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參芪扶正注射液对黑色素瘤细胞免疫逃逸作用的影响李雨燕, 13 June 2015 (has links)
目的 黑色素瘤是一种高度恶性肿瘤,极易耐药。而肿瘤细胞的免疫逃逸很可能是产生耐药的原因之一。参茋扶正注射液(SQFZ)广泛应用于联合放化疗药物治疗癌症,且具有一定的临床疗效基础。通过研究参茋扶正注射液(SQFZ)对A375细胞分泌的免疫抑制因子的作用和影响和研究SQFZ是否可以提高jurkat细胞的功能,并间接对肿瘤细胞起到杀伤作用。探讨SQFZ对抑制黑色素瘤细胞A375免疫逃逸的影响和作用机制,以及SQFZ用于治疗黑色素瘤的可能性。 方法 外培养黑色素瘤细胞A375,应用不同的SQFZ干预细胞。 1. 采用MTT技术检测SQFZ对A375的直接作用; 2. 采用Real-Time PCR技术检测SQFZ对A375细胞表达免疫抑制因子IL-10、TGF-beta、VEGF的影响; 3. 用ELISA检测SQFZ对A375细胞分泌IL-10、TGF-beta、VEGF的影响; 4. 建立transwell小室模型,检测SQFZ对jurkat T细胞迁徙功能的影响; 5. 利用transwell小室,建立共培养体系, 检测SQFZ对jurkat T细胞分泌细胞因子功能的影响。 结果 1. SQFZ浓度为1280μg/mL时,对A375细胞有抑制作用,与空白组比较,差异具有统计学意义(p<0.01),但抑制率低于20%,无研究意义; 2. 不同浓度(1280μg/mL、640μg/mL)SQFZ干预A375细胞24h,48h后,可以降低IL-10、TGF-beta 在mRNA水平的表达,与对照组比较结果有统计学意义(p<0.05),并且抑制呈时间剂量依赖关系;SQFZ(l280μg/mL)干预A375細胞48h后,VEGF在mRNA水平的表达降低,与对照组比较结果有统计学 意义(p<0.05); 3. 经不同浓度SQFZ处理24h后,A375细胞IL-10在SQFZ浓度为640μg/mL表达降低,;VEGF-beta、VEGF在SQFZ浓度为1280μg/mL、640μg/mL 时,蛋白水平表达降低,以上结果均与对照组比结果有统计学意义(p<0 .05); 4. 经不同浓度SQFZ处理A375细胞48h后,jurkat T细胞相对迁徙面积和穿膜细胞数变化显著,与对照组比较结果具有统计学意义(p
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BIOCHEMICAL MECHANISMS INVOLVED IN THE MELANOMA CELL RESPONSE TO ENDOCRINE STIMULATIONFuller, Bryan Bruce, 1949- January 1978 (has links)
No description available.
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Activation of mouse melanoma cell cyclic AMP-dependent protein kinase by melanocyte stimulating hormoneBirch, David Edward January 1980 (has links)
No description available.
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A new factor regulating melanogenesis in normal and malignant melanocytes /Yap, Swee-mui. January 1991 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1991.
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Etude des mécanismes moléculaires et cellulaires de l'engagement épidermique des cellules souches pluripotentes humaines / Study of molecular and cellular mechanisms of human pluripotent stem cells differentiation into epidermal lineageNissan, Xavier 03 May 2010 (has links)
Les cellules souches pluripotentes d’origines embryonnaires (cellules hES) ou induites à la pluripotence (cellules iPS) possèdent deux propriétés essentielles, l’autorenouvellement et la pluripotence. ces deux propriétés font de ces cellules une ressource biologique unique pour l’étude des mécanismes moléculaires et cellulaires impliqués dans le développement embryonnaire précoce. l’objectif de mes travaux a, dans un premier temps, été de mettre en place des modèles expérimentaux permettant l’engagement des cellules hES et iPS dans les deux principaux types cellulaires de l’épiderme : les kératinocytes et les mélanocytes. J’ai ainsi participé à l’élaboration de protocoles de différentiation permettant d’engager les cellules hES et iPS dans les lignages épithéliaux et mélanocytaires. Enfin sur la base de ces résultats, la dernière partie de ma thèse a eu pour but de comprendre le rôle des microarns dans le contrôle de ces mécanismes développementaux. L’ensemble de ces données démontre que les cellules souches pluripotentes représentent un modèle pertinent pour étudier les mécanismes cellulaires et moléculaires impliqués dans le contrôle du développement embryonnaire humain. Nous avons ainsi démontré que la différenciation des cellules souches pluripotentes dans le lignage épidermique respectait la chronobiologie du développement et mis en évidence le rôle régulateur de deux microarns dont les fonctions n’avaient pas été identifiées, à ce jour, dans le développement embryonnaire humain. / Human embryonic stem cells (hESC) and induced pluripotent stem cells (iPSC) are characterized by their two fundamental properties: pluripotency and self-renewal. Due to these unique capacities, pluripotent stem cells offer a virtually unlimited biological resource capable to differentiate into any cell type of the organism. In parallel to their great potential for regenerative medicine, these cells represent a unique in vitro model of early human development. The aim of this thesis is to investigate the molecular and cellular events occurred during epidermis formation in the Human. The first objective of this work was to set up protocols to differentiate pluripotent stem cells, (hES and iPS) into the two major cell types of epidermis: Keratinocytes and Melanocytes. In parallel to this work the last part of my thesis was to study the role of a new class of developmental regulator: The microRNAs. Taken together, all these data demonstrate that human pluripotent stem cells represent a unique model to study molecular and cellular mechanisms involved in early embryonic development in the Human. By defining experimental procedure to differentiate these cells into pure populations of keratinocytes, melanocytes and neural progenitors we have been able to demonstrate that pluripotent stem cells follow the entire chronobiology of embryonic development and highlighted the regulatory functions of two microRNAs previously described in the mouse but never identified in the Human.
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A new factor regulating melanogenesis in normal and malignant melanocytes葉瑞美, Yap, Swee-mui. January 1991 (has links)
published_or_final_version / Anatomy / Master / Master of Philosophy
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An evaluation of tyrosine, tryptophan, and dopa as agents capable of preventing depigmentation of the hair of mice subjected to x-ray irradiation /Crowl, Robert Harold January 1964 (has links)
No description available.
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Suppression of Autophagy Dysregulates the Antioxidant Response and Causes Premature Senescence of MelanocytesZhang, C.F., Gruber, F., Mildner, M., Koenig, U., Karner, S., Barresi, C., Rossiter, H., Narzt, M.S., Nagelreiter, I.M., Larue, L., Tobin, Desmond J., Eckhart, L., Tschachler, E., Ni, C. 08 December 2014 (has links)
Yes / Autophagy is the central cellular mechanism for delivering organelles and cytoplasm to lysosomes for
degradation and recycling of their molecular components. To determine the contribution of autophagy to
melanocyte (MC) biology, we inactivated the essential autophagy gene Atg7 specifically in MCs using the Cre-loxP
system. This gene deletion efficiently suppressed a key step in autophagy, lipidation of microtubule-associated
protein 1 light chain 3 beta (LC3), in MCs and induced slight hypopigmentation of the epidermis in mice. The
melanin content of hair was decreased by 10–15% in mice with autophagy-deficient MC as compared with control
animals. When cultured in vitro, MCs from mutant and control mice produced equal amounts of melanin per cell.
However, Atg7-deficient MCs entered into premature growth arrest and accumulated reactive oxygen species
(ROS) damage, ubiquitinated proteins, and the multi-functional adapter protein SQSTM1/p62. Moreover, nuclear
factor erythroid 2–related factor 2 (Nrf2)–dependent expression of NAD(P)H dehydrogenase, quinone 1, and
glutathione S-transferase Mu 1 was increased, indicating a contribution of autophagy to redox homeostasis in
MCs. In summary, the results of our study suggest that Atg7-dependent autophagy is dispensable for
melanogenesis but necessary for achieving the full proliferative capacity of MCs.
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Genetically engineered multicistronic allele of Pmel yielding highly specific CreERT2-mediated recombination in the melanocyte lineageWilkinson, E.L., Brennan, L.C., Harrison, O.J., Crane-Smith, Z., Gautier, P., Keighren, M.A., Budd, P., Swaminathan, Karthic, Machesky, L.M., Allinson, S.L., Jackson, I.J., Mort, R.L. 05 August 2024 (has links)
Yes / Genetic approaches that allow lineage tracing are essential to our future understanding of melanocytes and melanoma. To date, the approaches used to label melanocytes in mice have relied on random integration of transgenes driven by the promoters of the Tyrosinase and Dopachrome tautomerase genes, knock-in to the Dopachrome tautomerase locus or knock-in to the Mlana locus in a bacterial artificial chromosome. These strategies result in expression in other tissues such as telencephalon and other cell types such as nerves. Here we used homologous recombination in mouse embryonic stem cells to generate a targeted multicistronic allele of the Pmel locus that drives melanocyte-specific expression of CreERT2, nuclear localised H2B-Cerulean and membrane localised marcks-mKate2 allowing live imaging of melanocytes and activation of other conditional alleles. We combined this allele with R26R-EYFP mice allowing induction of EYFP expression on administration of tamoxifen or its metabolite 4-OHT. The fluorescent proteins H2B-Cerulean and marcks-mKate2 label the cell nucleus and plasma membrane respectively allowing live imaging and FACS isolation of melanoblasts and melanocytes as well as serving to provide an internal control allowing estimation of recombination efficiency after administration of tamoxifen. We demonstrate the utility of the transgene in embryonic and adult tissues. / Cancer Research UK. Grant Number: A15673. Medical Research Council. Grant Number: MC_PC_U127527200. National Centre for the Replacement Refinement and Reduction of Animals in Research. Grant Number: NC/K001612/1. North West Cancer Research Fund. Grant Number: CR1132. Medical Research Scotland. Grant Number: 436FRG
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CYTOGENETIC ABNORMALITIES AND THE PROGRESSION TO INVASION IN A375P HUMAN MELANOMA CELLS IN VITROGreeff, Christopher Whitney, 1961- January 1987 (has links)
A study was undertaken to determine whether cytogenetic abnormalities can be identified in an invasive melanoma cell population that has been selected in vitro out of a larger cell population of low invasive potential. The selecting agent was a denuded human amniotic membrane situated within Mega-Membrane Invasion Culture System chambers. Invasive cells were collected, grown, and harvested for cytogenetic analysis. Metaphases of these cells were examined for chromosomal abnormalities and for evidence of gene amplification in the form of double minute chromosomes. Invasive cell lines evinced changes in their degree of aneuploidy which were not seen in parental control lines of the same passage number. Significant karyotypic abnormalities identified in invasive cell lines were an increased dosage of chromosome 7 and multiple 1q translocation marker chromosomes. Double minute chromosomes were found in up to 18% of invasive cell metaphases examined and in 3% of parental controls. The incidence of double minutes was found to decrease as a function of passage number.
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