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M B Faletto A E Maccubbin P L Koser J A Vangalio H L Gurtoo 《Cancer biochemistry biophysics》1989,10(3):197-205
C3H/10T1/2 clone 8 (10T1/2) cells possess aryl hydrocarbon hydroxylase (AHH) activity capable of metabolizing polycyclic aromatic hydrocarbons to ultimate carcinogenic forms. AHH activity in 10T1/2 cells was measured before and after culturing in the presence of benzo[a]pyrene (B[a]P), and compared to the AHH activity found in carcinogen-transformed 10T1/2 cell lines treated similarly. The cell lines were also examined for B[a]P-DNA adduct formation, using the 32P-postlabelling technique. Treatment of parental 10T1/2 cells with B[a]P was found to significantly increase AHH activity and produce substantial numbers of DNA adducts. In addition to a major B[a]P-DNA adduct, 5-6 minor DNA adducts were also detected. Relative to parental 10T1/2 cells, an aflatoxin B1-transformed 10T1/2 cell line (7SA) was found to have significantly depressed AHH activity. In addition, after treatment with B[a]P, 7SA cells had only 8% of the B[a]P-DNA adduct levels found in 10T1/2 cells. This system may provide an in vitro model for investigating mechanisms responsible for the depression of cytochrome P-450 activities by chemical carcinogens. 相似文献
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The ability of two strains of Lactobacillus acidophilus, CRL 640 and CRL 800, to survive and retain their biological activities under frozen storage was determined. Freezing and thawing, as well as frozen storage, damaged the cell membrane, rendering the microorganisms sensitive to sodium chloride and bile salts. Both lactic acid production and proteolytic activity were depressed after 21 days at -20 degreesC, whereas beta-galactosidase activity per cell unit was increased. Cell injury was partially overcome after repair in a salt-rich medium. Copyright 1998 Academic Press. 相似文献
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David?E. Koser Emad Moeendarbary Janina Hanne Stefanie Kuerten Kristian Franze 《Biophysical journal》2015,108(9):2137-2147
Mechanical signaling plays an important role in cell physiology and pathology. Many cell types, including neurons and glial cells, respond to the mechanical properties of their environment. Yet, for spinal cord tissue, data on tissue stiffness are sparse. To investigate the regional and direction-dependent mechanical properties of spinal cord tissue at a spatial resolution relevant to individual cells, we conducted atomic force microscopy (AFM) indentation and tensile measurements on acutely isolated mouse spinal cord tissue sectioned along the three major anatomical planes, and correlated local mechanical properties with the underlying cellular structures. Stiffness maps revealed that gray matter is significantly stiffer than white matter irrespective of directionality (transverse, coronal, and sagittal planes) and force direction (compression or tension) (Kg= ∼130 Pa vs. Kw= ∼70 Pa); both matters stiffened with increasing strain. When all data were pooled for each plane, gray matter behaved like an isotropic material under compression; however, subregions of the gray matter were rather heterogeneous and anisotropic. For example, in sagittal sections the dorsal horn was significantly stiffer than the ventral horn. In contrast, white matter behaved transversely isotropic, with the elastic stiffness along the craniocaudal (i.e., longitudinal) axis being lower than perpendicular to it. The stiffness distributions we found under compression strongly correlated with the orientation of axons, the areas of cell nuclei, and cellular in plane proximity. Based on these morphological parameters, we developed a phenomenological model to estimate local mechanical properties of central nervous system (CNS) tissue. Our study may thus ultimately help predicting local tissue stiffness, and hence cell behavior in response to mechanical signaling under physiological and pathological conditions, purely based on histological data. 相似文献
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Pei Y Hancock PJ Zhang H Bartz R Cherrin C Innocent N Pomerantz CJ Seitzer J Koser ML Abrams MT Xu Y Kuklin NA Burke PA Sachs AB Sepp-Lorenzino L Barnett SF 《RNA (New York, N.Y.)》2010,16(12):2553-2563
Effective small interfering RNA (siRNA)-mediated therapeutics require the siRNA to be delivered into the cellular RNA-induced silencing complex (RISC). Quantitative information of this essential delivery step is currently inferred from the efficacy of gene silencing and siRNA uptake in the tissue. Here we report an approach to directly quantify siRNA in the RISC in rodents and monkey. This is achieved by specific immunoprecipitation of the RISC from tissue lysates and quantification of small RNAs in the immunoprecipitates by stem-loop PCR. The method, expected to be independent of delivery vehicle and target, is label-free, and the throughput is acceptable for preclinical animal studies. We characterized a lipid-formulated siRNA by integrating these approaches and obtained a quantitative perspective on siRNA tissue accumulation, RISC loading, and gene silencing. The described methodologies have utility for the study of silencing mechanism, the development of siRNA therapeutics, and clinical trial design. 相似文献