Effects of raising muscle glycogen synthesis rate on skeletal muscle ATP turnover rate in type 2 diabetes

Mitochondrial dysfunction has been implicated in the pathogenesis of type 2 diabetes. We hypothesized that any impairment in insulin-stimulated muscle ATP production could merely reflect the lower rates of muscle glucose uptake and glycogen synthesis, rather than cause it. If this is correct, muscle ATP turnover rates in type 2 diabetes could be increased if glycogen synthesis rates were normalized by the mass-action effect of hyperglycemia. Isoglycemic- and hyperglycemic-hyperinsulinemic clamps were performed on type 2 diabetic subjects and matched controls, with muscle ATP turnover and glycogen synthesis rates measured using (31)P- and (13)C-magnetic resonance spectroscopy, respectively. In diabetic subjects, hyperglycemia increased muscle glycogen synthesis rates to the level observed in controls at isoglycemia [from 19 ± 9 to 41 ± 12 μmol·l(-1)·min(-1) (P = 0.012) vs. 40 ± 7 μmol·l(-1)·min(-1) in controls]. This was accompanied by a modest increase in muscle ATP turnover rates (7.1 ± 0.5 vs. 8.6 ± 0.7 μmol·l(-1)·min(-1), P = 0.04). In controls, hyperglycemia brought about a 2.5-fold increase in glycogen synthesis rates (100 ± 24 vs. 40 ± 7 μmol·l(-1)·min(-1), P = 0.028) and a 23% increase in ATP turnover rates (8.1 ± 0.9 vs. 10.0 ± 0.9 μmol·l(-1)·min(-1), P = 0.025) from basal state. Muscle ATP turnover rates correlated positively with glycogen synthesis rates (r(s) = 0.46, P = 0.005). Changing the rate of muscle glucose metabolism in type 2 diabetic subjects alters demand for ATP synthesis at rest. In type 2 diabetes, skeletal muscle ATP turnover rates reflect the rate of glucose uptake and glycogen synthesis, rather than any primary mitochondrial defect.     

An amino acid mixture improves glucose tolerance and insulin signaling in Sprague-Dawley rats

The aims of this investigation were to evaluate the effect of an amino acid supplement on the glucose response to an oral glucose challenge (experiment 1) and to evaluate whether differences in blood glucose response were associated with increased skeletal muscle glucose uptake (experimental 2). Experiment 1 rats were gavaged with either glucose (CHO), glucose plus an amino acid mixture (CHO-AA-1), glucose plus an amino acid mixture with increased leucine concentration (CHO-AA-2), or water (PLA). CHO-AA-1 and CHO-AA-2 had reduced blood glucose responses compared with CHO, with no difference in insulin among these treatments. Experiment 2 rats were gavaged with either CHO or CHO-AA-1. Fifteen minutes after gavage, a bolus containing 2-[(3)H]deoxyglucose and [U-(14)C]mannitol was infused via a tail vein. Blood glucose was significantly lower in CHO-AA-1 than in CHO, whereas insulin responses were similar. Muscle glucose uptake was higher in CHO-AA-1 compared with CHO in both fast-twitch red (8.36 ± 1.3 vs. 5.27 ± 0.7 μmol·g(-1)·h(-1)) and white muscle (1.85 ± 0.3 vs. 1.11 ± 0.2 μmol·g(-1)·h(-1)). There was no difference in Akt/PKB phosphorylation between treatment groups; however, the amino acid treatment resulted in increased AS160 phosphorylation in both muscle fiber types. Glycogen synthase phosphorylation was reduced in fast-twitch red muscle of CHO-AA-1 compared with CHO, whereas mTOR phosphorylation was increased. These differences were not noted in fast-twitch white muscle. These findings suggest that amino acid supplementation can improve glucose tolerance by increasing skeletal muscle glucose uptake and intracellular disposal through enhanced intracellular signaling.     

A protocol of intermittent exercise (shuttle runs) to train young basketball players

The purpose of this study was to set up a protocol of intermittent exercise to train young basketball players. Twenty-one players were asked to complete (a) an incremental test to determine maximal oxygen uptake (VO2max), the speed at the ventilatory threshold (vthr) and the energy cost of "linear" running (Cr) and (b) an intermittent test composed of 10 shuttle runs of 10-second duration and 30-seconds of recovery (total duration: about 6 minutes). The exercise intensity (the running speed, vi) was set at 130% of vthr. During the intermittent tests, oxygen uptake (VO2) and blood lactate concentration (Lab) were measured. The average pretraining VO2 calculated for a single bout (131 ± 9 ml · min(-1) kg(-1)) was about 2.4 times greater than the subjects' measured VO2max (54.7 ± 4.6 ml · min(-1) · kg(-1)). The net energy cost of running (9.2 ± 0.9 J · m(-1) · kg(-1)) was about 2.4 times higher than that measured at constant "linear" speed (3.9 ± 0.3 J · m(-1) · kg(-1)). The intermittent test was repeated after 7 weeks of training: 9 subjects (control group [CG]) maintained their traditional training schedule, whereas for 12 subjects (experimental group [EG]) part of the training was replaced by intermittent exercise (the same shuttle test as described above). After training, the VO2 measured during the intermittent test was significantly reduced (p < 0.05) in both groups (-10.9% in EG and - 4.6 in CG %), whereas Lab decreased significantly only for EG (-31.5%). These data suggest that this training protocol is effective in reducing lactate accumulation in young basketball players.     

沟灌水氮耦合对毛白杨林木生长及水氮吸收利用的影响

为探索沟灌水氮耦合对幼年生毛白杨林木生长及水氮吸收利用的影响,以4年生砂地三倍体毛白杨为对象,研究3个灌溉水平(W₂₀、W₃₃、W₄₅,即沟渠正下方40 cm土壤水势分别达到-20、-33和-45 kPa时灌溉),4个施N水平(N₁₂₀、N₁₉₀、N₂₆₀、N₀,即施肥量为120、190、260和0 kg·hm^-2·a^-1)和自然条件(对照,CK)下幼年生毛白杨林木生长和水氮吸收利用规律,并结合林木生长状况,分析4年生三倍体毛白杨的最佳沟灌水氮耦合策略。结果表明:W₂₀N₁₂₀(高水低肥;土壤水势-20 kPa,施N量120 kg·hm^-2·a^-1)处理对三倍体毛白杨的林地生产力提升最为显著,其林地生产力最高可达33.37 m³·hm^-2·a^-1,仅有树高和总株生物量受到水氮耦合交互作用的显著影响。增加灌溉量或施N量都会提高林木吸氮量,但吸氮量主要受施N量影响;W₂₀N₂₆₀处理总株吸氮量最高,达112.17 kg·hm^-2·a^-1,较CK增加74.0%。各处理中,W₂₀N₁₂₀氮吸收效率和氮肥偏生产力最高,且显著高于其他处理,其总株、地上部、地下部氮吸收效率可达36.8%、28.5%、6.4%,总株氮肥偏生产力可达221.4 kg·kg^-1。不同水氮耦合处理灌水量对灌溉水的利用效率影响显著,其中,W₄₅N₂₆₀灌溉水利用效率最高,达13.66 g·kg^-1;而W₂₀N₁₂₀吸水量和水吸收效率最高,分别为13268.28 t·hm^-2和129.4%。为达到较大的收益,在三倍体毛白杨的幼年生长期间,应保持充足的水分灌溉(-20 kPa)和相对偏低的施氮量(120 kg·hm^-2·a^-1)促进幼年生毛白杨的生长发育。     

Prolonged infusion of amino acids increases leucine oxidation in fetal sheep

Maternal high-protein supplements designed to increase birth weight have not been successful. We recently showed that maternal amino acid infusion into pregnant sheep resulted in competitive inhibition of amino acid transport across the placenta and did not increase fetal protein accretion rates. To bypass placental transport, singleton fetal sheep were intravenously infused with an amino acid mixture (AA, n = 8) or saline [control (Con), n = 10] for ～12 days during late gestation. Fetal leucine oxidation rate increased in the AA group (3.1 ± 0.5 vs. 1.4 ± 0.6 μmol·min(-1)·kg(-1), P < 0.05). Fetal protein accretion (2.6 ± 0.5 and 2.2 ± 0.6 μmol·min(-1)·kg(-1) in AA and Con, respectively), synthesis (6.2 ± 0.8 and 7.0 ± 0.9 μmol·min(-1)·kg(-1) in AA and Con, respectively), and degradation (3.6 ± 0.6 and 4.5 ± 1.0 μmol·min(-1)·kg(-1) in AA and Con, respectively) rates were similar between groups. Net fetal glucose uptake decreased in the AA group (2.8 ± 0.4 vs. 3.9 ± 0.1 mg·kg(-1)·min(-1), P < 0.05). The glucose-O(2) quotient also decreased over time in the AA group (P < 0.05). Fetal insulin and IGF-I concentrations did not change. Fetal glucagon increased in the AA group (119 ± 24 vs. 59 ± 9 pg/ml, P < 0.05), and norepinephrine (NE) also tended to increase in the AA group (785 ± 181 vs. 419 ± 76 pg/ml, P = 0.06). Net fetal glucose uptake rates were inversely proportional to fetal glucagon (r(2) = 0.38, P < 0.05), cortisol (r(2) = 0.31, P < 0.05), and NE (r(2) = 0.59, P < 0.05) concentrations. Expressions of components in the mammalian target of rapamycin signaling pathway in fetal skeletal muscle were similar between groups. In summary, prolonged infusion of amino acids directly into normally growing fetal sheep increased leucine oxidation. Amino acid-stimulated increases in fetal glucagon, cortisol, and NE may contribute to a shift in substrate oxidation by the fetus from glucose to amino acids.     

Does the presence of a seawater gill morphology induced by dietary salt loading affect Cl(-) uptake and acid-base regulation in freshwater rainbow trout Oncorhynchus mykiss

The goal of this study was to determine the effect of the changes in gill morphology induced by dietary salt feeding on several aspects of gill function in rainbow trout Oncorhynchus mykiss maintained in fresh water with specific emphasis on Cl(-) uptake (J(IN)Cl(-)) and acid-base regulation. The addition of 11% NaCl to the diet caused J(IN)Cl(-) to be reduced by c. 45% from 214·4 ± 26·7 to 117·3 ± 17·4 μmol kg(-1) h(-1) (mean ± s.e.). Rates of Cl(-) efflux (J(OUT)Cl(-)), net Cl(-) flux (J(NET)Cl(-)), J(NET) Na(+) and plasma levels of Na(+) or Cl(-) were unaffected by salt feeding. On the basis of significant effect of the salt diet on decreasing the maximal uptake rate of Cl(-)(J(MAX)Cl(-)), it would appear that internal salt loading caused a decrease in the number of functional ion transport proteins involved in Cl(-) uptake (e.g. Cl(-) -HCO(3)(-) exchangers) and decreased the transporting capacity of existing proteins. The acid-base regulating capacity of control fish and salt-loaded fish was assessed by monitoring arterial blood acid-base status [partial pressure of CO(2) (PCO(2)), pH and HCO(3)(-)] during exposure to external hypercapnia (nominally 7·5 mm Hg). Both groups of fish exhibited typical compensatory responses to sustained hypercapnia consisting of the gradual accumulation of plasma HCO(3) (-) and thus metabolic restoration within 24 h of the initial respiratory acidosis elicited by hypercapnia. Overall, the results demonstrate that while Cl(-) uptake capacity is reduced in salt-fed fish, there is no associated alteration in acid-base regulating capability.     

减量施氮对渭北旱地春玉米产量、氮素利用及土壤硝态氮含量的影响

为确定渭北旱地春玉米减肥增效的科学生产模式,于2016—2019年在陕西合阳县实施旱地春玉米田间定位施肥试验。以郑单958和陕单8806为试验品种,设置5个施氮量处理,分别为360(N₃₆₀,当地农户常规施氮量)、270(N₂₇₀)、150～180(N_150-180)、75～90(N_75-90)和0 kg·hm^-2 (N₀),分析减量施氮处理下春玉米产量、氮素吸收利用及硝态氮残留状况。结果表明: 1)与N₃₆₀处理相比,两个品种在N_150-180处理下籽粒产量增加0.9%～7.1%,吸氮量降低4.1%～4.6%,平均氮肥回收利用率、偏生产力和农学效率分别提高79.3%～83.6%、105.9%～157.7%和101.9%～114.1%;2)在高施氮量(大于180 kg·hm^-2)处理下,硝态氮残留量显著增加;降雨不足显著降低玉米需氮量,导致氮素残留量增加。经过4年定位试验0～200 cm土层硝态氮含量高达504.7～620.8 kg·hm^-2,在80～140 cm土层出现累积峰,存在硝态氮淋失风险。根据年际间玉米籽粒产量表现、肥料利用效率和硝态氮残留状况综合评价,渭北旱地春玉米田适宜氮肥用量为150～180 kg N·hm^-2。     

cGMP phosphodiesterase inhibition improves the vascular and metabolic actions of insulin in skeletal muscle

There is considerable support for the concept that insulin-mediated increases in microvascular blood flow to muscle impact significantly on muscle glucose uptake. Since the microvascular blood flow increases with insulin have been shown to be nitric oxide-dependent inhibition of cGMP-degrading phosphodiesterases (cGMP PDEs) is predicted to enhance insulin-mediated increases in microvascular perfusion and muscle glucose uptake. Therefore, we studied the effects of the pan-cGMP PDE inhibitor zaprinast on the metabolic and vascular actions of insulin in muscle. Hyperinsulinemic euglycemic clamps (3 mU·min(-1)·kg(-1)) were performed in anesthetized rats and changes in microvascular blood flow assessed from rates of 1-methylxanthine metabolism across the muscle bed by capillary xanthine oxidase in response to insulin and zaprinast. We also characterized cGMP PDE isoform expression in muscle by real-time PCR and immunostaining of frozen muscle sections. Zaprinast enhanced insulin-mediated microvascular perfusion by 29% and muscle glucose uptake by 89%, while whole body glucose infusion rate during insulin infusion was increased by 33% at 2 h. PDE2, -9, and -10 were the major isoforms expressed at the mRNA level in muscle, while PDE1B, -9A, -10A, and -11A proteins were expressed in blood vessels. Acute administration of the cGMP PDE inhibitor zaprinast enhances muscle microvascular blood flow and glucose uptake response to insulin. The expression of a number of cGMP PDE isoforms in skeletal muscle suggests that targeting specific cGMP PDE isoforms may provide a promising avenue for development of a novel class of therapeutics for enhancing muscle insulin sensitivity.     

Isolation and characterization of heavy-metal-mobilizing bacteria from contaminated soils and their potential in promoting Pb, Cu, and Cd accumulation by Coprinus comatus

The enhanced effect of heavy-metal-mobilizing bacteria on the uptake of Pb, Cu, and Cd by Coprinus comatus from Pb-, Cu-, and Cd-multicontaminated soil was assessed in this study. Thirteen strains, tolerating 800?mg·L(-1) Pb, 200?mg·L(-1) Cu, and 200?mg·L(-1) Cd simultaneously were selected for heavy-metal-solubilizing experiments in soil. The mobilization of heavy metals depended on the characteristics of bacteria and heavy metals. Correlation analysis demonstrated that for Pb solubilization, the acid-producing ability was the most significant factor, while for Cu and Cd, siderophores played a leading role in this process. Four strains, based on their excellent ability to solubilize heavy metal in soil, were applied in pot experiments. The results showed that all strains can promote the growth of C. comatus and meanwhile help mushroom accumulate more heavy metals (Pb, Cd, and Cu). The maximum uptake for total Pb and Cu by C. comatus was observed in inoculations with Bacillus sp. strain JSG1 (2.02- and 2.13-fold, respectively, compared with uninoculated soil), while for Cd, it was recorded in Bacillus sp. strain PB2 treated soil (2.03-fold). Therefore, this work suggests that the mushroom-bacteria interaction can be developed into a novel bioremediation strategy.     

Mitochondrial and cytosolic calcium in rat hearts under high-K(+) cardioplegia and pyruvate: mechano-energetic performance

High-K(+)-cardioplegia (CPG) and pyruvate (Pyr) are used as cardioprotective agents. Considering that mitochondria play a critical role in cardiac dysfunction, we investigated the effect of CPG on mitochondrial Ca(2+) uptake and sarcorreticular (SR) calcium handling. Cytosolic and mitochondrial Ca(2+), as well as mitochondrial membrane potential (ΔΨm) were assessed in rat cardiomyocytes by confocal microscopy. Mechano-calorimetrical correlation was studied in perfused hearts. CPG did not modify JC-1 (ΔΨm), but transiently increased, by up to 1.8 times, the Fura-2 (intracellular Ca concentration, [Ca(2+)]i) and Rhod-2 (mitochondrial free Ca concentration [Ca(2+)]m) fluorescence of resting cells, with exponential decays. The addition of 5?μmol·L(-1) thapsigargin (Tpg) increased the Rhod-2 fluorescence in a group of cells without any effect on the Fura-2 signal. In rat hearts perfused with CPG, 1?μmol·L(-1) Tpg decreased resting heat rate (ΔH(r):?-0.44?± 0.07?mW·g(-1)), while the addition of 5?μmol·L(-1) KB-R7943 increased resting pressure (ΔrLVP by?+5.26?± 1.10?mm Hg; 1?mm Hg?= 133.322 Pa). The addition of 10?mmol·L(-1) Pyr to CPG increased H(r) (+3.30?± 0.24?mW·g(-1)) and ΔrLVP (+2.2?± 0.4?mm Hg), which are effects potentiated by KB-R7943. The results suggest that under CPG, (i) there was an increase in [Ca(2+)]i and [Ca(2+)]m (without changing ΔΨm) that decayed by exothermic removal mechanisms; (ii) mitochondrial Ca(2+) uptake contributed to the removal of cytosolic Ca(2+), in a process that was potentiated by inhibition of sarco-endoplasmic reticulum Ca(2+)-ATPase (SERCA), and reduced by KB-R7943; (iii) under these conditions, SERCA represents the main energetic consumer; (iv) Pyr increased the energetic performance of hearts,mainly by inducing mitochondrial metabolism.     

水分亏缺和施氮对冬小麦生长及氮素吸收的影响

利用管栽试验研究了不同生育期,水分亏缺和施氮对冬小麦生长及氮素吸收的影响.结果表明：任何生育期水分亏缺都会影响冬小麦的株高、叶面积、干物质累积及对氮素的吸收.冬小麦对水分亏缺的敏感期为拔节期,其次为开花期、灌浆期和苗期.苗期干旱后复水对后期生长有显著的补偿效应,开花期适度干旱后复水对生物量形成和氮素吸收有一定的补偿作用,拔节期干旱对小麦的生长影响明显.相同氮肥处理下, 与不亏水处理比较, 苗期水分亏缺、拔节期水分亏缺、开花期水分亏缺、灌浆期水分亏缺的根系氮素积累量分别平均降低25.82%、55.68%、46.14%和16.34%,地上部氮素积累量分别平均降低33.37%、51.71%、27.01%和2.60%.在相同水分处理下冬小麦含氮量、累积吸收氮量都表现为高氮处理（0.3 g N·kg^-1FM）>中氮处理（0.2 g N·kg^-1FM）>低氮处理（0.1 g N·kg^-1FM）.水分逆境条件下施用氮肥对冬小麦植株生长和干物质累积及氮吸收具有明显的调节效应.     

水培条件下四种植物对Cd、Pb富集特征

利用水培方法测定了不同浓度下向日葵、蓖麻、紫花苜蓿及芥菜的生物量和植物体内重金属Cd、Pb含量,分析了植物对重金属的富集特征。结果表明:经过5周培养后,4种植物根部与地上部对重金属的富集量随着浓度的增加而增加,Cd浓度为20mg·L-1时,向日葵的根部Cd含量最高,达到237.86mg·kg-1,地上部Cd含量为89.48mg·kg-1;而Pb浓度为200mg·L-1时,芥菜根部对Pb的吸收量较高,达到597.22mg·kg-1,地上部Pb含量最高的则出现在向日葵处理Pb100mg·L-1中,为318.33mg·kg-1。4种植物对Cd、Pb的富集系数随重金属浓度的增加而减小;根部及地上部富集系数与生物量和重金属浓度呈现出一定的相关性;另外,在Cd、Pb复合处理中,一种重金属的存在会在不同程度上影响植物对另一种重金属的吸收。通过比较4种植物根部与地上部的生物量和对Cd、Pb富集特征,认为相对于其他3种植物向日葵对Cd、Pb具有较强的吸收潜力,并可以作为Cd、Pb污染土壤植物修复的备选植物。     

Diet-induced impaired glucose tolerance and gestational diabetes in the dog

Glucose metabolism was compared in dogs consuming a chow/meat diet throughout pregnancy (P group, n = 6) and dogs switched to a high-fat/high-fructose (HFF) diet during the 4th-5th gestational week (gestation ?9 wk; P-HFF group; n = 6). An oral glucose tolerance test (OGTT; 0.9 g/kg) was administered in the 6th-7th gestational week, and a hyperinsulinemic [0-120 min: 1.8 pmol·kg(-1)·min(-1) (low insulin); 120-240 min: 9 pmol·kg(-1)·min(-1) (high insulin)] euglycemic clamp was performed the following week. Nonpregnant (NP) female dogs underwent OGTTs but not clamp studies. All P-HFF dogs exhibited impaired glucose tolerance (IGT) or gestational diabetes (GDM), but only one P dog had IGT. Insulin concentrations in P and P-HFF dogs were significantly lower than in NP dogs 30 and 60 min after the OGTT. Therefore, mean islet size and area were evaluated in P and NP dogs. These values did not differ between groups, and proliferating endocrine cells were rare in pregnancy. During exposure to high insulin, glucose infusion rate and hindlimb glucose uptake were ～30% greater (P < 0.05) and net hepatic glucose output was more suppressed (-5.5 ± 6.1 vs. 7.8 ± 2.8 mg·100 g liver(-1)·min(-1), P < 0.05) in P than in P-HFF dogs. In conclusion, in the 2nd trimester the canine pancreas does not exhibit islet hypertrophy, hyperplasia, or neogenesis. Combined with the lack of pancreatic adaptation, a HFF diet during late pregnancy produces a canine model of IGT and GDM without hyperinsulinemia but exhibiting liver and muscle insulin resistance.     

Implementing a mathematical model to compare oxygen uptake kinetics between cyclists and noncyclists during steady state

The purpose was to compare a mathematical model of oxygen uptake and bioenergetic systems to an experimental protocol. Twelve (N = 12) noncyclists (NC), age (21.8 ± 1.4 years), and 8 (N = 8) cyclists (C), age (30.5 ± 5.7 years), were subjects. All subjects signed an informed consent. Oxygen consumption (VO2, ml·kg?1·min?1) was measured with steady-state VO2 requirements and responses determined using the mathematical model from the following equation: VO2 (WR) = VO2 (rest) + VO2 (unloading pedaling) + α.WR; ΔVO2(t, WR) = ΔVO2 (WR) = [1-e[-(t-td)/tO2]. Exercise means (SD) included the following: VO2NC(WR) = 48.4 (16.6) ml?1·min?1 for NCs and VO2C(WR) = 56.4 (24.95) ml?1·min?1 for Cs ; ΔVO2C(t, WR) = 6:38 ml?1·min?1 for NCs and ΔVO2C(t, WR) = 7.44 ml?1·min?1 for Cs. The correlation between the mathematical model and actual measure was statistically significant (p < 0.01) with a coefficient of r = 0.947. The experimental protocol was significantly associated with the mathematical model. This allows for a quantitative analysis and safe prediction of steady-state oxygen uptake conditions on populations before exposure to exercising conditions. Through more precise analysis of conditions, greater specificity of training may lead to more predictable adaptation outcomes.     

华北低丘山地人工林生态系统净碳交换与气象因子的关系

植树造林使我国森林碳储量显著增加,人工林潜在的碳汇功能不容忽视.基于涡度相关技术,对华北低丘山地30年生栓皮栎-刺槐-侧柏人工混交林生态系统进行了连续2a的碳通量观测,以探讨净碳交换(NEE)与气象因子的关系.结果表明:在主要生长季(4～9月份),夜间日平均NEE(生态系统呼吸)随气温升高呈指数增长(P<0.01).2006年和2007年生态系统呼吸的温度敏感系数(Q_(10))分别为1.92和1.86.气温在10℃以下时,NEE日总量较小.气温超过10℃后,人工林以净吸收大气CO_2为主,且日吸收量随温度升高迅速增加.白天净碳吸收量随光合有效辐射(PAR)增加而增大(P<0.01),可由直角双曲线方程描述;不过,当饱和差(VPD)小于1.0 kPa时,二者呈线性相关(P<0.01).2006年和2007年主要生长季(4～9月份)的平均表观初始光能利用率(α)分别为0.032和0.019,平均最大光合速率(P_(max))分别为0.96mg · m~(-2) · s~(-1)和1.10 mg · m~(-2) · s~(-1).α和P_(max)都存在季节变化.在月尺度,P_(max)与VPD和PAR呈明显的负相关关系(分别为P<0.01和P<0.05),但与气温相关性不显著;α与对应的PAR、气温和VPD均无明显相关关系.     

The effects of two bouts of high- and low-volume resistance exercise on glucose tolerance in normoglycemic women

The purpose of the study was to determine the efficacy of a low-volume, moderate-intensity bout of resistance exercise (RE) on glucose, insulin, and C-peptide responses during an oral glucose tolerance test (OGTT) in untrained women compared with a bout of high-volume RE of the same intensity. Ten women (age 30.1 ± 9.0 years) were assessed for body composition, maximal oxygen uptake, and 1-repetition maximum (1RM) before completing 3 treatments administered in random order: 1 set of 10 REs (RE1), 3 sets of 10 REs (RE3), and no exercise (C). Twenty-four hours after completing each treatment, an OGTT was performed after an overnight fast. Glucose area under the curve response to an OGTT was reduced after both RE1 (900 ± 113 mmol·L(-1)·min(-1), p = 0.056) and RE3 (827.9 ± 116.3, p = 0.01) compared with C (960.8 ± 152.7 mmol·L(-1)·min(-1)). Additionally, fasting glucose was significantly reduced after RE3 (4.48 ± 0.45 vs. 4.90 ± 0.44 mmol·L(-1), p = 0.01). Insulin sensitivity (IS), as determined from the Cederholm IS index, was improved after RE1 (10.8%) and after RE3 (26.1%). The reductions in insulin and C-peptide areas after RE1 and RE3 were not significantly different from those in the C treatment. In conclusion, greater benefits in glucose regulation appear to occur after higher volumes of RE. However, observed reductions in glucose, insulin, C-peptide areas after RE1 suggest that individuals who may not well tolerate high-volume RE protocols may still benefit from low-volume RE at moderate intensity (65% 1RM).     

铜、镉对三种豆科植物生长及氮磷钾含量的影响

为了解豆科植物在Cu、Cd单一污染土壤中的生长状况及对土壤养分的吸收利用特点,采用盆栽实验研究了Cu~(2+)、Cd~(2+)单一污染下紫花苜蓿、红三叶、沙打旺3种豆科植物的株高、根长、生物量和叶、茎部N、P、K、Cu和Cd含量的变化情况.Cu~(2+)、Cd~(2+)处理浓度分别为:0、400、800、1200 mg·kg~(-1)和0、1、10、20 mg·kg~(-1).结果表明,3种豆科植物对Cu和Cd均有较强的吸收能力,除红三叶叶片中Cu含量外,3种豆科植物根、茎、叶中Cd和Cu的含量均与土壤中重金属添加量呈显著正相关.3种豆科植物在严重Cd~(2+)污染的土壤中均能正常生长.在Cu~(2+)添加量≤1200 mg·kg~(-1)时,红三叶能正常生长,而紫花苜蓿的生长则受到显著抑制作用,沙打旺在Cu~(2+)添加量≥800 mg·kg~(-1)时生长受到抑制.土壤Cu~(2+)添加量≤1200 mg·kg~(-1)时,能促进紫花苜蓿对N、P、K的吸收;Cu~(2+)添加量≤800 mg·kg~(-1)时,对红三叶N、P、K含量没有明显影响;Cu~(2+)添加量≤400 mg·kg~(-1)时,可提高沙打旺中N、P、K含量,但当Cu~(2+)添加量≥800 mg·kg~(-1)时则显著降低.土壤Cd~(2+)添加量≤20 mg·kg~(-1)时,对紫花苜蓿和红三叶茎叶以及沙打旺茎部的N、P、K含量有促进作用,但对沙打旺叶片的N、P、K含量起抑制作用.总体来看,3种豆科植物对Cu~(2+)和Cd~(2+)均有一定的耐性,红三叶对Cu~(2+)的耐性较好,紫花苜蓿对Cd~(2+)的耐性较好.

Abstract：

Aimed to understand the growth status and nutrient uptake of leguminous plants under soil copper-or cadmium contamination, a pot experiment with Medicago sativa, Trifolium pre-tense, and Astragalus adsurgens was conducted, with their plant height, root length, plant bio-mass, and N, P, K, Cu and Cd contents in leaf and stem measured. The application amounts of Cu~(2+) and Cd~(2+) were 0,400, 800, and 1200 mg·kg~(-1), and 0, 1, 10, and 20 mg·kg~(-1), re-spectively. All the test three leguminous plants had strong capability of absorbing Cu and Cd.The Cu and Cd contents in their roots, stems, and leaves, except the Cu content in T. Pratease leaf, were significantly positively correlated with the application amounts of Cu~(2+) and Cd~(2+). Un-der the application of Cd~(2+), all the three leguminous plants grew normally. When the application amount of Cu~(2+) was≤1200 mg·kgM-1, T. Pratense grew normally, while the growth of M. Sativa was significantly inhibited. The growth of A. Adsurgens was inhibited when the application amount of Cu~(2+) was≥800 mg·kg~(-1). An apphcation amount of≤1200 mg·kg~(-1) of Cu~(2+) pro-moted the N, P and K absorption of M. Sativa, but applying≤800 mg·kg~(-1) of Cu~(2+) had little effects on the N, P and K absorption of T. Pretense. The N, P and K contents of A. Adsurgens in-creased when the application amount of Cu~(2+) was ≤400 mg·kg~(-1), but decreased significantly when the Cu~(2+) application amount was≥800 mg·kg~(-1). When the application amount of Cd~(2+)was≤20 mg·kg~(-1) , the N, P and K contents in M. Sativa and T. Pratense stems and leaves and in A. Adsurgens stem increased, while those in A. Adsurgens leaf decreased. As a whole, the three leguminous plants all had certain tolerance to Cu~(2+) and Cd~(2+) stresses, especially T. Prat-ease to Cu~(2+) and M. Sativa to Cd~(2+).     

Specific alterations of physiological parameters in competitive race walkers

Race walking is the technical and athletic expression of fast walking and it can be considered as a type of endurance performance. The purpose of this study was to examine whether 12 weeks of a specially designed training program results in the further training enhancement of endurance performance and the related physiological parameters in already well-trained race walkers competing at the national and international level. The investigation protocol consisted of determining the maximal oxygen uptake (VO2peak) and related gas exchange values using an automated cardiopulmonary exercise system and of determining blood lactate variables (aerobic threshold - LTAer and the maximal lactate steady state - MLSS) during walking with proper technique at 8, 10, 12 and 14 km·h-1 for 4 minutes without rest in between. Thereafter, the speed on the treadmill was increased by 0.5 km·h-1 every two minutes until exhaustion to determine VO2peak. After 12 weeks of a specially designed endurance training, statistically significant increases in VO2peak (61.8±8.5 mL·kg-1·min-1 pre vs. 66.9±9.5 mL·kg-1·min-1 post training; p<0.05) and blood lactate variables (VO2-LTAer and VO2-MLSS; p<0.05) were noted. The obtained results suggest that the applied training program can improve endurance and race performance in previously well trained race walkers.     

模拟人工湿地中植物多样性对铵态氮去除的影响

为了研究植物多样性对人工湿地生态系统的氮去除功能和硝化作用的影响,在模拟人工湿地中配置了单种和4种植物混种2个处理,并以铵态氮为唯一入水氮源负荷。结果表明:混种系统出水中的无机氮浓度显著低于单种系统(分别为3.41和7.20mg·L-1,P<0.05),铵态氮浓度也显著低于单种系统(分别为1.35和4.11mg·L-1,P<0.05);而出水硝铵浓度比(NO3-∶NH4+=1.55)则高于(P<0.05)单种系统(0.80),说明多样性增强了系统的硝化作用;混种系统基质的无机氮存留量(1455mg·m-2)低于(P<0.05)单种(2235mg·m-2),说明混种系统中可能存在资源的互补利用;根据物质平衡法推算出混种系统中植物总的氮吸收量对无机氮去除的贡献率(48%)大于(P<0.05)单种(31%),植物的可移除部分(地上)对无机氮移除的贡献率也呈现此规律(混种和单种分别为33%和20%,P<0.05);基质氮存留在2种系统中的贡献率则与植物吸收规律相反(混种和单种分别为5%和9%,P<0.05);混种系统中的反硝化作用、氨挥发和微生物的氮固持等对氮去除的贡献率低于单种系统。     

Mesenchymal stem cell transplantation for the infarcted heart: a role in minimizing abnormalities in cardiac-specific energy metabolism

Intense interest has been focused on cell-based therapy for the infarcted heart given that stem cells have exhibited the ability to reduce infarct size and mitigate cardiac dysfunction. Despite this, it is unknown whether mesenchymal stem cell (MSC) therapy can prevent metabolic remodeling following a myocardial infarction (MI). This study examines the ability of MSCs to rescue the infarcted heart from perturbed substrate uptake in vivo. C57BL/6 mice underwent chronic ligation of the left anterior descending coronary artery to induce a MI. Echocardiography was performed on conscious mice at baseline as well as 7 and 23 days post-MI. Twenty-eight days following the ligation procedure, hyperinsulinemic euglycemic clamps assessed in vivo insulin sensitivity. Isotopic tracer administration evaluated whole body, peripheral tissue, and cardiac-specific glucose and fatty acid utilization. To gain insight into the mechanisms by which MSCs modulate metabolism, mitochondrial function was assessed by high-resolution respirometry using permeabilized cardiac fibers. Data show that MSC transplantation preserves insulin-stimulated fatty acid uptake in the peri-infarct region (4.25 ± 0.64 vs. 2.57 ± 0.34 vs. 3.89 ± 0.54 μmol·100 g(-1)·min(-1), SHAM vs. MI + PBS vs. MI + MSC; P < 0.05) and prevents increases in glucose uptake in the remote left ventricle (3.11 ± 0.43 vs. 3.81 ± 0.79 vs. 6.36 ± 1.08 μmol·100 g(-1)·min(-1), SHAM vs. MI + PBS vs. MI + MSC; P < 0.05). This was associated with an enhanced efficiency of mitochondrial oxidative phosphorylation with a respiratory control ratio of 3.36 ± 0.18 in MSC-treated cardiac fibers vs. 2.57 ± 0.14 in the infarct-only fibers (P < 0.05). In conclusion, MSC therapy exhibits the potential to rescue the heart from metabolic aberrations following a MI. Restoration of metabolic flexibility is important given the metabolic demands of the heart and the role of energetics in the progression to heart failure.