Non-Effect of an Antibiotic Treatment on Dietary Fiber-Induced Goblet Cell Proliferation in the Ileum of Rats

We examined the effect or not of an antibiotic treatment on dietary fiber-induced goblet cell proliferation in the rat ileum. The number of goblet cells in the ileum increased when rats consumed dietary fiber. However, this effect was maintained with a concurrent treatment of antibiotics, suggesting that the fiber effect on goblet cell response would remain irrespective of a bacterial component such as endotoxin.     

非洲马铃果4种吲哚类生物碱的体外抗肿瘤效果

为比较非洲马铃果Voacanga africana中长春胺、冠狗牙花定碱、老刺木胺、伏康京碱等4种吲哚类生物碱的体外抗肿瘤活性,采用MTT法分析其对SKOV3、BEL7402、SMMC7721、Changliver四株细胞株增殖的抑制作用,并通过AO/EB双染观察细胞凋亡的形态变化。结果显示,4种吲哚生物碱对四株细胞株的增殖抑制现象存在剂量依赖关系。50 μg·mL-1老刺木胺对四株细胞株的生长抑制率均达95%以上;相同浓度下,伏康京碱仅对BEL7402、Changliver的抑制率超过78%;冠狗牙花定碱仅对Changliver有超过50%的增殖抑制率;长春胺对四株细胞株的增殖抑制效果不明显。经AO/EB法染色后,四株细胞株在12.5 μg·mL-1老刺木胺的作用下呈现细胞核皱缩、浓聚和偏移的现象,说明老刺木胺具有明显诱导细胞凋亡的作用;50 μg·mL-1伏康京碱仅对BEL7402和Changliver具有一样的效果,另两种生物碱作用的细胞株并未见有明显的细胞凋亡现象。MTT法和AO/EB双染法表现结果一致。老刺木胺和伏康京碱两种生物碱能够诱导卵巢癌细胞和人肝细胞凋亡从而发挥抗肿瘤作用,长春胺和冠狗牙花定碱作用效果相对较弱。     

Effect of antibiotics on cell proliferation in the Closterium peracerosum-strigosum-littorale complex (Charophyceae, Chlorophyta)

The effects of several antibiotics on the proliferation of cells of the Closterium peracerosum-strigosum-littorale complex, a unicellular charophycean alga, were examined. When cells were cultured on solid medium containing hygromycin B and phleomycin the proliferation of cells was inhibited at low concentrations of these antibiotics, with a minimum inhibitory concentration of 5.0 and 0.2 μg/mL, respectively. By contrast, kanamycin sulfate was less effective at concentrations up to 50 μg/mL. When cells were incubated in liquid medium containing hygromycin B and phleomycin, cell proliferation was severely inhibited at concentrations of 5.0 and 0.01 μg/mL, respectively. It is concluded that hygromycin B and phleomycin are highly effective for inhibiting the proliferation of C. psl. complex both on solid and in liquid medium and thus are useful for the selection of the cells transformed by selectable marker genes. Presented at the International Symposium Biology and Taxonomy of Green Algae V, Smolenice, June 26–29, 2007, Slovakia.     

The effect of enrofloxacin on cell proliferation and proteoglycans in horse tendon cells

Fluoroquinolone antibiotics have been used widely in humans and domestic animals, including horses, because of their broad-spectrum bactericidal activity, and relative safety. The use of fluoroquinolones, however, is not without risk. Tendonitis and spontaneous tendon rupture have been reported in people during or following therapy with fluoroquinolones. We have studied the effects of enrofloxacin, a fluoroquinolone antibiotic used commonly in domestic animals, on tendon cell cultures established from equine superficial digital flexor tendons. Effects on cell proliferation and morphology were studied using cell counting and scanning electron microscopy. Monosaccharide content and composition was determined by gas chromatography-mass spectrometry analysis. Western and Northern blot analyses were utilized to evaluate the synthesis and expression of two proteoglycans, biglycan and decorin. Our data demonstrate that enrofloxacin inhibits cell proliferation, induces morphological changes, decreases total monosacharide content and alters small proteoglycan synthesis at the glycosylation level in equine tendon cell cultures. These effects are more pronounced in juvenile tendon cells than in adult equine tendon cells. We hypothesize that morphological changes and inhibition of cell proliferation are a result of impaired production of biglycan and decorin, proteoglycans involved in fibrillogenesis of collagen, the most important structural component of the tendon of enrofloxacin-treated tendon cells. Our findings suggest that fluoroquinolones should be used with caution in horses, especially in foals.     

4-Quinolones cause a selective loss of mitochondrial DNA from mouse L1210 leukemia cells

The 4-quinolone antibiotics nalidixic acid and ciprofloxacin and potent inhibitors of the bacterial type II topoisomerase DNA gyrase. Treatment of mouse L1210 leukemia cells with these drugs resulted in a delayed inhibition of cell proliferation. Prior to inhibition of cell proliferation, there was a time-dependent decrease in the cellular content of mitochondrial DNA (mtDNA). The decrease in mtDNA was associated with a decrease in the rate of mitochondrial respiration and an increase in the concentration of lactate in the growth medium. Inhibition of cell proliferation by 4-quinolones was reversible upon drug washout. However, there was a 2- to 4-day lag before the growth rate returned to normal levels. This was preceeded by an increase in mtDNA content and mitochondrial respiration. These studies suggest that inhibition of mammalian cell proliferation by 4-quinolone drugs is related to the selective depletion of mtDNA. © 1993 Wiley-Liss, Inc.     

Both exogenous commensal and endogenous self antigens stimulate T cell proliferation under lymphopenic conditions

Within lymphopenic recipients, naïve T cells undergo proliferation that is induced by homeostatic mechanisms. Earlier studies have demonstrated that commensal antigens play a key role in inducing the proliferation. However, a relative contribution of endogenous self antigens in this process has not been formally investigated. In this study, we utilized a pharmacologic inhibitor that blocks T cell egress from the lymphoid tissues, antibiotics, and germ-free animals to examine the role of commensal and self antigens. The results suggest that T cell proliferation under lymphopenic conditions is a heterogeneous process triggered by both exogenous commensal and endogenous self antigens.     

Monoclonal antibody OKT3-induced T cell proliferation: differential role of HLA class II determinants expressed by T cells and monocytes.

Monoclonal antibodies (MAb) to monomorphic determinants of HLA Class II antigens inhibit monocyte-dependent T cell proliferation induced by MAb OKT3 to a different extent, suggesting a differential regulatory role of the corresponding determinants in T cell proliferation. To elucidate the mechanism(s) underlying this pattern, the MAb CR10-343 and Q5/6 with high inhibitory effect and MAb CR11-462 and CR12-356 with low inhibitory effect were characterized. Cross-inhibition studies showed that the four MAb recognize distinct determinants. The determinants recognized by MAb CR10-343 and CR12-462 are spatially close. The determinants recognized by the four MAb appear to be functionally independent in MAb OKT3-induced T cell proliferation, since the inhibitory effect of the combination of MAb CR10-343 and Q5/6 and of the MAb CR11-462 and CR12-356 was additional but not synergistic. To compare the functional activity of HLA Class II determinants expressed by monocytes and by activated T cells in MAb OKT3-induced T cell proliferation, the effect of the four MAb on MAb OKT3-induced T cell proliferation in a monocyte-dependent and in a monocyte-free system was studied. Dose-response and proliferation kinetics studies showed that the four MAb display a similar inhibitory effect on MAb OKT3-induced T cell proliferation in a monocyte-free system. These results suggest fine differences in the role played by monocyte- and T cell-bound HLA Class II determinants in the regulation of MAb OKT3-induced T cell proliferation. This functional heterogeneity may enhance the flexibility of HLA Class II antigens to mediate cell-cell interactions involved in the proliferative response to a variety of mitogenic stimuli.     

Inhibition of heat shock protein 90 (hsp90) in proliferating endothelial cells uncouples endothelial nitric oxide synthase activity

Dual increases in nitric oxide ((*)NO) and superoxide anion (O(2)(*-)) production are one of the hallmarks of endothelial cell proliferation. Increased expression of endothelial nitric oxide synthase (eNOS) has been shown to play an important role in maintaining high levels of (*)NO generation to offset the increase in O(2)(*-) that occurs during proliferation. Although recent reports indicate that heat shock protein 90 (hsp90) associates with eNOS to increase (*)NO generation, the role of hsp90 association with eNOS during endothelial cell proliferation remains unknown. In this report, we examine the effects of endothelial cell proliferation on eNOS expression, hsp90 association with eNOS, and the mechanisms governing eNOS generation of (*)NO and O(2)(*-). Western analysis revealed that endothelial cells not only increased eNOS expression during proliferation but also hsp90 interactions with the enzyme. Pretreatment of cultures with radicicol (RAD, 20 microM), a specific inhibitor that does not redox cycle, decreased A23187-stimulated (*)NO production and increased L(omega)-nitroargininemethylester (L-NAME)-inhibitable O(2)(*-) generation. In contrast, A23187 stimulation of controls in the presence of L-NAME increased O(2)(*-) generation, confirming that during proliferation eNOS generates (*)NO. Our findings demonstrate that hsp90 plays an important role in maintaining (*)NO generation during proliferation. Inhibition of hsp90 in vascular endothelium provides a convenient mechanism for uncoupling eNOS activity to inhibit (*)NO production. This study provides new understanding of the mechanisms by which ansamycin antibiotics inhibit endothelial cell proliferation. Such information may be useful in the development and design of new antineoplastic agents in the future.     

Double-stranded RNA regulation of DNA synthesis in fibroblasts.

The double-stranded RNA molecule polyinosinic-polycytidylic acid (poly IC) has been found in some studies to have a mitogenic effect on fibroblast proliferation while other studies found poly IC to have an inhibitory effect on proliferation. In this study, we investigated whether a stabilized form of poly IC complexed with poly-L-lysine and carboxymethylcellulose (poly ICLC) had a bidirectional effect on DNA synthesis in fibroblasts from four different cell lines and determined factors that potentially influence this bidirectional effect. In medium containing fetal bovine serum, poly ICLC slightly increased the levels of [3H]thymidine incorporation in growing fibroblasts in three of the four fibroblast cell lines tested, while poly ICLC increased [3H]thymidine incorporation in confluent, quiescent fibroblasts in two of four cell lines. Poly ICLC did not induce DNA synthesis in subconfluent, quiescent or in confluent, quiescent fibroblasts under serum-free conditions. Poly ICLC significantly suppressed serum-induced [3H]thymidine incorporation by quiescent fibroblasts in all cell lines. We conclude that the stimulatory and inhibitory effects of poly ICLC on DNA synthesis are influenced by both the cell line and the presence of serum components in the culture medium but not by population density.     

细胞培养物中污染支原体的去除

经小鼠体内、体外加用不同的抗菌素处理及克隆的方法处理细胞污染的支原体,三株细胞经两次、一株细胞经三次处理后,经培养法、ＤＮＡ染色法及ＰＣＲ法检查支原体污染均为阴性,并证明对其抗体分泌没有任何影响,不失为一个理想的去除支原体的方法,从而使有重要应用价值的支原体污染细胞的应用成为可能。     

Differential role of proline-rich tyrosine kinase 2 and focal adhesion kinase in determining glioblastoma migration and proliferation

The propensity of malignant gliomas to invade surrounding brain tissue contributes to poor clinical outcome. Integrin-mediated adhesion to extracellular matrix regulates the migration and proliferation of many cell types, but its role in glioma progression is undefined. We investigated the role of the cytoplasmic tyrosine kinases FAK and Pyk2, potential integrin effectors, in the phenotypic determination of four different human glioblastoma cell lines. While FAK expression was similar between the four cell lines, increased FAK activity correlated with high proliferation and low migratory rates. In contrast, Pyk2 activity was significantly increased in migratory cell lines and depressed in proliferative cell lines. Overexpression of Pyk2 stimulated migration, whereas FAK overexpression inhibited cell migration and stimulated cellular proliferation. These data suggest that FAK and Pyk2 function as important signaling effectors in gliomas and indicate that their differential regulation may be determining factors in the temporal development of proliferative or migrational phenotypes.     

The prophylactic use of antibiotics in cell culture

This article describes the historical development of the prophylactic use of antibiotics in cell culture as well as their effects on cells. The influence of antibiotics on cell morphology, cellular degeneration and cell death and cellular function is summarized. Cellular DNA as well as protein synthesis are affected which can lead to interference with, or even changes in, metabolic processes. Such effects must be considered in cell culture research. As antibiotics are used in multifold ways, the otherwise standardized conditions in cell culture are no longer comparable. The prophylactic use of antibiotics is rejected for scientific reasons.     

Immunosuppressive activity of T cell clones generated from human T cells stimulated with autologous TPHA cells

T cell clones were generated from human T cells stimulated with autologous phytohemagglutinin (PHA)-activated T (TPHA) cells. Characterization of three T cell clones originated from donor SF and one from donor JM showed that they proliferated when stimulated with autologous TPHA cells, non-T cells, and peripheral blood mononuclear cells, but did not proliferate when stimulated with allogeneic TPHA cells, non-T cells, and mononuclear cells, with autologous and allogeneic resting T cells, and with PHA. These results in conjunction with the blocking of the proliferation by anti-histocompatibility leukocyte antigen class II monoclonal antibodies indicate that these class II antigens are involved in the proliferation of T cell clones stimulated with autologous lymphoid cells. The four T cell clones are cytotoxic neither to autologous lymphoid cells nor to a panel of cultured human cell lines. The four T cell clones display immunosuppressive activity, since they inhibit the proliferation of autologous and allogeneic cells stimulated with antigens and mitogens and the secretion of immunoglobulin by B cells stimulated with pokeweed mitogen in presence of T cells. Furthermore, the four T cell clones display differential inhibitory activity on the proliferation of cultured human cell lines. The immunosuppressive activity is species-specific, since the T cell clones do not inhibit the proliferation of murine cells. The suppression is mediated by a factor(s) with an apparent m.w. of 13,000 to 16,000. The suppressor activity is labile at alkaline pH and is lost following incubation with pronase (100 U/ml) for 30 min at 37 degrees C.     

Characterization of 5,6- and 8,9-epoxyeicosatrienoic acids (5,6- and 8,9-EET) as potent in vivo angiogenic lipids

The cytochrome P450 arachidonic acid epoxygenase metabolites, the epoxyeicosatrienoic acids (EETs) are powerful, nonregioselective, stimulators of cell proliferation. In this study we compared the ability of the four EETs (5,6-, 8,9-, 11,12-, and 14,15-EETs) to regulate endothelial cell proliferation in vitro and angiogenesis in vivo and determined the molecular mechanism by which EETs control these events. Inhibition of the epoxygenase blocked serum-induced endothelial cell proliferation, and exogenously added EETs rescued cell proliferation from epoxygenase inhibition. Studies with selective ERK, p38 MAPK, or PI3K inhibitors revealed that whereas activation of p38 MAPK is required for the proliferative responses to 8,9- and 11,12-EET, activation of PI3K is necessary for the cell proliferation induced by 5,6- and 14,15-EET. Among the four EETs, only 5,6- and 8,9-EET are capable of promoting endothelial cell migration and the formation of capillary-like structures, events that are dependent on EET-mediated activation of ERK and PI3K. Using subcutaneous sponge models, we showed that 5,6- and 8,9-EET are pro-angiogenic in mice and that their neo-vascularization effects are enhanced by the co-administration of an inhibitor of EET enzymatic hydration, presumably because of reduced EET metabolism and inactivation. These studies identify 5,6- and 8,9-EET as powerful and selective angiogenic lipids, provide a functional link between the EET proliferative chemotactic properties and their angiogenic activity, and suggest a physiological role for them in angiogenesis and de novo vascularization.     

Clinically Relevant Growth Conditions Alter Acinetobacter baumannii Antibiotic Susceptibility and Promote Identification of Novel Antibacterial Agents

Biological processes that govern bacterial proliferation and survival in the host-environment(s) are likely to be vastly different from those that are required for viability in nutrient-rich laboratory media. Consequently, growth-based antimicrobial screens performed in conditions modeling aspects of bacterial disease states have the potential to identify new classes of antimicrobials that would be missed by screens performed in conventional laboratory media. Accordingly, we performed screens of the Selleck library of 853 FDA approved drugs for agents that exhibit antimicrobial activity toward the Gram-negative bacterial pathogen Acinetobacter baumannii during growth in human serum, lung surfactant, and/or the organism in the biofilm state and compared those results to that of conventional laboratory medium. Results revealed that a total of 90 compounds representing 73 antibiotics and 17 agents that were developed for alternative therapeutic indications displayed antimicrobial properties toward the test strain in at least one screening condition. Of the active library antibiotics only four agents, rifampin, rifaximin, ciprofloxacin and tetracycline, exhibited antimicrobial activity toward the organism during all screening conditions, whereas the remainder were inactive in ≥ 1 condition; 56 antibiotics were inactive during serum growth, 25 and 38 were inactive toward lung surfactant grown and biofilm-associated cells, respectively, suggesting that subsets of antibiotics may outperform others in differing infection settings. Moreover, 9 antibiotics that are predominantly used for the treatment Gram-positive pathogens and 10 non-antibiotics lacked detectable antimicrobial activity toward A. baumannii grown in conventional medium but were active during ≥ 1 alternative growth condition(s). Such agents may represent promising anti-Acinetobacter agents that would have likely been overlooked by antimicrobial whole cell screening assays performed in traditional laboratory screening media.     

Mitochondrial biogenesis in human fibroblasts

It is not known whether limitation of lifespan represents a programmed genetic event or is a result of environmental factors imposed by the conditions of culture. An investigation of the factors surrounding the limitedin vitro lifespan of human diploid fibroblasts has been undertaken. We have investigated the role of mitochondria in the finite lifespan of WI-38 human lung fibroblasts. Mitochondrial function was depressed in a controlled manner by treating cells with ethidium bromide and chloramphenicol both of which inhibit normal biogenesis. These antibiotics decrease cytochrome oxidase activity, change cell ultrastructure, and inhibit growth at high concentration. At lower concentrations the antibiotics do not affect cell proliferation for several generations. However, their effect is cumulative and after several generations the cells enlarge, stop dividing and die. Removal of antibiotics from the culture media before death restores proliferative capacity. At still lower concentrations cytochrome oxidase activity was decreased but continuous growth in the presence of the antibiotics caused no decrease inin vitro lifespan. Thus, the potential for oxidative metabolism appears to be in excess of that needed for cell proliferation at all stages of thein vitro lifespan of a culture. The importance of cytoplasmic protein synthesis was evaluated using cycloheximide, a specific inhibitor of this process. Cycloheximide was used to try to distinguish between the effects due to general inhibition and that due to specific inhibition of mitochondrial biogenesis. Exposure of cultures to concentrations of cycloheximide which inhibited growth drastically caused no decrease in cytochrome oxidase activity.     

Nuclear and cell division in Bacillus subtilis Antibiotic-induced morphological changes

Incubation of Bacillus subtilis after outgrowth from spores in the presence of four different antibiotics in two different concentrations, showed that septation can occur without termination of nuclear division. Septation is then only partially uncoupled from the normal division cycle. Observations on location and development of mesosomes in the presence of the antibiotics, made in three-dimensional cell reconstructions, suggest that the mesosome plays a role in the normal coordination between nuclear and cell division, and may explain the partial independence between these two processes in B. subtilis.with technical assistance of Catherine J. SchaapThis work has been presented in part at the A.S.M. Conference on Bacilli: Biochemical Genetics, Physiology and Industrial Applications; 6–9 Aug, 1975, Ithaca, N.Y.     

Renal tissue injury and proliferative response after successive treatments with anticancer platinum derivatives and tobramycin

The administration of anticancer platinum derivatives such as cisplatin, or aminoglycoside antibiotics is frequently associated with tubular necrosis which can eventually lead to acute renal failure. Previously, we have shown that renal tissue injury induced by these drugs elicits a process of tissue repair involving the stimulation of cell proliferation. The present study was undertaken to examine the morphological alterations and the proliferative response resulting from tobramycin administration to animals previously challenged with the platinum derivatives cisplatin and carboplatin. Female Sprague-Dawley rats were treated i.p. with cisplatin (8 mg/kg delivered in four daily injections) or carboplatin (40 mg/kg given in one injection) and sacrificed 21 or 60 days after drug administration. Tobramycin was administered i.p. twice a day at a daily dose of 10 mg/kg over the ten days preceding sacrifice. At 1 h before sacrifice, each animal received i.p. 200 microCi of [3H] thymidine for the measurement of DNA synthesis and cell proliferation (determined by histoautoradiography). Successive treatments with cisplatin and tobramycin appeared to produce an increase in the severity of histopathological alterations such as tubular necrosis and cystic degeneration. Moreover, cisplatin pretreatment dramatically increased the severity of tobramycin-induced lysosomal phospholipidosis. Histopathological alterations were followed by an important proliferative response partly associated with tubular regeneration but also due to fibroblastic proliferation which led to peritubular fibrosis. Surprisingly, the additive effect of cisplatin and tobramycin on renal injury became particularly striking with increasing time intervals between treatments. In contrast, successive treatments with carboplatin and tobramycin did not cause significative changes of the degree of renal injury, compared with either drug given alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

丙型肝炎病毒核心蛋白稳定表达肝癌细胞株的构建及生物学研究

旨在构建稳定表达HCV核心蛋白的稳定细胞系Huh7-Core并进行初步的生物学功能研究.利用PCR技术扩增HCV核心蛋白基因,通过酶切连接反应将目的基因克隆至载体pSEB-3Flag中,将重组质粒pSEB-3F-Core和辅助质粒pAmpho共转染Huh7细胞,经过Blasticidine抗性筛选,建立稳定表达HCV核心蛋白的肝癌细胞系Huh7-Core.采用RT-PCR、Western blot鉴定Huh7-Core细胞株中核心蛋白的稳定表达并采用MTS、结晶紫试验观察Huh7-Core稳定细胞株的增殖情况.结果显示,成功构建了表达HCV核心蛋白的稳定细胞株Huh7-Core.结晶紫、MTS试验证实Huh7-Core细胞较Huh7-3Flag细胞增殖速度增快,表达HCV核心蛋白的Huh7-Core稳定细胞株构建成功,Core稳定表达后可促进Huh7细胞生长速度.     

Engineering of an industrial polyoxin producer for the rational production of hybrid peptidyl nucleoside antibiotics

Polyoxins and nikkomycins are potent antifungal peptidyl nucleoside antibiotics, which inhibit fungal cell wall biosynthesis. They consist of a nucleoside core and one or two independent peptidyl moieties attached to the core at different sites. Making mutations and introducing heterologous genes into an industrial Streptomyces aureochromogenes polyoxin producer, resulted in the production of four polyoxin-nikkomycin hybrid antibiotics designated as polyoxin N and nikkoxin B-D, whose structures were confirmed using high resolution MS and NMR. Two of the hybrid antibiotics, polyoxin N and nikkoxin D, were significantly more potent against some human or plant fungal pathogens than their parents. The data provides an example for rational generation of novel peptidyl nucleoside antibiotics in an industrial producer.