李雷
主要工作为开发利用斑马鱼作为动物模型进行人类退行性神经系统疾病研究。
个性化签名
- 姓名:李雷
- 目前身份:
- 担任导师情况:
- 学位:
-
学术头衔:
博士生导师
- 职称:-
-
学科领域:
生理学
- 研究兴趣:主要工作为开发利用斑马鱼作为动物模型进行人类退行性神经系统疾病研究。
李雷,教授,1985年毕业于山东大学生物系,获理学学士学位。1991年至1995年就读于美国佐治亚州立大学生物系,获哲学博士学位。1996年至1999年在哈佛大学分子与细胞生物学系从事博士后研究。李雷教授曾先后执教于美国肯塔基大学和圣母大学。目前的主要工作为开发利用斑马鱼作为动物模型进行人类退行性神经系统疾病研究。
-
主页访问
1320
-
关注数
0
-
成果阅读
782
-
成果数
15
李雷, Ping Li‡, Shyam S. Chaurasia§, Yan Gao‡, Aprell L. Carr‡, P. Michael Iuvone§, and Lei Li‡¶
THE JOURNAL OF BIOLOGICAL CHEMISTRY: 283, 46 (2008) : pp. 31673-31678,-0001,():
-1年11月30日
In zebrafish, the expression of long-wavelength cone (LC) opsin mRNA fluctuated rhythmically between the day and night. In a 24-h period, expression was high in the afternoon and low in the early morning. This pattern of fluctuation persisted in zebrafish that were kept in constant darkness, suggesting an involvement of circadian clocks. Functional expression of Clock, a circadian clock gene that contributes to the central circadian pacemaker, was found to play an important role in maintaining the circadian rhythms of LC opsin mRNA expression. In zebrafish embryos, in which the translation of Clock was inhibited by anti-Clock morpholinos, the circadian rhythms of LC opsin mRNA expression diminished. CLOCK may regulate the circadian rhythms of LC opsin mRNA expression via cyclic adenosine monophosphate (cAMP)-dependent signaling pathways. In control retinas, the concentration of cAMP was high in the early morning and low in the remainder of the day and night. Inhibition of Clock translation abolished the fluctuation in the concentration of cAMP, thereby diminishing the circadian rhythms of opsin mRNA expression. Transient increase of cAMP concentrations in the early morning (i.e. by treating the embryos with 8-bromo-cAMP) restored the circadian rhythms of LC opsin mRNA expression in morpholino-treated embryos. Together, the data suggest that Clock plays important roles in regulating the circadian rhythms in photoreceptor cells.
-
99浏览
-
0点赞
-
0收藏
-
0分享
-
80下载
-
0评论
-
引用
【期刊论文】Cloning and Spatial and Temporal Expression of the Zebrafish Dopamine D1 Receptor
李雷, Ping Li, Sitar Shah, , Luoxiu Huang, Aprell L. Carr, Yan Gao, Christine Thisse, Bernard Thisse, and Lei Li, *
DEVELOPMENTAL DYNAMICS: 236, (2007): 1339-1346,-0001,():
-1年11月30日
Dopamine plays important roles in the regulation of central nervous system (CNS) development and functions. In vertebrates, two families of dopamine receptors, collectively known as dopamine D1 and D2 receptors, have been identified. Recently, dopamine receptors have been targeted by pharmacological and therapeutic studies of neurological disorders, such as Parkinson’s disease. Here, we report a study on the molecular characterization of dopamine D1 receptor in zebrafish (Danio rerio). We cloned the full-length cDNA of a zebrafish dopamine D1 receptor, designated as drd1. The sequence of drd1 shares high homology to the sequences of dopamine D1 receptors in mammalian, amphibian, and other fish species. drd1 is expressed in the CNS. The first drd1 expression was observed at approximately 30 hours postfertilization, at which time the expression was seen in the developing diencephalon and hindbrain. In developing retinas, the expression of drd1 was detected in the inner nuclear layer with the exception of the marginal zones. In adult retinas, drd1 expression was detected in most cell types in the inner and outer nuclear layers as well as ganglion cell layer. Differential expression of drd1 in developing and adult retinas may play various roles in regulating visual system functions. Developmental Dynamics 236:1339–1346, 2007.
Dopamine, D1 receptor, retina, CNS, zebrafish
-
40浏览
-
0点赞
-
0收藏
-
0分享
-
82下载
-
0评论
-
引用
李雷, Chuan-Jiang Yu, Yan Gao, Ping Li and Lei Li*
The Journal of Experimental Biology: 210, (2007): 676-684,-0001,():
-1年11月30日
Endogenous circadian clocks regulate day-night rhythms of animal behavior and physiology. In zebrafish, the circadian clocks are located in the pineal gland and the retina. In the retina, each photoreceptor is considered a circadian oscillator. A critical question is whether the individual circadian oscillators are synchronized. If so, the mechanism that underlies the synchronization needs to be elucidated. We generated a transgenic zebrafish line that expresses short half-life GFP under the transcriptional control of the rhodopsin promoter. Time-lapse imaging of rhodopsin promoter-driven GFP expression revealed that during 24·h in constant darkness, rhodopsin promoter expression in rod photoreceptor cells fluctuated rhythmically. However, the pattern of fluctuation differed between individual cells. In some cells, peak expression was seen in the subjective early morning, whereas in other cells, peak expression was seen in the afternoon or at night. Light transiently decreased rhodopsin expression, thereby synchronizing the multiphasic circadian oscillation. The application of dopamine or dopamine D2 receptor agonist also synchronized the circadian rhythms of rhodopsin promoter expression. When the D2 receptors were pharmacologically blocked, light exposure produced no effect. This suggests that the synchronization of the circadian rhythms of rhodopsin promoter expression by light is mediated by dopamine D2 receptors. The mechanism that underlies the synchronization probably involves dopamine-mediated Ca2+ signaling pathways. Light, as well as dopamine, lowered Ca2+ influx into the rod cells, thereby resetting rhodopsin promoter expression to the initial phase.
circadian clock,, rod photoreceptor cell,, rhodopsin promoter,, retina,, zebrafish.,
-
83浏览
-
0点赞
-
0收藏
-
0分享
-
68下载
-
0评论
-
引用
李雷, Luoxiu Huang, Hans Maaswinkel and Lei Li
J Physiol: 569, 3 (2005): pp 939-948,-0001,():
-1年11月30日
The vertebrate retina receives centrifugal input fromthe brain. Inzebrafish, the major centrifugal input originates in the terminal nerve (TN). TN cell bodies are located in the olfactory bulb and ventral telencephalon. The TN projects axons to the retina where they branch in the inner plexiform layer (IPL) and synapse onto several inner retinal cell types, including dopaminergic interplexiform cells (DA-IPCs). This olfactoretinal centrifugal input plays a role in modulating retinal ganglion cell (RGC) activity, probably via dopamine-mediated Ca2+ signalling pathways. Normally, dopamine inhibits RGC firing by decreasing the inward Ca2+ current. Olfactory stimulation with amino acids decreases dopamine release in the retina, thereby reducing dopaminergic inhibition of RGCs. Thismodel of olfacto-visual integration was directly tested by recording single-unitRGCactivity in response to olfactory stimulation in the presence or absence of dopamine receptor blockers. Stimulation of the olfactory neurones increased RGC activity. However, this effect diminished when the dopamine D1 receptors were pharmacologically blocked. In isolated RGCs, the application of dopamine or a dopamine D1 receptor agonist decreased voltage-activated Ca2+ current and lowered Ca2+ influx. Together, the data suggest that olfactory input has a modulatory effect on RGC firing, and that this effect is mediated by dopamine D1 receptor-coupled Ca2+ signalling pathways.
-
51浏览
-
0点赞
-
0收藏
-
0分享
-
63下载
-
0评论
-
引用
李雷, Hans Maaswinkel, Laurie E. Riesbeck, Meghan E. Riley, Aprell L. Carr, Jeffrey P. Mullin, Andrew T. Nakamoto, Lei Li *
Mechanisms of Ageing and Development: 126, (2005): 1079-1089,-0001,():
-1年11月30日
Here we report three dominant nightblindness mutations in zebrafish: nightblindness e (nbe), nightblindness f (nbf) and nightblindness g (nbg). The mutants were isolated in the F1 generation of N-ethyl-N-nitrosourea (ENU) mutagenized zebrafish using a behavioral assay based on visually mediated escape responses. Subsequently, electroretinographic (ERG) recordings were made, and histological sections were screened for degenerative processes. For each mutant line, correlation analysis between behavioral, ERG and histological parameters was performed, and their relationships were determined by either calculating the Pearson correlation coefficient or by ANOVA. nbe is characterized by severe rod outer segments (ROS) degeneration. The degeneration correlates weakly with behavioral threshold and ERG b-wave amplitude, however, behavioral threshold correlates strongly with ERG b-wave. nbf is characterized by a dual histological pathology: patchy ROS-degeneration and ‘gaps’ homogeneously distributed over the outer nuclei layer (ONL) and between cone outer segments (COS). The correlations between histological pathology and behavioral threshold, and between behavioral threshold and ERG bwave amplitude are obvious, but the correlation between histology and b-wave amplitude is less prominent. nbg is characterized by moderate ROS degeneration and moderate correlation between histology and behavioral threshold. Interestingly, behavioral threshold correlated inversely with ERG b-wave amplitude and threshold. Thus, contrary to what is normally seen in other nightblindness mutants, in nbg, the fish with the lowest behavioral threshold had the smallest b-waves amplitudes and the highest b-wave threshold. In our interpretation, the major impairment in nbe is photoreceptor-specific. In nbf, both photoreceptor degeneration and altered post-photoreceptor signaling are responsible for the behavioral deficit. In nbg, we find hypersensitivity at a post-photoreceptoral level concurrently with behavioral impairment.
Nightblindness, Degeneration, Mutation, Retina, Photoreceptor, Aging, Zebrafish
-
55浏览
-
0点赞
-
0收藏
-
0分享
-
70下载
-
0评论
-
引用
【期刊论文】Transgenic Zebrafish That Express Tyrosine Hydroxylase Promoter in Inner Retinal Cells
李雷, Yan Gao, Ping Li, and Lei Li*
DEVELOPMENTAL DYNAMICS: 233: 921-929, 2005,-0001,():
-1年11月30日
We have generated a transgenic zebrafish line [Tg(Th:GFP)] that expresses green fluorescence proteins (GFP) driven by rat tyrosine hydroxylase (TH) promoter. In zebrafish, the transgene was expressed as early as 16 hr postfertilization (hpf). The first transgene expression was detected in the midbrain. Within a few hours of development, the expression spread to the forebrain and hindbrain. In the retina, the first transgene expression was detected at approximately 40 hpf, at which time a single GFP-positive cell was seen in the ventral–nasal patch of the retina. In late development, GFP spread across the inner retina. GFP was found in retinal cells that expressed TH or phenylethanolamine N-methyl-transferase (PNMT), the first and last enzymes for synthesis of catecholamine, respectively. This suggests that the transgene is expressed in catecholaminergic neurons. Of interest, GFP was also detected in some retinal cells that release-aminobutyric acid. These latter data suggest that the transgene may also be expressed in noncatecholaminergic cells. Developmental Dynamics 233: 921-929, 2005.
catecholamine, transgenic, retina, development, zebrafish
-
55浏览
-
0点赞
-
0收藏
-
0分享
-
78下载
-
0评论
-
引用
李雷, Ping Li, , Shelby Temple, Yan Gao, Theordore J. Haimberger, Craig W. Hawryshyn and Lei Li, *
The Journal of Experimental Biology: 208, (2005): 497-504,-0001,():
-1年11月30日
Using a behavioral assay based on visually mediated escape responses, we measured long-wavelength-sensitive red cone (LC) sensitivities in zebrafish. In a 24·h period, the zebrafish were least sensitive to red light in the early morning and most sensitive in the late afternoon. To investigate if the fluctuation of behavioral cone sensitivity correlates with opsin gene expression, we measured LC opsin mRNA expression at different times in the day and night under different lighting conditions. Under a normal light-dark cycle, the expression of LC opsin mRNA determined by real-time RT-PCR was low in the early morning and high in the late afternoon, similar to the fluctuation of behavioral cone sensitivity. This rhythm of LC opsin mRNA expression, however, dampened out gradually in constant conditions. After 24·h of constant light (LL), the expression of LC opsin mRNA dropped to levels similar to those determined in the early morning in control animals. By contrast, when the zebrafish were kept in constant dark (DD), the expression of LC opsin mRNA increased, to levels about 30-fold higher than the expression in the early morning in control animals. This day-night fluctuation in LC opsin mRNA expression was correlated to changes in opsin density in the outer segment of cone photoreceptor cells. Microspectrophotometry (MSP) measurements found significant differences in red cone outer segment optical density with a rhythm following the behavioral sensitivity. Furthermore, dopamine modulated the circadian rhythms in expression of LC opsin mRNA. Administration of dopamine increased LC opsin mRNA expression, but only in the early morning.
circadian rhythm,, opsin mRNA expression,, behavioral visual sensitivity,, zebrafish.,
-
56浏览
-
0点赞
-
0收藏
-
0分享
-
53下载
-
0评论
-
引用
李雷, Jason Q. Ren a, Lei Li a, b, *
Vision Research: 44, (2004): 2147-2152,-0001,():
-1年11月30日
In zebrafish,during dark adaptation following bright light adaptation,the dominance of electroretinogram (ERG) b-and dwaves switches. In the early dark adaptation,when visual sensitivity is cone-dominant, both the b-and d-waves are readily recorded. In the late dark adaptation,along with the increase of rod sensitivity,the b-wave becomes dominant whereas the d-wave is gradually lost. The time for the ERG b-and d-wave dominance transition varies between the day and night. The transition requires a longer amount of time in the night and early morning than in the afternoon. This pattern of timing for ERG b-and d-wave dominance transition persists in constant light and can be reversed after exposure to a reversed light-dark cycle. The data suggest that the transition of the dominance of ERG b-and d-waves is regulated by an endogenous circadian clock.
Circadian rhythm, Rod-cone dominance, ERG, b-wave, d-wave, Zebrafish
-
37浏览
-
0点赞
-
0收藏
-
0分享
-
64下载
-
0评论
-
引用
李雷, Hans Maaswinkel, Bryan Mason, Lei Li∗
Mechanisms of Ageing and Development: 124, (2003): 1065-1071,-0001,():
-1年11月30日
We describe a dominant mutation, night blindness d (nbd), that causes late-onset rod photoreceptor cell degeneration in zebrafish. The mutation was induced by treating male zebrafish with N-ethyl-N-nitrosourea (ENU). Visual sensitivity was tested using a behavioral assay based on a visually mediated escape response. At a young age, the heterozygous (nbd+/−) fish did not show any signs of night blindness or retinal degeneration. At 2 years, their behaviorally assessed visual sensitivity was decreased, albeit no alterations in the electroretinogram (ERG) were detected. Histology revealed that in the mutant retinas the rod photoreceptor cell outer segments (ROS) were thinned out. In homozygous larvae (nbd−/−), mass neural degeneration was detectable at about 2 days post fertilization (dpf). They died at an early age, usually no later than 8 dpf. In conclusion, nbd is a dominant mutation that causes late-onset night blindness with slow progression. However, nbd is not photoreceptor cell-specific, as becomes clear from the systemic dysfunctions of the homozygous larvae.
Zebrafish, Night blindness, Retinal degeneration, Visual sensitivity
-
58浏览
-
0点赞
-
0收藏
-
0分享
-
59下载
-
0评论
-
引用
【期刊论文】Spatio-temporal frequency characteristics of the optomotor response in zebrafish
李雷, Hans Maaswinkel, Lei Li *
Vision Research: 43, (2003): 21-30,-0001,():
-1年11月30日
The optomotor response (OMR) is a simple experimental paradigm that is widely used in the study of visual system functions. In the current paper we investigatedhow spatial and temporal properties of repetitive stimuli determine the OMR in zebrafish. The experiments showedthat the OMR has the temporal characteristic of a low-pass filter when the spatial frequencies are low and of a band-pass filter when the spatial frequencies are high. These findings are discussed on the basis of inherent sampling constraints of any motion detector. We found some indications that the strength and direction of the OMR vary with the spatio-temporal frequency of the stimulus pattern as has previously been described for other species.
Optomotor response, Motion detection, Spatio-temporal frequencies, Zebrafish
-
48浏览
-
0点赞
-
0收藏
-
0分享
-
105下载
-
0评论
-
引用