Geldanamycin augments nitric oxide production and promotes capacitation in boar spermatozoa

Sperm capacitation and the acrosome reaction are fundamentally important to fertilization. Nitric oxide (NO) has been shown to have various functions in male reproduction. This work investigates whether boar sperm can generate NO, as well as the effects of NO and geldanamycin (GA), a heat-shock protein 90 (HSP90)-specific inhibitor, on the capacitation of boar spermatozoa. Observations showed that porcine sperm produced low levels of NO under non-capacitating conditions. However, the NO concentration almost doubled under capacitating conditions (P<0.001). Treatment with NG-nitro-L-arginine methyl ester (L-NAME) reduced the production of NO by 30-40% in capacitating sperm (P<0.05). GA treatment increased it by 23-75% in a dose-dependent manner (P<0.05). L-NAME treatment reduced the percentage of sperm undergoing the acrosome reaction, whereas sodium nitroprusside, an NO-releasing compound, and GA treatment increased the percentage of sperm undergoing the acrosome reaction (P<0.05). GA treatment promoted the production of NO and the acrosome reaction. The increase in NO production by GA treatment was similar to that caused by the calcium ionophore, A23187, suggesting that the GA-induced acrosome reaction may be triggered by an increase of the intracellular calcium concentration. The signaling pathway involved in GA-mediated NO production and its biological function in fertilizing boar spermatozoa will be elucidated in further studies.     

Synthesis of characteristic proteins in nutrient-depleted cell suspension cultures of parsley

Cell suspension cultures of parsley (Petroselinum crispum) exhibited an altered pattern of protein synthesis after transfer from complete growth medium to water or medium containing no macronutrients. Similar changes occurred when cultures were grown in the original medium until the nutrients were depleted. The effect was reversible upon transfer to fresh medium and was not observed during regular subculturing of the cells. While total protein synthesis decreased sharply after nutrient depletion, the synthesis of a few characteristic proteins (starvation-related proteins, STPs) increased strongly. The protein labeled at highest rates with [³⁵S]methionine in vivo (STP 62) had an apparent molecular weight of about 62000 and a pI of about 6.3. Although its increased rate of synthesis was therefore easily detected by labeling in vivo, translation of mRNA in vitro did not give comparable results. Thus, regulatory control may be exerted mainly at the level of translation. Synthesis of STP ceased rapidly when heat shock (37° C) was applied under conditions of nutrient depletion, whereas heat-shock proteins were strongly induced.Abbreviations HSP heat-shock protein - STP starvation-related protein     

Temperature-sensitive cytoophidium assembly in Schizosaccharomyces pombe

The metabolic enzyme CTP synthase(CTPS) is able to compartmentalize into filaments,termed cytoophidia,in a variety of organisms including bacteria,budding yeast,fission yeast,fruit flies and mammals.A previous study in budding yeast shows that the filament-forming process of CTPS is not sensitive to temperature shift.Here we study CTPS filamentation in the fission yeast Schizosaccharomyces pombe.To our surprise,we find that both the length and the occurrence of cytoophidia in S.pombe decrease upon cold shock or heat shock.The temperature-dependent changes of cytoophidia are fast and reversible.Taking advantage of yeast genetics,we demonstrate that heat-shock proteins are required for cytoophidium assembly in S.pombe.Temperature sensitivity of cytoophidia makes S.pombe an attractive model system for future investigations of this novel membraneless organelle.     

Plasma Hsp72 (HSPA1A) and Hsp27 (HSPB1) expression under heat stress: influence of exercise intensity

Extracellular heat-shock protein 72 (eHsp72) expression during exercise-heat stress is suggested to increase with the level of hyperthermia attained, independent of the rate of heat storage. This study examined the influence of exercise at various intensities to elucidate this relationship, and investigated the association between eHsp72 and eHsp27. Sixteen male subjects cycled to exhaustion at 60% and 75% of maximal oxygen uptake in hot conditions (40°C, 50% RH). Core temperature, heart rate, oxidative stress, and blood lactate and glucose levels were measured to determine the predictor variables associated with eHsp expression. At exhaustion, heart rate exceeded 96% of maximum in both conditions. Core temperature reached 39.7°C in the 60% trial (58.9 min) and 39.0°C in the 75% trial (27.2 min) (P < 0.001). The rate of rise in core temperature was 2.1°C h⁻¹ greater in the 75% trial than in the 60% trial (P < 0.001). A significant increase and correlation was observed between eHsp72 and eHsp27 concentrations at exhaustion (P < 0.005). eHsp72 was highly correlated with the core temperature attained (60% trial) and the rate of increase in core temperature (75% trial; P < 0.05). However, no common predictor variable was associated with the expression of both eHsps. The similarity in expression of eHsp72 and eHsp27 during moderate- and high-intensity exercise may relate to the duration (i.e., core temperature attained) and intensity (i.e., rate of increase in core temperature) of exercise. Thus, the immuno-inflammatory release of eHsp72 and eHsp27 in response to exercise in the heat may be duration and intensity dependent.     

Down-regulation of heme oxygenase-1 by SVCV infection

Heme oxygenase (HO-1) is a cytoprotective enzyme that plays a critical role in defending the body against oxidant-induced injury during inflammatory processes. In mammalian systems, viral infection or antigen expression can down-regulate the expression of HO-1. In turn, the induction of HO-1 or overexpression of HO-1 results in potent and direct antiviral activity that targets the replication of several mammalian viruses. In this study, the HO-1 gene of Cyprinus carpio was cloned, and the expression profile of HO-1 was investigated during spring viremia of carp virus (SVCV) infection. The results demonstrate that the expression of HO-1 was down-regulated during SVCV infection in the EPC cells and in common carp. These results indicated that SVCV infection could induce host oxidative stress, which may contribute to tissue injury in affect fish.     

人脑胶质瘤中热休克蛋白70、Caspase-3 的表达及临床意义

目的:探讨热休克蛋白70、caspase-3在人脑胶质瘤中的表达和临床意义。方法:收集2008年7月～2010年12月汕头大学医学院第二附属医院神经外科手术获取的人脑胶质瘤组织标本35例,另选择20例脑外伤手术中切除的正常脑组织标本作为对照组。采用EnVision免疫组化方法检测脑胶质瘤组织和正常脑组织中热休克蛋白70、caspase-3的表达,并分析其与脑胶质瘤组织临床病理特征之间的关系。结果:HSP70在胶质瘤组和对照组中的阳性表达率分别为74.3%和25.0%,胶质瘤组的HSP70表达明显高于对照组(P<0.05)。caspage-3在胶质瘤组和对照组中的阳性表达率分别为34.3%和80.0%,胶质瘤组的caspage-3阳性表达率均明显低于对照组(P<0.01)。HSP70和caspase-3的阳性表达与胶质瘤的病理学分级、术后复发情况密切相关(P<0.05)。相关分析表明,胶质瘤组织中HSP70阳性表达率和caspase-3表达呈负相关(r=-0.568,P<0.05)。结论:胶质瘤组织中HSP70呈高表达,而caspase-3表达下调,两者均在胶质瘤浸润、复发等恶性演进过程中发挥重要作用;HSP70可能通过某些途径抑制caspase-3表达来抑制胶质瘤恶性细胞的凋亡发生。     

Role of nitric oxide in the response of Saccharomyces cerevisiae cells to heat shock and high hydrostatic pressure

Nitric oxide (NO) is a simple and unique molecule that has diverse functions in organisms, including intracellular and intercellular messenger. The influence of NO on cell growth of Saccharomyces cerevisiae and as a signal molecule in stress response was evaluated. Respiring cells were more sensitive to an increase in intracellular NO concentration than fermentatively growing cells. Low levels of NO demonstrated a cytoprotective effect during stress from heat-shock or high hydrostatic pressure. Induction of NO synthase was isoform-specific and dependent on the metabolic state of the cells and the stress response pathway. These results support the hypothesis that an increase in intracellular NO concentration leads to stress protection.