代谢、血液碱化和纯氧影响呼吸调控的人体实验研究III： 血液碱化后纯氧运动试验*

目的: 在急性血液碱化前、后空气吸入下完成症状限制性最大极限心肺运动试验(CPET)的基础上,本文探讨在血液碱化后吸入纯氧对呼吸调控的影响。方法: 正常志愿者5名在碱化血液后呼吸纯氧CPET,在静息、热身、运动及恢复期,连续测定肺通换气指标及每分钟动脉取样的血气指标,对CPET期间的呼吸气体交换和血气指标的动态变化进行分析,同时与急性碱化血液前、后空气CPET数据比较。结果: 碱化血液后吸入纯氧运动呼吸反应与急性碱化血液前、后空气CPET呼吸反应基本一致。CPET期间,各运动状态下的每分通气量均与对照组相似(P>0.05);仅静息每分通气量较血液碱化空气CPET略高(P<0.05),而其它状态和恢复2min时均相近(P>0.05)。潮气量仅峰值运动时较对照和血液碱化空气CPET略低(P<0.05);而运动过程和恢复2min时的潮气量均相近(P>0.05)。呼吸频率在各个时间与血液碱化前后CPET均无差异(P>0.05)。在碱化血液后吸入纯氧运动各个时期的PaO₂和SaO₂较碱化血液前后空气CPET时明显提高(P<0.001,P<0.05)。血红蛋白浓度虽然较急性血液碱化前后均低,但仅较血液碱化前显著降低(P<0.05),比血液碱化后差异不显著(P>0.05) ; 开始时的PaCO₂较碱化血液前后空气CPET时降低(P<0.05),无氧阈时相近(P>0.05),但到峰值及恢复2 min时明显增高(P<0.05);pH仅较对照增高(P<0.05),但与碱化血液空气试验时无差异;乳酸水平较对照略高,但仅在热身和恢复期有差异(P<0.05)。纯氧提高了两人无氧阈和三人峰值运动的功率和时间。结论: 虽然血液碱化给予纯氧, CPET呼吸反应与碱化血液前、后空气CPET呼吸反应模式相似,表明运动中呼吸反应主要取决于代谢变化,而非动脉血气平均值高低。     

Alisol A attenuates high‐fat‐diet‐induced obesity and metabolic disorders via the AMPK/ACC/SREBP‐1c pathway

Obesity and its associated metabolic disorders such as diabetes, hepatic steatosis and chronic heart diseases are affecting billions of individuals. However there is no satisfactory drug to treat such diseases. In this study, we found that alisol A, a major active triterpene isolated from the Chinese traditional medicine Rhizoma Alismatis, could significantly attenuate high‐fat‐diet‐induced obesity. Our biochemical detection demonstrated that alisol A remarkably decreased lipid levels, alleviated glucose metabolism disorders and insulin resistance in high‐fat‐diet‐induced obese mice. We also found that alisol A reduced hepatic steatosis and improved liver function in the obese mice model.In addition, protein expression investigation revealed that alisol A had an active effect on AMPK/ACC/SREBP‐1c pathway. As suggested by the molecular docking study, such bioactivity of alisol A may result from its selective binding to the catalytic region of AMPK.Therefore, we believe that Alisol A could serve as a promising agent for treatment of obesity and its related metabolic diseases.     

Characterization of zebrafish mutants with defects in bone calcification during development

Using the fluorescent dyes calcein and alcian blue, we stained the F3 generation of chemically (ENU) mutagenized zebrafish embryos and larvae, and screened for mutants with defects in bone development. We identified a mutant line, bone calcification slow (bcs), which showed delayed axial vertebra calcification during development. Before 4–5 days post-fertilization (dpf), the bcs embryos did not display obvious abnormalities in bone development (i.e., normal number, size and shape of cartilage and vertebrae). At 5–6 dpf, when vertebrae calcification starts, bcs embryos began to show defects. At 7 dpf, for example, in most of the bcs embryos examined, calcein staining revealed no signals of vertebrae mineralization, whereas during the same developmental stages, 2–14 mineralized vertebrae were observed in wild-type animals. Decreases in the number of calcified vertebrae were also observed in bcs mutants when examined at 9 and 11 dpf, respectively. Interestingly, by 13 dpf the defects in bcs mutants were no longer evident. There were no significant differences in the number of calcified vertebrae between wild-type and mutant animals. We examined the expression of bone development marker genes (e.g., Sox9b, Bmp2b, and Cyp26b1, which play important roles in bone formation and calcification). In mutant fish, we observed slight increases in Sox9b expression, no alterations in Bmp2b expression, but significant increases in Cyp26b1 expression. Together, the data suggest that bcs delays axial skeletal calcification, but does not affect bone formation and maturation.     

Penicacids A-C, three new mycophenolic acid derivatives and immunosuppressive activities from the marine-derived fungus Penicillium sp. SOF07

Three new mycophenolic acid derivatives, penicacids A-C (1-3), together with two known analogues, mycophenolic acid (MPA, 4) and 4'-hydroxy-MPA (5), were isolated from a fungus Penicillium sp. SOF07 derived from a South China Sea marine sediment. The structures of compounds 1-3 were elucidated on the basis of MS and NMR ((1)H, (13)C, HSQC and HMBC) data analyses and comparisons with the known compounds. Structure-activity relationship studies of compounds 1-5 focused on inosine-monophosphate dehydrogenase inhibition revealed that hydroxylation at C-4', methylation at C-7-OH, dual hydroxylation at C-2'/C-3' double bond of MPA diminished bioactivity whereas glucosyl hydroxylation at C-4' correlated to bioactivity comparable to that observed for MPA.     

Lack of enhanced spinal regeneration in Nogo-deficient mice

The failure of regeneration of severed axons in the adult mammalian central nervous system is thought to be due partly to the presence of endogenous inhibitors of axon regeneration. The nogo gene encodes three proteins (Nogo-A, -B, and -C) that have been proposed to contribute to this inhibition. To determine whether deletion of nogo enhances regenerative ability, we generated two lines of mutant mice, one lacking Nogo-A and -B but not -C (Nogo-A/B mutant), and one deficient in all three isoforms (Nogo-A/B/C mutant). Although Nogo-A/B-deficient myelin has reduced inhibitory activity in a neurite outgrowth assay in vitro, tracing of corticospinal tract fibers after dorsal hemisection of the spinal cord did not reveal an obvious increase in regeneration or sprouting of these fibers in either mouse line, suggesting that elimination of Nogo alone is not sufficient to induce extensive axon regeneration.     

Apigenin enhances the cytotoxic effects of tumor necrosis factor-related apoptosis-inducing ligand in human rheumatoid arthritis fibroblast-like synoviocytes

Activated rheumatoid arthritis (RA) fibroblast-like synoviocytes (RAFLSs) play a central role in both initiating and driving RA. Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) has been documented to induce apoptosis only in a small proportion of RAFLSs, which is followed by an induction of proliferation in surviving cells. Apigenin, a chemopreventive bioflavonoid, exhibits proapoptotic activity in many types of cells. In the present study, we sought to determine whether apigenin could enhance the cytotoxic effect of TRAIL on activated RAFLSs. Human RAFLSs isolated from patients with RA were treated with TRAIL (1 nM), apigenin (20 μM), or their combination, and subjected to apoptosis analysis after a 24-h incubation and proliferation analysis after a 72-h incubation. Apoptosis assay revealed that TRAIL or apigenin alone induced a marked apoptosis in RAFLS and their combination yielded a synergistic increase in RAFLS apoptosis. Immunoblotting analysis of apoptosis regulators demonstrated that combined treatment with apigenin increased caspase-3 expression and activity and decreased the Bcl-2/Bax ratio relative to treatment with TRAIL alone. The presence of apigenin significantly restrained TRAIL-induced RAFLS proliferation, coupled with restoration of the expression of two cell-cycle inhibitors p21 and p27. Moreover, the combination with apigenin blunted TRAIL-induced activation of the phosphatidylinositol 3-kinase (PI3-K)/Akt pathway. Our data collectively demonstrate that apigenin sensitizes RAFLS to TRAIL-induced apoptosis and counteracts TRAIL-dependent RAFLS proliferation, which is likely mediated through inactivation of PI3-K/Akt signaling pathway.     

The effect of cerium (III) on the chlorophyll formation in spinach

The effect of Ce³⁺ on the chlorophyll (chl) of spinach was studied in pot culture experiments. The results showed that Ce³⁺ could obviously stimulate the growth of spinach and increase its chlorophyll contents and photosynthetic rate. It could also improve the PSII formation and enhance its electron transport rate of PSII as well. By inductively coupled plasma-mass spectroscopy and atom absorption spectroscopy methods, it was revealed that the rare-earth-element (REE) distribution pattern in the Ce³⁺-treated spinach was leaf>root>shoot in Ce³⁺ contents. The spinach leaves easily absorbed REEs. The Ce³⁺ contents of chloroplast and chlorophyll of the Ce³⁺-treated spinach were higher than that of any other rare earth and were much higher than that of the control; it was also suggested that Ce³⁺ could enter the chloroplast and bind easily to chlorophyll and might replace magnesium to form Ce-chlorophyll. By ultraviolet-visible, Fourier transform infrared, and extended X-ray absorption fine structure (EXAFS) methods, Ce³⁺-coordinated nitrogen of porphyrin rings with eight coordination numbers and average length of the Ce-N bond of 0.251 nm.     

亚洲玉米螟发育速率与温度关系研究

利用１０￣３４℃的９个恒温对亚洲玉米螟Ｏｓｔｒｉｎｉａ ｆｕｒｎａｃａｌｉｓ（Ｇｕｅｎｅｅ）发育与温度的关系进行了研究。亚洲玉米晕除了在１０℃不能发育以外,在其８种恒温中均可发育,但其死亡率在１２０℃和３４℃中较高。从产卵成到虫羽化,卵期占整个发育过程中１７％,幼虫期占５７％,蛹期占２５％。最低发育起点温度卵期为１０．３８℃,幼虫期为１０．０６℃,蛹期为１１．０７℃。高温限制温度卵期为２８．００℃     

Construction of a high density integrated genetic map for cucumber (Cucumis sativus L.)

The high-density consensus map was constructed based on the GY14 × PI 183967 map from an inter-subspecific cross and the extended S94 × S06 map from an intra-subspecific cross. The consensus map was composed of 1,369 loci, including 1,152 SSR loci, 192 SRAP loci, 21 SCAR loci and one STS locus as well as three gene loci of fruit external quality traits in seven chromosomes, and spanned 700.5 cM, of which 682.7 cM (97.5%) were covered by SSR markers. The average genetic distance and physical interval between loci were 0.51 cM and ~268 kbp, respectively. Additionally, the physical position of the sequence-associated markers aligned along the assembled cucumber genome sequence established a relationship between genetic maps and cucumber genome sequence and to a great extent validated the order of markers in individual maps and consensus map. This consensus map with a high marker density and well-ordered markers is a saturated and reliable linkage map for genetic analysis of cucumber or the Cucurbitaceae family of plants.