Transcription regulation of the colicin K cka gene reveals induction of colicin synthesis by differential responses to environmental signals.
(25/1272)
Colicin-producing strains occur frequently in natural populations of Escherichia coli, and colicinogenicity seems to provide a competitive advantage in the natural habitat. A cka-lacZ fusion was used to study the regulation of expression of the colicin K structural gene. Expression is growth phase dependent, with high activity in the late stationary phase. Nutrient depletion induces the expression of cka due to an increase in ppGpp. Temperature is a strong signal for cka expression, since only basal-level activity was detected at 22 degrees C. Mitomycin C induction demonstrates that cka expression is regulated to a lesser extent by the SOS response independently of ppGpp. Increased osmolarity induces a partial increase, while the global regulator integration host factor inhibits expression in the late stationary phase. Induction of cka was demonstrated to be independent of the cyclic AMP-Crp complex, carbon source, RpoS, Lrp, H-NS, pH, and short-chain fatty acids. In contrast to colicin E1, cka expression is independent of catabolite repression and is partially affected by anaerobiosis only upon SOS induction. These results indicate that while different colicins are expressed in response to some common signals such as nutrient depletion, the expression of individual colicins could be further influenced by specific environmental cues. (+info)
A paradoxical reduction in susceptibility to colonic injury upon targeted transgenic ablation of goblet cells.
(26/1272)
Goblet cells are the major mucus-producing cells of the intestine and are presumed to play an important role in mucosal protection. However, their functional role has not been directly assessed in vivo. In initial studies, a 5' flanking sequence of the murine intestinal trefoil factor (ITF) gene was found to confer goblet cell-specific expression of a transgene. To assess the role of goblet cells in the intestine, we generated transgenic mice in which approximately 60% of goblet cells were ablated by the expression of an attenuated diphtheria toxin (DT) gene driven by the ITF promoter; other cell lineages were unaffected. We administered 2 exogenous agents, dextran sodium sulfate (DSS) and acetic acid, to assess the susceptibility of mITF/DT-A transgenic mice to colonic injury. After oral administration of DSS, 55% of control mice died, whereas DT transgenic mice retained their body weight and less than 5% died. Similarly, 30% of the wild-type mice died after mucosal administration of acetic acid, compared with 3.2% of the transgenic mice. Despite the reduction in goblet-cell number, the total amount of ITF was increased in the mITF/DT-A transgenic mice, indicating inducible compensatory mechanisms. These results suggest that goblet cells contribute to mucosal protection and repair predominantly through production of trefoil peptides. (+info)
Extracellular oxidoreduction potential modifies carbon and electron flow in Escherichia coli.
(27/1272)
Wild-type Escherichia coli K-12 ferments glucose to a mixture of ethanol and acetic, lactic, formic, and succinic acids. In anoxic chemostat culture at four dilution rates and two different oxidoreduction potentials (ORP), this strain generated a spectrum of products which depended on ORP. Whatever the dilution rate tested, in low reducing conditions (-100 mV), the production of formate, acetate, ethanol, and lactate was in molar proportions of approximately 2.5:1:1:0.3, and in high reducing conditions (-320 mV), the production was in molar proportions of 2:0.6:1:2. The modification of metabolic fluxes was due to an ORP effect on the synthesis or stability of some fermentation enzymes; thus, in high reducing conditions, lactate dehydrogenase-specific activity increased by a factor of 3 to 6. Those modifications were concomitant with a threefold decrease in acetyl-coenzyme A (CoA) needed for biomass synthesis and a 0.5- to 5-fold decrease in formate flux. Calculations of carbon and cofactor balances have shown that fermentation was balanced and that extracellular ORP did not modify the oxidoreduction state of cofactors. From this, it was concluded that extracellular ORP could regulate both some specific enzyme activities and the acetyl-CoA needed for biomass synthesis, which modifies metabolic fluxes and ATP yield, leading to variation in biomass synthesis. (+info)
Tetratricopeptide repeat domain of Yarrowia lipolytica Pex5p is essential for recognition of the type 1 peroxisomal targeting signal but does not confer full biological activity on Pex5p.
(28/1272)
Peroxins are proteins required for peroxisome assembly and are encoded by the PEX genes. The Yarrowia lipolytica pex5-1 mutant fails to import a subset of peroxisomal matrix proteins, including those with a type 1 peroxisomal targeting signal (PTS1). Pex5p family members interact with a PTS1 through their characteristic tetratricopeptide repeat (TPR) domain. We used binding assays in vitro to investigate the nature of the association of Y. lipolytica Pex5p (YlPex5p) with the PTS1 signal. A purified recombinant YlPex5p fusion protein interacted specifically, directly and autonomously with a protein terminating in a PTS1. Wild-type YlPex5p translated in vitro recognized functional PTS1s specifically. This activity is abrogated by the substitution of an aspartic residue for a conserved glycine residue in the TPR domain (G455D) of YlPex5p encoded by the pex5-1 allele. Deletion analysis demonstrated that an intact TPR domain of YlPex5p is necessary but not sufficient for both interaction with a PTS1 and functional complementation of a strain lacking YlPex5p. (+info)
A novel nociceptor signaling pathway revealed in protein kinase C epsilon mutant mice.
(29/1272)
There is great interest in discovering new targets for pain therapy since current methods of analgesia are often only partially successful. Although protein kinase C (PKC) enhances nociceptor function, it is not known which PKC isozymes contribute. Here, we show that epinephrine-induced mechanical and thermal hyperalgesia and acetic acid-associated hyperalgesia are markedly attenuated in PKCepsilon mutant mice, but baseline nociceptive thresholds are normal. Moreover, epinephrine-, carrageenan-, and nerve growth factor- (NGF-) induced hyperalgesia in normal rats, and epinephrine-induced enhancement of tetrodotoxin-resistant Na+ current (TTX-R I(Na)) in cultured rat dorsal root ganglion (DRG) neurons, are inhibited by a PKCepsilon-selective inhibitor peptide. Our findings indicate that PKCepsilon regulates nociceptor function and suggest that PKCepsilon inhibitors could prove useful in the treatment of pain. (+info)
Effect of recombinant human basic fibroblast growth factor on stomach ulcers in rats and mice.
(30/1272)
AIM: To study the curative effects of recombinant human basic fibroblast growth factor (rh-bFGF) on gastric ulcer healing. METHODS: Pylorus ligated, water immersion stress-induced, reserpine-induced, and acetic acid-induced gastric ulcers in rats or mice were prepared. Morphometric analyses on ulcer were performed using microscope and true color image analysis system. The DNA and RNA contents were measured by diphenylamine method and orcinol method, respectively. RESULTS: In acetic acid-induced gastric ulcers in rats, rh-bFGF 2.5-40 kU.kg-1 i.g. accelerated the chronic ulcer healing with a bell-shaped dose-effect curve and the best dosage was 10 kU.kg-1. The regenerated gland epithelium width, density of capillaries in granulation tissue, and collagen content in scar tissues obviously increased in rh-bFGF-treated groups. Simultaneously, rh-bFGF promoted the differentiation and maturation of regenerated glands around ulcers. rh-bFGF 2-4 kU.kg-1 s.c. also increased the synthesis of RNA in ulcer tissues. In acute gastric ulcers, rh-bFGF i.g. was only effective on pylorus ligated ulcers, but showed no effect on total acid output and pepsin activity in gastric juice of rats. CONCLUSION: rh-bFGF promoted the gastric ulcer healing and improved the quality of gastric ulcer healing. (+info)
A comparison of the anti-inflammatory and anti-nociceptive activity of nitroaspirin and aspirin.
(31/1272)
1. Nitroaspirin (2.5 - 50 mg kg(-1), i.p. or 2.5 - 100 mg kg(-1), p.o.) and aspirin (2.5 - 100 mg kg(-1), i.p. or p.o.) exhibit anti-inflammatory activity in the carrageenan-induced hindpaw oedema model in the rat. When administered i.p., nitroaspirin was a more effective anti-oedema agent than aspirin particularly in the 'early' phase (i.e. up to 60 min) of the response. The ED(50) values for nitroaspirin and aspirin as inhibitors of the 'late' phase response (measured at 180 min) were 64.3 micromol kg(-1) and >555 micromol kg(-1), respectively. When administered p.o., neither nitroaspirin nor aspirin exhibited significant anti-inflammatory activity in the 'early' phase and were of similar potency in the 'late' phase. Thus, at the highest dose used (100 mg kg(-1), 360 min) orally administered nitroaspirin (aspirin in parenthesis) inhibited oedema formation by 46.9+/-1.6% (47.2+/-3.8%, both n=6, P<0.05). 2. Nitroaspirin and aspirin (25 - 200 mg kg(-1), p.o.) caused dose-related inhibition of the hyperalgesia to mechanical stimulation following intraplantar injection of carrageenan in the rat. ED(50) values were 365 micromol kg(-1) and 784 micromol kg(-1), respectively. Neither drug influenced the threshold for mechanical stimulation in the contralateral (i.e. untreated) hindpaw. 3. Nitroaspirin and aspirin (2.5 - 100 mg kg(-1), p.o.) caused dose-related inhibition of acetic acid induced abdominal constrictions in the mouse (ED(50) values of 154.7 micromol kg(-1) and 242.8 micromol kg(-1), respectively). 4. Nitroaspirin and aspirin (>200 mg kg(-1), p.o.) reduced the 'late' phase (but not the 'early' phase) of the formalin-induced hindpaw licking assay in the mouse. Similarly, nitroaspirin and aspirin (>50 mg kg(-1), p.o.) prolonged tail withdrawal latency following application of a noxious heat stimulus in the mouse. (+info)
Acetic acid suppresses the increase in disaccharidase activity that occurs during culture of caco-2 cells.
(32/1272)
To understand how blood glucose level is lowered by oral administration of vinegar, we examined effects of acetic acid on glucose transport and disaccharidase activity in Caco-2 cells. Cells were cultured for 15 d in a medium containing 5 mmol/L of acetic acid. This chronic treatment did not affect cell growth or viability, and furthermore, apoptotic cell death was not observed. Glucose transport, evaluated with a nonmetabolizable substrate, 3-O-methyl glucose, also was not affected. However, the increase of sucrase activity observed in control cells (no acetic acid) was significantly suppressed by acetic acid (P < 0.01). Acetic acid suppressed sucrase activity in concentration- and time-dependent manners. Similar treatments (5 mmol/L and 15 d) with other organic acids such as citric, succinic, L-maric, L-lactic, L-tartaric and itaconic acids, did not suppress the increase in sucrase activity. Acetic acid treatment (5 mmol/L and 15 d) significantly decreased the activities of disaccharidases (sucrase, maltase, trehalase and lactase) and angiotensin-I-converting enzyme, whereas the activities of other hydrolases (alkaline phosphatase, aminopeptidase-N, dipeptidylpeptidase-IV and gamma-glutamyltranspeptidase) were not affected. To understand mechanisms underlying the suppression of disaccharidase activity by acetic acid, Northern and Western analyses of the sucrase-isomaltase complex were performed. Acetic acid did not affect the de novo synthesis of this complex at either the transcriptional or translational levels. The antihyperglycemic effect of acetic acid may be partially due to the suppression of disaccharidase activity. This suppression seems to occur during the post-translational processing. (+info)