Cultured human hepatocytes. Evidence for metabolism of low density lipoproteins by a pathway independent of the classical low density lipoprotein receptor

Studies of low density lipoprotein (LDL) metabolism in nonhuman model systems have indicated that the mammalian liver has dual mechanisms for the uptake and regulation of the concentration of plasma LDL. Heretofore, direct evaluation of lipoprotein uptake mechanisms in human hepatocytes has not been possible. In order to compare hepatocyte LDL uptake with fibroblast LDL metabolism, human hepatocytes were isolated and cultured from small biopsy specimens obtained from normolipidemic and homozygous familial hypercholesterolemic patients. Cells cultured in serum-free culture medium retained the morphological and biochemical characteristics of hepatocytes for at least 7 days. The uptake and degradation of LDL by hepatocytes was compared to that of the cultured human fibroblasts. Like fibroblasts, hepatocytes bound, internalized, and degraded LDL. In both cell types, uptake approached saturation at a concentration of 50 micrograms of LDL protein/ml. Competition for LDL binding by LDL, high density lipoprotein, and modified LD revealed that the hepatocyte binding was specific for LDL. Cellular cholesterol loading by incubation in LDL-enriched culture medium resulted in diminished LDL uptake in both cell types. Chemical modification of LDL by acetoacetylation, acetylation, and reductive methylation abolished LDL uptake and degradation by fibroblasts. However, hepatocytes bound and degraded the modified LDL at 30-50% the level of native LDL. Homozygous familial hypercholesterolemic hepatocytes were devoid of the LDL receptor pathway but metabolized native LDL to the extent observed with modified LDL uptake by normal hepatocytes. In contrast to the classic LDL receptor pathway, the second or alternate pathway does not lead to regulation of 3-hydroxy-3-methylglutaryl-CoA reductase activity. These findings indicate the presence of two separate pathways of LDL uptake in human hepatocytes which have different effects on hepatocytic cholesterol metabolism.     

Faecal indicator bacteria enumeration in beach sand: a comparison study of extraction methods in medium to coarse sands

Aims:  The absence of standardized methods for quantifying faecal indicator bacteria (FIB) in sand hinders comparison of results across studies. The purpose of the study was to compare methods for extraction of faecal bacteria from sands and recommend a standardized extraction technique.
Methods and Results:  Twenty-two methods of extracting enterococci and Escherichia coli from sand were evaluated, including multiple permutations of hand shaking, mechanical shaking, blending, sonication, number of rinses, settling time, eluant-to-sand ratio, eluant composition, prefiltration and type of decantation. Tests were performed on sands from California, Florida and Lake Michigan. Most extraction parameters did not significantly affect bacterial enumeration. anova revealed significant effects of eluant composition and blending; with both sodium metaphosphate buffer and blending producing reduced counts.
Conclusions:  The simplest extraction method that produced the highest FIB recoveries consisted of 2 min of hand shaking in phosphate-buffered saline or deionized water, a 30-s settling time, one-rinse step and a 10 : 1 eluant volume to sand weight ratio. This result was consistent across the sand compositions tested in this study but could vary for other sand types.
Significance and Impact of the Study:  Method standardization will improve the understanding of how sands affect surface water quality.     

Distribution and Diversity of Escherichia coli Populations in the South Nation River Drainage Basin,Eastern Ontario,Canada

We investigated the prevalence and diversity of Escherichia coli strains isolated from surface waters from multiple watersheds within the South Nation River basin in eastern Ontario, Canada. The basin is composed of mixed but primarily agricultural land uses. From March 2004 to November 2007, a total of 2,004 surface water samples were collected from 24 sampling sites. E. coli densities ranged from undetectable to 1.64 × 10⁵ CFU 100 ml⁻¹ and were correlated with stream order and proximity to livestock production systems. The diversity of 21,307 E. coli isolates was characterized using repetitive extragenic palindromic PCR (rep-PCR), allowing for the identification of as many as 7,325 distinct genotypes, without capturing all of the diversity. The community was temporally and spatially dominated by a few dominant genotypes (clusters of more than 500 isolates) and several genotypes of intermediary abundance (clustering between 10 and 499 isolates). Simpson diversity indices, assessed on a normalized number of isolates per sample, ranged from 0.050 to 0.668. Simpson indices could be statistically discriminated on the basis of year and stream order, but land use, discharge, weather, and water physical-chemical properties were not statistically important discriminators. The detection of Campylobacter species was associated with statistically lower Simpson indices (greater diversity; P < 0.05). Waterborne E. coli isolates from genotypes of dominant and intermediary abundance were clustered with isolates obtained from fecal samples collected in the study area over the same period, and 90% of the isolates tested proved to share genotypes with fecal isolates. Overall, our data indicated that the densities and distribution of E. coli in these mixed-use watersheds were linked to stream order and livestock-based land uses. Waterborne E. coli populations that were distinct from fecal isolates were detected and, on this basis, were possibly naturalized E. coli strains.Escherichia coli is ubiquitously distributed in fecal material from humans and warm-blooded animals (38). The detection of E. coli in water is an implicit indicator of recent fecal contamination and therefore of the risk of cooccurrence of enteric pathogens that can cause illness in susceptible populations (62). Many jurisdictions evaluate and mandate compliance with drinking and recreational water quality standards on the basis of the presence and abundance of E. coli (14, 44). For example, Canadian recreational water quality standards stipulate that E. coli densities in excess of a geometric mean of 200 CFU per 100 ml indicate that the water is unsuitable for swimming and bathing (23).In a background of increasing occurrence of microbial contamination of surface water, a variety of methods for elucidating the sources of fecal contamination have been developed, and these microbial source tracking (MST) methods are recommended components of fecal pollution abatement strategies (16, 57). So-called library-dependent MST methods compare environmental isolates to collections of isolates obtained from likely sources of fecal pollution in the area of investigation. The host source is distinguished on the basis of the similarity of environmental isolates to reference fecal isolates. Comparison can be undertaken on the basis of genomic fingerprinting methods, including repetitive extragenic palindromic PCR (rep-PCR), ribotyping, or pulsed-field gel electrophoresis (PFGE) (13, 17, 31, 54, 57). A variety of studies using these methods have revealed enormous diversity in the fecal and environmental E. coli populations. For example, 461 distinct PFGE genotypes and 175 distinct enterobacterial repetitive intergenic consensus (ERIC)-PCR genotypes were detected in a collection of 555 E. coli strains isolated from river water in Texas (10). As many as 291 and 94 rep-PCR genotypes were distinguished in collections of 643 river isolates and 353 beach water E. coli isolates, respectively (43). Significant diversity was also revealed using multilocus enzyme electrophoresis (MLEE) and multilocus sequence typing (MLST) on 185 E. coli isolates from freshwater beaches, where an average of 40 alleles per locus were detected (59). Almost 60% of 657 E. coli isolates in a fecal reference collection had unique (i.e., detected in only one individual) fingerprints determined by rep-PCR (32). Extensive diversity of E. coli was also observed in soils in temperate climates, where the growth and persistence of “naturalized” populations without any known fecal input have been found (7, 28, 30). Naturalized populations have been dominated by the B1 phylogroup and may have adapted in ways that enhance their survival in temperate secondary habitats (59). The temporal and spatial diversity of E. coli may not be a significant factor in coarse-source (e.g., human versus animal) classification of E. coli by means of ribotyping procedures (48). Ultimately, the characterization and understanding of the diversity of populations of selected microorganisms in surface watercourses affected by multiple sources of fecal pollution (as in agricultural watershed settings, for example) may be more critical for assessing the specific impacts of contamination-mitigating measures than previously thought. For instance, restricting the access of cattle on pasture to adjacent water by implementing vegetative buffering along watercourses creates habitat for varied wildlife, which then contribute to fecal pollution. In this context, the diversity in populations of indicator bacteria could be useful for better understanding how changes in landscape use influence fecal source inputs.As part of a research program evaluating the impact of agriculture on water quality and the efficacy of better agricultural management practices to mitigate agricultural pollution, we have conducted a multiyear study of the microbiological water quality for a suite of different-sized watersheds in the South Nation River basin in eastern Ontario, Canada (41, 46, 61). Land use in this river basin is mixed, consisting primarily of agricultural activities, light urban development, and interspersed wildlife habitat. Surface water systems in the study region differ widely in their contributing areas and therefore in their discharges (61).In the work undertaken here, we sought to determine the spatial and seasonal variability in the density and the structure of populations of E. coli in surface waters within the South Nation River basin. The specific objectives of the study were (i) to characterize the seasonal distribution and abundance of E. coli in different watershed settings within the river basin, (ii) to evaluate the spatial distribution of E. coli densities and diversity with respect to upstream land use activities, (iii) to use rep-PCR to elucidate the dominant E. coli genotypes and the diversity of E. coli populations and to explore linkages to pathogen presence, season, and environmental and land use variables, and (iv) using rep-PCR, to evaluate the concordance between waterborne isolates and fecal isolates obtained from within the study area. The study is distinguished by an intensive 4-year sampling of numerous (n = 24) sites that differed in their stream order and proximal land use activity; the number of E. coli isolates (≈21,000) included in the analysis; and the use of two distinct rep-PCR fingerprinting methods (ERIC and BOXA1R) to characterize the isolates. Furthermore, we used classification and Regression Tree (CART) analysis to evaluate relationships between the abundance and diversity of E. coli in water samples and environmental and land use variables.     

Germ band retraction as a landmark in glucose metabolism during <Emphasis Type="Italic">Aedes aegypti</Emphasis> embryogenesis

Background  

The mosquito A. aegypti is vector of dengue and other viruses. New methods of vector control are needed and can be achieved by a better understanding of the life cycle of this insect. Embryogenesis is a part of A. aegypty life cycle that is poorly understood. In insects in general and in mosquitoes in particular energetic metabolism is well studied during oogenesis, when the oocyte exhibits fast growth, accumulating carbohydrates, lipids and proteins that will meet the regulatory and metabolic needs of the developing embryo. On the other hand, events related with energetic metabolism during A. aegypti embryogenesis are unknown.     

大鼠心肌缺血再灌注损伤模型的实验研究

目的 制备一种新型的心肌急性缺血再灌注损伤模型,以探讨一种更符合临床实际需求的实验方法.方法 将20只雌性SD(Sprague-Dawley)大鼠随机分成2组(对照组、实验组),采用结扎主动脉根部引起心肌缺血5min再灌注30 min建立心肌急性缺血再灌注模型;通过应用透射电镜观察心肌细胞超微结构的改变,同时检测心肌组织匀浆丙二醛(Maleic Dialdehyde,MDA)含量、超氧化物歧化酶(Superoxide Dismutase,SOD)活力.结果 透射电镜下超微结构显示实验组较对照组明显加重了心肌组织结构和线粒体的损害;实验组心肌组织MDA明显高于对照组(P<0.01),而SOD明显低于对照组(P<0.01).结论 本实验成功建立了方法简便、易于操作、取材范围广泛的心肌缺血再灌注损伤模型,为心肌缺血再灌注损伤研究提供了一种更为可行的模型.     

Occurrence of Virulence and Antimicrobial Resistance Genes in Escherichia coli Isolates from Different Aquatic Ecosystems within the St. Clair River and Detroit River Areas

Although the number of Escherichia coli bacteria in surface waters can differ greatly between locations, relatively little is known about the distribution of E. coli pathotypes in surface waters used as sources for drinking or recreation. DNA microarray technology is a suitable tool for this type of study due to its ability to detect high numbers of virulence and antimicrobial resistance genes simultaneously. Pathotype, phylogenetic group, and antimicrobial resistance gene profiles were determined for 308 E. coli isolates from surface water samples collected from diverse aquatic ecosystems at six different sites in the St. Clair River and Detroit River areas. A higher frequency (48%) of E. coli isolates possessing virulence and antimicrobial resistance genes was observed in an urban site located downstream of wastewater effluent outfalls than in the other examined sites (average of 24%). Most E. coli pathotypes were extraintestinal pathogenic E. coli (ExPEC) pathotypes and belonged to phylogenetic groups B2 and D. The ExPEC pathotypes were found to occur across all aquatic ecosystems investigated, including riverine, estuarine, and offshore lake locations. The results of this environmental study using DNA microarrays highlight the widespread distribution of E. coli pathotypes in aquatic ecosystems and the potential public health threat of E. coli pathotypes originating from municipal wastewater sources.     

A comparison of two pre-enrichment media prior to immunomagnetic separation for the isolation of E. coli O157 from bovine faeces

AIMS: To compare the sensitivity of two pre-enrichment broth media prior to immunomagnetic separation for the isolation of Escherichia coli O157 from cattle faeces. METHODS AND RESULTS: One-gram portions of 721 cattle faeces collected from 43 farms were pre-enriched in buffered peptone water containing vancomycin, cefixime and cefsulodin (BPW-VCC) and buffered peptone water without additives (BPW-WOA), respectively. A total of 137 samples were positive for E. coli O157: 127 pre-enriched with BPW-WOA and 89 pre-enriched in BPW-VCC. Representative isolates were tested for phage type, verotoxin and eae (E. coli attaching and effacing) gene sequences, resulting in the recognition of eight different types. All the E. coli O157 types recognized were isolated by both methods except for three different strains, each of which were isolated only on a single occasion: two by BPW-WOA and another by BPW-VCC. CONCLUSIONS: The results clearly demonstrate, under the conditions of this study, that BPW without antibiotics was the superior pre-enrichment medium for the isolation of E. coli O157 from cattle faeces. SIGNIFICANCE AND IMPACT OF THE STUDY: The use of BPW-WOA in preference to BPW-VCC for the isolation of E. coli O157 from cattle faeces in future research and outbreak studies should lead to a higher number of positive isolates.