In situ pH measurements of the Syrian hamster uterus during early pregnancy to determine the role of pH in zona pellucida loss in vivo

2000 ◽  
Vol 12 (2) ◽  
pp. 105 ◽  
Author(s):  
Kathryn McDougall ◽  
Jerry L. Hedrick ◽  
Barry D. Bavister
Keyword(s):  
Zona Pellucida ◽  
Syrian Hamster ◽  
Ph Measurements ◽  
Pregnant Uterus ◽  
Sensitive Factor ◽  
Uterine Fluid

The mechanisms of zona pellucida (ZP) loss in peri-implantation hamster embryos in vivo versus in vitro are distinctly different. To investigate if ZP loss in vivo is the result of transient uterine pH changes, the luminal pH of the pregnant uterus was measured during the ZP loss period. Prior to ZP loss, pH was 7.30 0.05 (mean SE; left uterine horn) and 7.35 0.03 (right horn). During ZP loss, pH was 7.26 0.07 (left) and 7.35 0.03 (right), and after embryo attachment, 7.25 0.02 (left) and 7.27 0.02 (right). None of these values are statistically different. The pseudopregnant uterine pH was 7.30 0.04 (left) and 7.31 0.04 (right), not statistically different from each other or from pregnant uteri. Blastocyst ZP loss in vitro (pH 3.0–8.5) occurred only at pH 3.0. Loss of ZP occurred in uterine flushings from pregnant or pseudopregnant hamsters, evidence that ZP loss is related to uterine factors. Complete ZP loss occurred at pH 6.8, but was incomplete at pH 6.6, 7.0 and 7.2. No ZP loss occurred in uterine flushings from non-mated females. In summary: (i) a change in uterine pH does not cause ZP loss in vivo in the Syrian hamster; (ii) a pH-sensitive factor in pregnant and pseudopregnant uterine fluid is responsible for ZP loss.

Neoplastic conversion of preneoplastic Syrian hamster cells: rate estimation by fluctuation analysis

1983 ◽  
Vol 3 (5) ◽  
pp. 931-945
Author(s):  
B D Crawford ◽  
J C Barrett ◽  
P O Ts'o
Keyword(s):  
Syrian Hamster ◽  
Neoplastic Transformation ◽  
Solid Substrate ◽  
Established Cell Line ◽  
Fluctuation Analysis ◽  
Neoplastic Progression ◽  
Early Passage

Analysis of the role of gene mutations in the multistep process of neoplastic transformation requires that the discrete steps in carcinogenesis first be dissected. Toward this end, we have isolated and characterized preneoplastic Syrian hamster cells which exhibit in vitro a trait highly correlated with neoplastic conversion in vivo. Previous findings (J. C. Barrett, Cancer Res. 40:91-94, 1980) indicate that spontaneous neoplastic transformation of Syrian hamster cells occurs in at least two steps. An intermediate stage, characterized by an aneuploid established cell line which has a propensity to become neoplastic spontaneously upon further growth in vitro, has been described. These preneoplastic cells differ from diploid early-passage Syrian hamster cells in becoming capable of anchorage-independent growth in semisolid agar, as well as becoming neoplastic in vivo when attached to a solid substrate. Evidence presented here demonstrates that anchorage-independent conversion in vitro is a reliable marker for neoplastic conversion in this cell system. Fluctuation analyses, patterned after those described by Luria and Delbruck for microbial genetics, demonstrate that anchorage-independent variants are generated randomly from clonally derived preneoplastic cells at the rate of 10(-8) to 10(-7) variants per cell per generation. These results establish a multistep stochastic process for transformation in vitro and indicate that conversion to anchorage independence may be necessary for Syrian hamster cells to become tumorigenic. The possible role of gene mutation in this step during neoplastic progression is discussed.

The Role of Microbiology in Models of Dental Caries: Reaction Paper

1995 ◽  
Vol 9 (3) ◽  
pp. 255-269 ◽  
Author(s):  
G.H. Bowden
Keyword(s):  
Process Selection ◽  
Advantages And Disadvantages ◽  
Test Models ◽  
Plaque Development ◽  
In Vitro Systems ◽  
Selection Of

Models of the caries process have made significant contributions toward defining the roles of bacteria in caries. Microbiologists use a variety of in vitro systems to model aspects of the caries process. Also, in situ models in humans provide information on the microbiology of caries in vivo. These models do not involve the entire process leading to natural caries; consequently, the results from such studies are used to deduce the roles of bacteria in natural caries. Therefore, they can be described as Inferential Caries Models. In contrast, animal models and some clinical trials in humans involve natural caries and can be described as Complete Caries Models. Furthermore, these models are used in two distinct ways. They can be used as Exploratory Models to explore different aspects of the caries process, or as Test Models to determine the effects of anticaries agents. This dichotomy in approach to the use of caries models results in modification of the models to suit a particular role. For example, if we consider Exploratory Models, the in situ appliance in humans is superior to others for analyzing the microbiology of plaque development and demineralization in vivo. The chemostat and biofilm models are excellent for exploring factors influencing bacterial interactions. Both models can also be used as Test Models. The in situ model has been used to test the effects of fluoride on the microflora and demineralization, while the chemostat and biofilm models allow for the testing of antibacterial agents. Each model has its advantages and disadvantages and role in analysis of the caries process. Selection of the model depends on the scientific question posed and the limitations imposed by the conditions available for the study.

scholarly journals Neoplastic conversion of preneoplastic Syrian hamster cells: rate estimation by fluctuation analysis.

1983 ◽  
Vol 3 (5) ◽  
pp. 931-945 ◽  
Author(s):  
B D Crawford ◽  
J C Barrett ◽  
P O Ts'o
Keyword(s):  
Syrian Hamster ◽  
Neoplastic Transformation ◽  
Solid Substrate ◽  
Established Cell Line ◽  
Fluctuation Analysis ◽  
Neoplastic Progression ◽  
Early Passage

Analysis of the role of gene mutations in the multistep process of neoplastic transformation requires that the discrete steps in carcinogenesis first be dissected. Toward this end, we have isolated and characterized preneoplastic Syrian hamster cells which exhibit in vitro a trait highly correlated with neoplastic conversion in vivo. Previous findings (J. C. Barrett, Cancer Res. 40:91-94, 1980) indicate that spontaneous neoplastic transformation of Syrian hamster cells occurs in at least two steps. An intermediate stage, characterized by an aneuploid established cell line which has a propensity to become neoplastic spontaneously upon further growth in vitro, has been described. These preneoplastic cells differ from diploid early-passage Syrian hamster cells in becoming capable of anchorage-independent growth in semisolid agar, as well as becoming neoplastic in vivo when attached to a solid substrate. Evidence presented here demonstrates that anchorage-independent conversion in vitro is a reliable marker for neoplastic conversion in this cell system. Fluctuation analyses, patterned after those described by Luria and Delbruck for microbial genetics, demonstrate that anchorage-independent variants are generated randomly from clonally derived preneoplastic cells at the rate of 10(-8) to 10(-7) variants per cell per generation. These results establish a multistep stochastic process for transformation in vitro and indicate that conversion to anchorage independence may be necessary for Syrian hamster cells to become tumorigenic. The possible role of gene mutation in this step during neoplastic progression is discussed.

scholarly journals AL355338 acts as an oncogenic lncRNA by interacting with protein ENO1 to regulate EGFR/AKT pathway in NSCLC

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Qian Hua ◽  
Dongliang Wang ◽  
Lin Zhao ◽  
Zhihui Hong ◽  
Kairu Ni ◽  
...  
Keyword(s):  
Aerobic Glycolysis ◽  
Transcript Abundance ◽  
Metabolic Reprogramming ◽  
Clinical Samples ◽  
Abnormal Metabolism ◽  
Considerable Morbidity

Abstract Background Non-small cell lung cancer (NSCLC) is a malignancy with considerable morbidity and mortality. Abnormal metabolism is a hallmark of cancer; however, the mechanism of glycolysis regulation in NSCLC progression is not completely understood. Recent studies suggest that some dysregulated long non-coding RNAs (lncRNAs) play important roles in tumor metabolic reprogramming. Methods To identify glycolysis-associated-lncRNAs in NSCLC, we compared RNA-sequencing results between high 18F-fluorodeoxyglucose (FDG)-uptake NSCLC tissues and paired paratumor tissues. The transcript abundance of AL355338 in 80 pairs of clinical samples was evaluated by quantitative real-time PCR assay and fluorescence in situ hybridization. The biological role of AL355338 on NSCLC cells were evaluated by functional experiments in vitro and in vivo. Moreover, RNA pull-down, mass spectrometry and RNA immunoprecipitation (RIP) assays were used to identify the protein interacted with AL355338. Co-immunoprecipitation, in situ proximity ligation assays and western blotting were applied to define the potential downstream pathways of AL355338. Results AL355338 was an upregulated glycolysis-associated lncRNA in NSCLC. Functional assays revealed that AL355338 was critical for promoting aerobic glycolysis and NSCLC progression. Mechanistic investigations showed that AL355338 directly bound with alpha-enolase (ENO1) and enhanced the protein’s stability by modulating its degradation and ubiquitination. A positive correlation was observed between AL355338 and ENO1 in NSCLC, and ENO1 was subsequently confirmed to be responsible for the oncogenic role of AL355338. Furthermore, AL355338 was capable of modulating ENO1/EGFR complex interaction and further activating EGFR-AKT signaling. Conclusions This study indicates that AL355338 confers an aggressive phenotype to NSCLC, and targeting it might be an effective therapeutic strategy.

scholarly journals LncRNA-URHC Functions as a ceRNA to Regulate Danjb9 Expression by Competitively Binding to miR-5007-3p in Hepatocellular Carcinoma

2021 ◽  
Author(s):  
kunwei niu ◽  
Shibin Qu ◽  
Xuan Zhang ◽  
Jimin Dai ◽  
Jianlin Wang ◽  
...  
Keyword(s):  
Hepatocellular Carcinoma ◽  
Biological Effects ◽  
Luciferase Reporter ◽  
Underlying Mechanisms ◽  
Proliferation In Vitro ◽  
Hcc Cells

Abstract Background: Hepatocellular carcinoma (HCC) is often diagnosed at a late stage, when the prognosis is poor. The regulation of long non-coding RNAs (lncRNAs) plays a crucial role in HCC. However, the precise regulatory mechanisms of lncRNA signaling in HCC remain largely unknown. We study aim to investigate the underlying mechanisms of lncRNA (upregulated in hepatocellular carcinoma) URHC in HCC. Methods: RT-qPCR, fluorescence in situ hybridization (FISH) staining, EdU, colony formation, and tumor xenografts experiments were used to identify localized and biological effects of URHC on HCC cells in vitro and in vivo. The bioinformatics analysis, Dual-luciferase reporter assay, and rescue experiments revealed the potential mechanism of URHC.Results: URHC silencing may inhibit the HCC cells proliferation in vitro and in vivo. We found that URHC was mainly localized in the cytoplasm. The expression of miR-5007-3p was negatively regulated by URHC. And miR-5007-3p could reverse the effect of URHC in HCC cells. The expression of DNAJB9 was negatively regulated by miR-5007-3p but positively regulated by URHC. These suggesting of lncRNA-URHC positively regulated the level of DNAJB9 by sponging miR-5007-3p.Conclusion: Together, our study elucidated the role of URHC as a miRNA sponge in HCC, and shed new light on lncRNA-directed diagnostics and therapeutics in HCC.

scholarly journals AL355338 acts as an oncogenic lncRNA by interacting with protein ENO1 to regulate EGFR/AKT pathway in NSCLC

2021 ◽  
Author(s):  
Qian Hua ◽  
Dongliang Wang ◽  
Lin Zhao ◽  
Zhihui Hong ◽  
Kairu Ni ◽  
...  
Keyword(s):  
Aerobic Glycolysis ◽  
Transcript Abundance ◽  
Metabolic Reprogramming ◽  
Clinical Samples ◽  
Abnormal Metabolism ◽  
Considerable Morbidity

Abstract Background Non-small cell lung cancer (NSCLC) is a malignancy with considerable morbidity and mortality. Abnormal metabolism is a hallmark of cancer; however, the mechanism of glycolysis regulation in NSCLC progression is not completely understood. Recent studies suggest that some dysregulated long non-coding RNAs (lncRNAs) play important roles in tumor metabolic reprogramming. Methods To identify glycolysis-associated-lncRNAs in NSCLC, we compared RNA-sequencing results between high 18F-fluorodeoxyglucose (FDG)-uptake NSCLC tissues and paired paratumor tissues. The transcript abundance of AL355338 in 80 pairs of clinical samples was evaluated by quantitative real-time PCR assay and fluorescence in situ hybridization. The biological role of AL355338 on NSCLC cells were evaluated by functional experiments in vitro and in vivo. Moreover, RNA pull-down, mass spectrometry and RNA immunoprecipitation (RIP) assays were used to identify the protein interacted with AL355338. Co-immunoprecipitation, in situ proximity ligation assays and western blotting were applied to define the potential downstream pathways of AL355338. Results AL355338 was an upregulated glycolysis-associated lncRNA in NSCLC. Functional assays revealed that AL355338 was critical for promoting aerobic glycolysis and NSCLC progression. Mechanistic investigations showed that AL355338 directly bound with alpha-enolase (ENO1) and enhanced the protein’s stability by modulating its degradation and ubiquitination. A positive correlation was observed between AL355338 and ENO1 in NSCLC, and ENO1 was subsequently confirmed to be responsible for the oncogenic role of AL355338. Furthermore, AL355338 was capable of modulating ENO1/EGFR complex interaction and further activating EGFR-AKT signaling. Conclusions This study indicates that AL355338 confers an aggressive phenotype to NSCLC, and targeting it might be an effective therapeutic strategy.

Cytoarchitecture of the Xenopus thymus following gamma-irradiation

Development ◽  
1987 ◽  
Vol 100 (1) ◽  
pp. 95-105
Author(s):  
JH Russ ◽  
JD Horton
Keyword(s):  
Gamma Irradiation ◽  
Tolerance Induction ◽  
Cell Types ◽  
Whole Body ◽  
Thymic Stromal Cells ◽  
Normal Architecture

This paper describes in vitro and in vivo attempts to deplete the 4- to 8-month-old Xenopus laevis (J strain) thymus of its lymphocyte compartment. Gamma irradiation (2-3000 rad) of the excised thymus, followed by two weeks in organ culture, is effective in removing lymphocytes, but causes drastic reduction in size and loss of normal architecture. In contrast, in vivo whole-body irradiation (3000 rad) and subsequent in situ residence for 8-14 days proves successful in providing a lymphocyte-depleted froglet thymus without loss of cortical and medullary zones. In vivo-irradiated thymuses are about half normal size, lack cortical lymphocytes, but still retain some medullary thymocytes; they show no signs of lymphocyte regeneration when subsequently organ cultured for 2 weeks. Light microscopy of 1 micron, plastic-embedded sections and electron microscopy reveal that a range of thymic stromal cell types are retained and that increased numbers of cysts, mucous and myoid cells are found in the thymus following whole-body irradiation. In vivo-irradiated thymuses are therefore suitable for implantation studies exploring the role of thymic stromal cells in tolerance induction of differentiating T lymphocytes.

scholarly journals Influence of condensation domains on activity and specificity of adenylation domains

2021 ◽  
Author(s):  
Janik Kranz ◽  
Sebastian L. Wenski ◽  
Alexnder A. Dichter ◽  
Helge B. Bode ◽  
Kenan A. J. Bozhueyuek
Keyword(s):  
Structural Features ◽  
Peptide Synthetases ◽  
In Situ Experiments ◽  
The Subject ◽  
New Perspective ◽  
Condensation Domain

Many clinically used natural products are produced by non-ribosomal peptide synthetases (NRPSs), which due to their modular nature should be accessible to modification and engineering approaches. While the adenylation domain (A) plays the key role in substrate recognition and activation, the condensation domain (C) which is responsible for substrate linkage and stereochemical filtering recently became the subject of debate - with its attributed role as a "gatekeeper" being called into question. Since we have thoroughly investigated different combinations of C-A didomains in a series of in vitro, in vivo, and in situ experiments suggesting an important role to the C-A interface for the activity and specificity of the downstream A domain and not the C domain as such, we would like to contribute to this discussion. The role of the C-A interface, termed 'extended gatekeeping', due to structural features of the C domains, can also be transferred to other NRPSs by engineering, was finally investigated and characterised in an in silico approach on 30 wild-type and recombinant C-A interfaces. With these data, we not only would like to offer a new perspective on the specificity of C domains, but also to revise our previously established NRPS engineering and construction rules.

Abstract 448: Etv2-Mir130a-Jarid2 Cascade Regulates Vascular Patterning During Embryogenesis

2017 ◽  
Vol 37 (suppl_1) ◽  
Author(s):  
Bhairab N Singh ◽  
Naoyuki Tahara ◽  
Yasuhiko Kawakami ◽  
Naoko Koyano-Nakagawa ◽  
Wuming Gong ◽  
...  
Keyword(s):  
In Situ Hybridization ◽  
Critical Role ◽  
Yolk Sac ◽  
Zebrafish Embryos ◽  
Vascular Patterning ◽  
Downstream Target

Remodeling of the pre-existing primitive vasculature is necessary for the formation of a complex branched vascular architecture. However, the factors that modulate these processes are incompletely defined. Previously, we defined the role of microRNAs (miRNAs) in endothelial specification. In the present study, we further examined the Etv2-Cre mediated ablation of Dicer L/L and characterized the perturbed vascular patterning in the embryo proper and yolk-sac. We mechanistically defined an important role for miR-130a , an Etv2 downstream target, in the mediation of vascular patterning and angiogenesis in vitro and in vivo . Inducible overexpression of miR-130a resulted in robust induction of vascular sprouts and angiogenesis with increased uptake of acetylated-LDL. Mechanistically, miR-130a directly regulates Jarid2 expression by binding to its 3’-UTR region. CRISPR/Cas9 mediated knockout of miR-130a showed increased levels of Jarid2 in the ES/EB system. Further, the levels of Jarid2 transcripts were increased in the Etv2-null embryos at E8.5. In the in vivo settings, injection of miR-130a specific morpholinos in zebrafish embryos resulted in perturbed vascular patterning with reduced levels of endothelial transcripts in the miR-130a morphants. qPCR and in situ hybridization techniques demonstrated increased expression of jarid2a in the miR-130a morphants in vivo . These findings demonstrate a critical role for Etv2-miR-130a-Jarid2 in vascular patterning both in vitro and in vivo .

The role of chicken macrophages in the parenteral excystation of Eimeria acervulina

Parasitology ◽  
1973 ◽  
Vol 66 (2) ◽  
pp. 231-239 ◽  
Author(s):  
Aziza El-Kasaby ◽  
A. H. Sykes
Keyword(s):  
Phagocytic Cell ◽  
Oocyst Wall ◽  
Diffusion Chambers ◽  
Eimeria Acervulina ◽  
Macrophage Activity ◽  
Peritoneal Washings

The behaviour of Eimeria acervulina in relation to macrophage activity in chickens was investigated by in vitro and in vivo techniques, with special consideration of the excystation of sporozoites and the fate of intact oocysts and sporocysts inoculated parenterally. In vitro: macrophages obtained from peritoneal washings phagocytosed mechanically released sporocysts or previously excysted sporozoites after 30 minutes incubation. In vivo: phagocytic activity of macrophages against intact oocysts and sporocysts in diffusion chambers implanted subcutaneously and intraperitoneally was observed as early as 4 h after implantation. Changes in the oocyst wall (corrugation, thinning, indentation and increased. fragility) as well as activation and excystation of sporozoites in situ was observed 24 h after implantation. Interaction in vivo between the invasive sporozoite and the phagocytic cell was recorded. Disintegration of the parasite was noticed 72 h after implantation.

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