSH level by the spectrophotometric method, and level of 8-OHdG was estimated using a competitive sandwich ELISA assay. Our results showed a significant increase in the level of lipid peroxidation in group IV when compared to the control, group II and group III (p < 0.001). The activity of SOD was also significantly higher in group IV when compared to the control group (p < 0.001), group II (p < 0.001), and group III (p < 0.001). The level of GSH was also significantly lower in group IV when compared to the control group (p < 0.01), group II (p < 0.01), and group III (p < 0.01). The level of 8-OHdG was significantly higher in group IV than in the other groups (p < 0.01). The results suggest that oxidative stress is involved in the pathogenesis of cervical cancer, which is demonstrated by an increased level of lipid peroxidation and higher levels of 8-OHdG and an altered antioxidant defense system.     

敲除Nrf2促进高脂饮食诱导小鼠肝脏NF-kB的活化

目的：氧化应激和炎症反应是NASH进展的关键因素,同时二者之间存在着密切关系,而转录因子Nrf2和NF-kB分别是氧化应激和炎症信号通路的关键调控靶点,因此,研究Nrf2对高脂饮食诱导小鼠肝脏NF-kB信号通路的影响,对探讨NASH进展具有重要的意义。方法：雄性野生型（WT）和Nrf2基因敲除（Nrf2-/-）ICR小鼠各10只,随机分为WT对照组（Control）、Nrf2-/-对照组（KO）、WT高脂饮食组（HFD）和Nrf2-/-高脂饮食组（KOHFD）（n=5）。喂养8周后,观察肝脏光镜下改变,检测肝脏GSH、MDA、TNFα和IL-6水平。Western-Blot检测肝脏NF-kB蛋白表达水平,观察敲除Nrf2对肝脏NF-kB活性作用的影响。结果：1.光镜下观察,Control组与KO组小鼠肝脏结构无明显变化,HFD组小鼠肝脏呈现大片脂肪沉积和炎症细胞浸润,KOHFD组小鼠肝脏则呈现明显的大泡性变性,且炎症细胞浸润较HFD组明显加重;2.与Control组相比,KO组小鼠肝脏MDA轻度升高,GSH轻度降低,但无明显差异,而HFD组和KOHFD组小鼠肝脏MDA显著升高（P〈0.05）,GSH显著降低（P〈0.05）,且KOHFD组MDA明显高于HFD组（P〈0.05）,GSH明显低于HFD组（P〈0.05）。3.ELISA结果显示,与Control组相比,KO组小鼠肝脏TNFα和IL-6分泌轻度增加,而HFD组和KOHFD组小鼠肝脏TNFα与IL-6水平显著升高（P〈0.05）,且KOHFD组小鼠肝脏TNFα与IL-6显著高于HFD组（P〈0.05）;4.Western-Blot结果显示,Control组和KO组之间无明显差异,而KOHFD组和HFD组小鼠肝脏胞核NF-kB蛋白表达水平显著升高,且KOHFD组高于HFD组。结论：敲除Nrf2可以显著加重高脂饮食诱导的小鼠肝脏氧化应激水平,进而促进NF-kB的活化,从而为通过以Nrf2为靶点治疗NASH提供重要的实验依据。     

Salt and oxidative stress: similar and specific responses and their relation to salt tolerance in Citrus

Salt damage to plants has been attributed to a combination of several factors including mainly osmotic stress and the accumulation of toxic ions. Recent findings in our laboratory showed that phospholipid hydroperoxide glutathione peroxidase (PHGPX), an enzyme active in the cellular antioxidant system, was induced by salt in citrus cells and mainly in roots of plants. Following this observation we studied the two most important enzymes active in elimination of reactive oxygen species, namely, superoxide dismutase (SOD) and ascorbate peroxidase (APX), to determine whether a general oxidative stress is induced by salt. While Cu/Zn-SOD activity and cytosolic APX protein level were similarly induced by salt and methyl viologen, the response of PHGPX and other APX isozymes was either specific to salt or methyl viologen, respectively. Unlike PHGPX, cytosolic APX and Cu/Zn-SOD were not induced by exogenously added abscisic acid. Salt induced a significant increase in SOD activity which was not matched by the subsequent enzyme APX. We suggest that the excess of H₂O₂ interacts with lipids to form hydroperoxides which in turn induce and are removed by PHGPX. Ascorbate peroxidase seems to be a key enzyme in determining salt tolerance in citrus as its constitutive activity in salt-sensitive callus is far below the activity observed in salt-tolerant callus, while the activities of other enzymes involved in the defence against oxidative stress, namely SOD, glutathione reductase and PHGPX, are essentially similar. Received: 10 January 1997 / Accepted: 28 May 1997     

The bulk of UCP3 expressed in yeast cells is incompetent for a nucleotide regulated H+ transport

The impact of uncoupling protein (UCP) 1, UCP3 and UCP3s expressed in yeast on oxidative phosphorylation, membrane potential and H⁺ transport is determined. Intracellular ATP synthesis is inhibited by UCP3, much more than by UCP1, while similar levels of UCP3 and UCP1 exist in the mitochondrial fractions. Measurements of membrane potential and H⁺ efflux in isolated mitochondria show that, different from UCP1, with UCP3 and UCP3s there is a priori a preponderant uncoupling not inhibited by GDP. The results are interpreted to show that UCP3 and UCP3s in yeast mitochondria are in a deranged state causing uncontrolled uncoupling, which does not represent their physiological function.     

海藻糖及其在生物工程方面的应用

自海藻糖发现以来对其化学性质、生理功能、作用机理、代谢途径等已进行了较为深入的研究,其分子生物学的研究也渐渐兴起。研究表明海藻糖能提高生物体对干旱、低温、高温、pH、盐渍等逆境条件下的抗性。离体试验表明海藻糖能保护生物膜、蛋白质的结构并能保持逆境下的酶活性,同时,外源海藻糖同样对生物体有保护作用。由于海藻糖具有这些独特的生物学功能,它已在许多方面得以应用,可作为食品工业的一种添加剂和甜味剂,使干燥食品在得水后保持原有的色、香、味;也可作为医药工业的非特异性生物制品和生化药品保护剂,使其在常温下保存,从而降低运输与储存费用;另外,在农业研究中可利用现代分子生物技术培育表达海藻糖的转基因作物,提高农作物的抗旱、抗冻等抗逆性能。     

Migratory orientation of sedge warblers (Acrocephalus schoenobaenus) in relation to eating and exploratory behaviour

Orientation tests performed with Emlen funnels show much variation. This scatter in responses can be partially explained by considering the birds’ personalities.We studied a Passerine migrant, the Sedge Warbler (Acrocephalus schoenobaenus), on autumn passage at Kalimok Biological Station, Bulgaria. Birds caught in the morning were kept in cages with known and regularly controlled amounts of food. In the evening they were tested for orientation, the next morning they were observed for 3 min in an unfamiliar cage, then released.Birds that ate on the first day oriented in the expected, southward direction, non-eating birds were scattered.Eating behaviour was related to the exploration pattern on the next day. Eating birds moved and flew less, hopped, looked around and explored the cage more, and were quicker in eating a food item if present.Lean birds ate and explored more but also oriented better, contrary to expectations where fat reserves indicate readiness for migration. A hypothesis is discussed where fat, migration and personality may be linked.Personality aspects may influence the individuals’ ability to cope with an experimental situation and influence the outcome of the tests, therefore its analysis can help in predicting the birds’ performance in apparently unrelated experiments.     

高原兔肝脏火器伤后GSH、SOD和MDA变化特点及意义

目的:探讨在高原环境下兔肝脏火器伤后全血谷胱甘肽(GSH)含量、血清超氧化物歧化酶(SOD)活力和丙二醛(MDA)含量的动态变化规律。方法:144只新西兰大白兔随机分为平原肝脏火器伤组(A组)、初入高原肝脏火器伤组(B组)、适应高原肝脏火器伤组(C组),各组又细分为伤后0.5、2、6、12、24、48、72h和正常对照组,每组6只。在不同海拔环境下成功建立肝脏火器伤模型后,分别于各时间点采集血液标本,检测全血GSH含量、血清SOD活力和MDA含量。结果:①兔肝脏火器伤后与正常组比较,伤后GSH含量、SOD活力早期略有升高,以后逐渐下降,到达低谷后逐渐恢复。而MDA在伤后持续升高,12h达峰值(P<0.01),继而进行性下降,72h仍高于正常。②初入高原组与平原组比较,GSH含量、SOD活力早期升高及以后到达低谷和MDA到达峰值水平(P<0.01),初入高原组更显著。③适应高原组与平原组比较,GSH含量、SOD活力降低幅度(P<0.05)和MDA升高程度,适应高原组更显著。结论:肝脏火器伤破坏了体内氧化与抗氧化之间的平衡,尤其在高原缺氧环境下更为明显,提示氧自由基可能参与肝脏火器伤后机体的病理生理过程。     

Endoplasmic Reticulum-associated Inactivation of the Hormone Jasmonoyl-l-Isoleucine by Multiple Members of the Cytochrome P450 94 Family in Arabidopsis

The plant hormone jasmonate (JA) controls diverse aspects of plant immunity, growth, and development. The amplitude and duration of JA responses are controlled in large part by the intracellular level of jasmonoyl-l-isoleucine (JA-Ile). In contrast to detailed knowledge of the JA-Ile biosynthetic pathway, little is known about enzymes involved in JA-Ile metabolism and turnover. Cytochromes P450 (CYP) 94B3 and 94C1 were recently shown to sequentially oxidize JA-Ile to hydroxy (12OH-JA-Ile) and dicarboxy (12COOH-JA-Ile) derivatives. Here, we report that a third member (CYP94B1) of the CYP94 family also participates in oxidative turnover of JA-Ile in Arabidopsis. In vitro studies showed that recombinant CYP94B1 converts JA-Ile to 12OH-JA-Ile and lesser amounts of 12COOH-JA-Ile. Consistent with this finding, metabolic and physiological characterization of CYP94B1 loss-of-function and overexpressing plants demonstrated that CYP94B1 and CYP94B3 coordinately govern the majority (>95%) of 12-hydroxylation of JA-Ile in wounded leaves. Analysis of CYP94-promoter-GUS reporter lines indicated that CYP94B1 and CYP94B3 serve unique and overlapping spatio-temporal roles in JA-Ile homeostasis. Subcellular localization studies showed that CYP94s involved in conversion of JA-Ile to 12COOH-JA-Ile reside on endoplasmic reticulum (ER). In vitro studies further showed that 12COOH-JA-Ile, unlike JA-Ile, fails to promote assembly of COI1-JAZ co-receptor complexes. The double loss-of-function mutant of CYP94B3 and ILL6, a JA-Ile amidohydrolase, displayed a JA profile consistent with the collaborative action of the oxidative and the hydrolytic pathways in JA-Ile turnover. Collectively, our results provide an integrated view of how multiple ER-localized CYP94 and JA amidohydrolase enzymes attenuate JA signaling during stress responses.