CCR6, the Sole Receptor for the Chemokine CCL20, Promotes Spontaneous Intestinal Tumorigenesis

Interactions between the inflammatory chemokine CCL20 and its receptor CCR6 have been associated with colorectal cancer growth and metastasis, however, a causal role for CCL20 signaling through CCR6 in promoting intestinal carcinogenesis has not been demonstrated in vivo. In this study, we aimed to determine the role of CCL20-CCR6 interactions in spontaneous intestinal tumorigenesis. CCR6-deficient mice were crossed with mice heterozygous for a mutation in the adenomatous polyposis coli (APC) gene (APC^MIN/+ mice) to generate APC^MIN/+ mice with CCR6 knocked out (CCR6KO-APC^MIN/+ mice). CCR6KO-APC^MIN/+ mice had diminished spontaneous intestinal tumorigenesis. CCR6KO-APC^MIN/+ also had normal sized spleens as compared to the enlarged spleens found in APC^MIN/+ mice. Decreased macrophage infiltration into intestinal adenomas and non-tumor epithelium was observed in CCR6KO-APC^MIN/+ as compared to APC^MIN/+ mice. CCL20 signaling through CCR6 caused increased production of CCL20 by colorectal cancer cell lines. Furthermore, CCL20 had a direct mitogenic effect on colorectal cancer cells. Thus, interactions between CCL20 and CCR6 promote intestinal carcinogenesis. Our results suggest that the intestinal tumorigenesis driven by CCL20-CCR6 interactions may be driven by macrophage recruitment into the intestine as well as proliferation of neoplastic epithelial cells. This interaction could be targeted for the treatment or prevention of malignancy.     

海金沙提取物体外抑菌性能研究

用M／C和纸片法考查了海金沙提取物对藤黄球菌、枯草芽孢杆菌、金黄色葡萄球菌和乙型溶血性链球菌的抑菌性能。结果表明：海金沙对4种受试菌株都有抑菌活性;37℃时,醇提物对乙型溶血性链球菌的抑菌效果最好,最大抑菌圈为8．5mm;42℃时,对藤黄球菌、金黄色葡萄球菌和枯草杆菌的抑菌效果最好,最大抑菌圈分别为21、13．2和6．5mm。pH值为7．6时,海金沙醇提物在对藤黄球菌、金黄色葡萄球菌、枯草杆菌和乙型溶血性链球菌的最大抑菌圈分别为9．1、8．2、9mm和11．3mm。海金沙水提物和醇提物对藤黄球菌、乙型溶血性链球菌、枯草芽孢杆菌、金黄色葡萄球菌的最低抑菌质量分数分别为25％、12．5％、12．5％、25％和3．12％、1．56％、6．25％、3．12％．     

糖多孢红霉菌同源片段长度与染色体重组率关系的研究

为了探索同源片段长度与糖多孢红霉菌染色体同源重组率的关系,化学合成或用重叠PCR合成带有突变位点、在突变位点两侧长度为（26bp+27bp）、（500bp+576bp）和（1908bp+1749bp）的同源序列,克隆于糖多孢红霉菌同源重组载体pWHM3后,分别构建了pWHM1113、 pWHM1116和 pWHM1119质粒。以PEG介导转化糖多孢红霉菌A226原生质体,3个质粒分别获得每皿30个、69个和170个转化子,但pWHM1113质粒不能与染色体有效整合,pWHM1116质粒与染色体整合率为转化子的2%,而pWHM1119质粒与染色体整合率达到转化子的19%。 pWHM1116和 pWHM1119质粒均可进行有效的染色体二次重组,将突变位位点引入染色体。因此,同源片段长度为（500bp+576bp）或更长时,可与糖多孢红霉菌染色体进行有效的单重组和双重组。     

Hemolysis of human erythrocytes induced by melamine-cyanurate complex

Melamine is a widely-used chemical in industries. In recent years, melamine has been found to be involved in outbreaks of renal injury in infants and animals. Pathological studies indicated that the melamine-induced acute renal failure was related to the concurrence of melamine and other triazine analogs such as cyanuric acid. In the present study, human erythrocytes were used as an in vitro model to explore the cytotoxicity of melamine and its complex with cyanuric acid. The results demonstrated that mixing melamine and cyanuric acid resulted in the formation of insoluble particles and that the insoluble melamine-cyanurate complex induced membrane damages of human erythrocytes. The membrane damages included hemolysis, K⁺ leakage, alterations in cell shape and membrane fragility, and inhibition of enzymatic activity. By contrast, either melamine or cyanuric acid alone had no effect on erythrocyte membranes. The results of this study may provide a fresh insight into the melamine toxicology.     

Palmitic acid suppresses apolipoprotein M gene expression via the pathway of PPARβ/δ in HepG2 cells

It has been demonstrated that apolipoprotein M (APOM) is a vasculoprotective constituent of high density lipoprotein (HDL), which could be related to the anti-atherosclerotic property of HDL. Investigation of regulation of APOM expression is of important for further exploring its pathophysiological function in vivo. Our previous studies indicated that expression of APOM could be regulated by platelet activating factor (PAF), transforming growth factors (TGF), insulin-like growth factor (IGF), leptin, hyperglycemia and etc., in vivo and/or in vitro. In the present study, we demonstrated that palmitic acid could significantly inhibit APOM gene expression in HepG2 cells. Further study indicated neither PI-3 kinase (PI3K) inhibitor LY294002 nor protein kinase C (PKC) inhibitor GFX could abolish palmitic acid induced down-regulation of APOM expression. In contrast, the peroxisome proliferator-activated receptor beta/delta (PPAR_β/δ) antagonist GSK3787 could totally reverse the palmitic acid-induced down-regulation of APOM expression, which clearly demonstrates that down-regulation of APOM expression induced by palmitic acid is mediated via the PPAR_β/δ pathway.     

Hsp90 inhibitor 17-AAG sensitizes Bcl-2 inhibitor (-)-gossypol by suppressing ERK-mediated protective autophagy and Mcl-1 accumulation in hepatocellular carcinoma cells

Natural BH3-memitic (-)-gossypol shows promising antitumor efficacy in several kinds of cancer. However, our previous studies have demonstrated that protective autophagy decreases the drug sensitivities of Bcl-2 inhibitors in hepatocellular carcinoma (HCC) cells. In the present study, we are the first to report that Hsp90 inhibitor 17-AAG enhanced (-)-gossypol-induced apoptosis via suppressing (-)-gossypol-triggered protective autophagy and Mcl-1 accumulation. The suppression effect of 17-AAG on autophagy was mediated by inhibiting ERK-mediated Bcl-2 phosphorylation while was not related to Beclin1 or LC3 protein instability. Meanwhile, 17-AAG downregulated (-)-gossypol-triggered Mcl-1 accumulation by suppressing Mcl-1^Thr163 phosphorylation and promoting protein degradation. Collectively, our study indicates that Hsp90 plays an important role in tumor maintenance and inhibition of Hsp90 may become a new strategy for sensitizing Bcl-2-targeted chemotherapies in HCC cells.     

High-throughput immunoglobulin G N-glycan characterization using rapid resolution reverse-phase chromatography tandem mass spectrometry

We present an optimized high-throughput method for the characterization of 2-aminobenzamide (2-AB)-labeled N-glycans from recombinant immunoglobulin G (rIgG). This method includes an optimized sample preparation protocol involving microwave-assisted deglycosylation in conjunction with an automated sample cleanup strategy and a rapid resolution reverse-phase high-performance liquid chromatography (RRRP-HPLC) separation of labeled N-glycans. The RRRP-HPLC method permits generation of a comprehensive glycan profile using fluorescence detection in 45 min. In addition, the profiling method is directly compatible with electrospray ionization mass spectrometry (ESI-MS), allowing immediate and sensitive characterization of the glycan moiety by intact MS and tandem MS (MS/MS) fragmentation. We conservatively estimate an efficiency gain of fourfold with respect to the throughput capabilities of this optimized method as compared with traditional protocols (overnight deglycosylation, sample cleanup by graphitized carbon or cellulose cartridge, high-pH anion exchange chromatography, fraction collection, and processing for matrix-assisted laser desorption/ionization time-of-flight [MALDI-TOF] MS analysis) for a single sample. Even greater gains are achieved when processing of multiple samples is considered.     

The iron regulatory hormone hepcidin reduces ferroportin 1 content and iron release in H9C2 cardiomyocytes

Iron plays a key pathophysiological role in a number of cardiac diseases. Studies on the mechanisms of heart iron homeostasis are therefore crucial for understanding the causes of excessive heart iron. In addition to iron uptake, cellular iron balance in the heart also depends on iron export. We provided evidence for the existence of iron exporter ferroportin 1 (Fpn1) in the heart in a recent study. The presence of hepcidin, a recently discovered iron regulatory hormone, was also confirmed in the heart recently. Based on these findings and the inhibiting role of hepcidin on Fpn1 in other tissues, we speculated that hepcidin might be able to bind with, internalize and degrade Fpn1 and then decrease iron export in heart cells, leading to an abnormal increase in heart iron and iron mediated cell injury. We therefore investigated the effects of hepcidin on the contents of Fpn1 and iron release in H9C2 cardiomyocyte cell line. We demonstrated that hepcidin has the ability to reduce Fpn1 content as well as iron release in this cell. The similar regulation patterns of hepcidin on the Fpn1 and iron release suggested that the decreased iron release resulted from the decreased content of Fpn1 induced by hepcidin. We also found that hepcidin has no significant effects on ceruloplasmin (CP) and hephaestin (Heph) — two proteins required for iron release from mammalian cells. The data imply that Fpn1, rather than Heph and CP, is the limited factor in the regulation of iron release from heart cells under physiological conditions.