Production of Androgenetic Zebrafish (Danio Rerio)

To help investigate the evolutionary origin of the imprinting (parent-of-origin mono-allelic expression) of paternal genes observed in mammals, we constructed haploid and diploid androgenetic zebrafish (Danio rerio). Haploid androgenotes were produced by fertilizing eggs that had been X-ray irradiated to eliminate the maternal genome. Subsequent inhibition of the first mitotic division of haploid androgenotes by heat shock produced diploid androgenotes. The lack of inheritance of maternal-specific DNA markers (RAPD and SSR) by putative diploid and haploid androgenotes confirmed the androgenetic origin of their genomes. Marker analysis was performed on 18 putative androgenotes (five diploids and 13 haploids) from six families. None of 157 maternal-specific RAPD markers analyzed, some of which were apparently homozygous, were passed on to any of these putative androgenotes. A mean of 7.7 maternal-specific markers were assessed per family. The survival of androgenetic zebrafish suggests that if paternal imprinting occurs in zebrafish, it does not result in essential genes being inactivated when their expression is required for development. Production of haploid androgenotes can be used to determine the meiotic recombination rate in male zebrafish. Androgenesis may also provide useful information about the mechanism of sex determination in zebrafish.     

Circadian Rhythms of Self-feeding and Locomotor Activity in Zebrafish (Danio Rerio)

To investigate daily feeding rhythms in zebrafish, the authors have developed a new self-feeding system with an infrared photocell acting as a food-demand sensor, which lets small-size fish such as zebrafish trigger a self-feeder. In this paper, the authors used eight groups of 20 fish. Locomotor activity rhythms were also investigated by means of infrared sensors. Under a 12?h:12?h light (L)-dark (D) cycle, zebrafish showed a clear nocturnal feeding pattern (88.0% of the total daily food-demands occurring in the dark phase), concentrated during the last 4?h of the dark phase. In contrast, locomotor activity was mostly diurnal (88.2% of total daily activity occurring in the light phase). Moreover, both feeding and locomotor rhythms were endogenously driven, as they persisted under free-running conditions. The average period length (τ) of the locomotor and feeding rhythms was shorter (τ?=?22.9?h) and longer (τ?=?24.6?h) than 24?h, respectively. During the time that food availability was restricted, fish could only feed during ZT0–ZT12 or ZT12–ZT16. This resulted in feeding activity being significantly modified according to feeding time, whereas the locomotor activity pattern remained synchronized to the LD cycle and did not change during this trial. These findings revealed an independent phasing between locomotor and feeding activities (which were mostly nocturnal or diurnal, respectively), thus supporting the concept of multioscillatory control of circadian rhythmicity in zebrafish. (Author correspondence: javisan@um.es)     

Effect of Nutrient Availability on Progenitor Cells in Zebrafish (Danio Rerio)

In zebrafish brains, populations of continuously proliferating cells are present during an entire life span. Under normal conditions, stem cells give rise to rapidly proliferating progenitors that quickly exit the cell cycle and differentiate. Hence fish are favorable models to study what regulates postembryonic neurogenesis. The aim of this study was to determine if optic tectum (OT) cell proliferation is halted during nutritional deprivation (ND) and whether or not it can be restored with refeeding. We examined the effect of ND on the proliferation of Neuroepithelial/Ependymal Progenitor cell (NeEPC) and transitory‐amplifying progenitors (TAPs). Following ND, no PCNA immunostaining was found in OT of starved fish, while positive cell populations of PCNA positive progenitors are found at its periphery in control fish. This indicated that active proliferation stopped. To label retaining progenitor cells, BrdU was applied and a chase‐period was accompanied by ND. Positive NeEPCs were detected in the external tectum marginal zone of starved fish suggesting that these progenitors are relatively immune to ND. Moreover in the internal tectum marginal zone labeled retaining cells were observed leaving the possibility that some arrested TAPs were present to readily restart proliferation when nutrition was returned. Our results suggest that neurogenesis was maintained during ND and that a normal proliferative situation was recovered after refeeding. We point to the mTOR pathway as a necessary pathway in progenitors to regulate their mitosis activity. Thus, this study highlights mechanisms involved in neural stem and progenitor cell homeostatic maintenance in an adverse situation. © 2016 Wiley Periodicals, Inc. Develop Neurobiol 77: 26–38, 2017     

Entorhinal Cortex Lesions Transiently Alter Glucocorticoid but Not Mineralocorticoid Receptor Gene Expression in the Rat Hippocampus

Abstract: The mechanisms of delayed onset and cell death in Huntington's disease (HD) are unknown. One possibility is that a genetic defect in energy metabolism may result in slow excitotoxic neuronal death. Therefore, we examined the effects of age on striatal lesions produced by local administration of the mitochondrial toxin 3-nitropropionic acid in rats. In vivo chemical shift magnetic resonance imaging showed marked increases in striatal lactate concentrations that significantly correlated with increasing age. Histologic and neurochemical studies showed a striking age dependence of the lesions, with 4- and 12-month-old animals being much more susceptible than 1-month-old animals. Continuous systemic administration of low doses of 3-nitropropionic acid for 1 month resulted in striatal lesions showing growth-related changes in dendrites of striatal spiny neurons using the Golgi technique. These results show that a known mitochondrial toxin can produce selective axon-sparing striatal lesions showing both the age dependence and striatal spiny neuron dendritic changes that characterize HD.     

Daily Rhythms of Toxicity and Effectiveness of Anesthetics (MS222 and Eugenol) in Zebrafish (Danio Rerio)

Sleep inertia is a brief period of inferior task performance and/or disori-entation immediately after sudden awakening from sleep. Normally sleep inertia lasts <5 min and has no serious impact on conducting routine jobs. This preliminary study examined whether there are best and worst times to wake up stemming from circadian effects on sleep inertia. Since the process of falling asleep is strongly influenced by circadian time, the reverse process of awakening could be similarly affected. A group of nine subjects stayed awake for a 64-h continuous work period, except for 20-min sleep periods (naps) every 6 h. Another group of 10 subjects stayed awake for 64 h without any sleep. The differences between these two groups in performance degradation are expected to show sleep inertia on the background of sleep deprivation. Sleep inertia was measured with Baddeley's logical reasoning task, which started within 1 min of awakening and lasted for 5 min. There appeared to be no specific circadian time when sleep inertia is either maximal or minimal. An extreme form of sleep inertia was observed, when the process of waking up during the period of the circadian body temperature trough became so traumatic that it created “sleep (nap) aversion.” The findings lead to the conclusion that there are no advantages realized on sleep inertia by waking up from sleep at specific times of day.     

白消安在斑马鱼早期胚胎和幼鱼发育过程中的毒理和致畸作用

白消安(1,4-二甲磺酸丁酯)是目前在治疗慢性嗜中性粒细胞白血病和骨髓移植中使用最广泛的一种摄生体,因为它在临床上的重要作用,其胚胎毒性长期以来一直是医生们关注的焦点。本研究的目的是评估白消安在斑马鱼胚胎和幼鱼早期发育过程中的毒理作用,包括胚胎毒性和致畸效应。研究首先确定了白消安对斑马鱼胚胎和幼鱼的半致死浓度(LD50),在白消安/DMSO溶液中孵育24h的胚胎其LD50值为43.42μg·mL^-1, 幼鱼的LD50则为237.33μg·mL^-1;其次对白消安处理导致的形态学缺陷也进行了研究,主要包括钩形尾、无尾、脊椎弯曲、脊索波浪状扭曲、单胸鳍、围心包水肿、卵黄囊吸收延迟以及短体长;第三,利用阿利辛蓝(Alcian Blue)染色研究了颌骨和脊椎骨的异常发育,白消安处理过的幼鱼的麦克尔氏软骨(Meckel's cartilage)间的距离显著短于未处理过的阴性对照组,而处理组的幼鱼在脊椎骨的分化程度上也明显低于对照组;另外,为了研究白消安对斑马鱼生殖系统的影响,使用生殖细胞特异性的nanos1 cRNA探针标定斑马鱼原始生殖细胞,研究处理前后原始生殖细胞的增殖和迁移状况,发现暴露在40μg·mL^-1的白消安/DMSO溶液中12h,不仅能够抑制原始细胞的增殖而且明显干扰了这些细胞的定向迁移。这种对细胞的迁移作用之前从未见诸报道,其机制需要进一步地深入研究。     

Gene Expression of CRAL_TRIO Family Proteins modulated by Vitamin E Deficiency in Zebrafish (Danio Rerio)

An evaluation of the impact of vitamin E deficiency on expression of the alpha-tocopherol transfer protein (α-TTP) and related CRAL_TRIO genes was undertaken using livers from adult zebrafish based on the hypothesis that increased lipid peroxidation would modulate gene expression. Zebrafish were fed either a vitamin E sufficient (E+) or deficient (E–) diet for 9 months, then fish were euthanized, and livers were harvested. Livers from the E+ relative to E– fish contained 40-times more α-tocopherol (P <0.0001) and one fourth the malondialdehyde (P = 0.0153). RNA was extracted from E+ and E– livers, then subject to evaluation of gene expression of ttpa and other genes of the CRAL_TRIO family, genes of antioxidant markers, and genes related to lipid metabolism. Ttpa expression was not altered by vitamin E status. However, one member of the CRAL_TRIO family, tyrosine-protein phosphatase non-receptor type 9 gene (ptpn9a), showed a 2.4-fold increase (P = 0.029) in E– relative to E+ livers. Further, we identified that the gene for choline kinase alpha (chka) showed a 3.0-fold increase (P = 0.010) in E– livers. These outcomes are consistent with our previous findings that show vitamin E deficiency increased lipid peroxidation causing increases in phospholipid turnover.     

Oxidative Stress and Regulation of Pink1 in Zebrafish (Danio rerio)

Oxidative stress-mediated neuronal dysfunction is characteristic of several neurodegenerative disorders, including Parkinson’s disease (PD). The enzyme tyrosine hydroxylase (TH) catalyzes the formation of L-DOPA, the rate-limiting step in the biosynthesis of dopamine. A lack of dopamine in the striatum is the most characteristic feature of PD, and the cause of the most dominant symptoms. Loss of function mutations in the PTEN-induced putative kinase (PINK1) gene cause autosomal recessive PD. This study explored the basic mechanisms underlying the involvement of pink1 in oxidative stress-mediated PD pathology using zebrafish as a tool. We generated a transgenic line, Tg(pink1:EGFP), and used it to study the effect of oxidative stress (exposure to H₂O₂) on pink1 expression. GFP expression was enhanced throughout the brain of zebrafish larvae subjected to oxidative stress. In addition to a widespread increase in pink1 mRNA expression, mild oxidative stress induced a clear decline in tyrosine hydroxylase 2 (th2), but not tyrosine hydroxylase 1 (th1) expression, in the brain of wild-type larvae. The drug L-Glutathione Reduced (LGR) has been associated with anti-oxidative and possible neuroprotective properties. Administration of LGR normalized the increased fluorescence intensity indicating pink1 transgene expression and endogenous pink1 mRNA expression in larvae subjected to oxidative stress by H₂O₂. In the pink1 morpholino oliogonucleotide-injected larvae, the reduction in the expression of th1 and th2 was partially rescued by LGR. The pink1 gene is a sensitive marker of oxidative stress in zebrafish, and LGR effectively normalizes the consequences of mild oxidative stress, suggesting that the neuroprotective effects of pink1 and LGR may be significant and useful in drug development.     

Circadian rhythms of self-feeding and locomotor activity in zebrafish (Danio Rerio)

To investigate daily feeding rhythms in zebrafish, the authors have developed a new self-feeding system with an infrared photocell acting as a food-demand sensor, which lets small-size fish such as zebrafish trigger a self-feeder. In this paper, the authors used eight groups of 20 fish. Locomotor activity rhythms were also investigated by means of infrared sensors. Under a 12?h:12?h light (L)-dark (D) cycle, zebrafish showed a clear nocturnal feeding pattern (88.0% of the total daily food-demands occurring in the dark phase), concentrated during the last 4?h of the dark phase. In contrast, locomotor activity was mostly diurnal (88.2% of total daily activity occurring in the light phase). Moreover, both feeding and locomotor rhythms were endogenously driven, as they persisted under free-running conditions. The average period length (τ) of the locomotor and feeding rhythms was shorter (τ?=?22.9?h) and longer (τ?=?24.6?h) than 24?h, respectively. During the time that food availability was restricted, fish could only feed during ZT0-ZT12 or ZT12-ZT16. This resulted in feeding activity being significantly modified according to feeding time, whereas the locomotor activity pattern remained synchronized to the LD cycle and did not change during this trial. These findings revealed an independent phasing between locomotor and feeding activities (which were mostly nocturnal or diurnal, respectively), thus supporting the concept of multioscillatory control of circadian rhythmicity in zebrafish.     

Action of Vitamin D and the Receptor,VDRa, in Calcium Handling in Zebrafish (Danio rerio)

The purpose of the present study was to use zebrafish as a model to investigate how vitamin D and its receptors interact to control Ca²⁺ uptake function. Low-Ca²⁺ fresh water stimulated Ca²⁺ influx and expressions of epithelial calcium channel (ecac), vitamin D-25-hydroxylase (cyp2r1), vitamin D receptor a (vdra), and vdrb in zebrafish. Exogenous vitamin D increased Ca²⁺ influx and expressions of ecac and 25-hydroxyvitamin D₃-24-hydroxylase (cyp24a1), but downregulated 1α-OHase (cyp27b1) with no effects on other Ca²⁺ transporters. Morpholino oligonucleotide knockdown of VDRa, but not VDRb, was found as a consequence of calcium uptake inhibition by knockdown of ecac, and ossification of vertebrae is impaired. Taken together, vitamin D-VDRa signaling may stimulate Ca²⁺ uptake by upregulating ECaC in zebrafish, thereby clarifying the Ca²⁺-handling function of only a VDR in teleosts. Zebrafish may be useful as a model to explore the function of vitamin D-VDR signaling in Ca²⁺ homeostasis and the related physiological processes in vertebrates.     

Astroglial Knockout of Glucocorticoid Receptor Attenuates Morphine Withdrawal Symptoms,but Not Antinociception and Tolerance in Mice

The development of tolerance and drug dependence limit the clinical application of opioids for the treatment of severe pain. Glucocorticoid receptors (GRs) are among molecular substrates involved in these processes. Most studies focus on the role of neuronal GR, while the involvement of GR on glial cells is not fully understood. To address this issue, we used a transgenic model of conditional GR knockout mice, targeted to connexin 30-expressing astrocytes, treated with repeated doses of morphine. We observed no difference between control mice and astrocytic GR knockouts in the development of antinociceptive tolerance. Nevertheless, when animals were subjected to precipitated withdrawal, knockouts presented some attenuated symptoms, including jumping. Taken together, our data suggest that hippocampal and spinal astrocytic GRs appear to be involved in opioid withdrawal, and drugs targeting the GR may relieve some symptoms of morphine withdrawal without influencing its antinociceptive properties.

     

斑马鱼胚胎发育中细胞凋亡的研究进展

细胞凋亡是细胞在基因调控下发生的主动消亡过程,在脊椎动物胚胎发育过程中非常重要。斑马鱼作为一种十分理想的发育分子生物学研究模型,在有关细胞凋亡在诸如形态发生、性别分化等方面功能之活体在位研究中日益受到重视。目前,斑马鱼胚胎发育中主要凋亡通路研究已进行了不少工作,特别是caspase及其它凋亡调控基因在斑马鱼中已被成功克隆,通过转基因斑马鱼胚胎中胁迫诱导细胞凋亡并研究其信号通路以及斑马鱼胚胎形态发生的异常改变,为阐明这些凋亡调控基因与发育之间的关系提供了一个强有力的手段。     

Ethanol Affects the Development of Sensory Hair Cells in Larval Zebrafish (Danio rerio)

Children born to mothers with substantial alcohol consumption during pregnancy can present a number of morphological, cognitive, and sensory abnormalities, including hearing deficits, collectively known as fetal alcohol syndrome (FAS). The goal of this study was to determine if the zebrafish lateral line could be used to study sensory hair cell abnormalities caused by exposure to ethanol during embryogenesis. Some lateral line sensory hair cells are present at 2 days post-fertilization (dpf) and are functional by 5 dpf. Zebrafish embryos were raised in fish water supplemented with varying concentrations of ethanol (0.75%–1.75% by volume) from 2 dpf through 5 dpf. Ethanol treatment during development resulted in many physical abnormalities characteristic of FAS in humans. Also, the number of sensory hair cells decreased as the concentration of ethanol increased in a dose-dependent manner. The dye FM 1-43FX was used to detect the presence of functional mechanotransduction channels. The percentage of FM 1-43-labeled hair cells decreased as the concentration of ethanol increased. Methanol treatment did not affect the development of hair cells. The cell cycle markers proliferating cell nuclear antigen (PCNA) and bromodeoxyuridine (BrdU) demonstrated that ethanol reduced the number of sensory hair cells, as a consequence of decreased cellular proliferation. There was also a significant increase in the rate of apoptosis, as determined by TUNEL-labeling, in neuromasts following ethanol treatment during larval development. Therefore, zebrafish are a useful animal model to study the effects of hair cell developmental disorders associated with FAS.     

马兜铃酸对斑马鱼胚胎肾毒性作用

选用肾发育完成(受精后3天)的斑马鱼(Danio rerio)胚胎,用马兜铃酸进行染毒处理,观察胚胎的表型变化及死亡情况,分析马兜铃酸对胚胎的毒性作用及规律;利用肾荧光观察及肾组织切片,观察马兜铃酸处理后胚胎肾形态和肾组织结构的改变情况;利用qPCR检测马兜铃酸处理前后nephrin的表达变化,初步探讨足细胞在马兜铃酸毒性作用中的功能状态。20μmol/L马兜铃酸处理24 h后,胚胎出现明显眼周水肿表现;在马兜铃酸高浓度组(40~80μmol/L),除眼周水肿外,胚胎血循环系统功能出现异常,表现为心率降低、血流缓慢甚至停滞;荧光显微镜下观察发现,马兜铃酸处理组胚胎肾出现肾小球囊性膨胀、前肾管囊性扩张和形态异常;切片显示马兜铃酸处理组胚胎肾组织结构受到损害,表现为肾小球结构疏松、囊性扩张,前肾管上皮细胞细胞排列松散、紊乱及管腔扩张样改变;qPCR结果,马兜铃酸处理组斑马鱼胚胎nephrin的表达水平比对照组显著降低(P0.01)。研究表明,马兜铃酸能损害斑马鱼胚胎肾结构和功能,其毒性作用与肾小球足细胞的功能改变有关。     

斑马鱼繁殖内分泌学研究进展

作为四大模式动物之一,斑马鱼(Danio rerio)广泛应用于胚胎学、发育生物学、毒理学、分子生物学等研究。但关于斑马鱼繁殖内分泌生理和环境毒理方面的研究少见报道,本文综述了近年来,在内分泌学方面以斑马鱼作为实验动物的研究概况。     

Early Development and Tissue Distribution of Pseudoloma neurophilia in the Zebrafish,Danio rerio

The early proliferative stages of the microsporidian parasite, Pseudoloma neurophilia were visualized in larval zebrafish, Danio rerio, using histological sections with a combination of an in situ hybridization probe specific to the P. neurophilia small‐subunit ribosomal RNA gene, standard hematoxylin‐eosin stain, and the Luna stain to visualize spores. Beginning at 5 d post fertilization, fish were exposed to P. neurophilia and examined at 12, 24, 36, 48, 72, 96, and 120 h post exposure (hpe). At 12 hpe, intact spores in the intestinal lumen and proliferative stages developing in the epithelial cells of the anterior intestine and the pharynx and within hepatocytes were observed. Proliferative stages were visualized in the pancreas and kidney at 36–48 hpe and in the spinal cord, eye, and skeletal muscle beginning at 72 hpe. The first spore stages of P. neurophilia were observed at 96 hpe in the pharyngeal epithelium, liver, spinal cord, and skeletal muscle. The parasite was only observed in the brain of larval fish at 120 hpe. The distribution of the early stages of P. neurophilia and the lack of mature spores until 96 hpe indicates that the parasite gains access to organs distant from the initial site of entry, likely by penetrating the intestinal wall with the polar tube.