Promotion of flowering in apple trees with gibberellin A4 and C-3 epi-gibberellin A4

The proportion of spurs flowering on apple trees (Malus domestica Borkh. cv Golden Delicious) displaying a high degree of alternate-year flowering was increased in the off year by gibberellin A₄ (GA₄) and C-3 epi-GA₄ applied in the previous year. When applied 4.5 weeks after anthesis amounts of GA₄ ranging from 3 to 300 g per spur and 25 or 50 g of C-3 epi-GA₄ per spur were effective. Treatments with GA₄ made seven weeks after anthesis were less effective. A combination of 30 g GA₄ and 30 g zeatin (6-(4-hydroxy-3-methylbut-trans-2-enylamino)purine) promoted flowering at both treatment times, and tended to be more effective than GA₄ alone.Abbreviation GA gibberellin or gibberellin-like substance Contribution No. 618     

Effect of training and detraining on skeletal muscle glucose transporter (GLUT4) content in rats.

The aim of the present study was to examine the effects of treadmill exercise training and detraining on the skeletal muscle fiber type specific expression of the insulin-regulated glucose transporter protein (GLUT4) in rats. GLUT4 protein content was determined by Western and dot-blot analysis, using a polyclonal antibody raised against the carboxy-terminal peptide. Rats were sacrificed 24 h after the last training session. There were no significant changes in muscle GLUT4 after 1 day or 1 week of training. Six weeks of training increased GLUT4 protein content 1.4- to 1.7-fold (p < 0.05) over controls in the soleus and red vastus lateralis, whereas no significant change was evident in the white vastus lateralis muscle. GLUT4 protein content in both soleus and red vastus lateralis muscle returned to near control values after 7 days of detraining. Similar to GLUT4, citrate synthase activity showed no change after 1 day or 1 week of training, increased 1.8-fold over controls after 6 weeks of training, but returned to control values after 7 days detraining. These findings demonstrate that muscle GLUT4 protein is increased in rats with as little as 6 weeks of treadmill exercise training but that the adaptation is lost within 1 week of detraining. It is suggested that expression of the GLUT4 protein is coordinated with the well-documented adaptations in oxidative enzyme activity with endurance training and detraining.     

Glycogen distribution in rat hepatocyte populations after a single exposure to 4-dimethylaminoazobenzine and subsequent injections of phenobarbital

7 day after a single interperitoneal injection of carcinogen 4-dimethylaminoazobenzen (DAB), a little number of cells with high glycogen contents was found in parallel with a decreased glycogen content in most isolated hepatocytes. 1.5 months after DAB injection, the normal distribution of glycogen content was seen restored in hepatocytes. The treatment of rats with phenobarbital (6 PhB injections 7 days after DAB application) blocked the restoration of the normal glycogen distribution. 2 months after the last PhB injection (3 months after DAB injection) an increased glycogen content was found in the smallest hepatocytes.     

Postexercise glucose uptake and glycogen synthesis in skeletal muscle from GLUT4-deficient mice.

To determine the role of GLUT4 on postexercise glucose transport and glycogen resynthesis in skeletal muscle, GLUT4-deficient and wild-type mice were studied after a 3 h swim exercise. In wild-type mice, insulin and swimming each increased 2-deoxyglucose uptake by twofold in extensor digitorum longus muscle. In contrast, insulin did not increase 2-deoxyglucose glucose uptake in muscle from GLUT4-null mice. Swimming increased glucose transport twofold in muscle from fed GLUT4-null mice, with no effect noted in fasted GLUT4-null mice. This exercise-associated 2-deoxyglucose glucose uptake was not accompanied by increased cell surface GLUT1 content. Glucose transport in GLUT4-null muscle was increased 1.6-fold over basal levels after electrical stimulation. Contraction-induced glucose transport activity was fourfold greater in wild-type vs. GLUT4-null muscle. Glycogen content in gastrocnemius muscle was similar between wild-type and GLUT4-null mice and was reduced approximately 50% after exercise. After 5 h carbohydrate refeeding, muscle glycogen content was fully restored in wild-type, with no change in GLUT4-null mice. After 24 h carbohydrate refeeding, muscle glycogen in GLUT4-null mice was restored to fed levels. In conclusion, GLUT4 is the major transporter responsible for exercise-induced glucose transport. Also, postexercise glycogen resynthesis in muscle was greatly delayed; unlike wild-type mice, glycogen supercompensation was not found. GLUT4 it is not essential for glycogen repletion since muscle glycogen levels in previously exercised GLUT4-null mice were totally restored after 24 h carbohydrate refeeding.-Ryder, J. W., Kawano, Y., Galuska, D., Fahlman, R., Wallberg-Henriksson, H., Charron, M. J., Zierath, J. R. Postexercise glucose uptake and glycogen synthesis in skeletal muscle from GLUT4-deficient mice.     

Increased production of bacteriocin ST4SA byEnterococcus mundtii ST4SA in modified corn steep liquor

Enterococcus mundtii ST4SA produces a broad-spectrum bacteriocin (bacST4SA), active against Gram-positive and Gramnegative bacteria. Growth in corn steep liquor (CSL) with a sugar content of 5.0 and 10.0 g/l yielded bacST4SA levels of 12800 AU/ml. A four-fold increase in bacST4SA production (51200 AU/ml) was recorded in CSL with a sugar content of 7.5 g/l supplemented with 6.5 g/l yeast extract (CSL-YE). Poor growth and low levels of bacST4SA production were observed when cells were grown in CSL-YE controlled at pH 5.5. Fermentation at pH 7.5 yielded 25600 AU/ml after 6 h, but the activity levels decreased to approximately 1000 AU/ml during the next 6 h. Adjustment of the culture pH from 6.5 to 5.5 after 6 h of fermentation extended bacST4SA activity (51200 AU/ml) over 8 h. Activity then decreased to 25600 AU/ml and was maintained this level for 10 h. Optimal levels of bacST4SA production (102400 AU/ml) were obtained after 6 h of fermentation in CSL-YE supplemented with 7.5 g/l glucose at the start of the fermentation. This level of production was maintained by changing the culture pH from 6.5 after 6 h of fermentation to pH 5.5. This study proved that bacST4SA could be produced at high levels in an inexpensive industrial medium byE. mundtii ST4SA.     

Cell-cycle-regulated expression of thymosin beta 4 in thymocytes.

Thymosin beta 4 belongs to a family of ubiquitous peptides present at a high cellular content but still with an unknown intracellular function. The expression of this peptide was studied in concanavalin-A-stimulated, proliferating rat thymocytes during cell cycle progression. An early, transient 10-fold increase of the peptide occurred 1 h after stimulation without elevation of the corresponding mRNA level. This increase coincided with that of thymosin beta 4 biosynthesis. The sharp decline of the thymosin beta 4 content was not due to a secretion of the peptide into the medium. During S phase and mitosis, the biosynthetic rates as well as mRNA content, but not the cellular thymosin beta 4 concentration, increased again. After 96 h of culture the values returned to those of quiescent cells.     

Effects of continuous low-carbohydrate diet after long-term exercise on GLUT-4 protein content in rat skeletal muscle.

Stimulation of AMPK and decreased glycogen levels in skeletal muscle have a deep involvement in enhanced insulin action and GLUT-4 protein content after exercise training. The present study examined the chronic effects of a continuous low-carbohydrate diet after long-term exercise on GLUT-4 protein content, glycogen content, AMPK, and insulin signaling in skeletal muscle. Rats were divided randomly into four groups: normal chow diet sedentary (N-Sed), low carbohydrate diet sedentary (L-Sed), normal chow diet exercise (N-Ex), and low carbohydrate diet exercise (L-Ex) groups. Rats in the exercise groups (N-Ex and L-Ex) were exercised by swimming for 6 hours/day in two 3-hour bouts separated by 45 minutes of rest. The 10-day exercise training resulted in a significant increase in the GLUT-4 protein content (p<0.01). Additionally, the GLUT-4 protein content in L-Ex rats was increased by 29% above that in N-Ex rats (p<0.01). Finally, the glycogen content in skeletal muscle of L-Ex rats was decreased compared with that of N-Ex rats. Taken together, we suggest that the maintenance of glycogen depletion after exercise by continuous low carbohydrate diet results in the increment of the GLUT-4 protein content in skeletal muscle.     

Effect of 4-Thiouridine on Photosystems of a Higher Plant

Effect of 4-thiouridine, which was proved to inhibit selectively and “light-reversibly” the synthesis of chloroplast ribosomal RNAs in radish cotyledons, on the photo-induced development of photosystem I, II and a complete electron transport chain was investigated with plastids obtained from 4-thiouridine treated dark-grown radish cotyledons after various times of development in the light. It was demonstrated that the 4-thioridine treated chloroplasts showed a higher activity of photoreduction than the control untreated chloroplasts in every system on a chlorophyll basis during the development after 24 hr illumination. This specific activity decreased in both chloroplasts, as the chloroplasts matured with the time of illumination. The activity per g of fresh cotyledons treated with 4-thiouridine, especially in the early stage of development, was lower than that of ones untreated with the drug because total chlorophyll content was poor, but the activity of the former was enhanced with the increase of total chlorophyll content upon illumination while the activity of the latter decreased on 24 hr illumination. Moreover, Hill reaction measurements showed that 4-thiouridine treated chloroplasts were saturated at lower light intensity than untreated ones inspite of the same content of chlorophyll in both the chloroplasts: photoreduction of NADP⁺ was saturated at 3000 lux for the former and at 5000 lux for the latter. Based upon these results, specific development of the chloroplast is discussed.     

Cytotoxic effects of 4-octylphenol on fish hepatocytes

The present study was conducted to determine cytotoxic effects of 4-octylphenol (4-OP) on primary cultured hepatocytes of pearl mullet (Alburnus tarichi). Lactate dehydrogenase (LDH) release, malondialdehyde (MDA) level, antioxidant enzymes [superoxide dismutase (SOD), glutathione peroxidase (GPx), glutathione-S-transferase (GST)] and glutathione (GSH) content were measured after 24-h exposure to 4-OP. 4-OP caused dose- and time-dependent increases in LDH release. Significant induction of MDA level and decrease in GSH content were found. SOD and GPx activities were decreased while GST activity was increased. These findings suggest that 4-OP leads to cytotoxicity by depressing antioxidant defenses in fish hepatocytes.     

Effects of high-intensity swimming training on GLUT-4 and glucose transport activity in rat skeletal muscle.

This study was performed to assess the effects of short-term, extremely high-intensity intermittent exercise training on the GLUT-4 content of rat skeletal muscle. Three- to four-week-old male Sprague-Dawley rats with an initial body weight ranging from 45 to 55 g were used for this study. These rats were randomly assigned to an 8-day period of high-intensity intermittent exercise training (HIT), relatively high-intensity intermittent prolonged exercise training (RHT), or low-intensity prolonged exercise training (LIT). Age-matched sedentary rats were used as a control. In the HIT group, the rats repeated fourteen 20-s swimming bouts with a weight equivalent to 14, 15, and 16% of body weight for the first 2, the next 4, and the last 2 days, respectively. Between exercise bouts, a 10-s pause was allowed. RHT consisted of five 17-min swimming bouts with a 3-min rest between bouts. During the first bout, the rat swam without weight, whereas during the following four bouts, the rat was attached to a weight equivalent to 4 and 5% of its body weight for the first 5 days and the following 3 days, respectively. Rats in the LIT group swam 6 h/day for 8 days in two 3-h bouts separated by 45 min of rest. In the first experiment, the HIT, LIT, and control rats were compared. GLUT-4 content in the epitrochlearis muscle in the HIT and LIT groups after training was significantly higher than that in the control rats by 83 and 91%, respectively. Furthermore, glucose transport activity, stimulated maximally by both insulin (2 mU/ml) (HIT: 48%, LIT: 75%) and contractions (25 10-s tetani) (HIT: 55%, LIT: 69%), was higher in the training groups than in the control rats. However, no significant differences in GLUT-4 content or in maximal glucose transport activity in response to both insulin and contractions were observed between the two training groups. The second experiment demonstrated that GLUT-4 content after HIT did not differ from that after RHT (66% higher in trained rats than in control). In conclusion, the present investigation demonstrated that 8 days of HIT lasting only 280 s elevated both GLUT-4 content and maximal glucose transport activity in rat skeletal muscle to a level similar to that attained after LIT, which has been considered a tool to increase GLUT-4 content maximally.     

Leukotriene D4 induces brain edema and enhances CysLT2 receptor-mediated aquaporin 4 expression

Cysteinyl leukotrienes (including LTC(4), LTD(4), and LTE(4)), potent inflammatory mediators, can induce brain-blood barrier (BBB) disruption and brain edema. These reactions are mediated by their receptors, CysLT(1) and CysLT(2) receptors. On the other hand, aquaporin 4 (AQP4) primarily modulates brain water homeostasis and edema after various injuries. Here, we aimed to determine whether AQP4 is involved in LTD(4)-induced brain edema. LTD(4) (1ng in 0.5mul PBS) microinjection into the cortex increased endogenous IgG exudation (BBB disruption) and water content (brain edema), and enhanced AQP4 expression in mouse brain. The selective CysLT(1) receptor antagonist pranlukast inhibited the IgG exudation, but not the increased water content and AQP4 expression induced by LTD(4). In the cultured rat astrocytes, LTD(4) (10(-9)-10(-7)M, for 24h) similarly enhanced AQP4 expression. The enhanced AQP4 expression was inhibited by Bay u9773, a non-selective CysLT(1)/CysLT(2) receptor antagonist, but not by pranlukast. LTD(4) (10(-9)-10(-7)M) also induced the mRNA expression of CysLT(2) (not CysLT(1)) receptor in astrocytes. These results indicate that LTD(4) modulates brain edema; CysLT(1) receptor mediates vasogenic edema while CysLT(2) receptor may mediate cytotoxic edema via up-regulating AQP4 expression.     

Effect of dihydroxyacetone on metabolic parameters and survival of resuspended erythrocytes after storage at 25 degrees and 4 degrees]

Erythrocyte concentrates from CPD blood were resuspended after separating the leukocyte-thrombocyte layer and stored at 4 degrees C and 25 degrees C. The solutions for resuspension differed in the content of substrate, pH, condition of sterilization and the resuspension volume used, 1 or 4 volumes of cell concentrate to 1 volume of resuspension solution. At 4 degrees C, there was no effect of DHA on the the 2.3 bisphosphoglycerate content (P2G content). The decreased activity of triokinase at low temperature, phosphate deficiency and a partial disintegration of DHA during the autoclave as well as the difference of the commercial DHA preparations are discussed as underlying causes. At 25 degrees C DHA delayed the P2G decrease during storage. The enhanced triokinase activity above 15 degrees C is principally considered to be the cause for it. High rates of haemolysis, rapid ATP decrease, survival rates of 56% after a storage of three weeks for erythrocyte resuspensions with DHA in used compositions render a clinical application impossible at present. It could be well suitable as a substrate for resynthesizing P2G. An addition of ascorbate + nicotinamid + adenin at a storage temperature of 4 degrees C had no influence on the P2G content. A resuspension solution on the basis of xylitol with additions of sorbitol, bicarbonate, inorganic phosphate, pyruvate, adenine and guanosine showed the best properties in the content of P2G and ATP, lactate formation and survival rate during a storage at 4 degrees C.     

Bone growth and mineralisation in children aged 4 to 10 years

The relationships between bone width and mineral content and age, sex, height and weight were studied in 420 children aged 4–10 years living in Cambridge using single photon absorptiometry. The relationship of bone width with bone mineral content was significantly different between the sexes after adjusting for differences in body size. In addition, bone width in boys was found to be greater for a given height and weight; changes in weight had a greater effect on bone width in boys than in girls. Prediction equations for bone width and mineral content based on height and weight are given, which should enhance the application of single photon absorptiometry in clinical practice.     

Localization of 4-Chloroindole-3-acetic Acid in Seeds of Pisum sativum and Its Absence from All Other Organs

4-Chloroindole-3-acetic acid (4-Cl-IAA) was shown by GC-MS analysisto be present in immature and mature seeds of Pisum sativum,but not in any other organs of this plant. Its content was maximalat one week after anthesis and decreased as the seeds matured.Only indole-3-acetic acid (IAA) was detected in the other organsof P. sativum, its content being particularly high in the flowersand young pods during anthesis and the early pod set. (Received January 18, 1988; Accepted April 6, 1988)     

Transient enhancement of GLUT-4 levels in rat epitrochlearis muscle after exercise training.

The purpose of the present study was to examine the effect of detraining on the glucose transport system after short-term swim training (5 days), long-term swim training (5 wk), and treadmill run training (5 wk). Skeletal muscles were isolated from female Wistar rats at 24 or 48 h posttraining. SST produces a 48% increase in GLUT-4 mRNA, a 30% increase in GLUT-4 protein, and a 60% increase in insulin-stimulated glucose transport activity at 24 h posttraining but not at 48 h posttraining. Similar to SST, long-term swim training produces a 60% increase in GLUT-4 mRNA and a 30% increase in GLUT-4 protein content at 24 h posttraining but not at 48 h posttraining. Finally, treadmill run training produces a transient 35% increase in GLUT-4 protein content that is completely reversed at 48 h after the last bout of exercise. These results demonstrate that the increase in GLUT-4 mRNA and GLUT-4 protein occurs during the first week of exercise training and is rapidly lost after training cessation. We believe that the transient enhancement in GLUT-4 protein after exercise training is due to a short GLUT-4 half-life, a process that is primarily regulated by pretranslational mechanisms.     

Changes in insulin-stimulated glucose transport and GLUT-4 protein in rat skeletal muscle after training

Kawanaka, Kentaro, Izumi Tabata, Shigeru Katsuta, andMitsuru Higuchi. Changes in insulin-stimulated glucose transport and GLUT-4 protein in rat skeletal muscle after training.J. Appl. Physiol. 83(6):2043-2047, 1997.After running training, which increased GLUT-4protein content in rat skeletal muscle by <40% compared with controlrats, the training effect on insulin-stimulated maximal glucosetransport (insulin responsiveness) in skeletal muscle was short lived(24 h). A recent study reported that GLUT-4 protein content in ratepitrochlearis muscle increased dramatically (~2-fold) after swimmingtraining (J.-M. Ren, C. F. Semenkovich, E. A. Gulve, J. Gao, andJ. O. Holloszy. J. Biol.Chem. 269, 14396-14401, 1994).Because GLUT-4 protein content is known to be closely related toskeletal muscle insulin responsiveness, we thought it possible that thetraining effect on insulin responsiveness may remain for >24 h afterswimming training if GLUT-4 protein content decreases gradually fromthe relatively high level and still remains higher than control levelfor >24 h after swimming training. Therefore, we examined thispossibility. Male Sprague-Dawley rats swam 2 h a day for 5 days with aweight equal to 2% of body mass. Approximately 18, 42, and 90 h aftercessation of training, GLUT-4 protein concentration and2-[1,2-³H]deoxy-D-glucosetransport in the presence of a maximally stimulating concentration ofinsulin (2 mU/ml) were examined by using incubated epitrochlearismuscle preparation. Swimming training increased GLUT-4 proteinconcentration and insulin responsiveness by 87 and 85%, respectively,relative to age-matched controls when examined 18 h after training.Forty-two hours after training, GLUT-4 protein concentration andinsulin responsiveness were still higher by 52 and 51%, respectively,in muscle from trained rats compared with control. GLUT-4 proteinconcentration and insulin responsiveness in trained muscle returned tosedentary control level within 90 h after training. We conclude that1) the change in insulinresponsiveness during detraining is directly related to muscle GLUT-4protein content, and 2)consequently, the greater the increase in GLUT-4 protein content thatis induced by training, the longer an effect on insulin responsivenesspersists after the training.

     

苦荞黄酮转运相关蛋白基因FtAH4L的克隆及表达分析

为研究苦荞黄酮转运相关基因,以苦荞(Fagopyrum tataricum)品种"西荞二号"为材料,克隆到1条质膜H+-ATPase基因(autoinhibited H+-ATPase isoform 4 like,AH4L),将其命名为FtAH4L。通过开放阅读框(ORF)分析,FtAH4L基因cDNA全长3 398bp,开放阅读框2 898bp,编码966个氨基酸残基,理论分子量为109kD,等电点6.48。氨基酸保守基序比对分析表明,AH4L在植物种间较为保守。在茉莉素诱导处理和5种光(白色荧光、LED白光、LED蓝光、LED红光和UV-B)处理芽期苦荞后,采用半定量RT-PCR和AlCl3比色法分析结果表明,茉莉素处理后的苦荞胚轴和子叶中FtAH4L基因表达量与黄酮含量均显著上升,且二者呈正相关关系;5种光对子叶中FtAH4L表达量无显著影响,但均显著增加其黄酮含量;胚轴中,除LED红光外,各种光均显著提高FtAH4L表达量和总黄酮含量,且LED蓝光与UV-B的影响极显著。该研究结果为深入研究FtAH4L基因参与苦荞黄酮转运奠定了基础。     

The effect of acute exercise on GLUT4 levels in peripheral blood mononuclear cells of sled dogs

Using sled dogs as exercise model, our objectives of this study were to (1) assess the effects of one acute bout of high-intensity exercise on surface GLUT4 concentrations on easily accessible peripheral blood mononuclear cells (PBMC) and (2) compare our findings with published research on exercise induced GLUT4 in skeletal muscle. During the exercise bout, dogs ran 5 miles at approximately 90% of VO₂ max. PMBC were collected before exercise (baseline), immediately after exercise and after 24 h recovery.GLUT4 was measured via ELISA. Acute exercise resulted in a significant increase on surface GLUT4 content on PBMC. GLUT4 was increased significantly immediately after exercise (~50%; p<0.05) and reduced slightly by 24 h post-exercise as compared to baseline (~22%; p>0.05). An effect of acute exercise on GLUT4 levels translocated to the cell membrane was observed, with GLUT4 levels not yet returned to baseline after 24 h post-exercise. In conclusion, the present investigation demonstrated that acute high-intensity exercise increased GLUT4 content at the surface of PBMC of sled dogs as it has been reported in skeletal muscle in other species. Our findings underline the potential use of peripheral blood mononuclear cell GLUT4 protein content as minimally invasive proxy to investigate relationships between insulin sensitivity, insulin resistance, GLUT4 expression and glucose metabolism.     

Increase of noradrenaline contents in the hypothalamus of neonatal female rats under the effects of 4-hydroxyestradiol-17beta

Catecholamine content was studied in hypothalamus of neonatal Wistar female rats treated with 4-hydroxyestradiol-17 (4-OH-E2) in a dose of 10 mg for 1-5 days of life. 4-OH-E2 induced a reliable increase in hypothalamic noradrenaline level in 24 h after the last injection, but not on the 7th, 10th or 12th postnatal days. There was no change in dopamine level. We have postulated a relationship between the increase in hypothalamic noradrenaline content induced by 4-OH-E2 and defeminization effects of 4-OH-E2 on the developing brain of female rats.