Crowding, molecular volume and plasticity: An assessment involving crystallography, NMR and simulations

The discrepancy between the X-ray and NMR structures of Mycobacterium tuberculosis peptidyl-tRNA hydrolase in relation to the functionally important plasticity of the molecule led to molecular dynamics simulations. The X-ray and the NMR studies along with the simulations indicated an inverse correlation between crowding and molecular volume. A detailed comparison of proteins for which X-ray and the NMR structures appears to confirm this correlation. In consonance with the reported results of the investigations in cellular compartments and aqueous solution, the comparison indicates that the crowding results in compaction of the molecule as well as change in its shape, which could specifically involve regions of the molecule important in function. Crowding could thus influence the action of proteins through modulation of the functionally important plasticity of the molecule. Selvaraj M, Ahmad R, Varshney U and Vijayan M 2012 Crowding, molecular volume and plasticity: An assessment involving crystallography, NMR and simulations. J. Biosci. 37 953-963] DOI 10.1007/s12038-012-9276-5

Functional characterization, homology modeling and docking studies of beta-glucosidase responsible for bioactivation of cyanogenic hydroxynitrile glucosides from Leucaena leucocephala (subabul)

Glycosyl hydrolase family 1 beta-glucosidases are important enzymes that serve many diverse functions in plants including defense, whereby hydrolyzing the defensive compounds such as hydroxynitrile glucosides. A hydroxynitrile glucoside cleaving beta-glucosidase gene (Llbglu1) was isolated from Leucaena leucocephala, cloned into pET-28a (+) and expressed in E. coli BL21 (DE3) cells. The recombinant enzyme was purified by Ni-NTA affinity chromatography. The optimal temperature and pH for this beta-glucosidase were found to be 45 A degrees C and 4.8, respectively. The purified Llbglu1 enzyme hydrolyzed the synthetic glycosides, pNPGlucoside (pNPGlc) and pNPGalactoside (pNPGal). Also, the enzyme hydrolyzed amygdalin, a hydroxynitrile glycoside and a few of the tested flavonoid and isoflavonoid glucosides. The kinetic parameters K (m) and V (max) were found to be 38.59 mu M and 0.8237 mu M/mg/min for pNPGlc, whereas for pNPGal the values were observed as 1845 mu M and 0.1037 mu M/mg/min. In the present study, a three dimensional (3D) model of the Llbglu1 was built by MODELLER software to find out the substrate binding sites and the quality of the model was examined using the program PROCHEK. Docking studies indicated that conserved active site residues are Glu 199, Glu 413, His 153, Asn 198, Val 270, Asn 340, and Trp 462. Docking of rhodiocyanoside A with the modeled Llbglu1 resulted in a binding with free energy change (Delta G) of -5.52 kcal/mol on which basis rhodiocyanoside A could be considered as a potential substrate.

Effect of lipopolysaccharide on alteration of phospholipids and their fatty acid composition in spleen and thymus by in vitro metabolic labeling

Lipopolysaccharide (LPS) is an endotoxin, a potent stimulator of immune response and induction of LPS leads to acute lung injury (ALI)/acute respiratory distress syndrome (ARDS). ARDS is a life-threatening disease worldwide with a high mortality rate. The immunological effect of LPS with spleen and thymus is well documented; however the impact on membrane phospholipid during endotoxemia has not yet been studied. Hence we aimed to investigate the influence of LPS on spleen and thymus phospholipid and fatty acid composition by 32P]orthophosphate labeling in rats. The in vitro labeling was carried out with phosphate-free medium (saline). Time course, LPS concentration-dependent, pre- and post-labeling with LPS and fatty acid analysis of phospholipid were performed. Labeling studies showed that 50 mu g LPS specifically altered the major phospholipids, phosphatidylcholine and phosphatidylglycerol in spleen and phosphatidylcholine in thymus. Fatty acid analysis showed a marked alteration of unsaturated fatty acids/saturated fatty acids in spleen and thymus leading to immune impairment via the fatty acid remodeling pathway. Our present in vitro lipid metabolic labeling study could open up new vistas for exploring LPS-induced immune impairment in spleen and thymus, as well as the underlying mechanism.

In vitro exposure of tobacco specific nitrosamines decreases the rat lung phospholipids by enhanced phospholipase A(2) activity

Tobacco-specific nitrosamines (TSNA) have implications in the pathogenesis of various lung diseases and conditions are prevalent even in non-smokers. N-nitrosonornicotine (NNN) and 4-(methyl nitrosamino)-1-(3-pyridyl)-1-butanone (NNK) are potent pulmonary carcinogens present in tobacco product and are mainly responsible for lung cancer. TSNA reacts with pulmonary surfactants, and alters the surfactant phospholipid. The present study was undertaken to investigate the in vitro exposure of rat lung tissue slices to NNK or NNN and to monitor the phospholipid alteration by P-32]orthophosphate labeling. Phospholipid content decreased significantly in the presence of either NNK or NNN with concentration and time dependent manner. Phosphatidylcholine (PC) is the main phospholipid of lung and significant reduction was observed in PC similar to 61%, followed by phosphatidylglycerol (PG) with 100 mu M of NNK, whereas NNN treated tissues showed a reduction in phosphatidylserine (PS) similar to 60% and PC at 250 mu M concentration. The phospholipase A(2) assays and expression studies reveal that both compounds enhanced phospholipid hydrolysis, thereby reducing the phospholipid content. Collectively, our data demonstrated that both NNK and NNN significantly influenced the surfactant phospholipid level by enhanced phospholipase A(2) activity. (C) 2014 Elsevier Ltd. All rights reserved.

Structure-function studies of serine hydrolases: synthesis of a gene for ∝-lytic protease and the purification and characterization of a mutant β-lactamase

The author has constructed a synthetic gene for ∝-lytic protease. Since the DNA sequence of the protein is not known, the gene was designed by using the reverse translation of ∝-lytic protease's amino acid sequence. Unique restriction sites are carefully sought in the degenerate DNA sequence to aid in future mutagenesis studies. The unique restriction sites are designed approximately 50 base pairs apart and their appropriate codons used in the DNA sequence. The codons used to construct the DNA sequence of ∝-lytic protease are preferred codons in E-coli or used in the production of β-lactamase. Codon usage is also distributed evenly to ensure that one particular codon is not heavily used. The gene is essentially constructed from the outside in. The gene is built in a stepwise fashion using plasmids as the vehicles for the ∝-lytic oligomers. The use of plasmids allows the replication and isolation of large quantities of the intermediates during gene synthesis. The ∝-lytic DNA is a double-stranded oligomer that has sufficient overhang and sticky ends to anneal correctly in the vector. After six steps of incorporating ∝-lytic DNA, the gene is completed and sequenced to ensure that the correct DNA sequence is present and that no mutations occurred in the structural gene.

β-lactamase is the other serine hydrolase studied in this thesis. The author used the class A RTEM-1 β- lactamase encoded on the plasmid pBR322 to investigate the roll of the conserved threonine residue at position 71. Cassette mutagenesis was previously used to generate all possible amino acid substitutions at position 71. The work presented here describes the purification and kinetic characterization of a T71H mutant previously constructed by S. Schultz. The mutated gene was transferred into plasmid pJN for expression and induced with IPTG. The enzyme is purified by column chromatography and FPLC to homogeneity. Kinetic studies reveal that the mutant has lower k_(cat) values on benzylpenicillin, cephalothin and 6-aminopenicillanic acid but no changes in k_m except for cephalothin which is approximately 4 times higher. The mutant did not change siginificantly in its pH profile compared to the wild-type enzyme. Also, the mutant is more sensitive to thermal denaturation as compared to the wild-type enzyme. However, experimental evidence indicates that the probable generation of a positive charge at position 71 thermally stabilized the mutant.

磷脂对光系统II光合放氧的影响及其作用机理的研究

以类囊体膜中唯一的阴离子型磷脂一磷脂酰甘油(PG)为研究对象，应用放氧测定和富立叶红外光谱等实验方法和技术手段，对PG与光系统II (PSII)之间的相互作用进行了研究。 研究表明，PG对PSII的放氧活性产生显著影响，具有明显的浓度效应。在低浓度(2～22 mg PG／mg Chl)时对PSII的放氧活性有明显的促进作用，而在高浓度(24～40 mg PG／mg Chl)下则表现出显著的抑制作用。 PG对PSII放氧活性的影响与其引起蛋白结构的改变密切相关。结果显示，PG的作用导致PSII颗粒中蛋白质二级结构的改变，主要表现为α-螺旋、β-折叠的增加和无规卷曲的减少。 不仅如此，红外光谱的分析还表明，PG还使蛋白酪氨酸残基中的酚基构象及其周围的微极性发生改变，即在红外光谱的1620—1500 cm-1，之间芳香环骨架的伸缩振动带向高频方向变化，其吸收强度也相应增加;在3500～3100 cm. -1间出现新的氢键吸收峰。 PG除能促进PSII的放氧活性以外，还对PSII表现出新的作用，即PG可以使PSII颗粒因缺钙而受抑制的放氧活性得到恢复;外加Ca2+可使PG表现出对缺钙PSII颗粒(dc。PSII)放氧活性的更大促进作用，且随Ca2+浓度的增加，促进作用也越显著。 PG的作用也使dc。PSII蛋白的结构发生了改变，导致蛋白二级结构中a-螺旋、p_折叠结构的增加和转角、无规卷曲成分的减少，即可使PSII颗粒因缺钙而改变的蛋白结构基本得到恢复。PG还能与Ca2+形成离子对似的配合物，而这种配合物的形成可以优化缺钙PSII颗粒的功能如放氧活性等。

蓝藻磷脂磷酸酶基因的缺失对光合作用的影响

磷脂酰甘油(phosphatidylglycerol, PG)是类囊体膜(也叫光合膜)中唯一的一种磷脂。在蓝藻中，PG的合成途径为：磷脂酸(phosphatidic acid, PA)胞嘧啶双磷酸-二酰基甘油 (cytidine diphosphate diacylglycerol, CDP-DAG) 磷酸磷脂酰甘油 (phosphatidylglycerol phosphate, PGP)PG。其中最后一步反应是由PGP去磷酸化而生成PG，催化该反应的是PGP磷酸酶。然而迄今为止，PGP磷酸酶还没有在蓝藻和高等植物中得到克隆和鉴定。本工作在鱼腥藻Anabaena sp. PCC7120中通过将一个可能编码PGP磷酸酶的基因(alr1715)进行突变，获得缺失PG的突变体。与野生型相比，该突变体PG的含量降低了30%左右。突变后的蓝藻藻丝发黄、生长缓慢，叶绿素含量降低。整体细胞的光合作用活性、光系统II(photosystem II，PSII)的放氧活性以及PSII反应中心的光能转化效率显著下降，传递给PSII的激发能减少。

磷脂酰甘油对光系统I的调控作用

磷脂酰甘油(PG)是光系统I(PSI)中唯一的磷脂，也是PSI重要的组成部分。在本工作中，我们通过改变PSI中PG的含量(体外重组至PG脂质体或专一性磷脂酶降解)，研究了PG对PSI的调控作用。主要结果如下： 1. 外加PG导致PSI色素的结合状态和激子相互作用发生改变。吸收光谱中，Chl a特征峰蓝移且吸收降低。低温荧光光谱中，680nm处的峰逐渐明显，F730-735 /F680的比值下降，LHCI-730激发峰蓝移。可视CD光谱中Chl a、Chl b蓝移，它们的相互作用增强;类胡萝卜素分子发生红移。 2. PSI的重组引起了PSI蛋白质结构的改变，即蛋白的α-螺旋结构增加而无序结构含量减少。同时，PSI蛋白质内部的色氨酸残基处于更极性的环境。 3. PG对PSI的电子传递的影响具有浓度效应。低浓度时可以促进PSI的电子传递活性，而在相对较高浓度时抑制PSI的电子传递。 4. PLA2的处理导致PSI中PG的缺失，抑制了PSI反应中心P700的暗还原反应，即延长了其还原所用的时间。P700的暗还原反应存在快相和慢相两相反应。PG的缺失降低了这两相反应的反应速率，抑制了电子从质体蓝素(PC)到P700+的传递。

小麦杂交坏死蛋白质组学研究

小麦杂交坏死是某些小麦杂交种表现出的叶片提前逐渐死亡的现象。它是由两个坏死基因Ne1和Ne2在杂交种中相遇后发生显性互补引起的。坏死从叶片尖端逐渐过渡到叶片基部，从成熟叶片发展到幼嫩叶片。一些严重坏死的F1完成它的生活周期前就在不同的生长阶段死去，无法获得F1种子，这就限制了携带优良性状的亲本的选择和优良基因的交流。另外，小麦杂交坏死是一个独特的研究植物程序性死亡的遗传系统。虽然小麦杂交坏死这种现象已经发现很多年，但其详细的分子机理却仍然未知。对小麦杂交坏死的分子机理进行深入研究将有助于克服小麦杂交利用中杂交坏死的遗传障碍，此外，也为深入研究植物的PCD机理提供可操作靶分子。 本论文采用高通量蛋白质组研究技术对小麦杂交坏死进行了研究。携带坏死基因Ne2的小麦品种Pan555（P）和携带坏死基因Ne2的小麦品种Zheng891（Z）生长发育完全正常，将两个亲本杂交，所得杂交F1代PZF1表现杂交坏死。在小麦生长阶段8，旗叶（Flag leaf）刚刚出现，PZF1的旗叶下第一片叶子（FL-1）还是完全绿色，FL-2叶尖开始有坏死斑出现。在这个阶段，分别将PZF1，P，Z的FL-2叶剪成相等的尖，中，基三段。我们选择的PZF1的FL-2叶，其叶尖段已经有成片的坏死斑出现;中间段零星出现少量坏死斑点;基部段和亲本一样还是完全的绿色，代表坏死进程中的不同阶段。又选PZF1的FL-1和FL-2分别代表杂交坏死启动前和杂交坏死启动后。两个亲本P和Z的FL-2叶的三段及FL-1叶正常，都是完全绿色。 首先分别分析了PZF1，P和Z的FL-2叶的尖、中、基三段的蛋白表达情况。在PZF1的尖、中、基三段共检测到23个差异表达蛋白点。这23个点在两个亲本的尖、中、基三段中的表达丰度没有显著差异（p<0.05），说明这23个蛋白的差异表达不是由于叶段的不同引起，确与杂交坏死相关。对这23个蛋白进行了MALDI-TOF质谱鉴定，其中18个得到成功鉴定。然后对PZF1，P和Z的FL-1叶和FL-2叶的蛋白表达情况进行了分析。与PZF1的FL-1叶比较，在FL-2叶中检测到19个蛋白上调，20个蛋白下调。这39个蛋白的丰度在两个亲本的FL-1和FL-2叶之间没有显著差异，说明这39个蛋白的差异表达不是由于叶位的不同引起，确与杂交坏死相关。对这39个蛋白进行质谱鉴定其中26个得到成功鉴定。 根据被鉴定蛋白的功能及其表达丰度的变化，对这些蛋白在小麦杂交坏死中可能的作用进行了讨论。与PZF1的FL-2叶基部相比，S-腺苷同型半胱氨酸水解酶（S-adenosyl homocysteine hydrolase）在中部极显著（p<0.01）下调，而在中部和尖段之间没有显著差异，保持低丰度不变。腺苷甲硫氨酸3（AdoMet synthase 3）和甲硫氨酸合成酶1（Methionine synthase 1）都在PZF1的FL-2叶尖段上调。甲基化循环中的这3个酶比例的不协调可能会以不同的方式加速细胞老化。 与PZF1的FL-1叶比较，尿卟啉环脱羧酶（Uroporphyrinogen decarboxylase）在FL-2叶中下调，这将引起尿卟啉环III的积累。脂加氧酶（Lipoxygenases）在FL-2叶中上调。尿卟啉环III的积累和脂加氧酶的上调都会引起细胞内活性氧的增加。另外活性氧和脂加氧酶都会使脂发生过氧化作用，进而导致细胞膜完整性受到破坏，最终可能导致细胞死亡。 与基部段比较，在PZF1的FL-2叶的尖段和/或中间段;以及与PZF1的FL-1叶比较，在FL-2叶中，都有很多防御性蛋白的上调，这暗示应对活性氧、脂过氧化、甲基化循环中三个酶比例的不协调等引起的对细胞的破坏作用，细胞可能启动了抗细胞死亡系统来应对这种细胞内部的胁迫。 然而，与基部段比较，一些能量相关蛋白在PZF1的FL-2叶的尖段和/或中间段;以及与PZF1的FL-1叶比较，在FL-2叶中的异常表达可能会以干扰能量循环的方式加速细胞死亡。另外，与FL-2基部段比较，在尖段和/或中间段，以及与PZF1的FL-1比较，在FL-2中，都有一些防御性蛋白、蛋白合成相关的蛋白以及单链DNA结合蛋白下调，它们的变化可能会降低细胞的抵抗力，蛋白合成能力以及DNA修复能力。细胞正常代谢的很多方面都受到干扰从而使PZF1叶细胞最终走向死亡。 本研究中发现了三个甲基化循环中的酶变化，而且S-腺苷同型半胱氨酸水解酶是在坏死进程的较早阶段发生下调，它的变化可能是小麦杂交坏死的一个诱因，这暗示小麦杂交坏死可能是一个表观遗传学事件。另外本研究还发现一些和活性氧，脂氧化等相关的蛋白的变化，而活性氧增加和脂氧化都是细胞凋亡的典型特征。所以本研究为表观遗传细胞凋亡和氧化胁迫细胞凋亡的研究提供了很有价值的信息。

Relationship between COPD and polymorphisms of HOX-1 and mEPH in a Chinese population

Recent studies have proposed that susceptibility to chronic obstructive pulmonary disease (COPD) might be related with the polymorphisms of some genes encoding antioxidant enzymes, such as heme oxygenase-1 (HOX-1) and microsomal epoxide hydrolase (mEPH).

A new method for studying the interaction between chlorpromazine and phospholipid bilayer

The spectroscopic and transmission electron microscopy (TEM) studies of interaction between chlorpromazine (CPZ) and dimyristoyl phosphatidylglycerol (DMPG) bilayer by using gold nanoparticles (AuN-Ps) as probes are reported. The DMPG bilayer-protected AuNPs were prepared by a simple one-step method. The DMPG bilayer tethered on the AuNPs was considered as a biomembrane model. The addition of CPZ affected the surface plasmon resonance (SPR) and morphology of the prepared AuNPs, and this effect was monitored by UV-vis spectroscopy and TEM.

Comparative proteomic profiles of the hepatopancreas in Fenneropenaeus chinensis response to hypoxic stress

Hypoxia, as one suboptimal environmental condition, can affect the physiological state of shrimp during pond aquaculture. To better understand the mechanism of response to hypoxic stress in Chinese shrimp Fenneropenaeus chinensis, proteome research approach was utilized. Differentially expressed proteins of hepatopancreas in adult Chinese shrimp between the control and hypoxia-stressed groups were screened. By 2-DE analysis, 67 spots showed obvious changes after hypoxia. Using LC-ESI-MS/MS, 51 spots representing 33 proteins were identified including preamylase, arginine kinase, phosphopyruvate hydratase, citrate synthase, ATP synthase alpha subunit, chymotrypsin BI, chitinase, ferritin, C-type lectin receptors, transketolase, formylglutathione hydrolase, formyltetrahydrofolate dehydrogenase, aldehyde dehydrogenase, glutathione peroxidase, cytosolic manganese superoxide dismutase, protein disulfide isomerase, beta-actin, oncoprotem nm23, crustacyanin-Cl and so on. These proteins could be functionally classified into several groups such as proteins related to energy production, metabolism-related proteins, immune-related proteins, antioxidant proteins, chaperones, cytoskeleton proteins and ungrouped proteins. The transcription levels of ten selected genes encode the identified proteins were analyzed by real-time PCR at different sampling times of hypoxia. This study is the first analysis of differentially expressed proteins in the hepatopancreas of shrimp after hypoxia and provides a new insight for further study in hypoxic stress response of shrimp at the protein level.

Molecular cloning of an invertebrate goose-type lysozyme gene from Chlamys farreri, and lytic activity of the recombinant protein

Lysozyme is a widely distributed hydrolase possessing lytic activity against bacterial peptidoglycan, which enables it to protect the host against pathogenic infection. In the present study, the cDNA of an invertebrate goose-type lysozyme (designated CFLysG) was cloned from Zhikong scallop Chlamys farreri by expressed sequence tag (EST) and rapid amplification of cDNA ends (RACE) techniques. The full-length cDNA of CFLysG consisted of 829 nucleotides with a canonical polyadenylation signal sequence AATAAA and a poly(A) tail, and an open reading frame (ORF) of 603 bp encoding a polypeptide of 200 amino acid residues with a predicted molecular weight of 21.92 kDa and theoretical isoelectric point of 7.76. The high similarity of CFLysG with goose-type (g-type) lysozymes in vertebrate indicated that CFLysG should be an invertebrate counterpart of g-type lysozyme family, which suggested that the origin of g-type lysozyme preceded the emergence of urochordates and even preceded the emergence of deuterostomes. Similar to most g-type lysozymes, CFLysG possessed all conserved features critical for the fundamental structure and function of g-type lysozymes, such as three catalytic residues (Glu 82, Asp 97, Asp 108). By Northern blot analysis, mRNA transcript of CFLysG was found to be most abundantly expressed in the tissues of gills, hepatopancreas and gonad, weakly expressed in the tissues of haemocytes and mantle, while undetectable in the adductor muscle. These results suggested that CFLysG could possess combined features of both the immune and digestive adaptive lysozymes. To gain insight into the in vitro lytic activities of CFLysG, the mature peptide coding region was cloned into Pichia pastoris for heterogeneous expression. Recombinant CFLysG showed inhibitive effect on the growth of both Gram-positive and Gram-negative bacteria with more potent activities against Gram-positive bacteria, which indicated the involvement of CFLysG in the innate immunity of C. farreri. (c) 2006 Elsevier Ltd. All rights reserved.

Optimisation of chemoenzymatic processes in asymmetric synthesis

This thesis describes the optimisation of chemoenzymatic methods in asymmetric synthesis. Modern synthetic organic chemistry has experienced an enormous growth in biocatalytic methodologies; enzymatic transformations and whole cell bioconversions have become generally accepted synthetic tools for asymmetric synthesis. Biocatalysts are exceptional catalysts, combining broad substrate scope with high regio-, enantio- and chemoselectivities enabling the resolution of organic substrates with superb efficiency and selectivity. In this study three biocatalytic applications in enantioselective synthesis were explored and perhaps the most significant outcome of this work is the excellent enantioselectivity achieved through optimisation of reaction conditions improving the synthetic utility of the biotransformations. In the first chapter a summary of literature discussing the stereochemical control of baker’s yeast (Saccharomyces Cerevisae) mediated reduction of ketones by the introduction of sulfur moieties is presented, and sets the work of Chapter 2 in context. The focus of the second chapter was the synthesis and biocatalytic resolution of (±)-trans-2-benzenesulfonyl-3-n-butylcyclopentanone. For the first time the practical limitations of this resolution have been addressed providing synthetically useful quantities of enantiopure synthons for application in the total synthesis of both enantiomers of 4-methyloctanoic acid, the aggregation pheromone of the rhinoceros beetles of the genus Oryctes. The unique aspect of this enantioselective synthesis was the overall regio- and enantioselective introduction of the methyl group to the octanoic acid chain. This work is part of an ongoing research programme in our group focussed on baker’s yeast mediated kinetic resolution of 2-keto sulfones. The third chapter describes hydrolase-catalysed kinetic resolutions leading to a series of 3-aryl alkanoic acids. Hydrolysis of the ethyl esters with a series of hydrolases was undertaken to identify biocatalysts that yield the corresponding acids in highly enantioenriched form. Contrary to literature reports where a complete disappearance of efficiency and, accordingly enantioselection, was described upon kinetic resolution of sterically demanding 3-arylalkanoic acids, the highest reported enantiopurities of these acids was achieved (up to >98% ee) in this study through optimisation of reaction conditions. Steric and electronic effects on the efficiency and enantioselectivity of the biocatalytic transformation were also explored. Furthermore, a novel approach to determine the absolute stereochemistry of the enantiopure 3-aryl alkanoic acids was investigated through combination of co-crystallisation and X-ray diffraction linked with chiral HPLC analysis. The fourth chapter was focused on the development of a biocatalytic protocol for the asymmetric Henry reaction. Efficient kinetic resolution in hydrolase-mediated transesterification of cis- and trans- β-nitrocyclohexanol derivatives was achieved. Combination of a base-catalysed intramolecular Henry reaction coupled with the hydrolase-mediated kinetic resolution with the view to selective acetylation of a single stereoisomer was investigated. While dynamic kinetic resolution in the intramolecular Henry was not achieved, significant progress in each of the individual elements was made and significantly the feasibility of this process has been demonstrated. The final chapter contains the full experimental details, including spectroscopic and analytical data of all compounds synthesised in this project, while details of chiral HPLC analysis are included in the appendix. The data for the crystal structures are contained in the attached CD.

Interleukin 10 reduces the incidence of pancreatitis after therapeutic endoscopic retrograde cholangiopancreatography.

BACKGROUND & AIMS: Prophylactic administration of interleukin (IL)-10 decreases the severity of experimental pancreatitis. Prevention of post-endoscopic retrograde cholangiopancreatography (ERCP) pancreatitis in humans is a unique model to study the potential role of IL-10 in this setting. METHODS: In a single-center, double-blind, randomized, placebo-controlled study, the effect of a single injection of 4 microg/kg (group 1) or 20 microg/kg (group 2) IL-10 was compared with that of placebo (group 0), all administered 30 minutes before therapeutic ERCP. The primary endpoint was the effect of IL-10 on serum levels of amylases and lipases measured 4, 24, and 48 hours after ERCP. The secondary objective was to evaluate changes in plasma cytokines (IL-6, IL-8, tumor necrosis factor) at the same time points and the incidence of acute pancreatitis in the 3 groups. Subjects undergoing a first therapeutic ERCP were eligible for inclusion. RESULTS: A total of 144 patients were included. Seven were excluded based on intention to treat (n = 1) or per protocol (n = 6). Forty-five, 48, and 44 patients remained in groups 0, 1, and 2, respectively. The 3 groups were comparable for age, sex, underlying disease, indication for treatment, type of treatment, and plasma levels of C-reactive protein (CRP), cytokines, and hydrolases at baseline. No significant difference was observed in CRP, cytokine, and hydrolase plasma levels after ERCP. Forty-three patients developed hyperhydrolasemia (18 in group 0, 14 in group 1, and 11 in group 2; P = 0.297), and 19 patients developed acute clinical pancreatitis (11 in group 0, 5 in group 1, 3 in group 2; P = 0.038). Two severe cases were observed in the placebo group. No mortality related to ERCP was observed. Logistic regression identified 3 independent risk factors for post-therapeutic ERCP pancreatitis: IL-10 administration (odds ratio [OR], 0.46; 95% confidence interval [95% CI], 0.22-0.96; P = 0.039), pancreatic sphincterotomy (OR, 5.04; 95% CI, 1.53-16.61; P = 0.008), and acinarization (OR, 8.19; 95% CI, 1.83-36.57; P = 0.006). CONCLUSIONS: A single intravenous dose of IL-10, given 30 minutes before the start of the procedure, independently reduces the incidence of post-therapeutic ERCP pancreatitis.