Honey: Single food stuff comprises many drugs

Honey is a natural food item produced by honey bees. Ancient civilizations considered honey as a God gifted prestigious product. Therefore, a huge literature is available regarding honey importance in almost all religions. Physically, honey is a viscous and jelly material having no specific color. Chemically, honey is a complex blend of many organic and inorganic compounds such as sugars, proteins, organic acids, pigments, minerals, and many other elements. Honey use as a therapeutic agent is as old as human civilization itself. Prior to the appearance of present day drugs, honey was conventionally used for treating many diseases. At this instant, the modern research has proven the medicinal importance of honey. It has broad spectrum anti-biotic, anti-viral and anti-fungal activities. Honey prevents and kills microbes through different mechanism such as elevated pH and enzyme activities. Till now, no synthetic compound that works as anti-bacterial, anti-viral and anti-fungal drugs has been reported in honey yet it works against bacteria, viruses and fungi while no anti-protozoal activity has been reported. Potent anti-oxidant, anti-inflammatory and anti-cancerous activities of honey have been reported. Honey is not only significant as anti-inflammatory drug that relieve inflammation but also protect liver by degenerative effects of synthetic anti-inflammatory drugs. This article reviews physico-chemical properties, traditional use of honey as medicine and mechanism of action of honey in the light of modern scientific medicinal knowledge.     

A possible mechanism for the increased oxidation of choline after chronic ethanol ingestion

An attempt has been made to determine the location of the site at which the metabolism of ethanol interacts with that of choline to produce an increase in the oxidation of choline. The first enzyme in the oxidation pathway for choline, choline dehydrogenase, was assayed using a newly developed spectro-photometric assay and freshly isolated intact rat liver mitochondria. No changes were observed in either the ‘apparent’ V or the ‘apparent’ K_m values of choline dehydrogenase for choline after ethanol ingestion. However, when the choline oxidase system was assayed, a 28% decrease in ‘apparent’ K_m for choline and a 53% increase in ‘apparent’ V was observed. The effects of ATP on choline oxidase were studied further, and a 29.4% decrease was observed in mitochondrial ATP levels from freshly isolated mitochondria from the ethanoltreated rats. In vitro aging of mitochondria further decreased the level of ATP, and the rate of decrease was considerably faster during the first hour in the mitochondria from the ethanol-treated animals. The decreases in ATP from both control and experimental mitochondria were accompanied by increases in choline oxidase activity. The initial decrease in ATP was correlated with an increase in mitochondrial ATPase activity which may be related to an increase in mitochondrial Mg²⁺. Because chronic ethanol ingestion has resulted in decreased oxidation rates of succinate and β-hydroxybutyrate while at the same time increasing the oxidation rates of choline, the studies reported here suggest that the effect of chronic ethanol ingestion is primarily on a step that is unique to choline and which probably exists prior to the electron transport chain.     

基于网络药理学探讨皂角刺治疗乳痈的作用机制

摘要 目的：基于网络药理学探讨皂角刺治疗乳痈的作用机制。方法：通过建立皂角刺药物靶点数据集、乳痈相关疾病靶点数据集，构建皂角刺治疗急性乳腺炎的蛋白互作（PPI）网络，构建并分析"皂角刺活性成分-潜在靶点-急性乳腺炎"网络。开展基因本体（GO）功能富集分析和京都基因与基因组百科全书（KEGG）通路富集分析，探讨皂角刺治疗乳痈的可能机制。结果：共得到皂角刺活性成分11个，筛选出活性成分所对应的不重复靶点共97个，其中1个活性成分无对应靶点。通过搜集GeneCards 和OMIM数据库，共得到292个急性乳腺炎的相关靶点基因。将疾病靶点基因与药物活性成分所对应的靶点进行比对后，得到10个交集靶点，即皂角刺治疗急性乳腺炎的潜在靶点。皂角刺活性成分按degree值排前3名的依次为槲皮素（quercetin）、漆黄素（fisetin）、山奈酚（kaempferol），其中皂角刺治疗乳痈的靶点包括白细胞介素-6（IL-6）、表皮生长因子受体（EGFR）、酪氨酸激酶受体2（ERBB2）、细胞间黏附分子-1（ICAM1）、雌激素受体1（ESR1）等5个关键靶点，主要涉及乳腺癌疾病通路、TNF信号通路和雌激素信号通路等3条信号通路。结论：皂角刺治疗乳痈的作用机制可能与机体的炎症反应以及雌激素水平变化等密切相关。     

Separate Intramolecular Targets for Protein Kinase A Control N-Methyl-d-aspartate Receptor Gating and Ca2+ Permeability

Protein kinase A (PKA) enhances synaptic plasticity in the central nervous system by increasing NMDA receptor current amplitude and Ca²⁺ flux in an isoform-dependent yet poorly understood manner. PKA phosphorylates multiple residues on GluN1, GluN2A, and GluN2B subunits in vivo, but the functional significance of this multiplicity is unknown. We examined gating and permeation properties of recombinant NMDA receptor isoforms and of receptors with altered C-terminal domain (CTDs) prior to and after pharmacological inhibition of PKA. We found that PKA inhibition decreased GluN1/GluN2B but not GluN1/GluN2A gating; this effect was due to slower rates for receptor activation and resensitization and was mediated exclusively by the GluN2B CTD. In contrast, PKA inhibition reduced NMDA receptor-relative Ca²⁺ permeability (P_Ca/P_Na) regardless of the GluN2 isoform and required the GluN1 CTD; this effect was due primarily to decreased unitary Ca²⁺ conductance, because neither Na⁺ conductance nor Ca²⁺-dependent block was altered substantially. Finally, we show that both the gating and permeation effects can be reproduced by changing the phosphorylation state of a single residue: GluN2B Ser-1166 and GluN1 Ser-897, respectively. We conclude that PKA effects on NMDA receptor gating and Ca²⁺ permeability rely on distinct phosphorylation sites located on the CTD of GluN2B and GluN1 subunits. This separate control of NMDA receptor properties by PKA may account for the specific effects of PKA on plasticity during synaptic development and may lead to drugs targeted to alter NMDA receptor gating or Ca²⁺ permeability.     

Inhibitory factors affecting the process of enhanced biological phosphorus removal (EBPR) – A mini-review

Enhanced biological phosphorus removal (EBPR) technology has been widely considered as a key strategy in preventing eutrophication and recognized as the advancing front of research in wastewater treatment. The key to keep its high efficiency in biological phosphorus removal is to optimize the operation and management of the system. Previous research in this field has undoubtedly improved understanding of the factors hindered overall efficiency of EBPR. However, it is obvious that much remains to be learnt. This paper attempts to review the fundamental understanding in factors inhibiting the stability and reliability of the EBPR systems in the state-of-the-art research. In view of modeling the EBPR systems, an appropriate extension of the current mechanistic models with these inhibitory factors is recommended in order to better simulate and predict the behavior of full-scale and lab-scale EBPR plants. From the perspectives of the further mechanistic and multi-factors study, the direction of denitrifying dephosphatation and granules/biofilms are also discussed. This comprehensive overview will not only help us to understand the overall mechanism of the EBPR process, but also benefit the researchers and engineers to consider all the possible factors affecting the process in the urban sewage treatment plants.     

The 1.13-Å structure of iron-free cytochrome c peroxidase

The iron-free cytochrome c peroxidase (CCP) crystal structure has been determined to 1.13 Å and compared with the 1.2-Å ferric-CCP structure. Quite unexpectedly, removal of the iron has no effect on porphyrin geometry and distortion, indicating that protein–porphyrin interactions and not iron coordination or formation of the axial His–Fe bond determines porphyrin conformation. However, there are changes in solvent structure in the distal pocket, which lead to changes in the distal His52 acid–base catalyst. The observed ability of His52 to move in response to small changes in solvent structure is very likely important for its role as a catalyst in assisting in the heterolytic fission of the peroxide O–O bond.     

应用ZME-Ⅱ型大功率微波热靶点效应治疗肿瘤的临床疗效研究

目的:探讨应用ZME-Ⅱ型大功率治疗机的微波热靶点效应治疗肿瘤的临床疗效及作用机理。方法:应用微波仪体表照射患者肿瘤部位及转移淋巴结及体腔内加温治疗(用于宫颈癌等,将辐射器探入阴道内,直接接触肿瘤)。输出功率100W,治疗温度42℃-45℃,间隔72小时热疗一次,6次为一疗程,一般热疗2-3疗程。结果:52例患者中,肿瘤消失8例,疗效显著20例,好转19例,无效5例。总有效率90.38%。结论:临床疗效证明,热疗是一种比较理想的辅助手段,为我们进一步开展热化疗的临床实验提供了理论基础和指导。同时为进一步开展热化疗多靶点效应治疗肿瘤提供了广阔的应用前景。     

从代谢流量分析角度探讨培养条件改变下对放射型根瘤茵WSH2601合成辅酶Q10的影响

分析了放射型根瘤菌(R．radiobacter)WSH2601生物合成辅酶Q10的代谢途径网络,并在溶氧条件改变和培养基中添加玉米浆条件下对辅酶Q10发酵细胞内代谢途径流量变化作定量的分析,结果表明：提高溶氧浓度(20％)5-磷酸核酮糖(RuSP)物流(r7)增加26．6,即糖酵解途径(EMP)途径向磷酸戊糖途径(HMP)转移;添加1％玉米浆r7增加17．2,EMP与HMP途径物流比值与三羧酸循环(TCA)途径物流都下降,而癸异戊烯基焦磷酸(DPP)生成物流通量(绝对值)变化都较小,即辅酶Q10的生物合成更大程度地取决于辅酶Q10生物合成途径中催化DPP的合成和4-羟基苯甲酸(PHB)与DPP的缩合反应的两种关键酶活性。6-磷酸葡萄糖(G6P)节点是辅酶Q10生物合成代谢途径的柔性节点,而丙酮酸节点是半柔性节点。细胞生物量的提高与HMP途径物流增加有关。