盐度突变对青蛤(Cyclinasinensis)鳃Na^+/K^+-ATPase活性的影响

研究了盐度23下青蛤(Cyclina sinensis)鳃、斧足、外套膜和内脏团中Na+/K+-ATPase的活性差异,并以活性高的鳃组织为对象,对青蛤实施了低盐(23→16)和高盐(23→36)突变的胁迫,监测了鳃组织中Na+/K+-ATPase活性的动态变化。结果表明,盐度23下青蛤鳃组织中Na+/K+-ATPase的活性显著高于其他组织;在盐度突降胁迫下,鳃组织中Na+/K+-ATPase的活性于前16 d逐渐升高,第17d起显著升高(p<0.05),第18 d达到峰值,于第20 d回落,但仍高于起始水平;在盐度骤升胁迫下,鳃组织中Na+/K+-ATPase的活性于前13d逐渐降低,第14 d起显著降低(p<0.05),于第15 d达到最低值,继而回升至平稳水平,但仍低于起始水平。青蛤不同盐度胁迫下其鳃组织中Na+/K+-ATPase活性的响应方式不同,低盐时活性增加,而高盐时活性下降;此外,青蛤在盐度胁迫下对自身渗透压的调节则需较长时间。

Hg^(2+)对草鱼鱼种肾、鳃Na^+/K^+-ATPase及其组织结构的影响

以浸浴法对草鱼鱼种进行毒性试验,比较在0.045,0.091,0.181 mg/L 3个不同Hg2+质量浓度下,草鱼的肾脏和鳃组织中Na+/K+-ATPase活性变化规律及其组织结构的变化。结果表明:相对鳃而言,Hg2+对草鱼肾的Na+/K+-ATPase活性有较明显的抑制作用,且随着暴露时间的延长而加强。在组织结构上,草鱼肾小管出现萎缩的现象,肾小球未见明显症状;鳃小片出现弯曲、融合、脱落和顶端呈肿大等现象,肾、鳃的组织结构特征均具有时间及剂量效应。

盐度胁迫对三疣梭子蟹鳃Na^+/K^+-ATPase酶活的影响

通过钼蓝法测定三疣梭子蟹在3组实验盐度的胁迫过程中第2对和第6对鳃Na+/K+-ATPase酶活的变化,比较了3组实验盐度胁迫1 d时,鳃Na+/K+-ATPase的酶活大小。结果表明,在盐度胁迫初期,3组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活下降;之后,各组实验盐度下第2对和第6对鳃Na+/K+-ATPase的酶活开始随胁迫时间增长而上升;最后,各组实验盐度下第2和第6对鳃Na+/K+-ATPase的酶活下降并趋于稳定。另外,胁迫1d时,各组实验盐度下三疣梭子蟹前5对鳃Na+/K+-ATPase的酶活显著低于后3对鳃Na+/K+-ATPase的酶活。三疣梭子蟹对盐度变化的调节可分为被动应激期(酶活力下降)、主动调节期(酶活力逐渐上升)和适应期(酶活力稳定);三疣梭子蟹后3对鳃是离子转运、渗透压调节的主要部位。

低盐胁迫对华贵栉孔扇贝抗氧化酶、Na^+/K^+-ATPase活力的影响

采用生物化学方法系统测定了低盐(18)胁迫下华贵栉孔扇贝(Mimachlamys nobilis)3种组织(肝脏、鳃、外套膜)的3种抗氧化酶(超氧化物歧化酶SOD、过氧化氢酶CAT、髓过氧化物酶MPO)活力、丙二醛MDA含量、Na^+/K^+-ATPase活力和肝脏糖原含量在3,6,9,12,24,48,72,96 h的动态变化,可为揭示华贵栉孔扇贝不同组织在低盐胁迫下的应激反应规律和免疫防御调节机制提供科学依据.结果表明:3种组织在低盐胁迫下的各种生理应答基本一致;3种抗氧化酶(SOD、CAT、MPO)活力随着胁迫时间的延长,呈现先增大后减小的趋势,一般在胁迫9或12 h到达最高值,随之降低逐渐恢复与起始时没有显著差异;MDA含量随胁迫时间延长持续上升;Na^+/K^+-ATPase活力随胁迫时间延长持续下降;肝脏糖原含量随胁迫时间延长持续下降.说明盐度下降后机体抗氧化系统受损,体内离子平衡被打破,能量供应不足,是导致华贵栉孔扇贝死亡的重要原因.因此在福建沿海选择其养殖区域应避免在洪水和台风季节盐度降至18的海区.

薏苡仁酯对荷瘤小鼠红细胞免疫功能及Na^+,K^+-ATPase活性的影响

薏苡仁酯对荷瘤小鼠红细胞免疫功能具有显著的促进作用，对红细胞膜上的Ｎａ＋，Ｋ＋－ＡＴＰａｓｅ有抑制作用。其抑制作用呈量效正相关。薏苡仁酯的后一作用可能是其促进荷瘤小鼠红细胞免疫功能的机理之一。

Ouabain及其受体Na^+/K^+-ATPase α_1、α_4抗体对人精子运动功能的影响

目的研究Ouabain及其受体Na+/K+-ATPase α1、α4抗体对正常人精子运动功能的影响。方法将60例正常人的精液上游法进行优化,其中30例与不同浓度Ouabain共孵育,在1,2,3,4h采用CASA检测精子运动参数;另外30例分别与Na+/K+-ATPase α1和α4抗体共同孵育,1h后同样方法检测。结果①与阴性对照组比较,优化后的精子与较高剂量Ouabain(1×10-5～1×10-2mol.L-1)共孵育后,活动率显著下降(P<0.05),a+b级精子所占比例显著下降(P<0.01);但各浓度组两参数差异无显著性;②与阴性对照组比较,较低剂量Ouabain(1×10-6和1×10-7mol·L-1)作用后,精子活动率和a+b级精子所占比例下降均不明显,两浓度组之间差异无显著性;③Ouabain作用后,精子其他运动参数如直线速度、鞭打频率、直线性、前向性、摆动性均未见显著变化。④Anti-α1和Anti-α4作用后的精子活动率均显著下降(均P<0.01);但两者之间差异无显著性;⑤Anti-α1和Anti-α4作用后的a+b级精子所占比例均显著下降(均P<0.01);且Anti-α4作用后降低的幅度明显大于Anti-α1(P<0.05);⑥Na+/K+-ATPase α1和α4抗体作用后,精子其他运动参数如直线速度、鞭打频率、直线性、前向性、摆动性均未见显著变化。结论Ouabain在体外能够降低正常人精子运动功能;Na+/K+-ATPase α1、α4抗体也能够降低精子运动功能,但α4抗体的作用更明显。

饲料中添加谷氨酰胺前体物对镜鲤肠道消化酶及Na^+/K^+-ATPase活性的影响

为了研究谷氨酰胺前体物对镜鲤(Cyprinus carpio specularis)肠道消化酶及Na^+/K^+-ATPase活性的影响,分别用谷氨酰胺(Gln)、谷氨酸(Glu)、α-酮戊二酸(AKG)、L-鸟氨酸-α-酮戊二酸(OKG)、L-精氨酸-α-酮戊二酸(AAKG)、α-酮戊二酸钠(2Na-AKG)替代基础饲料中的葡萄糖(添加量为1.5%),配制成6种等氮等能试验饲料,以基础饲料为对照,分别投喂松浦镜鲤(平均体重(40.27±3.96)g),饲养8周后测定镜鲤肠道消化酶及Na^+/K^+-ATPase活性。结果显示:Glu组前肠蛋白酶活性显著高于对照组;Gln组、Glu组、OKG组和AAKG组中肠蛋白酶活性均显著高于对照组。2Na-AKG组前肠脂肪酶活性显著高于对照组和OKG组;2Na-AKG组中肠脂肪酶活性显著高于对照组和Gln组。2Na-AKG组前肠淀粉酶活性均显著高于对照组和Gln组。Gln组和Glu组前肠Na^+/K^+-ATPase活性均显著高于对照组;不同处理组中肠Na^+/K^+-ATPase活性均显著低于对照组;Glu组、AKG组和OKG组后肠Na^+/K^+-ATPase活性均显著高于对照组,Gln组、AAKG组和2NaAKG组后肠Na^+/K^+-ATPase活性则均显著低于对照组。研究表明,饲料中添加Gln、Glu、OKG和AAKG可显著提高鱼体肠道的蛋白酶活性,添加2Na-AKG可显著提高鱼体肠道的淀粉酶和脂肪酶活性。

功能矫形前伸青春期大鼠下颌对翼外肌Na^+/K^+-ATPase功能活性的影响

目的:研究功能矫形前伸青春期大鼠下颌对翼外肌Na+/K+-ATPase功能活性的影响。方法:选用5w龄雄性SD大鼠70只,随机分为实验组和对照组,并各分为7个时间段,其中实验组大鼠佩戴可摘式上颌斜面导板功能矫治器。在不同的时间段,分别测定大鼠翼外肌Na+/K+-ATPase功能活性。结果:自矫治器佩戴第1-42d,实验组与对照组相比,Na+泵活性均有显著性差异。Na+泵活性自第1d开始上调,第21d达到最高峰,之后开始回落,在第28d、42d仍显著高于对照组。结论:生长发育对Na+/K+-ATPase功能活性没有显著影响,功能矫形治疗使翼外肌Na+/K+-ATPase功能活性产生了适应性增高。

新生鼠缺氧缺血性脑损伤脑组织Na^+、K^+-ATPase活性变化

目的了解新生大鼠缺氧缺血性脑损伤(HIBD)脑组织Na+、K+-ATPase的活性变化,探讨在脑损伤脑水肿发生中的可能作用。方法健康7d龄SD大鼠随机分为对照组和HIBD模型组。HIBD组经右侧颈总动脉结扎后,吸入8%O21h,建立HIBD模型。对照组仅行假手术,不予颈总动脉结扎和缺氧。两组均于HIBD模型制成后6、24、48h和72h分别处死动物(各时间点动物24只),进行脑含水量观察。用定磷法测定脑组织匀浆Na+、K+-ATPase的活性。结果①HIBD新生鼠脑组织6、24、48h和72h Na+、K+-ATPase的活性呈进行性下降的趋势,较相应各对照组明显降低(P均<0.05),HIBD各时间段之间脑组织Na+、K+-ATPase的活性差异均有统计学意义(P均<0.05);②HIBD组6、24、48h和72h脑组织含水量均较对照组增加,差异有统计学意义(P均<0.05)。结论缺氧缺血损伤新生鼠脑组织Na+、K+-ATPase的活性降低,其变化趋势与损伤脑组织含水量及病理学改变趋势一致,提示,它可能在脑损伤时脑水肿的发生机制中具有作用。

Spinosyn A对家蝇生长发育及Na^+,K^+-ATPase、Ca^(2+),Mg^(2+)-ATPase和AChE的影响

研究了Spinosyn A对家蝇(Musca domestica L.)生长发育及其Na+,K+-ATPase、Ca2+,Mg2+-ATPase和AChE的影响。结果表明,SpinosynA对家蝇有杀卵作用,且其化蛹率显著下降;SpinosynA在离体时低浓度抑制家蝇头部Na+,K+-ATPase活性而高浓度酶被激活,活体时在48h内酶活性都受到明显抑制,并随浓度升高而增强;离体时低浓度抑制家蝇Ca2+,Mg2+-ATPase活性而高浓度时酶被激活;活体时24h后该酶被激活。离体时对家蝇头部AChE有弱的抑制作用,但不同处理浓度之间无差异,而在活体时48h内能显著激活AChE活性。

功能矫形前伸青春期大鼠下颌对颞肌后份Na^+/K^+-ATPase功能活性的影响

目的:研究功能矫形前伸青春期大鼠下颌对颞肌后份Na+/K+-ATPase功能活性的影响。方法:选用5周龄雄性SD大鼠40只,随机分为7个实验组及1个对照组,实验组大鼠佩戴可摘式上颌斜面导板功能矫治器。在不同的时间段,分别测定大鼠颞肌后份Na+/K+-ATPase功能活性。结果:在佩戴矫治器第3d、第7d颞肌后份Na+泵功能活性显著升高,之后呈下降趋势,第28d、42d,颞肌后份Na+/K+-ATPase功能活性显著降低。结论:矫治器戴用的不同时段使Na+泵活性先升高后降低,可能是由于建立了新的牙合关系,使下颌后收肌活动减弱。

女贞子提取物对大鼠不同组织Na^+,K^+-ATPase活性的影响

通过女贞子提取物对大强度耐力训练大鼠不同组织Na+,K+-ATPase活性的影响,探讨女贞子提取物对大鼠运动能力的作用机制。以24只SD大鼠随机分为安静对照组、运动对照组和运动+女贞子组,每组8只。运动对照组进行6周大强度跑台训练,运动+女贞子组除大强度跑台训练外,每天灌服2 mL浓度为400 mg.kg-1女贞子提取物。安静对照组和运动对照组灌胃同体积0.5%Tween-80溶液。6周后安静对照组在安静时、运动对照组和运动+女贞子组进行一次力竭性运动后取材,测定不同组织Na+,K+-ATPase活性。结果:运动对照组和运动+女贞子组大鼠各组织Na+,K+-ATPase活性均显著低于安静对照组,运动+女贞子组大鼠不同组织Na+,K+-ATPase活性显著高于运动对照组;运动+女贞子组大鼠力竭运动时间比运动对照组延长23.09%。结论:补充女贞子提取物可以调节大鼠不同组织Na+,K+-ATPase活性,增加Na+,K+-ATPase活性,延长运动至疲劳的时间。

大鼠正中视前核注射血管紧张素Ⅱ对近曲小管Na^+,K^+-ATPase活性的影响

目的探讨大鼠正中视前核(MnPO)的血管紧张素Ⅱ(AngⅡ)对肾脏近曲小管Na+,K+-ATPase活性的作用及其途径。方法雄性SD大鼠,麻醉下MnPO注射AngⅡ,或预先注射AngⅡ的Ⅰ型受体(AT1)拮抗剂氯沙坦(Losartan)后再注射AngⅡ。注射后45min取血,放射免疫分析法测定血清内源性洋地黄样物质(EDLS)水平;立体显微镜下手工微分离单根近曲小管,电镜鉴定,液闪计数器测定近曲小管Na+,K+-ATPase活性。结果与MnPO注射aCSF的结果比较,在MnPO注射AngⅡ后45min,血清EDLS水平显著升高(59.87±4.48)pg/mLvs.(42.86±4.0)pg/mL,P<0.05;近曲小管Na+,K+-ATPase活性显著降低(1327±127)pmolPi/mm/hvs.(1788±118)pmolPi/mm/h,P<0.05;近曲小管Na+,K+-ATPase活性下降幅度与血清EDLS升高幅度呈负相关(r=-0.945,P<0.05);而Losartan预处理MnPO再注射AngⅡ后45min,血清EDLS水平和近曲小管Na+,K+-ATPase活性均无显著变化。结论AngⅡ通过作用于MnPO的Ⅰ型受体(AT1),可抑制肾小管的Na+,K+-ATPase活性,AngⅡ的这一作用与其促进EDLS的释放有关。

Pb^(2+)对草鱼鱼种肾脏和鳃Na^+/K^+-ATPase活性的影响

采用静态染毒法研究了不同质量浓度的铅离子胁迫下,暴露24,48,72,96h后对草鱼(Ctenopharyngodonidellus)鱼种肾脏和鳃组织中Na+/K+-ATPas活性的影响.结果表明:Pb2+对草鱼鱼种的肾脏、鳃组织Na+/K+-ATPase的活性有抑制作用.且具有时间和浓度效应,即随Pb2+胁迫时间的延长和浓度的升高而下降.Pb2+对草鱼鱼种肾脏Na+/K+-ATPase活性的抑制作用较鳃组织明显,Na+/K+-ATPase可作为一种很有潜力的环境污染效应的生物标志物.

自发性高血压大鼠MnPO注射AngⅡ对EDLS释放和近球小管Na^+,K^+-ATPase活性的影响

目的探讨自发性高血压大鼠(SHR)正中视前核(MnPO)注射AngII对血清内源性洋地黄样物质和肾脏近球小管Na+,K+-ATPase活性的影响。方法24只雄性SHR随机分为人工脑脊液组、AngⅡ组、Losartan组,同时选用8只雄性WHY大鼠作为正常对照组。用小动物脑立体定位仪在MnPO区定位并中枢微量注射,放射免疫法测定血清内源性洋地黄样物质(EDLS)和血浆AngⅡ水平,立体显微镜下手工微分离近球小管,液体闪烁计数器测定近球小管管周膜上的Na+,K+-ATPase的活性。结果①MnPO注射AngII后,SHR各组与WHY组比较,血浆AngⅡ水平、血清EDLS水平、近球小管Na+,K+-ATPase的活性有显著性差异(P<0.05)。②MnPO注射AngII后,SHR-AngⅡ组与SHR-人工脑脊液组比较,血浆AngⅡ水平无显著变化(P>0.05),血清EDLS水平显著升高(P<0.05),近球小管Na+,K+-ATPase的活性显著下降(P<0.05)。③在MnPO预先用Losartan处理后,SHR-Losartan组与SHR-AngⅡ组比较,血浆AngⅡ水平无显著性改变(P>0.05),血清EDLS水平明显低于SHR-AngⅡ组(P<0.05),其近球小管Na+,K+-ATPase的活性明显高于SHR-AngⅡ组(P<0.05)。④MnPO注射AngⅡ后,SHR-AngⅡ组血清EDLS水平与其近球小管Na+,K+-ATPase活性呈显著负相关(r=-0.795,P<0.01)。结论在SHR中,AngⅡ在MnPO的AT1受体介导下,引起高水平EDLS释放,从而抑制近球小管Na+,K+-ATPase活性的作用可能与SHR本身调节机制上调有关。

中华鲟幼鱼鳃丝Na^+,K^+-ATPase α亚基渗透调节的分子机制初步研究

为了研究盐度10条件下中华鲟幼鱼鳃丝Na+,K+-ATPase(NKA)α亚基的分子调节机制,采用克隆方法得到中华鲟幼鱼鳃丝NKAα亚基部分基因序列,在鲟鱼转移后3,6,12,24,48,72和96 h检测实验组(淡水-盐水)和对照组(淡水-淡水)中华鲟幼鱼鳃丝NKAα亚基的mRNA表达水平、鳃丝NKA活性、血清Na+、Cl-的浓度和渗透压。结果显示,在转移后0～12 h,实验组中的mRNA表达量与酶活性为适应盐度变化而显著增加(P<0.05),离子浓度和渗透压均显著上升(P<0.05);在转移后12～24 h,mRNA表达和酶活性开始降低到一个较低值,但仍然显著高于对照组的值(P<0.05),离子﹑渗透压的变化与酶活性及mRNA变化趋势一致,这表明中华鲟鳃丝NKA在应对盐度变化时通过改变mRNA表达量来增加酶活性,高活性NKA调节血清离子和渗透压平衡。

Effect of High-fat Diet on Cholesterol Metabolism in Rats and Its Association with Na^+/K^+-ATPase/Src/pERK Signaling Pathway

Summary： Abnormal cholesterol metabolism is associated with an elevated risk of developing athero- sclerosis, hypertension, and diabetes etc. Na＋/K＋-ATPase was found to regulate cholesterol synthesis, distribution and trafficking. This study aimed to examine the effect of high-fat diet on cholesterol me- tabolism in rats and the role of Na＋/K＋-ATPase/Src/ERK signaling pathway in the process. Forty male SD rats were evenly divided into high-fat diet group and control group at random. Animals in the former group were fed on high-fat diet for 12 weeks, and those fed on basic diet served as control. Blood lipids, including total cholesterol （TC）, triglyceride （TG）, high density lipoprotein-cholesterol （HDL-C）, and low density lipoprotein-cholesteral （LDL-C） levels, were detected at 3, 6 and 12 weeks. The ratio of cholesterol content in cytoplasm to that in cell membrane was detected in liver tissues. RT-PCR and Western blotting were used to measure the expression of lipid metabolism-associated genes （HMG-CoA reductase and SREBP-2） after 12-week high-fat diet. Na＋/K＋-ATPase/Src/ERK signaling path- way-related components （Na＋/K＋-ATPase ctl, Src-PY418 and pERK1/2） were also measured by West- ern blotting. The results showed that the serum TC, TG, and LDL-C levels were significantly higher in high-fat diet group than those in control group, while the HDL-C level was significantly lower in high-fat diet group at 6 weeks （P〈0.01）. High-fat diet led to an increase in the cholesterol content in the cytoplasm and cell membrane. The ratio of cholesterol content in cytoplasm to that in cell membrane was elevated over time. The expression of HMG-CoA reductase and SREBP-2 was significantly sup- pressed at mRNA and protein levels after 12-week high-fat diet （P〈0.05）. Moreover, high-fat diet pro- moted the expression of Na＋/K＋-ATPase α1 but suppressed the phosphorylation of Src-PY418 and ERK1/2 at 12 weeks （P〈0.05）. It was concluded that high-fat diet regulates cholesterol metabolism, and Na＋/K＋-ATPase signaling pathway is involved in the process possibly by regulating the expression of lipid metabolism-associated proteins HMG-CoA reductase and SREBP-2.

Peroxynitrite induced decrease in Na^+, K^+-ATPase activity is restored by taurine

AIM: Peroxynitrite (ONOO-) is a powerful oxidant shown to damage membranes. In the present study, the effect of taurine on changes of liver plasma membrane Na+, K+-ATPase induced by ONOO- was investigated. METHODS: Liver plasma membrane was exposed toONOO-with or without taurine. Na+, K+-ATPase activity and lipid peroxidation as thiobarbituric acid reactive substances (TBARS) levels were measured.RESULTS: Different concentrations of ONOO- (100, 200,500, and 1 000 μmol/L) were found to decrease liver plasma membrane Na+, K+-ATPase activity significantly. The depletion of enzyme activity was not concentration dependent. Effects of different concentrations of taurine on liver plasma membrane Na+, K+-ATPase activity were also measured. Taurine did not cause any increase in enzyme activity. When plasma membranes were treated with 200 μmol/L ONOO- with different concentrations of taurine, a restoring effect of taurine on enzyme activity was observed. TBARS levels were also measured and taurine was found to decrease the elevated values. CONCLUSION: Taurine is observed to act as an antioxidant of ONOO-to decrease lipid peroxidation and thus affect liver plasma membrane Na+, K+-ATPase by restoring its activity.

Inhibition of Na^+,K^+-ATPase in Housefly (Musca domestica L.) by Terpinen-4-ol and Its Ester Derivatives

To reveal the insecticidal mechanism of terpinen-4-ol, the activity of Na＋,K＋-ATPase in insects tested were determined in vivo and in vitro. The results showed that terpinen-4-ol and its ester derivatives had strong contact activity to housefly and the contact toxicities of its derivatives except Z3 were all superior or equivalent to terpinen-4-ol. All the 7 compounds had strong inhibition towards activity of Na＋,K＋-ATPase. With poisoning symptom exacerbating, the inhibition rates were gradually increased. In vitro, the IC50 of terpinen-4-ol, Z1, Z2, Z4, Z5, and Z6 was 155.89, 197.98, 96.02, 121.36, 124.85, and 153.74 μg mL% respectively. There was well correlation between the LDs0 of terpinen-4-ol derivatives to housefly and the IC50 of terpinen-4-ol derivatives to Na＋,K＋-ATPase in housefly. In conclusion, Na＋,K＋-ATPase was likely the target of terpinen-4-ol against insects.

The ontogeny of acidic digestive tract in larval turbot Scophthalmus maximus based on H+/K+-ATPase and pepsinogen

Acidic digestion is an important digestive process of marine fish.In fish stomach,two enzymes are involved in the secretion of hydrochloric acid(HCl)and proteomic digestion:H^(+)/K^(+)-ATPase and pepsinogen.However,the starting of digestive function in fish is still unclear.To reveal the details of acidic digestion of turbot Scophthalmus maximus in early development,a 40 day of turbot larvae culture was conducted.The H^(+)/K^(+)-ATPase gene from the turbot S.maximus(smH^(+)/K^(+)-ATPase)was identified and characterized.Based on our previous discription on pepsinogen of turbot S.maximus,we combined pepsinogen and H^(+)/K^(+)-ATPase and analyzed the mechanism of acidic digestion in turbot.Results show that the spatial and temporal expression profiles of H^(+)/K^(+)-ATPase agreed with pepsinogen A and C in turbot,indicating a synergetic action between H^(+)/K^(+)-ATPase and pepsinogen during the acidic digestion process.In addition,the turbot juveniles showed a faster growth after the expressions of H^(+)/K^(+)-ATPase gene and pepsinogen gene,demonstrating that pepsin had a higher digestive efficiency,for which a compound diet should be provided to the fish from Day 22 onward.This study provided a reference for biology research and aquaculture of turbot and other marine fishes.