• Title/Summary/Keyword: Fetal brain

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Expression of N-Methylpurine-DNA Glycosylase Gene during Fetal Development and Adult in Mice (생쥐 태아 및 성체 조직에서의 N-Methylpurine-DNA Glycosylase 유전자의 발현)

  • Sohn, Tae-Jong;Kim, Nam-Keun;Lee, Sook-Hwan;Han, Sei-Yul;Ko, Jung-Jae;Park, Chan;Lee, Woo-Sik;Lee, Chan;Lee, Yong-Hee;Cha, Kwang-Yul
    • Development and Reproduction
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    • v.3 no.1
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    • pp.101-105
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    • 1999
  • N-Methylpurine-DNA glycosylase (MPG) removes N-methylpurine and other damaged purines in DNA. RT-PCR analysis revealed MPG mRNA expression at various tissues of fetal development from day 8 to day 18 fetus and day 400 mature adult. The MPG transcripts were abundant during fetal development in mice. In placenta, the MPG mRNA was continuously decreased from day 8 post coitum (p.c) to day 18 p.c. fetus. The high level of mRNA in fetal brain and liver was drastically declined in day 400 mature adult. The expression of MPG, originally characterized by its highest level of expression in the epididymis of adult mouse, was detected with high level in several other reproductive organ, including the ovary, oviduct, testis, vas deference, uterus, and seminal vesicles. These results demonstrate developmental stage- and tissue-specific variation of MPG gene expression.

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Photodynamic Therapy with Photofrin Reduces Invasiveness of U87 Malignant Human Glioma Cells (교모세포종 세포주 U87에서 Photofrin을 사용한 광역학 치료가 종양 침습성에 미치는 영향)

  • Woo, Hye Kyung;Cho, Kyung-Keun;Rha, Hyung Kyun;Lee, Kyung Jin;Park, Sung Chan;Cho, Jung Ki;Park, Hea Kwan;Kang, Joon Ki;Choi, Chang Rak
    • Journal of Korean Neurosurgical Society
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    • v.30 no.sup2
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    • pp.189-196
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    • 2001
  • Objective : We tested the hypothesis that photodynamic therapy(PDT) with Photofrin inhibits tumor invasion of U87 human glioma cells using several in vitro assay to measure tumor invasiveness. The effects of PDT on cell growth, directional migration and cell invasion were investigated. Material and Method : Tumor cells were treated with Photofrin at various doses and at a fixed optical(632nm) dose of $100mJ/cm^2$. Cytotoxicity was tested using the MTT method. Invasion assays including the matrigelartificial basement membrane barrier migration and spheroid confrontation with confocal microscopic analysis were used to study the relationship between PDT and invasiveness. Result : U87 cells showed a dose dependent cytotoxic response to increasing Photofrin dose. Data from the matrigel artificial basement membrane assay indicate that PDT inhibits the U87 cell migration dose dependently. Low doses of subcytotoxic PDT treatment, such as 2.5ug/ml Photofrin dose, also appeared to significantly inhibit migration of U87 cells(p<0.05). In co-cultures between U87 cell spheroids and brain aggregates, progressive invasion with destruction of the brain aggregate occurs. The extent of tumor cell infiltration and proportion or intact brain aggregate remaining after 24h differs in Photofrin PDT treated versus Photofrin only control, with changes suggestive of a dose-response effect. Conclusion : our data indicate that PDT with Photofrin significantly inhibits the invasiveness of U87 cells, and this inhibition is dose dependent.

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Developmental Anomalies of Central Nervous System in Human

  • Chi, Je G.
    • Toxicological Research
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    • v.17
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    • pp.11-16
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    • 2001
  • The development of the central nervous system is a continuous process during the embryonic and fetal periods. For a better understanding of congenital anomalies of central nervous system, three major events of normal development, i.e., neurulation (3 to 4 weeks), brain vesicle formation (4 to 7 weeks) and mantle formation (over 8 weeks) should be kept in mind. The first category of anomalies is neural tube defect. Neural tube defects encompass all the anomalies arise in completion of neurulation. The second category of central nervous system anomalies is disorders of brain vesicle formation. This is anomaly that applies for "the face predicts the brain". Holoprosencephaly covers a spectrum of anomalies of intracranial and midfacial development which result from incomplete development and septation of midline structures within the forebrain or prosencephalon. The last category of central nervous system malformation is disorders involving the process of mantle formation. In the human, neurons are generated in two bursts, the first from 8 to 10 weeks and next from 12 to 14 weeks. By 16 weeks, most of the neurons have been generated and have started their migration into the cortex. Mechanism of migration disorders are multifactorial. Abnormal migration into the cortex, abnormal neurons, faulty neural growth within the cortex, unstable pial-glial border, degeneration of neurons, neural death by exogenous factors are some of the proposed mechanism. Agyria-pachygyria are characterized by a four-layerd cortex. Polymicrogyria is gyri that are too numerous and too small, and is morphologically heterogeneous. Cortical dysplasia is characterized by the presence Q[ abnormal neurons and glia arranged abnormally in focal areas of the cerebral cortex. Neuroglial malformative lesions associated with medically intractable epilepsy are hamartia or hamartoma, focal cortical dysplasia and microdysgenesis.ysgenesis.

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A Rare and Often Unrecognized Brain Meningitis and Hepatopneumonic Congestion are a Major Cause of Sudden Death in Somatic Cloned Piglets

  • 박미령;조성근;임여정;박종주;김진회
    • Proceedings of the KSAR Conference
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    • 2003.06a
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    • pp.18-18
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    • 2003
  • In human, sudden infant death syndrome(SIDS) is synonyms for the sudden, unexpected and unexplained death of an infant. The incidence of SIDS has been estimated to be from 1 to 3%. Cloning has a relatively high rate of late abortion and early postnatal death, particularly when somatic cells are used as donors of nuclei and rates as high as 40 to 70% have been reported. However, the mechanisms for SIDS in cloned animals are not known yet. To date, few reports provide detailed information regarding phenotypic abnormality of cloned pigs. In this study, most of the cloned piglets were alive at term and readily recovered respiration. However, approximately 82% of male cloned piglets (81/22) died within a week after birth. Significant findings from histological examinations showed that 42% of somatic cloned male piglets died earlier than somatic cloned female piglets, most probably due to severe congestion of lung and liver or neutrophilic inflammation in brain, which indicates that unexpected phenotypes can appear as a result of somatic cell cloning. No anatomical defects in cloned female piglets were detected, but three of the piglets had died by diarrhea due to bacterial infection within 15 days after birth. Although most of male cloned piglets can be born normal in terms of gross anatomy, they develop phenotypic anomalies that include leydig cell hypoplasia and growth retardation post-delivery under adverse fetal environment and depigmentation of hair- and skin-color form puberty onset. This may provide a mechanism for development of multiple organ system failure in some cloned piglets. Th birth weights of male cloned pig in comparison with those of female cloned piglets are significantly reduced(0.8 vs 1.4kg) and showed longer gestational day(120 vs 114). In conclusion, brain meningitis and hepatopneumonic congestion are a major risk factor for SIDS and such pregnancy in cloned animals requires close and intensive antenatal monitoring.

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Health Effects of Mercury Exposure through Fish (어패류를 통한 수은 노출과 건강영향)

  • SaKong, Joon
    • Journal of Yeungnam Medical Science
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    • v.28 no.2
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    • pp.105-115
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    • 2011
  • Mercury is a toxic, persistent pollutant that bioaccumulates and biomagnifies through food webs. People are exposed to methyhnercruy mainly through their diet, especially through the consumption of freshwater and marine fish and of other animals that consume fish (e.g., marine mammals). All humans are exposed to low levels of mercury. Dietary patterns can increase exposure to a fish-eating population where the fish and seafood are contaminated with mercury. The primary toxicity targets of mercury and mercury compounds are the nervous system, kidneys, and cardiovascular system. It is generally accepted that developing organ systems are most sensitive to the toxic effects of mercury. The fetal-brain mercury levels appear to be significantly higher than the maternal-blood mercury levels, and the developing central nervous system of the fetus is currently regarded as the main system of concern as it demonstrates the greatest sensitivity. The subpopulation that may be at greater risk for mercury toxicity are those exposed to higher levels of methylmercury due to carnivorous fish, including sharks.

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Teratogenic and Embryotoxic Effects of Clomiphene Citrate in Developing Mice

  • Ara, Chaman;Asmatullah, Asmatullah
    • Asian-Australasian Journal of Animal Sciences
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    • v.24 no.8
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    • pp.1053-1059
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    • 2011
  • The objective of this study was to assess the teratogenic and embryotoxic effects of clomiphene citrate in mice. The pregnant mice were administered a single dose of clomiphene citrate at different concentrations i.e 1.0, 2.0, 4.0 and 6.0 ${\mu}g/g$ BW on day 8 of gestation. Fetuses recovered on day 18 of gestation were analyzed on morphological, morphometric and histological basis. Morphological observations showed defects like open eyelids, anophthalmia, fore and hindlimb micromelia, meromelia, amelia, sacral hygroma, hydrocephaly, hemorrhagic spots, kyphosis and clubbed feet. Morphometric analysis indicated a significant (p<0.001) reduction in fetal body weight, crown rump length, head circumference, eye circumference, forelimb and hindlimb lengths and tail size against controls. The histological observations showed brain defects like hydrocephaly, enlarged ventricles and undifferentiated neuroglial cells in cerebellum. Cleft palate, underdeveloped pharynx and atrophy of jaw muscles were the common anatomical defects of pharyngeal region. It is concluded that the concentrations of clomiphene citrate used during the present study proved teratogenic in mice fetuses.