Maintenance of adult hamster pancreas cells on fibroblastic cells

Summary The maintenance of primary cultures of adult hamster pancreatic cells on layers of irradiated C3H/10T1/2 cells was studied. Various types of pancreatic cells, acinar, islet and ductular cells could be identified in the cultures by light and electron microscopy. Morphologically the various pancreatic cells retained many differentiated characteristics of their respective in vivo cell types. Insulin production was maintained at near Day 1 levels for the 16 d in culture for which it was measured. Colonies of epithelial cells continued to grow during a 20 d culture period. It is believed that this procedure for maintaining functional and growing pancreas cells in culture may be a useful in vitro model for studying the initiation of pancreatic carcinogenesis. Supported by Grant R01 CA 20022 and Contract N01 CP33278 from the National Cancer Institute, National Institutes of Health, Bethesda, Maryland.     

Promoting effect of feeder cells in maintenance of adult rat hepatocytes

A procedure is described for maintaining primary cultures of adult rat hepatocytes for prolonged periods of time on layer of irradiated mouse fibroblast cell line (C3H/1OT1/2) and on a secondary lung fibroblasts obtained from Sprague Dawley rats. Morphologically and ultrastructurally the cocultivated hepatocytes retained many characteristics of hepatocytes in vivo. Within 24 hours after seeding, the individual cells were attached on the feeder cell layer and the in vivo polarity of the liver cells reappeared. Electron microscope studies demonstrated the appearance of newly developed bile ducts and junctions between hepatocytes as well as between hepatocytes and feeder cells. Histochemically, these cells were positive for glucose-6-phosphatase and for glycogen. After 14 days in culture the hepatocytes could be reseeded onto fresh C3H1OT1/2 cells. In contrast, hepatocytes maintained on plastic substrate lost their glycogen content and the epithelial character of the liver cells after 5 days in culture, and by day 10 this culture became predominantly fibroblastic. It is suggested that hepatocytes maintained on an irradiated fibroblast feeder layer provide a valuable approach for studying the morphogenesis, cytotoxicity, or the metabolism of different chemicals in vitro.     

Forebrain projections of the pigeon olfactory bulb

The olfactory system of the pigeon (Columba livia) was examined. Our electrophysiological and experimental neuroanatomical (Fink-Heimer technique) data showed that axons from the olfactory bulb terminated in both sides of the forebrain. The cortex prepiriformis (olfactory cortex), the hyperstriatum ventrale and the lobus parolfactorius comprised the uncrossed terminal field. The crossed field included the paleostriatum primitivum and the caudal portion of the lobus parolfactorius, areas which were reached through the anterior commissure. In this report the relationships between areas that receive olfactory information and the possible roles that olfaction plays in the birds' behavior are discussed.     

Formation of 5- and 6-Aminocytosine Nucleosides and Nucleotides from the Corresponding 5-Bromocytosine Derivatives: Synthesis and Reaction Mechanism

Abstract

An improved method for the synthesis of 5-aminocytidine (3a), 5-amino-2′-deoxycytidine (3b), and their 5′-monophosphates (3c,d) from the corresponding 5-bromo pyrimidines, using liquid ammonia, is described. The respective 6-aminocytosine derivatives (4a,b,c,d), minor products of the amination reaction, were isolated and characterized. A plausible mechanism is proposed to account for the formation of both 5-and 6-substituted products.     

The Limitations of an Exclusively Colloidal View of Protein Solution Hydrodynamics and Rheology

Proteins are complex macromolecules with dynamic conformations. They are charged like colloids, but unlike colloids, charge is heterogeneously distributed on their surfaces. Here we overturn entrenched doctrine that uncritically treats bovine serum albumin (BSA) as a colloidal hard sphere by elucidating the complex pH and surface hydration-dependence of solution viscosity. We measure the infinite shear viscosity of buffered BSA solutions in a parameter space chosen to tune competing long-range repulsions and short-range attractions (2 mg/mL ≤ [BSA] ≤ 500 mg/mL and 3.0 ≤ pH ≤ 7.4). We account for surface hydration through partial specific volume to define volume fraction and determine that the pH-dependent BSA intrinsic viscosity never equals the classical hard sphere result (2.5). We attempt to fit our data to the colloidal rheology models of Russel, Saville, and Schowalter (RSS) and Krieger-Dougherty (KD), which are each routinely and successfully applied to uniformly charged suspensions and to hard-sphere suspensions, respectively. We discover that the RSS model accurately describes our data at pH 3.0, 4.0, and 5.0, but fails at pH 6.0 and 7.4, due to steeply rising solution viscosity at high concentration. When we implement the KD model with the maximum packing volume fraction as the sole floating parameter while holding the intrinsic viscosity constant, we conclude that the model only succeeds at pH 6.0 and 7.4. These findings lead us to define a minimal framework for models of crowded protein solution viscosity wherein critical protein-specific attributes (namely, conformation, surface hydration, and surface charge distribution) are addressed.     

Antioxidant and Anti-Inflammatory Effects in RAW264.7 Macrophages of Malvidin,a Major Red Wine Polyphenol

Background

Red wine polyphenols can prevent cardiovascular and inflammatory diseases. Resveratrol, the most extensively studied constituent, is unlikely to solely account for these beneficial effects because of its rather low abundance and bioavailability. Malvidin is far the most abundant polyphenol in red wine; however, very limited data are available about its effect on inflammatory processes and kinase signaling pathways.

Methods & Findings

The present study was carried out by using RAW 264.7 macrophages stimulated by bacterial lipopolysaccharide in the presence and absence of malvidin. From the cells, activation of nuclear factor-kappaB, mitogen-activated protein kinase, protein kinase B/Akt and poly ADP-ribose polymerase, reactive oxygen species production, mitogen-activated protein kinase phosphatase-1 expression and mitochondrial depolarization were determined. We found that malvidin attenuated lipopolysaccharide-induced nuclear factor-kappaB, poly ADP-ribose polymerase and mitogen-activated protein kinase activation, reactive oxygen species production and mitochondrial depolarization, while upregulated the compensatory processes; mitogen-activated protein kinase phosphatase-1 expression and Akt activation.

Conclusions

These effects of malvidin may explain the previous findings and at least partially account for the positive effects of moderate red wine consumption on inflammation-mediated chronic maladies such as obesity, diabetes, hypertension and cardiovascular disease.     

The frequency of induced premature centromere division in human populations occupationally exposed to genotoxic chemicals

Premature (early) centromere division (PCD, i.e., the separation of centromeres during the prometaphase/metaphase of the mitotic cycle) seems to be a possible manifestation of chromosome instability in human chromosome-breakage syndromes. Chromosome instability also frequently occurs in the peripheral blood lymphocytes (PBL) of humans occupationally exposed to clastogenic agents, and is considered an etiologic factor of neoplastic diseases. In order to investigate the importance of PCD in cancer risk assessment, we studied the frequency of PCDs in PBL of 400 Hungarian subjects. The various groups comprised 188 control donors and 212 subjects occupationally exposed to different genotoxic chemicals, such as acrylonitrile (ACN) and/or dimethylformamide (DMF), benzene, cytostatic drugs, ethylene oxide (ETO), mixed exposure in the rubber industry, mixed organic solvents including CCl4, hot oil-mist, bitumen, and polychlorinated biphenyls (PCB). Data were compared with chromosomal aberration frequencies determined in the same samples. PCD yields are significantly higher in populations exposed to mixed chemicals, crude oil and cytostatic drugs, compared with controls. PCDs involving more than three chromosomes are also more frequent in ETO- and oil mist-exposed groups than in the others. The results indicate that the induction of PCDs is neither incidental nor artificial. As a consequence, we suggest that PCD can be developed into a new, exposure-related cytogenetic biomarker for a more adequate occupational cancer risk assessment. A further, follow-up epidemiological and cytogenetic investigation of PCD is in progress.     

Preventive medicine: biomonitoring and chemoprevention

The aim of chemoprevention is to delay or prevent the development of pathological conditions, or to correct abnormal regulatory mechanisms and in some cases even reverse the process. For this intervention to succeed, biomarkers must be found that characterize impaired health status in a phase when impairment is still reversible. Genotoxicological parameters may function as biomarkers of this kind, such as inhibition or delay of mitosis, inhibition of apoptosis, increase in the number of chromosomal aberrations, decrease in the capacity of DNA repairing enzymes, or parameters characterizing immunological status (eg. decreased NK activity). With the help of early signs, impending negative changes or illness (which could not be prevented without effective chemoprevention) can be predicted in apparently healthy individuals. Thus, the first and most important step in chemoprevention is risk characterization. Risk characterization is a complex concept, which includes risk analysis, risk assessment and risk management. Chemoprevention is a part of the latter process. Biomarkers, which can be studied mainly by up-to-date molecular biological methods, are used in discovering risk factors and also in the assessment of caused biological effects. Besides avoiding risk factors, it is very important to strengthen the protective mechanisms, to promote the metabolism of toxic substances, and to repair damage (ward off denaturation of macromolecules caused by free oxygen radicals with antioxidants for example). Chemopreventive agents are therefore diverse in their targets. Most of them have antioxidant properties, such as plant-derived substances, like glycosides, flavonoids, various vitamins, carotinoids, and some trace elements such as selenium. Another group of chemopreventive agents inhibit cell proliferation, or induce programmed cell death (apoptosis). Another group influence terminal differentiation, or inhibit angiogenesis. Some chemopreventive agents affect the metabolism or detoxification of xenobiotics, or boost the functions of the immune system. In many cases these effects are mediated by the rate of methylation of DNA molecules.