1.Retinoic acid signal pathway regulation of zebra fish tooth development through manipulation of the differentiation of neural crest.
Xin LIU ; Xing HUANG ; Zhiyun XU ; Deqin YANG
West China Journal of Stomatology 2016;34(2):115-120
OBJECTIVETo investigate the mechanism of retinoic acid (RA) signal in dental evolution, RA is used to explore the influence of the mechanism on neural crest's migration during the early stage of zebra fish embryos.
METHODSWe divided embryos of wild type and transgenic line zebra fish into three groups. 1 x 10(-7) to 6 x 10(-7) mol x L(-1) RA and 1 x 10(-7) mo x L(-1) 4-diethylaminobenzaldehyde (DEAB) were added into egg water at 24 hpf for 9 h. Dimethyl sulfoxid (DMSO) with the concentration was used as control group. Then, antisense probes of dlx2a, dlx2b, and barxl were formulated to perform whole-mount in situ hybridization to check the expressions of the genes in 48 hpf to 72 hpf embryos. We observed fluorescence of transgenic line in 4 dpf embryos.
RESULTSWe obtained three mRNA probes successfully. Compared with DMSO control group, a low concentration (1 x 10(-7) mol x L(-1)) of RA could up-regulate the expression of mRNA (barx1, dlx2a) in neural crest. Obvious migration trend was observed toward the pharyngeal arch in which teeth adhered. Transgenic fish had spreading fluorescence tendency in pharyngeal arch. However, a high concentration (4 x 10(-7) mol x L(-1)) of RA malformed the embryos and killed them after treatment. One third of the embryos of middle concentration (3 x 10(-7) mo x L(-1)) exhibited delayed development. DEAB resulted in neural crest dysplasia. The expression of barxl and dlx2a were suppressed, and the appearance of dlx2b in tooth was delayed.
CONCLUSIONRA signal pathway can regulate the progenitors of tooth by controlling the growth of the neural crest and manipulating tooth development
Animals ; Branchial Region ; Cell Differentiation ; drug effects ; Embryo, Nonmammalian ; drug effects ; embryology ; metabolism ; In Situ Hybridization ; Neural Crest ; drug effects ; Odontogenesis ; Signal Transduction ; Tooth ; drug effects ; embryology ; metabolism ; Tretinoin ; pharmacology ; Zebrafish ; embryology ; genetics ; metabolism
2.Effect of external retinoic acid on Tbx1 gene during zebrafish embryogenesis.
Li-Feng ZHANG ; Yong-Hao GUI ; Tao ZHONG ; Yue-Xiang WANG ; Lin-Xi QIAN ; Yong-Xin DONG ; Qiu JIANG ; Shu-Na SUN ; Hou-Yan SONG
Chinese Journal of Pediatrics 2007;45(4):267-271
OBJECTIVEDiGeorge/del22q11 syndrome is one of the most common genetic causes of outflow tract and aortic arch defects in human. DiGeorge/del22q11 is thought to involve an embryonic defect restricted to the pharyngeal arches and the corresponding pharyngeal pouches. Previous studies have evidenced that retinoic acid (RA) signaling is definitely indispensable for the development of the pharyngeal arches. Tbx1, one of the T-box containing genes, is proved to be the most attractive candidate gene for DiGeorge/del22q11 syndrome. However, the interaction between RA and Tbx1 has not been fully investigated. Exploring the interaction will contribute to discover the molecular pathways disrupted in DiGeorge/del22q11 syndrome, and will also be essential for understanding genetic basis for congenital heart disease. It now seems possible that genes and molecular pathways disrupted in DiGeorge syndrome will also account for some isolated cases of congenital heart disease. Accordingly, the present study aimed to extensively study the effects of external RA on the cardiac development and Tbx1 expression during zebrafish embryogenesis.
METHODSThe chemical genetics approach was applied by treating zebrafish embryos with 5 x 10(-8) mol/L RA and 10(-7) mol/L RA at 12.5 hour post fertilization (hpf). The expression patterns of Tbx1 were monitored by whole-mount in situ hybridization and quantitative real-time RT-PCR, respectively.
RESULTSThe zebrafish embryos treated with 5 x 10(-8) mol/L RA and 10(-7) mol/L RA for 1.5 h at 12.5 hpf exhibited selective defects of abnormal heart tube. The results of whole-mount in situ hybridization with Tbx1 RNA probe showed that Tbx1 was expressed in cardiac region, pharyngeal arches and otic vesicle during zebrafish embryogenesis. RA treatment led to a distinct spatio-temporal expression pattern for Tbx1 from that in wild type embryo. The real-time PCR analysis showed that Tbx1 expression levels were markedly reduced by RA treatment. Tbx1 expression in the pharyngeal arches and heart were obviously down regulated compared to the wild type embryos. In contrast to 5 x 10(-8) mol/L RA-treated groups, 10(-7) mol/L RA caused a more severe effect on the Tbx1 expression level.
CONCLUSIONThese results suggested that there was a genetic link between RA and Tbx1 during development of zebrafish embryo. RA could produce an altered Tbx1 expression pattern in zebrafish. RA may regulate the Tbx1 expression in a dose-dependant manner. RA could represent a major epigenetic factor to cause abnormal expression of Tbx1, secondarily, disrupt the pharyngeal arch and heart development.
Animals ; Branchial Region ; drug effects ; embryology ; Embryo, Nonmammalian ; drug effects ; Embryonic Development ; drug effects ; Gene Expression Regulation, Developmental ; Heart ; drug effects ; embryology ; T-Box Domain Proteins ; genetics ; metabolism ; Tretinoin ; pharmacology ; Zebrafish ; embryology ; genetics ; Zebrafish Proteins ; genetics ; metabolism
3.Effects of Exogenous Carbon Monoxide Releasing Molecules on the Development of Zebrafish Embryos and Larvae.
Jing E SONG ; Jing SI ; ; Rong ZHOU ; ; Hua Peng LIU ; Zhen Guo WANG ; Lu GAN ; ; Fang GUI ; Bin LIU ; Hong ZHANG ;
Biomedical and Environmental Sciences 2016;29(6):453-456
The use of exogenous carbon monoxide releasing molecules (CORMs) provides promise for clinical application; however, the hazard potential of CORMs in vivo remains poorly understood. The developmental toxicity of CORM-3 was investigated by exposure to concentrations ranging from 6.25 to 400 μmol/L during 4-144 h post fertilization. Toxicity endpoints of mortality, spontaneous movement, heart rate, hatching rate, malformation, body length, and larval behavior were measured. CORM-3 disrupted the progression of zebrafish larval development at concentrations exceeding 50 μmol/L, resulting in embryonic developmental toxicity.
Animals
;
Carbon Monoxide
;
pharmacology
;
Cardiotonic Agents
;
toxicity
;
Dose-Response Relationship, Drug
;
Embryo, Nonmammalian
;
drug effects
;
Embryonic Development
;
drug effects
;
Organometallic Compounds
;
toxicity
;
Zebrafish
;
embryology
;
metabolism
4.Development of in vitro produced porcine embryos according to serum types as macromolecule.
Jungmin SON ; Don Buddika Oshadi MALAWEERA ; Eunsong LEE ; Sangtae SHIN ; Jongki CHO
Journal of Veterinary Science 2013;14(3):315-321
This study was conducted to establish an in vitro maturation (IVM) system by selection of efficient porcine serum during porcine in vitro production. To investigate the efficient porcine serum (PS), different types of PS [newborn pig serum, prepubertal gilt serum (PGS), estrus sow serum, and pregnancy sow serum] were used to supplement IVM media with or without gonadotrophin (GTH) and development rates of parthenogenetic activation (PA) and in vitro fertilization (IVF) embryos were then compared. The maturation rates of the PGS group was significantly higher when GTH was not added. Additionally, during development of PA embryos without GTH, the PGS group showed significantly higher cleavage and blastocyst formation rates. Moreover, the cleavage rates of IVF embryos were significantly higher in the PGS group, with no significant differences in the blastocyst formation. However, when GTH was supplemented into the IVM media, there were no significant differences among the four groups in the cleavage rates, development rates of the blastocyst, and cell number of the blastocyst after PA and IVF. In conclusion, PGS is an efficient macromolecule in porcine IVM, and GTH supplementation of the IVM media is beneficial when PS is used as macromolecule, regardless of its origin.
Animals
;
Blastocyst/*drug effects
;
Embryo, Mammalian/drug effects/*embryology/physiology/ultrastructure
;
Fertilization in Vitro/veterinary
;
Gonadotropins/administration & dosage/*metabolism
;
In Vitro Oocyte Maturation Techniques/*methods/veterinary
;
Parthenogenesis/*drug effects
;
Sus scrofa/*embryology
5.Lidamycin inhibits angiogenesis of zebrafish embryo via down-regulation of VEGF.
Li-li DING ; Ming LIU ; Sheng-hua ZHANG ; Xiang-zhong ZHAO ; Ning WU ; Lei CHEN ; Guang-jian WANG ; Xiu-kun LIN
Acta Pharmaceutica Sinica 2010;45(4):456-461
Lidamycin (LDM) is a potent antitumor antibiotic. Previous studies have shown that LDM could inhibit proliferation and migration in endothelial cells. In the present report, the effect of LDM on angiogenesis of zebrafish embryo was studied. The results showed that treatment of zebrafish embryos with LDM resulted in significant inhibition of angiogenesis. Morphological observation, quantitative endogenous alkaline phosphatase (EAP) assay, alkaline phosphatase staining, and transgenic zebrafish assay were performed to evaluate vascular development defects in zebrafish. The results indicated that after the zebrafish embryos were exposed to LDM, angiogenesis defects of zebrafish embryos were observed, including pericardial edema, reduced numbers of circulating red blood cells, suppression of zebrafish vessel growth, and absences of SIV (subintestinal vein). The expression of VEGF was detected by RT-PCR assay, quantitative reverse transcriptase real-time PCR (qRT-PCR) assay and Western blotting analysis. The results revealed that LDM could inhibit the expression of VEGF protein, while the expression of mRNA was not significantly affected. The study suggests that LDM could inhibit the zebrafish embryo angiogenesis by down-regulation ofVEGF expression.
Aminoglycosides
;
pharmacology
;
Animals
;
Animals, Genetically Modified
;
embryology
;
genetics
;
physiology
;
Antibiotics, Antineoplastic
;
pharmacology
;
Down-Regulation
;
Embryo, Nonmammalian
;
drug effects
;
Enediynes
;
pharmacology
;
Neovascularization, Physiologic
;
drug effects
;
genetics
;
RNA, Messenger
;
metabolism
;
Vascular Endothelial Growth Factor A
;
genetics
;
metabolism
;
Zebrafish
;
embryology
;
genetics
;
physiology
6.Effects of Protein Source and Energy Substrates on the In Vitro Development of Bovine Embryos in a Two-step Culture System.
Kwang Taek LIM ; Byeong Chun LEE ; Sung Keun KANG ; Woo Suk HWANG
Journal of Veterinary Science 2003;4(1):73-78
In this study, we examined the effects of a two-step culture system, which involves the use of different culture media for early cleavage and later stage embryos, on the in vitro development of bovine embryos. We also investigated the effect of glucose, phosphate and citrate on the in vitro early developmental period of bovine embryos in a two-step culture system. Moreover, the supplementation of different protein sources (BSA-V, BSA-FAF and FBS) during IVC did not affect the frequency of blastocyst development. Using two-step culture, embryos were cultured in protein-free media for an initial 5 days. This was then followed by the same culture media or an FBS supplemented media. The developmental rates of blastocysts in the FBS containing group were significantly higher than in the replaced with no serum containing group. Embryos cultured in mSOF supplemented with 1.5 mM glucose plus 1.2 mM phosphate were significantly inhibited. The inhibition of developmental competence by glucose plus phosphate was consistent with the existence of 0.5 mM sodium citrate. This study indicates that a two-step culture system, which applies different conditions for early cleavage embryos, i.e., serum-free media, vs. later stage embryos, with serum containing media, may be effective for in vitro production systems. In addition, the developmental competence of bovine embryos was depressed in the presence of glucose plus phosphate as compared to either alone or the absence of both. Therefore, the avoidance of this negative effect should allow more optimal conditions to be developed for in vitro production.
Animals
;
Blastocyst/drug effects/metabolism
;
Cattle/*embryology
;
Citric Acid/pharmacology
;
Culture Media/*chemistry
;
Culture Techniques/*methods
;
Ectogenesis/drug effects
;
Embryo/*drug effects/embryology/metabolism
;
Embryonic and Fetal Development/drug effects
;
*Energy Metabolism
;
Female
;
Fertilization in Vitro
;
Glucose/pharmacology
;
Male
;
Phosphates/pharmacology
;
Proteins/*pharmacology
;
Zygote/drug effects/metabolism
7.Effects of zinc on bone development in mouse embryo in vitro.
Chinese Journal of Preventive Medicine 2002;36(2):97-99
OBJECTIVEThis study was designed to explore the effects of zinc on bone development.
METHODSForelimbs of mice with 16 d gestation were cultured by a rotating device.
RESULTSContents of OC and (45)Ca and activities of AKP in the bone tissues cultured at zinc-deficiency media and at media with 120 micro mol/L of Zn(2+) decreased significantly. Synthesis of OC, absorption of calcium and activities of AKP in the bone tissues cultures at media with 45 and 70 micro mol/L of Zn(2+) increased significantly. Radiograph of bone tissues showed that length of long bone cultured at zinc-deficiency media and at media with 120 micro mol/L of Zn(2+) shortened and their density reduced, and those cultured at media with 45 and 70 micro mol/L of zinc increased, as compared with self-control bone. Histological analysis showed the death of bone cells and loss of stroma in the bone tissues cultured at media with 120 micro mol/L of Zn(2+), and active proliferation and differentiation of bone cells, and secretion and synthesis of osteoid increased in the bone tissues cultured at media with 45 and 70 micro mol/L of zinc.
CONCLUSIONSAdequate supplementation of zinc could promote formation and development of bone tissues and deficiency or excess of zinc could alter their growth and development and normal metabolism.
Animals ; Bone Density ; drug effects ; Bone Development ; drug effects ; Calcium ; metabolism ; Embryo, Mammalian ; drug effects ; physiology ; Extremities ; embryology ; Female ; Insulin-Like Growth Factor II ; Male ; Mice ; Proteins ; metabolism ; Zinc ; pharmacology
8.Research progress of zebrafish used in drug metabolism.
Acta Pharmaceutica Sinica 2011;46(9):1026-1031
Zebrafish is widely used as a model organism in the process of drug discovery. It expresses drug metabolizing enzymes like cytochrome P450 (CYP450), uridine 5'-diphospho-glucuronosyltransferase (UGT) and nuclear receptors like pregnane X receptor (PXR), aryl hydrocarbon receptor (AHR), etc. This article summarized the profiles of main drug metabolizing enzymes and nuclear receptors, and reviewed the advances on xenobiotics metabolism in zebrafish.
Animals
;
Cytochrome P-450 Enzyme System
;
metabolism
;
Embryo, Nonmammalian
;
drug effects
;
Glucuronosyltransferase
;
metabolism
;
Inactivation, Metabolic
;
Pharmaceutical Preparations
;
metabolism
;
Polychlorinated Dibenzodioxins
;
toxicity
;
Receptors, Aryl Hydrocarbon
;
metabolism
;
Receptors, Cytoplasmic and Nuclear
;
metabolism
;
Receptors, Steroid
;
metabolism
;
Teratogens
;
toxicity
;
Xenobiotics
;
metabolism
;
Zebrafish
;
embryology
;
metabolism
9.Effect and mechanism of curcumol on angiogenesis activity of zebrafishes.
Lili TIAN ; Jianyong DONG ; Changjiang HUANG
China Journal of Chinese Materia Medica 2012;37(12):1822-1825
OBJECTIVETo conduct a preliminary study on the effect of curcumol in promoting angiogenesis activity and its mechanism in zebrafishes, in order to provide basis for clinical prescription.
METHODZebrafishes biological model was established to, observe curcumol's effect on embryo blood vessel growth, blood vessel regeneration of adult fishes after tail-cutting and tissue regeneration of fish fries after tail-cutting. The relative fluorescence quantitative PCR method was adopted to determine the gene expression of vascular endothelial growth factor (VEGFA) and receptor VEGFR2 of fish fries after tail-cutting.
RESULTCurcumol contributed to angiogenesis of intersegmental blood vessels in zebrafishes embryos and speed up regeneration of blood vessels in adult fishes after tail-cutting. Furthermore, curcumol can increase the gene expression of VEGFA and VEGFR2 in fish fries.
CONCLUSIONCurcumol can promote angiogenesis in zebrafishes, and enhance the gene expression of VEGFA and VEGFR2 in fish fries after tail-cutting and speed up the regeneration of their tails.
Animals ; Embryo, Nonmammalian ; blood supply ; drug effects ; metabolism ; Gene Expression Regulation ; drug effects ; Neovascularization, Physiologic ; drug effects ; Sesquiterpenes ; pharmacology ; Vascular Endothelial Growth Factor A ; genetics ; Vascular Endothelial Growth Factor Receptor-2 ; genetics ; Zebrafish ; embryology ; genetics ; physiology
10.Glyceollins, a novel class of soybean phytoalexins, inhibit SCF-induced melanogenesis through attenuation of SCF/c-kit downstream signaling pathways.
Experimental & Molecular Medicine 2013;45(4):e17-
The anti-melanogenesis effect of glyceollins was examined by melanin synthesis, tyrosinase activity assay in zebrafish embryos and in B16F10 melanoma cells. When developing zebrafish embryos were treated with glyceollins, pigmentation of the embryos, melanin synthesis and tyrosinase activity were all decreased compared with control zebrafish embryos. In situ expression of a pigment cell-specific gene, Sox10, was dramatically decreased by glyceollin treatment in the neural tubes of the trunk region of the embryos. Stem cell factor (SCF)/c-kit signaling pathways as well as expression of microphthalmia-associated transcription factor (MITF) were determined by western blot analysis. Glyceollins inhibited melanin synthesis, as well as the expression and activity of tyrosinase induced by SCF, in a dose-dependent manner in B16F10 melanoma cells. Pretreatment of B16F10 cells with glyceollins dose-dependently inhibited SCF-induced c-kit and Akt phosphorylation. Glyceollins significantly impaired the expression and activity of MITF. An additional inhibitory function of glyceollins was to effectively downregulate intracellular cyclic AMP levels stimulated by SCF in B16F10 cells. Glyceollins have a depigmentation/whitening activity in vitro and in vivo, and that this effect may be due to the inhibition of SCF-induced c-kit and tyrosinase activity through the blockade of downstream signaling pathway.
Animals
;
Embryo, Nonmammalian/drug effects
;
Melanins/*biosynthesis
;
Melanoma, Experimental/metabolism/pathology
;
Mice
;
Monophenol Monooxygenase/metabolism
;
Phosphorylation/drug effects
;
Pigmentation/drug effects
;
Proto-Oncogene Proteins c-kit/*metabolism
;
Pterocarpans/chemistry/*pharmacology
;
SOXE Transcription Factors/metabolism
;
Sesquiterpenes/chemistry/*pharmacology
;
Signal Transduction/*drug effects
;
Soybeans/*chemistry
;
Stem Cell Factor/*pharmacology
;
Zebrafish/embryology/metabolism