Synthesis and acrosin inhibitory activities of 5-phenyl-1H-pyrazole-3-carboxylic acid amide derivatives

A series of novel 5-phenyl-1H-pyrazole-3-carboxylic acid amide derivatives were designed, synthesized, and their acrosin inhibitory activities in vitro were evaluated. The results of the acrosin inhibitory activity showed that all target compounds were more potent than control TLCK. Compounds AQ-A1, AQ-D3, AQ-D4, AQ-E4 and AQ-E5 exhibited stronger acrosin inhibitory activities than control ISO-1. Especially, compound AQ-E5 displayed the most potent acrosin inhibitory activity in all the compounds, with an IC₅₀ of 0.01 μmol/mL. This study provided a new structural class for the development of novel acrosin inhibitory agents.     

单纯疱疹病毒2型潜伏相关转录体ORF1的表达及其抗凋亡作用

旨在研究单纯疱疹病毒2型潜伏相关转录体 (LAT) 开放读码框1 (ORF1) 对放线菌素D诱导的凋亡作用的影响。以HSV-2 333基因组为模板PCR扩增ORF1片段,构建重组质粒pEGFP-ORF1,转染Vero细胞,RT-PCR鉴定ORF1的表达。放线菌素D诱导Vero细胞凋亡,通过荧光显微镜观察凋亡小体,Hochest33258荧光染色观察细胞形态变化,MTT检测细胞活性,流式细胞术检测细胞凋亡率。双酶切和测序确认pEGFP-ORF1构建成功,RT-PCR表明该真核表达载体能在Vero细胞中高效表达。转染了pEGFP-ORF1的Vero细胞经放线菌素D凋亡诱导后,Hochest33258染色显示细胞形态正常。MTT结果表明转染了重组质粒pEGFP-ORF1的Vero细胞经放线菌素D凋亡诱导后Vero细胞活性与未经任何处理的正常对照组相比,无显著差异 (P＞0.05),但高于放线菌素D诱导凋亡的Vero细胞组及与转染空质粒pEGFP-C2且放线菌素D诱导凋亡的Vero细胞组,差异具有统计学意义 (P＜0.05)。流式结果表明,转染重组质粒pEGFP-ORF1且经放线菌素D诱导凋亡组与正常对照组凋亡率差异不显著 (P＞0.05),而显著低于放线菌素D诱导凋亡组和转染空质粒pEGFP-C2且经放线菌素D诱导凋亡组 (P＜0.05)。HSV-2 LAT ORF1具有抗放线菌素D诱导的Vero细胞的凋亡作用。     

生长调节剂调控龙眼冲梢的研究

为高效、安全地调控龙眼冲梢,在龙眼花芽形态分化开始期(露红点期)和花穗主轴长6～9 cm的花穗展叶期,施用生长调节剂,比较了不同方法调控龙眼冲梢的效果。结果发现龙眼花芽形态分化开始期树冠喷施200 mg/kg乙烯利+150 mg/kg多效唑混合液和土施多效唑每株4 g处理控冲梢效果都显著高于对照,冲梢率分别是10.5%和7.6%,在花穗小叶处于展叶期虹吸输300 mg/kg乙烯利防控龙眼冲梢有效且安全。     

高脂饮食对小鼠附睾内质网应激的影响及褪黑素的干预作用

目的探讨内质网应激在高脂饮食引起的ApoE基因敲除小鼠附睾损伤中的作用及褪黑素（MT）的干预机制。方法将12只ApoE基因敲除的C57BL／6J雄性小鼠随机分为高脂饮食组及MT处理组。高脂饮食组为ApoE基因敲除小鼠,给予高脂饮食;MT处理组给予高脂饲养外,并MT灌胃。以6只野生型C57BL／6J雄性小鼠作为对照组,给予普通饮食。饲养12w后,取附睾组织制片,HE染色观察附睾的病理学形态,免疫组化检测GRP78和CHOP的表达。结果HE染色显示,高脂饮食组小鼠,附睾上皮细胞形态结构不清,细胞萎缩。对照组和褪黑素处理组小鼠附睾上皮细胞形态结构完整,细胞排列整齐。免疫组化显示高脂饮食组小鼠附睾中GRP78、CHOP表达增强（P〈0．01）。MT处理组和高脂饮食组相比,附睾中GRP78、CHOP表达下调（P〈0．01）。结论内质网应激参与高脂饮食导致的附睾损伤;MT可能通过抑制附睾内质网应激,减轻高脂饮食对小鼠附睾的损伤。     

Rational design of cationic antimicrobial peptides by the tandem of leucine-rich repeat

Antimicrobial peptides represent ancient host defense effector molecules present in organisms across the evolutionary spectrum. Lots of antimicrobial peptides were synthesized based on well-known structural motif widely existed in a variety of lives. Leucine-rich repeats (LRRs) are sequence motifs present in over 60,000 proteins identified from viruses, bacteria, and eukaryotes. To elucidate if LRR motif possesses antimicrobial potency, two peptides containing one or two LRRs were designed. The biological activity and membrane–peptide interactions of the peptides were analyzed. The results showed that the tandem of two LRRs exhibited similar antibacterial activity and significantly weaker hemolytic activity against hRBCs than the well-known membrane active peptide melittin. The peptide with one LRR was defective at antimicrobial and hemolytic activity. The peptide containing two LRRs formed α-helical structure, respectively, in the presence of membrane-mimicking environment. LRR-2 retained strong resistance to cations, heat, and some proteolytic enzymes. The blue shifts of the peptides in two lipid systems correlated positively with their biological activities. Other membrane-peptide experiments further provide the evidence that the peptide with two LRRs kills bacteria via membrane-involving mechanism. The present study increases our new understanding of well-known LRR motif in antimicrobial potency and presents a potential strategy to develop novel antibacterial agents.     

Glycation exacerbates the neuronal toxicity of β-amyloid

Accumulation evidence shows that β-amyloid (Aβ) is a neurotoxic and accumulation of Aβ is responsible for the pathology of Alzheimer''s disease (AD). However, it is currently not fully understood what makes Aβ toxic and accumulated. Previous studies demonstrate that Aβ is a suitable substrate for glycation, producing one form of the advanced glycation endproducts (AGEs). We speculated that Aβ-AGE formation may exacerbate the neurotoxicity. To explore whether the Aβ-AGE is more toxic than the authentic Aβ and to understand the molecular mechanisms, we synthesized glycated Aβ by incubating Aβ with methylglyoxal (MG) in vitro and identified the formation of glycated Aβ by fluorescence spectrophotometer. Then, we treated the primary hippocampal neurons cultured 8 days in vitro with Aβ-AGE or Aβ for 24 h. We observed that glycation exacerbated neurotoxicity of Aβ with upregulation of receptor for AGE (RAGE) and activation of glycogen synthase kinase-3 (GSK-3), whereas simultaneous application of RAGE antibody or GSK-3 inhibitor reversed the neuronal damages aggravated by glycated Aβ. Thereafter, we found that Aβ is also glycated with an age-dependent elevation of AGEs in Tg2576 mice, whereas inhibition of Aβ-AGE formation by subcutaneously infusion of aminoguanidine for 3 months significantly rescued the early cognitive deficit in mice. Our data reveal for the first time that the glycated Aβ is more toxic. We propose that the glycated Aβ with the altered secondary structure may be a more suitable ligand than Aβ for RAGE and subsequent activation of GSK-3 that can lead to cascade pathologies of AD, therefore glycated Aβ may be a new therapeutic target for AD.     

Jagged-1/Notch3 signaling transduction pathway is involved in apelin-13-induced vascular smooth muscle cells proliferation

The apelin/apelin receptor （APJ, apelin-angiotensin receptor-like 1） system is a newly deorphanized G protein- coupled receptor system. Both apelin and APJ that are important regulatory factors are expressed in the cardio- vascular system. Our previous studies demonstrated that apelin-13 significantly stimulated vascular smooth muscle cell （VSMC） proliferation. In this paper, our data sug- gested that the Jagged-l/Notch3 signaling transduction pathway is involved in apelin-13-induced VSMC prolifer- ation by promoting the expression of Cyclin D1. Results indicated that apelin-13 stimulates the proliferation of VSMC and the expression of Jagged-1 and Notch3 in con- centration- and time-dependent manners. The increased expression of Jagged-1 and Notch3 induced by apelin-13 could be abolished by extracellular signal-regulated protein kinase （ERK） blockade. PD98059 （ERK inhibitor） can inhibit the activation of Jagged-I/Notch3 induced by apelin- 13. Down-regulation of Notch3 using small interfering RNA inhibits the expression of Cyclin DI and prevents apelin- 13-induced VSMC proliferation. In conclusion, Jagged-I/ Notch3 signaling transduction pathway is involved in VSMC proliferation induced by apelin-13.     

Trans-Ethnical Shift of the Risk Genotype in the CETP I405V with Longevity: A Chinese Case-Control Study and Meta-Analysis

Background

The I405V polymorphism of the cholesteryl ester transfer protein gene (CETP) has been suggested to be a protective factor conferring longevity in Ashkenazi Jews, although findings in other races are not supportive. This paper describes a case-control study and a meta-analysis conducted to derive a more precise estimation of the association between CETP 405V and longevity.

Methods

We enrolled 1,021 ethnic Han Chinese participants (506 in the longevity group and 515 controls), then performed a meta-analysis that integrated the current study and previously published ones. Pooled odds ratios (OR) were calculated for allele contrasts, dominant and recessive inheritance models to assess the association between CETP 405V and longevity according to the ethnic stratification.

Results

Our case-control data indicated that CETP 405V is a longevity risk allele in all genetic models (P _additive=0.008; P _dominant=0.008, OR_dominant=0.673; P _recessive=0.017, OR_recessive=0.654) after adjustment for the apolipoprotein E (APOE) ε4 allele, body mass index and high-density lipoprotein cholesterol. A synergy was detected between 405V and APOE ε4 (P=0.001, OR=0.530). Eight studies were eligible for meta-analysis, which confirmed 405V is the risky allele against longevity in all genetic models: allele contrasts (OR=0.81, 95%CI=0.74-0.88), dominant model (OR=0.72, 95%CI=0.64-0.82) and recessive model (OR=0.80, 95%CI=0.67-0.96). After ethnic stratification, 405V remained a risk allele in East Asians but no significant association was found in Europeans or white Americans.

Conclusion

Our case-control study suggests CETP 405V as a risk allele against longevity in Chinese. The meta-analysis suggests the involvement of CETP 405V is protective in Ashkenazi Jews but is a risk allele against longevity in the East Asian (Chinese) population.     

Sclerotial Formation of Polyporus umbellatus by Low Temperature Treatment under Artificial Conditions

Background

Polyporus umbellatus sclerotia have been used as a diuretic agent in China for over two thousand years. A shortage of the natural P. umbellatus has prompted researchers to induce sclerotial formation in the laboratory.

Methodology/Principal Finding

P. umbellatus cultivation in a sawdust-based substrate was investigated to evaluate the effect of low temperature conditions on sclerotial formation. A phenol-sulfuric acid method was employed to determine the polysaccharide content of wild P. umbellatus sclerotia and mycelia and sclerotia grown in low-temperature treatments. In addition, reactive oxygen species (ROS) content, expressed as the fluorescence intensity of mycelia during sclerotial differentiation was determined. Analysis of ROS generation and sclerotial formation in mycelia after treatment with the antioxidants such as diphenyleneiodonium chloride (DPI), apocynin (Apo), or vitamin C were studied. Furthermore, macroscopic and microscopic characteristics of sclerotial differentiation were observed. Sclerotia were not induced by continuous cultivation at 25°C. The polysaccharide content of the artificial sclerotia is 78% of that of wild sclerotia. In the low-temperature treatment group, the fluorescent intensity of ROS was higher than that of the room temperature (25°C) group which did not induce sclerotial formation all through the cultivation. The antioxidants DPI and Apo reduced ROS levels and did not induce sclerotial formation. Although the concentration-dependent effects of vitamin C (5–15 mg mL⁻¹) also reduced ROS generation and inhibited sclerotial formation, using a low concentration of vitamin C (1 mg mL⁻¹) successfully induced sclerotial differentiation and increased ROS production.

Conclusions/Significance

Exposure to low temperatures induced P. umbellatus sclerotial morphogenesis during cultivation. Low temperature treatment enhanced ROS in mycelia, which may be important in triggering sclerotial differentiation in P. umbellatus. Moreover, the application of antioxidants impaired ROS generation and inhibited sclerotial formation. Our findings may help to provide new insights into the biological mechanisms underlying sclerotial morphogenesis in P. umbellatus.     

BmPAH Catalyzes the Initial Melanin Biosynthetic Step in Bombyx mori

Pigmentation during insect development is a primal adaptive requirement. In the silkworm, melanin is the primary component of larval pigments. The rate limiting substrate in melanin synthesis is tyrosine, which is converted from phenylalanine by the rate-limiting enzyme phenylalanine hydroxylase (PAH). While the role of tyrosine, derived from phenylalanine, in the synthesis of fiber proteins has long been known, the role of PAH in melanin synthesis is still unknown in silkworm. To define the importance of PAH, we cloned the cDNA sequence of BmPAH and expressed its complete coding sequence using the Bac-to-Bac baculovirus expression system. Purified recombinant protein had high PAH activity, some tryptophan hydroxylase activity, but no tyrosine hydroxylase activity, which are typical properties of PAH in invertebrates. Because melanin synthesis is most robust during the embryonic stage and larval integument recoloring stage, we injected BmPAH dsRNA into silkworm eggs and observed that decreasing BmPAH mRNA reduced neonatal larval tyrosine and caused insect coloration to fail. In vitro cultures and injection of 4^th instar larval integuments with PAH inhibitor revealed that PAH activity was essential for larval marking coloration. These data show that BmPAH is necessary for melanin synthesis and we propose that conversion of phenylalanine to tyrosine by PAH is the first step in the melanin biosynthetic pathway in the silkworm.