Procyanidin B1 promotes in vitro maturation of pig oocytes by reducing oxidative stress

Oxidative stress negatively affects the in vitro maturation (IVM) of oocytes. Procyanidin B1 (PB1) is a natural polyphenolic compound that has antioxidant properties. In this study, we investigated the effect of PB1 supplementation during IVM of porcine oocytes. Treatment with 100 μM PB1 significantly increased the MII oocytes rate (p <0.05), the parthenogenetic (PA) blastocyst rate (p <0.01) and the total cell number in the PA blastocyst (p < 0.01) which were cultured in regular in vitro culture (IVC) medium. The PA blastocyst rate of regular MII oocytes activated and cultured in IVC medium supplemented with 100 and 150 μM PB1 significantly increased compared with control (p < 0.01 and p < 0.05). We also evaluated the reactive oxygen species (ROS) levels, mitochondrial membrane potential (Δψm) levels, glutathione (GSH) levels, and apoptotic levels in MII oocytes and cumulus cells following 100 μM PB1 treatment. The results showed that the PB1 supplementation decreased ROS production and apoptotic levels. In addition, PB1 was found to increase Δψm levels and GSH levels. In conclusion, PB1 inhibited apoptosis of oocytes and cumulus cells by reducing oxidative stress. Moreover, PB1 improved the quality of oocytes and promoted PA embryo development. Taken together, our results suggest that PB1 is a promising antioxidant additive for IVM of oocytes.     

The dynamic motion of a M (M = Ca, Yb) atom inside the C74 (D 3h) cage: a relativistic DFT study

The interaction between M (M?=?Ca, Yb) atom and C₇₄ (D _3h) has been investigated by all electron relativistic density function theory. With the aid of the representative patch of C₇₄ (D _3h), we studied the interaction between C₇₄ (D _3h) and M (M?=?Ca, Yb) atom and obtained the interaction potential. Optimized structures show that there are three equivalent stable isomers and there is one transition state between every two stable isomers. According to the minimum energy pathway, the possible movement trajectory of M (M?=?Ca, Yb) atom in the C₇₄ (D _3h) cage is explored. The calculated energy barrier for Yb atoms moving from the stable isomer to the transition state is 10.4 kcal mol^?1 and the energy barrier for Ca atoms is 6.1 kcal mol^?1. The calculated NMR spectra of M@C₇₄ (M?=?Ca, Yb) are in good agreement with the experimental data. There are nine lines in the spectra: one 1/6 intensity signal, four half intensity signals and four full intensity signals.     

Overproduction of a truncated poly (vinyl alcohol) dehydrogenase in recombinant Pichia pastoris by low-temperature induction strategy and related mechanism analysis

Based on the N-terminal sequencing of poly (vinyl alcohol) dehydrogenase (PVADH), a 1,644-bp gene encoding a truncated PVADH (tPVADH) was amplified using the synthetic gene (GenBank accession No. JQ235753) as a template, and was further transformed into Pichia pastoris GS115 with the vector pPIC9K. The maximal tPVADH activity reached 546 U/mL in shake flask. The influence of methanol concentration and induction temperature on tPVADH production was further investigated in 3-L bioreactor. When the methanol concentration and induction temperature were controlled at 15 g/L and 22 °C, respectively, the maximal tPVADH activity reached 8,464 U/mL, which was nearly 10 times that of mature PVADH expressed under the same condition and was the highest level ever reported. The reason responsible for the significant improvement of tPVADH production at low induction temperature was explored in terms of cell viability, extracellular proteases activity, and alcohol oxidase activity.     

Nanosheets‐Assembled CuSe Crystal Pillar as a Stable and High‐Power Anode for Sodium‐Ion and Potassium‐Ion Batteries

Thanks to low costs and the abundance of the resources, sodium‐ion (SIBs) and potassium‐ion batteries (PIBs) have emerged as leading candidates for next‐generation energy storage devices. So far, only few materials can serve as the host for both Na⁺ and K⁺ ions. Herein, a cubic phase CuSe with crystal‐pillar‐like morphology (CPL‐CuSe) assembled by the nanosheets are synthesized and its dual functionality in SIBs and PIBs is comprehensively studied. The electrochemical measurements demonstrate that CPL‐CuSe enables fast Na⁺ and K⁺ storage as well as the sufficiently long duration. Specifically, the anode delivers a specific capacity of 295 mA h g^?1 at current density of 10 A g^?1 in SIBs, while 280 mA h g^?1 at 5 A g^?1 in PIBs, as well as the high capacity retention of nearly 100% over 1200 cycles and 340 cycles, respectively. Remarkably, CPL‐CuSe exhibits a high initial coulombic efficiency of 91.0% (SIBs) and 92.4% (PIBs), superior to most existing selenide anodes. A combination of in situ X‐ray diffraction and ex situ transmission electron microscopy tests fundamentally reveal the structural transition and phase evolution of CuSe, which shows a reversible conversion reaction for both cells, while the intermediate products are different due to the sluggish K⁺ insertion reaction.     

靶向炎性细胞因子的生物制剂及其临床应用

细胞因子可介导许多生物学过程并受到机体的严格调节,其调节的失控可引发一系列疾病如自身免疫炎症和肿瘤。在过去的十几年中,一些能够有效调节细胞因子生物学作用的生物制剂如重组抗炎细胞因子、细胞因子受体以及中和性抗体等被广泛应用到由细胞因子失调引起的相关疾病的治疗。尤其是近年来,一些具有创新性的靶向细胞因子的新型生物制剂在不断涌现。文中对近年来国际上靶向炎症细胞因子(TNF-α、IL-1β、IL-6、IL-17)的生物制剂的研发和临床应用的相关进展进行了综述,指出其副作用和应用风险,并结合其他学者和自己的研究工作提出减少副作用和风险的途径和方法。利用现代生物技术提高抗细胞因子生物制剂针对炎症或肿瘤组织的特异性,是靶向炎性细胞因子生物制剂未来的重要发展方向。     

Monophosphoryl lipid A analogues with varying 3-O-substitution: synthesis and potent adjuvant activity

Structurally defined immunostimulatory adjuvants play important roles in the development of new generation vaccines. Here described are the syntheses of three monophosphoryl lipid A analogues (1-3) with different substitution at 3-O-position of the reducing sugar and their potent immunostimulatory adjuvant activity. The syntheses involve the preparation of glycosylation acceptors benzyl 3,4-di-O-benzyl-2-deoxy-2-[(R)-3-tetradecanoyloxytetradecanamido]-beta-D-glucopyranoside (16) and benzyl 3-O-allyl-4-O-benzyl-2-deoxy-2-[(R)-3-tetradecanoyloxytetradecanamido]-beta-D-glucopyranoside (17). The glycosylation reactions between the donor 4,6-di-O-benzylidene-2-deoxy-2-(2',2',2'-trichloroethoxycarbonylamino)-alpha-d-glucopyranosyl trichloroacetimidate (21) and acceptors 16 and 17 provide the desired beta-(1-->6)-linked disaccharides 22 and 23, respectively. Selective reductive ring opening of the 4,6-di-O-benzylidene group, installation of a phosphate group to the 4'-hydroxyl group, and the final global debenzylation produce the designed monophosphoryl lipid A analogues 1-3. All three synthetic analogues induce antigen specific T-cell proliferation and interferon-gamma (IFN-gamma) production in ex vivo experiments with a totally synthetic liposomal vaccine system. The immunostimulatory potency of compound 1-3 is in the same order of magnitude as that of the detoxified natural lipid A product isolated from Salmonella minnesota R595 (R595 lipid A). The substituent at the 3-O-position of the reducing sugar does not have much effect on the adjuvant activity of monophosphoryl lipid A analogues. The preliminary lethal toxicity study indicates that the 3-O-acylated hepta-acyl monophosphoryl lipid A may not be more toxic than its 3-O-deacylated hexa-acyl analogue.     

Glycosylations versus conformational preferences of cancer associated mucin core

Synthetic oligosaccharide vaccines based on core STn (sialyl 2-6 GalNAc) carbohydrate epitopes are being evaluated by a number of biopharmaceutical firms as potential immunotherapeutics in the treatment of mucin-expressing adenocarcinomas. The STn carbohydrate epitopes exist as discontinuous clusters, O-linked to proximal serine and threonine residues within the mucin sequence. In an effort to probe the structure and dynamics of STn carbohydrate clusters as they may exist on the cancer-associated mucin, we have used NMR spectroscopy and MD simulations to study the effect of O-glycosylation of adjacent serine residues in a repeating (Ser)n sequence. Three model peptides/glyco-peptides were studied: a serine trimer containing no carbohydrate groups ((Ser)₃ trimer); a serine trimer containing three Tn (GalNAc) carbohydrates -linked to the hydroxyls of adjacent serine sidechains ((Ser.Tn)₃ trimer); and a serine trimer containing three STn carbohydrates -linked to the hydroxyls of adjacent serine sidechains ((Ser.STn)₃ trimer). Our results demonstrate that clustering of carbohydrates shifts the conformational equilibrium of the underlying peptide backbone into a more extended and rigid state, an arrangement that could function to optimally present the clustered carbohydrate antigen to the immune system. Steric effects appear to drive these changes since an increase in the size of the attached carbohydrate (STn versus Tn) is accompanied by a stronger shift in the equilibrium toward the extended state. In addition, NMR evidence points to the formation of hydrogen bonds between the peptide backbone NH protons and the proximal GalNAc groups in the (Ser.Tn)₃ and (Ser.STn)₃ trimers. The putative peptide-sugar hydrogen bonds may also play a role in influencing the conformation of the underlying peptide backbone, as well as the orientation of the O-linked carbohydrate. The significance of these results will be discussed within the framework of developing clustered STn-based vaccines, capable of targeting the clustered STn epitopes on the cancer-associated mucin.     

永久型70kD热休克蛋白在白菜花发育过程中的免疫组织化学定位

利用免疫组织化学技术研究了永久型热休克蛋白ＨＳＣ７０在白菜花各组织中的分布。结果表明：在正常温度条件下,ＨＳＣ７０在小孢子母细胞、四分体细胞、花药壁绒毡层细胞中分布最多,在花原基、花托的维管组织、花粉母细胞以及发育早期的胚珠中的表达也较多。该结果与其他人用核酸杂交、同位素示踪等技术所得结果基本一致,本文对ＨＳＣ７０在白菜花不同组织中的分布与其功能的关系进行了初步讨论。