Secreted human apolipoprotein(a) kringle IV-10 and kringle V inhibit angiogenesis and xenografted tumor growth

Abstract Angiogenesis plays an important role in normal physiology of blood vessel growth, but can contribute to the pathogenesis of diseases, such as cancer. A new anti-angiogenic recombinant kringle protein, composed of the fused domains of human apolipoprotein(a) carboxyl-terminal kringle IV-10 and kringle V, was expressed in Pichia pastoris and human colorectal carcinoma (HCT 116) cells to investigate its influence on angiogenesis and tumor growth. The mature recombinant protein exhibited the characteristic features of kringle-containing proteins (glycosylation and disulfide bond formation) and, when added to cultures of human umbilical vein endothelial cell, resulted in a 31% decrease in proliferation relative to untreated controls (p<0.05). The neo-angiogenesis was diminished by 63% in chick embryos treated with 10 mug recombinant protein compared with 7% for phosphate buffer solution-treated embryos (p<0.01). Transfection of a kringle IV-10-kringle V fusion protein construct into HCT 116 cells decreased tumorigenesis and inhibited tumor growth in vivo without affecting tumor cell proliferation. HCT 116 cells that expressed recombinant protein displayed a much lower relative growth ratio of 8% (p<0.01) against the control tumor cells. From these results, we conclude that human apolipoprotein(a) carboxyl-terminal kringle IV-10-kringle V fusion protein is an effective inhibitor of angiogenesis and angiogenesis-dependent tumor growth.     

ZmFBL41 Chang7-2: 玉米抗纹枯病的关键利器

由真菌Rhizoctonia solani引起的纹枯病严重危害玉米(Zea mays)和水稻(Oryza sativa)等作物的安全生产。R. solani的宿主范围广且抗源少, 加之相关的抗性机制研究有限, 导致纹枯病的危害长期得不到有效控制。近期, 中国科学家通过对318份玉米自交系进行全基因组关联分析, 筛选到1个与纹枯病抗性相关的、编码F-box结构域蛋白的候选基因ZmFBL41 (GRMZM2G109140)。ZmFBL41蛋白是SCF (SKP1-Cullin-F-box) E3泛素连接酶复合体的一员, 能介导复合体对肉桂醇脱氢酶ZmCAD的降解, 从而降低木质素的积累, 使玉米易感纹枯病。玉米抗病自交系Chang7-2中, 蛋白ZmFBL41 ^Chang7-2因2个关键氨基酸的变异, 不能结合并降解底物ZmCAD, 使木质素含量增加, 从而提高玉米对纹枯病的抗性。该研究率先揭示了SCF复合体可通过降解肉桂醇脱氢酶来调控植物免疫反应的新型分子机制, 为提高玉米及其它作物对纹枯病的抗性提供了重要理论依据和基因资源。     

Rice XB15, a protein phosphatase 2C, negatively regulates cell death and XA21-mediated innate immunity

Perception of extracellular signals by cell surface receptors is of central importance to eukaryotic development and immunity. Kinases that are associated with the receptors or are part of the receptors themselves modulate signaling through phosphorylation events. The rice (Oryza sativa L.) XA21 receptor kinase is a key recognition and signaling determinant in the innate immune response. A yeast two-hybrid screen using the intracellular portion of XA21, including the juxtamembrane (JM) and kinase domain as bait, identified a protein phosphatase 2C (PP2C), called XA21 binding protein 15 (XB15). The interaction of XA21 and XB15 was confirmed in vitro and in vivo by glutathione-S-transferase (GST) pull-down and co-immunoprecipitation assays, respectively. XB15 fusion proteins purified from Escherichia coli and from transgenic rice carry PP2C activity. Autophosphorylated XA21 can be dephosphorylated by XB15 in a temporal- and dosage-dependent manner. A serine residue in the XA21 JM domain is required for XB15 binding. Xb15 mutants display a severe cell death phenotype, induction of pathogenesis-related genes, and enhanced XA21-mediated resistance. Overexpression of Xb15 in an XA21 rice line compromises resistance to the bacterial pathogen Xanthomonas oryzae pv. oryzae. These results demonstrate that Xb15 encodes a PP2C that negatively regulates the XA21-mediated innate immune response.     

Procollagen C-endopeptidase Enhancer Protein 2 (PCPE2) Reduces Atherosclerosis in Mice by Enhancing Scavenger Receptor Class B1 (SR-BI)-mediated High-density Lipoprotein (HDL)-Cholesteryl Ester Uptake

Studies in human populations have shown a significant correlation between procollagen C-endopeptidase enhancer protein 2 (PCPE2) single nucleotide polymorphisms and plasma HDL cholesterol concentrations. PCPE2, a 52-kDa glycoprotein located in the extracellular matrix, enhances the cleavage of C-terminal procollagen by bone morphogenetic protein 1 (BMP1). Our studies here focused on investigating the basis for the elevated concentration of enlarged plasma HDL in PCPE2-deficient mice to determine whether they protected against diet-induced atherosclerosis. PCPE2-deficient mice were crossed with LDL receptor-deficient mice to obtain LDLr^−/−, PCPE2^−/− mice, which had elevated HDL levels compared with LDLr^−/− mice with similar LDL concentrations. We found that LDLr^−/−, PCPE2^−/− mice had significantly more neutral lipid and CD68+ infiltration in the aortic root than LDLr^−/− mice. Surprisingly, in light of their elevated HDL levels, the extent of aortic lipid deposition in LDLr^−/−, PCPE2^−/− mice was similar to that reported for LDLr^−/−, apoA-I^−/− mice, which lack any apoA-I/HDL. Furthermore, LDLr^−/−, PCPE2^−/− mice had reduced HDL apoA-I fractional clearance and macrophage to fecal reverse cholesterol transport rates compared with LDLr^−/− mice, despite a 2-fold increase in liver SR-BI expression. PCPE2 was shown to enhance SR-BI function by increasing the rate of HDL-associated cholesteryl ester uptake, possibly by optimizing SR-BI localization and/or conformation. We conclude that PCPE2 is atheroprotective and an important component of the reverse cholesterol transport HDL system.     

Myeloid cell-specific ABCA1 deletion does not worsen insulin resistance in HF diet-induced or genetically obese mouse models

Obesity-associated low-grade chronic inflammation plays an important role in the development of insulin resistance. The membrane lipid transporter ATP-binding cassette transporter A1 (ABCA1) promotes formation of nascent HDL particles. ABCA1 also dampens macrophage inflammation by reducing cellular membrane cholesterol and lipid raft content. We tested the hypothesis that myeloid-specific ABCA1 deletion may exacerbate insulin resistance by increasing the obesity-associated chronic low-grade inflammation. Myeloid cell-specific ABCA1 knockout (MSKO) and wild-type (WT) mice developed obesity, insulin resistance, mild hypercholesterolemia, and hepatic steatosis to a similar extent with a 45% high-fat (HF) diet feeding or after crossing into the ob/ob background. Resident peritoneal macrophages and stromal vascular cells from obese MSKO mice accumulated significantly more cholesterol. Relative to chow, HF diet markedly induced macrophage infiltration and inflammatory cytokine expression to a similar extent in adipose tissue of WT and MSKO mice. Among pro-inflammatory cytokines examined, only IL-6 was highly upregulated in MSKO-ob/ob versus ob/ob mouse peritoneal macrophages, indicating a nonsignificant effect of myeloid ABCA1 deficiency on obesity-associated chronic inflammation. In conclusion, myeloid-specific ABCA1 deficiency does not exacerbate obesity-associated low-grade chronic inflammation and has minimal impact on the pathogenesis of insulin resistance in both HF diet-induced and genetically obese mouse models.     

Rocaglamide promotes the infiltration and antitumor immunity of NK cells by activating cGAS-STING signaling in non-small cell lung cancer

Background: Natural killer (NK) cell-based immunotherapy is clinically limited due to insufficient tumor infiltration in solid tumors. We have previously found that the natural product rocaglamide (RocA) can enhance NK cell-mediated killing of non-small cell lung cancer (NSCLC) cells by inhibiting autophagy, and autophagic inhibition has been shown to increase NK cell tumor infiltration in melanoma. Therefore, we hypothesized that RocA could increase NK cell infiltration in NSCLC by autophagy inhibition.Methods: Flow cytometry, RNA-sequencing, real-time PCR, Western blotting analysis, and xenograft tumor model were utilized to assess the infiltration of NK cells and the underlying mechanism.Results: RocA significantly increased the infiltration of NK cells and the expressions of CCL5 and CXCL10 in NSCLC cells, which could not be reversed by the inhibitions of autophagy/ULK1, JNK and NF-κB. However, such up-regulation could be suppressed by the inhibitions of TKB1 and STING. Furthermore, RocA dramatically activated the cGAS (cyclic GMP-AMP synthase)-STING (stimulator of interferon genes) signaling pathway, and the inhibition/depletion of STING ablated the up-regulation of CCL5 and CXCL10, NK cell infiltration, and tumor regression induced by RocA. Besides, RocA damaged mitochondrial DNA (mtDNA) and promoted the cytoplasmic release of mtDNA. The mPTP inhibitor cyclosporin A could reverse RocA-induced cytoplasmic release of mtDNA.Conclusions: RocA could promote NK cell infiltration by activating cGAS-STING signaling via targeting mtDNA, but not by inhibiting autophagy. Taken together, our current findings suggested that RocA was a potent cGAS-STING agonist and had a promising potential in cancer immunotherapy, especially in NK cell-based immunotherapy.     

不同温度处理对珠芽魔芋球茎休眠调控的影响

为探究不同温度处理对珠芽魔芋球茎休眠调控的影响,以珠芽魔芋叶面球茎为材料,在球茎休眠期设置昼/夜变温（24℃/9℃、24℃/13℃、24℃/17℃）、恒温（9℃、13℃、17℃、21℃）及室温处理,萌发期设置26℃、33℃催芽处理,分析不同温度处理后珠芽魔芋球茎在休眠 Ⅰ 期、休眠 Ⅱ 期以及萌发前期、中期、后期、末期的生物表型变化、内源生理变化规律及其休眠调控相关基因的变化情况。结果表明：（1）休眠期恒温处理有利于提高珠芽魔芋球茎的出芽比,其中13℃恒温打破休眠和萌发期33℃催芽处理球茎的发芽率最先达到峰值,且其出芽比最高。（2）休眠Ⅱ期的球茎淀粉含量低于休眠Ⅰ期,而其可溶性糖含量高于休眠Ⅰ期,13℃恒温处理球茎淀粉含量下降最快,其可溶性糖含量最高;前期恒温处理球茎淀粉、可溶性糖含量在萌发前期和萌发后期之间均存在显著性差异（P＜0.05）,而前期昼夜变温处理球茎仅可溶性糖含量在萌发前期和萌发后期之间存在显著性差异（P＜0.05）。（3）珠芽魔芋球茎ABA含量在休眠 Ⅰ 期和休眠 Ⅱ 期逐渐增多,而其GA3含量逐渐减少,萌发期珠芽魔芋球茎ABA含量呈现“先升后降”的规律,26℃催芽处理的珠芽魔芋球茎GA3含量呈现“先升后降”的规律,33℃催芽处理的珠芽魔芋球茎GA3含量整体呈上升的趋势。（4）珠芽魔芋NCED基因表达量随着休眠程度的加深逐渐增加,而在萌发期逐渐减少,CYP707A基因表达量随着休眠的加深逐渐减少,而在萌发期表达量增加。研究发现,珠芽魔芋打破休眠的最佳温度为恒温13℃,促进萌发的最佳温度为33℃;随着珠芽魔芋打破休眠,球茎中的淀粉含量降低,可溶性糖含量升高;ABA含量“先升后降”,GA3含量“先降后升”;NCED和CYP707A基因可能是珠芽魔芋休眠调控中的关键基因。     

Cloning of a dibutyl phthalate hydrolase gene from Acinetobacter sp. strain M673 and functional analysis of its expression product in Escherichia coli

A dibutyl phthalate (DBP) transforming bacterium, strain M673, was isolated and identified as Acinetobacter sp. This strain could not grow on dialkyl phthalates, including dimethyl, diethyl, dipropyl, dibutyl, dipentyl, dihexyl, di(2-ethylhexyl), di-n-octyl, and dinonyl phthalate, but suspensions of cells could transform these compounds to phthalate via corresponding monoalkyl phthalates. During growth in Luria–Bertani medium, M673 produced the high amounts of non-DBP-induced intracellular hydrolase in the stationary phase. One DBP hydrolase gene containing an open reading frame of 1,095 bp was screened from a genomic library, and its expression product hydrolyzed various dialkyl phthalates to the corresponding monoalkyl phthalates.     

Characterization of Two Mammalian Cortical Collecting Duct Cell Lines with Hopping Probe Ion Conductance Microscopy

We morphologically and physiologically characterized Madin–Darby canine kidney (MDCK) cell and mouse principal cell of kidney in cortical collecting duct (mpkCCD) via hopping probe ion conductance microscopy, transepithelial electrical resistance (TEER) measurements, and single-channel recordings. The specific membrane structures of microvilli and tight junctions were clearly observed in MDCK and mpkCCD cell monolayers. The electrophysiological functions of epithelial Na⁺ channel in MDCK and mpkCCD cells were further characterized by measuring amiloride-sensitive TEER values for the whole-cell monolayer and detecting the ion channel activities with patch clamping. Our results provide more morphological and functional information to help better utilize these two mammalian CCD cell lines for mechanism studies of sodium absorption and reabsorption in the distal nephron.