Characterization of three IGFBP mRNAs in Atlantic croaker and their regulation during hypoxic stress: potential mechanisms of their upregulation by hypoxia

Insulin-like growth factor-binding proteins (IGFBPs) play important roles in downregulating IGF activity and growth and development in vertebrates under hypoxic stress. However, the mechanisms of hypoxia regulation of IGFBPs in teleost fishes are unknown. The involvement of reactive oxygen species (ROS) and hypoxia-inducible factors (HIFs) in hypoxia upregulation of IGFBPs in Atlantic croaker were investigated. Three croaker IGFBPs, IGFBP-1, IGFBP-2, and IGFBP-5, were cloned and characterized. Chronic hypoxia exposure [dissolved oxygen (DO): 1.7 mg/l for 2-4 wk] caused significant increases in hepatic and neural IGFBP-1 mRNA expression compared with tissue mRNA levels in fish held under normoxic conditions (6.5 mg DO/l). Moreover, longer-term chronic hypoxia exposure (2-2.7 mg DO/l for 15-20 wk) caused significant increases in mRNA levels of all three IGFBPs in both liver and brain tissues. Hypoxia exposure also markedly increased superoxide radical (O(2)(·-), an index of ROS) production and HIF-1α mRNA and HIF-2α protein expression in croaker livers. Pharmacological treatment with an antioxidant attenuated the hypoxia-induced increases in O(2)(·-) production and HIFα mRNA and protein expression as well as the elevation of IGFBP-1 mRNA levels. These results suggest that the upregulation of IGFBP expression under hypoxia stress is due, in part, to alterations in the antioxidant status, which may involve ROS and HIFs.     

Effects of hypoxia exposure on hepatic cytochrome P450 1A (CYP1A) expression in Atlantic croaker: molecular mechanisms of CYP1A down-regulation

Hypoxia-inducible factor-α (HIF-α) and cytochrome P450 1A (CYP1A) are biomarkers of environmental exposure to hypoxia and organic xenobiotic chemicals that act through the aryl hydrocarbon receptor, respectively. Many aquatic environments heavily contaminated with organic chemicals, such as harbors, are also hypoxic. Recently, we and other scientists reported HIF-α genes are upregulated by hypoxia exposure in aquatic organisms, but the molecular mechanisms of hypoxia regulation of CYP1A expression have not been investigated in teleost fishes. As a first step in understanding the molecular mechanisms of hypoxia modulation of CYP1A expression in fish, we characterized CYP1A cDNA from croaker liver. Hypoxia exposure (dissolved oxygen, DO: 1.7 mg/L for 2 to 4 weeks) caused significant decreases in hepatic CYP1A mRNA and protein levels compared to CYP1A levels in fish held in normoxic conditions. In vivo studies showed that the nitric oxide (NO)-donor, S-nitroso-N-acetyl-DL-penicillamine, significantly decreased CYP1A expression in croaker livers, whereas the competitive inhibitor of NO synthase (NOS), N(ω)-nitro-L-arginine methyl ester, restored CYP1A mRNA and protein levels in hypoxia-exposed (1.7 mg DO/L for 4 weeks) fish. In vivo hypoxia exposure also markedly increased interleukin-1β (IL-1β, a cytokine), HIF-2α mRNA and endothelial NOS (eNOS) protein levels in croaker livers. Pharmacological treatment with vitamin E, an antioxidant, lowered the IL-1β, HIF-2α mRNA and eNOS protein levels in hypoxia-exposed fish and completely reversed the down-regulation of hepatic CYP1A mRNA and protein levels in response to hypoxia exposure. These results suggest that hypoxia-induced down-regulation of CYP1A is due to alterations of NO and oxidant status, and cellular IL-1β and HIF-α levels. Moreover, the present study provides the first evidence of a role for antioxidants in hepatic eNOS and IL-1β regulation in aquatic vertebrates during hypoxic stress.     

甲基转移酶set9缺失的斑马鱼低氧耐受能力增强

为了研究鱼类的甲基转移酶set9 [SET domain containing (lysine methyltransferase) 9,也称作set7/setd7]在低氧耐受中的功能,以斑马鱼(Danio rerio)作为模式生物,利用CRISPR/Cas9 (Clustered regularly interspaced short palindromic repeats/CRISPR associated protein 9)基因编辑技术,在斑马鱼set9基因的第一个外显子上设计了Cas9的靶位点,对其进行基因敲除,获得了缺失8个碱基的set9基因敲除的斑马鱼品系。对受精后3d的斑马鱼幼鱼和3月龄的斑马鱼成鱼进行低氧胁迫处理,比较了野生型及set9基因敲除的斑马鱼的低氧耐受能力;并对低氧胁迫处理后的3月龄的野生型及set9基因敲除的斑马鱼成鱼的脑组织取材、固定并进行TUNEL染色。结果显示:set9基因敲除的斑马鱼与野生型相比,其低氧耐受能力显著增强,脑组织中的细胞凋亡水平显著减少。研究为进一步揭示鱼类甲基转移酶set9在低氧耐受中的功能和分子机制提供了线索,并为培育耐低氧鱼类新...     

Time-dependent changes in protein expression in rainbow trout muscle following hypoxia

Adaptation to hypoxia is a complex process, and individual proteins will be up- or down-regulated in order to address the main challenges at any given time. To investigate the dynamics of the adaptation, rainbow trout (Oncorhynchus mykiss) was exposed to 30% of normal oxygen tension for 1, 2, 5 and 24 h respectively, after which muscle samples were taken. The successful investigation of numerous proteins in a single study was achieved by selectively separating the sarcoplasmic proteins using 2-DE. In total 46 protein spots were identified as changing in abundance in response to hypoxia using one-way ANOVA and multivariate data analysis. Proteins of interest were subsequently identified by MS/MS following tryptic digestion. The observed regulation following hypoxia in skeletal muscle was determined to be time specific, as only a limited number of proteins were regulated in response to more than one time point. The cellular response to hypoxia included regulation of proteins involved in maintaining iron homeostasis, energy levels and muscle structure. In conclusion, this proteome-based study presents a comprehensive investigation of the expression profiles of numerous proteins at four different time points. This increases our understanding of timed changes in protein expression in rainbow trout muscle following hypoxia.     

Hypoxia affects mitochondrial protein expression in rat skeletal muscle

Hypoxia affects mammalian mitochondrial function, as well as mitochondria-based energy metabolism. The detail mechanism has not been fully understood. In this study, we detected protein expression levels in mitochondrial fractions of Wistar rats exposed to hypobaric hypoxia by use of proteomic methods. Adult male Wistar rats were randomized into an hypoxic (4,500?m, 30 days) group and a normoxic control group (sea level). Gastrocnemius muscles mitochondria were extracted and purified. Mitochondrial oxygen consumption was measured with a Clark oxygen electrode; mitochondrial transmembrane potential was detected with Rhodamine 123 as a fluoresce probe. Using 2-DE and MALDI-TOF MS analysis, we identified eight mitochondrial protein spots that were differentially expressed in the hypoxic group compared with the normoxic control. These proteins included Chain A of F1-ATPase, voltage dependent anion channel 1 (VDAC), hydroxyacyl Coenzyme A dehydrogenase α-subunit, mitochondrial F1 complex γ-subunit, androgen-regulated protein and tripartite motif protein 50. Two of the spots, VDAC and ATP synthase α-subunit, were confirmed by Western blotting analysis. Oxygen consumption during State 3 respiration, as well as the respiratory control ratio (RCR) was significantly higher in the control than that in the hypoxic group; mitochondrial transmembrane potential was significantly higher in hypoxic group than that in the control. With successful use of multiple proteomic analysis techniques, we demonstrates that 30 days hypoxia exposure has effects on the expression of mitochondrial proteins involved in ATP production and lipid metabolism, decrease the stability of mitochondrial membrane, and affect the mitochondrial electron transport chain.     

Hunting for protein markers of hypoxia by combining plasma membrane enrichment with a new approach to membrane protein analysis

Nontransient hypoxia is strongly associated with malignant lesions, resulting in aggressive behavior and resistance to treatment. We present an analysis of mRNA and protein expression changes in neuroblastoma cell lines occurring upon the transition from normoxia to hypoxia. The correlation between mRNA and protein level changes was poor, although some known hypoxia-driven genes and proteins correlated well. We present previously undescribed membrane proteins expressed under hypoxic conditions that are candidates for evaluation as biomarkers.     

Discordant protein and mRNA expression in lung adenocarcinomas

The relationship between gene expression measured at the mRNA level and the corresponding protein level is not well characterized in human cancer. In this study, we compared mRNA and protein expression for a cohort of genes in the same lung adenocarcinomas. The abundance of 165 protein spots representing 98 individual genes was analyzed in 76 lung adenocarcinomas and nine non-neoplastic lung tissues using two-dimensional polyacrylamide gel electrophoresis. Specific polypeptides were identified using matrix-assisted laser desorption/ionization mass spectrometry. For the same 85 samples, mRNA levels were determined using oligonucleotide microarrays, allowing a comparative analysis of mRNA and protein expression among the 165 protein spots. Twenty-eight of the 165 protein spots (17%) or 21 of 98 genes (21.4%) had a statistically significant correlation between protein and mRNA expression (r > 0.2445; p < 0.05); however, among all 165 proteins the correlation coefficient values (r) ranged from -0.467 to 0.442. Correlation coefficient values were not related to protein abundance. Further, no significant correlation between mRNA and protein expression was found (r = -0.025) if the average levels of mRNA or protein among all samples were applied across the 165 protein spots (98 genes). The mRNA/protein correlation coefficient also varied among proteins with multiple isoforms, indicating potentially separate isoform-specific mechanisms for the regulation of protein abundance. Among the 21 genes with a significant correlation between mRNA and protein, five genes differed significantly between stage I and stage III lung adenocarcinomas. Using a quantitative analysis of mRNA and protein expression within the same lung adenocarcinomas, we showed that only a subset of the proteins exhibited a significant correlation with mRNA abundance.     

缺氧对大鼠大脑皮质细胞色素氧化酶亚基Ⅰ、Ⅳ表达协同性的影响

本文探讨缺氧对细胞色素氧化酶（cytochrome oxidase,COX,即complexⅣ）的mtDNA和nDNA编码亚基Ⅰ,Ⅳ表达及其协同性的影响。实验用成年雄性Wistar大鼠随机分为对照组,缺氧2,5,15和30d组,缺氧大鼠于低压舱内模拟海拔5000m连续减压,对照组大鼠于舱外同时喂养（舱外海拔高度为300m)。用半定量逆转录-PCR法测定大脑皮质COXⅠ,ⅣmRNA量,用Western blot分析大脑皮质线粒体COXⅠ,Ⅳ蛋白量,以两个亚基的蛋白量,mRNA量的比值反映亚基表达的协同性,结果显示,缺氧2,5d,COXⅠmRNA增加,缺氧15,30d时下降至对照水平,缺氧2,5和15d时,COXⅣmRNA显著增加,缺氧30d时降低,与对照组差异非常显著。COXⅣ,ⅠmRNA比值在缺氧15d时最高,其它各缺氧组与对照组的差异无显著意义。各组COXⅠ,Ⅳ蛋白量及其比值均无显著差异。上述结果表明,缺氧可影响COXⅠ,ⅣmRNA的表达及其协同性,但对蛋白的表达及其协同性没有显著影响,提示转录后调节是缺氧过程中线粒体内COXⅠ,Ⅳ蛋白表达协同的主要机制。     

Effects of live high, train low hypoxic exposure on lactate metabolism in trained humans.

We determined the effect of 20 nights of live high, train low (LHTL) hypoxic exposure on lactate kinetics, monocarboxylate lactate transporter proteins (MCT1 and MCT4), and muscle in vitro buffering capacity (betam) in 29 well-trained cyclists and triathletes. Subjects were divided into one of three groups: 20 consecutive nights of hypoxic exposure (LHTLc), 20 nights of intermittent hypoxic exposure [four 5-night blocks of hypoxia, each interspersed with 2 nights of normoxia (LHTLi)], or control (Con). Rates of lactate appearance (Ra), disappearance (Rd), and oxidation (Rox) were determined from a primed, continuous infusion of l-[U-14C]lactic acid tracer during 90 min of steady-state exercise [60 min at 65% peak O2 uptake (VO(2 peak)) followed by 30 min at 85% VO(2 peak)]. A resting muscle biopsy was taken before and after 20 nights of LHTL for the determination of betam and MCT1 and MCT4 protein abundance. Ra during the first 60 min of exercise was not different between groups. During the last 25 min of exercise at 85% VO(2 peak), Ra was higher compared with exercise at 65% of VO(2 peak) and was decreased in LHTLc (P < 0.05) compared with the other groups. Rd followed a similar pattern to Ra. Although Rox was significantly increased during exercise at 85% compared with 65% of VO(2 peak), there were no differences between the three groups or across trials. There was no effect of hypoxic exposure on betam or MCT1 and MCT4 protein abundance. We conclude that 20 consecutive nights of hypoxia exposure decreased whole body Ra during intense exercise in well-trained athletes. However, muscle markers of lactate metabolism and pH regulation were unchanged by the LHTL intervention.     

Development of transgenic fish for ornamental and bioreactor by strong expression of fluorescent proteins in the skeletal muscle

In the present study, new applications of the transgenic technology in developing novel varieties of ornamental fish and bioreactor fish were explored in a model fish, the zebrafish (Danio rerio). Three "living color" fluorescent proteins, green fluorescent protein (GFP), yellow fluorescent protein (YFP), and red fluorescent protein (RFP or dsRed), were expressed under a strong muscle-specific mylz2 promoter in stable lines of transgenic zebrafish. These transgenic zebrafish display vivid fluorescent colors (green, red, yellow, or orange) visible to unaided eyes under both daylight and ultraviolet light in the dark. The level of foreign protein expression is estimated between 3% and 17% of total muscle proteins, equivalent to 4.8-27.2mg/g wet muscle tissue. Thus, the fish muscle may be explored as another useful bioreactor system for production of recombinant proteins. In spite of the high level of foreign protein expression, the expression of endogenous mylz2 mRNAs was not negatively affected. Furthermore, compared to the wild-type fish, these fluorescent transgenic fish have no advantage in survival and reproduction.     

SENP1在大鼠低氧性肺动脉高压形成中肺血管壁中表达及可能作用

目的:探讨大鼠低氧性肺动脉高压(HPH)形成过程中SENP1在肺小动脉的动态表达变化及作用。方法:40只成年雄性Wistar大鼠随机分为5组(n=8):对照组和缺氧3 d、7 d、14 d2、1 d组,常压间断低氧复制HPH大鼠模型。测各组大鼠平均肺动脉压(mPAP)、右心室肥大指数(RVHI)、血管形态学指标;原位杂交、逆转录-聚合酶链反应(RT-PCR)检测肺内SUMO特异性蛋白酶-1(SUMO-specific proteases-1,SENP1)mRNA表达,免疫组化、Westernblot检测其蛋白质水平。结果:①缺氧7 d后,肺小动脉出现血管重塑,且mPAP明显上升;低氧14 d后,肺小动脉重塑更明显,mPAP达高峰。RVHI在低氧14 d后明显增加。②原位杂交显示,SENP1 mRNA在对照组肺小动脉壁呈阳性表达,低氧后其相对量无明显变化。RT-PCR显示肺组织SENP1 mRNA表达与原位杂交所观察到的肺小动脉壁SENP1 mRNA变化趋势一致;SENP1蛋白在对照组呈阳性表达,低氧7 d后其表达量开始呈进行性下降。Western blot显示肺组织内SENP1蛋白表达与免疫组化观察到的肺小动脉壁SENP1蛋白变化趋势一致。③SENP1蛋白与mPAP、重塑指数、RVHI均呈负相关。结论:慢性低氧诱导肺小动脉壁SENP1蛋白降解,进而可能在HPH发病过程中发挥一定的作用。     

斑马鱼nr1d4a和nr1d4b基因的表达及其对不同环境刺激的响应

研究获得了斑马鱼nr1d4a和nr1d4b基因的cDNA,进行了序列比对和系统进化分析,并采用实时定量RT-PCR（qPCR）方法研究了其表达模式及对不同环境刺激的转录反应。研究发现,斑马鱼nr1d4a和nr1d4b是由基因复制产生的旁系同源基因,具有高度保守的DNA结合结构域和配体结合结构域。斑马鱼nr1d4a和nr1d4b的表达模式具有明显的差别。nr1d4a在胚胎发育早期的表达量很低,72 hpf时开始显著升高;而nr1d4b具有较高水平的母源性表达,6 hpf时的表达量明显降低,但也在72 hpf显著回升。nr1d4a在脑和肾脏中表达量最高,其次是鳃、卵巢、精巢和眼,在肝脏中的表达量最低;nr1d4b在卵巢中表达量最高,其次是精巢和脑,在肠道和心脏中表达量最低。斑马鱼nr1d4a和nr1d4b都能被多种环境刺激瞬时诱导表达。16℃低温处理0.5h就能显著诱导斑马鱼nr1d4a和nr1d4b基因的表达,但处理6h后其诱导效应开始下降并逐渐消失。除低温外,重金属（2 mol/L镉）、缺氧（5%氧气）和盐度（5）处理均能瞬时诱导nr1d4a和nr1d4b的表达,说明nr1d4a和nr1d4b基因可能参与斑马鱼对多种环境刺激的适应性反应。研究为深入揭示鱼类nr1d4a和nr1d4b基因的生物学功能及其表达调控机制奠定了基础。       

血红素加氧酶1在斑马鱼低氧应激中的保护作用研究

实验探讨了低氧条件下血红素加氧酶1（Ho1）对斑马鱼的保护作用。Real-time PCR结果显示,低氧条件下斑马鱼ho1 mRNA水平在斑马鱼胚胎和离体培养细胞ZF4中显著增加,而在成鱼的不同组织中呈现不同的反应。低氧处理24h后,斑马鱼脑、鳃和肝脏中ho1 mRNA表达量明显上升,而在心脏和肾脏中ho1 mRNA表达量显著降低。用锌原卟啉IX（ZnPPIX）抑制ZF4细胞ho1的表达,采用CCK8试剂盒检测细胞存活率,结果显示抑制ho1表达可导致低氧条件下ZF4细胞存活率明显降低。利用Hoechst染色和caspase 3活性检测发现,在低氧条件下抑制ho1表达后ZF4细胞的凋亡率较对照组显著增加,而Ho1的诱导剂可显著降低低氧条件下抑制组的细胞凋亡率。这些结果表明斑马鱼Ho1可能通过抗细胞凋亡发挥低氧保护作用。     

Differential and Reciprocal Regulation between Hypoxia-inducible Factor-α Subunits and Their Prolyl Hydroxylases in Pulmonary Arteries of Rat with Hypoxia-induced Hypertension

Hypoxia-inducible factor (HIF)-α subunits (HIF-1α,HIF-2α and HIF-3α),which play a pivotalrole during the development of hypoxia-induced pulmonary hypertension (HPH),are regulated through post-U'anslational hydroxylation by their three prolyl hydroxylase domain-containing proteins (PHD 1,PHD2 and PHD3).PHDs could also be regulated by HIF.But differential and reciprocal regulation between HIF-α and PHDs duringthe development of HPH remains unclear.To investigate this problem,a rat HPH model was established.Meanpulmonary arterial pressure increased significantly after 7 d of hypoxia.Pulmonary artery remodeling indexand right ventricular hypertrophy became evident after 14 d of hypoxia.HIF-1α and HIF-2α mRNA increasedslightly after 7 d of hypoxia,but HIF-3α increased significantly after 3 d of hypoxia.The protein expressionlevels of all three HIF-α were markedly upregulated after exposure to hypoxia.PHD2 mRNA and proteinexpression levels were upregulated after 3 d of hypoxia;PHD 1 protein declined after 14 d of hypoxia withoutsignificant mRNA changes.PHD3 mRNA and protein were markedly upregulated after 3 d of hypoxia,then themRNA remained at a high level,but the protein declined after 14 d of hypoxia.In hypoxic animals,HIF-lotproteins negatively correlated with PHD2 proteins,whereas HIF-2α and HIF-3α proteins showed negativecorrelations with PHD3 and PHD 1 proteins,respectively.All three HIF-α proteins were positively correlatedwith PHD2 and PHD3 mRNA.In the present study,HIF-α subunits and PHDs showed differential andreciprocal regulation,and this might play a key pathogenesis role in hypoxia-induced pulmonary hypertension.     

Acclimation to hypoxia increases survival time of zebrafish, Danio rerio, during lethal hypoxia

Survivorship of zebrafish, Danio rerio, was measured during lethal hypoxic stress after pretreatment in water at either ambient oxygen or at a lowered, but nonlethal, level of oxygen. Acclimation to nonlethal hypoxia (pO(2) congruent with 15 Torr; ca. 10% air-saturation) for 48 hr significantly extended survival time during more severe hypoxia (pO(2) congruent with 8 Torr; ca. 5% air-saturation) compared to survival of individuals with no prior hypoxic exposure. The magnitude of the acclimation effect depended upon the sex of the fish: hypoxia pretreatment increased the survival times of males by a factor of approximately 9 and that of females by a factor of 3 relative to controls. In addition, survival time of control and hypoxia acclimated fish depended upon when in the year experiments were conducted. Survival times were 2-3 times longer when measured in the late fall or winter compared to survival times measured during the spring or summer. These results demonstrate a direct survival benefit of short-term acclimation to hypoxia in this genetically tractable fish. The fact that the acclimation effect depended upon the sex of the fish and the season during which experiments were conducted demonstrates that other genetic and/or environmental factors affect hypoxia tolerance in this species. J. Exp. Zool. 289:266-272, 2001.     

Patterns of protein synthesis and tolerance of anoxia in root tips of maize seedlings acclimated to a low-oxygen environment, and identification of proteins by mass spectrometry

Tolerance of anoxia in maize root tips is greatly improved when seedlings are pretreated with 2 to 4 h of hypoxia. We describe the patterns of protein synthesis during hypoxic acclimation and anoxia. We quantified the incorporation of [(35)S]methionine into total protein and 262 individual proteins under different oxygen tensions. Proteins synthesized most rapidly under normoxic conditions continued to account for most of the proteins synthesized during hypoxic acclimation, while the production of a very few proteins was selectively enhanced. When acclimated root tips were placed under anoxia, protein synthesis was depressed and no "new" proteins were detected. We present evidence that protein synthesis during acclimation, but not during subsequent anoxia, is crucial for acclimation. The complex and quantitative changes in protein synthesis during acclimation necessitate identification of large numbers of individual proteins. We show that mass spectrometry can be effectively used to identify plant proteins arrayed by two-dimensional gel electrophoresis. Of the 48 protein spots analyzed, 46 were identified by matching to the protein database. We describe the expression of proteins involved in a wide range of cellular functions, including previously reported anaerobic proteins, and discuss their possible roles in adaptation of plants to low-oxygen stress.     

低氧运动对Nrf2基因敲除大鼠运动能力和氧化应激的影响

Nrf2可调节多种抗氧化酶的表达,Nrf2的缺失可能影响机体的运动能力,而低氧可提高机体的抗氧化能力并改善运动能力。为了考察低氧运动对Nrf2基因敲除大鼠运动能力和氧化应激的影响,本研究分别在常氧和低氧环境(12%氧浓度)中对野生型大鼠和Nrf2敲除大鼠进行4周的跑台运动。研究显示,低氧运动可提高野生型大鼠的跑台运动力竭时间,Nrf2敲除可缩短大鼠的力竭时间;低氧运动可上调大鼠的Nrf2 m RNA表达量;Nrf2敲除明显抑制HIF-1α蛋白表达,而低氧运动可上调野生型和Nrf2敲除大鼠的HIF-1α蛋白表达;Nrf2敲除大鼠的骨骼肌ROS水平明显升高,并且低氧均可降低野生型和Nrf2敲除大鼠骨骼肌ROS水平。低氧运动可上调Nrf2敲除大鼠的CAT和GSH-PX蛋白表达。苏木精和伊红(HE)染色显示,Nrf2敲除大鼠在力竭跑台运动完成后出现更严重的骨骼肌病理改变,而低氧运动可减轻骨骼肌损伤。本研究认为,Nrf2敲除导致了大鼠骨骼肌中抗氧化酶的抑制及ROS的过量累积,从而造成了骨骼肌损伤并降低了运动能力。此外,低氧可通过上调Nrf2的表达,进而激活HIF-1α及抗氧化酶活性,从而提高运动能力,并防止骨骼肌损伤。     

Exploring uncoupling proteins and antioxidant mechanisms under acute cold exposure in brains of fish

Exposure to fluctuating temperatures accelerates the mitochondrial respiration and increases the formation of mitochondrial reactive oxygen species (ROS) in ectothermic vertebrates including fish. To date, little is known on potential oxidative damage and on protective antioxidative defense mechanisms in the brain of fish under cold shock. In this study, the concentration of cellular protein carbonyls in brain was significantly increased by 38% within 1 h after cold exposure (from 28 °C to 18 °C) of zebrafish (Danio rerio). In addition, the specific activity of superoxide dismutase (SOD) and the mRNA level of catalase (CAT) were increased after cold exposure by about 60% (6 h) and by 60%-90% (1 and 24 h), respectively, while the specific glutathione content as well as the ratio of glutathione disulfide to glutathione remained constant and at a very low level. In addition, cold exposure increased the protein level of hypoxia-inducible factor (HIF) by about 50% and the mRNA level of the glucose transporter zglut3 in brain by 50%-100%. To test for an involvement of uncoupling proteins (UCPs) in the cold adaptation of zebrafish, five UCP members were annotated and identified (zucp1-5). With the exception of zucp1, the mRNA levels of the other four zucps were significantly increased after cold exposure. In addition, the mRNA levels of four of the fish homologs (zppar) of the peroxisome proliferator-activated receptor (PPAR) were increased after cold exposure. These data suggest that PPARs and UCPs are involved in the alterations observed in zebrafish brain after exposure to 18°C. The observed stimulation of the PPAR-UCP axis may help to prevent oxidative damage and to maintain metabolic balance and cellular homeostasis in the brains of ectothermic zebrafish upon cold exposure.