The objective of this study was to document the effect of social ranking on the internal exposure of pigs to an antibiotic (fosfomycin) administered either in food or in drinking water. Signs of aggression were recorded at the feeder and drinker. The interindividual variability explained by the social rank was even greater when the test antibiotic was given in food despite the fact that the water consumption was less variable than the food intake. The range of plasma concentrations after administration of fosfomycin either in food or drinking water leads to a number of pigs in the treated group being exposed to rather low and highly variable concentrations of fosfomycin and not able to maintain adequate plasma concentrations above the typical minimum inhibitory concentration (MIC). Social rank clearly influences the level of exposure of pigs to fosfomycin both in food and drinking. However, its administration in drinking water is likely to be the best option to optimize antibiotic efficacy.
Muscarinic acetylcholine receptors (mAChR) are members of the G-protein coupled receptor family. These receptors play key physiological roles and changes in their expression and/or function are involved in several diseases. We had previously demonstrated that mAChR expression is up regulated in three different cell lines derived from distinct murine mammary adenocarcinomas that spontaneously arose in BALB/c female mice, in comparison with normal murine mammary cells. Stimulation of mAChR with the muscarinic agonist carbachol (CARB) potentiated different steps of tumor progression. We here evidence that similarly to previous results obtained in mice, human breast tumor homogenates over expressed mAChR in comparison with normal breast tissue. Thus, to test the muscarinic actions on human breast adenocarcinoma cells we investigate the effect of CARB on MCF-7 cells proliferation and neovascular response. Particularly we observe that: CARB stimulates tumor cells proliferation, being 10(-9) M the maximal effective dose for the muscarinic agonist. This action was due to M3 and M1 receptors activation being nitric oxide synthase (NOS) its effector enzyme via phospholipase C and protein kinase C signaling pathway. NOS1 and NOS3 isoforms are expressed in MCF-7 cells and its activation by CARB triggers nitric oxide synthesis and vascular endothelial growth factor expression increasing blood vessels formation induced by mammary tumor cells in vivo. We can conclude that nonneuronal cholinergic system activation stimulates MCF-7 tumor cells growth and neovascular response promoting tumor progression.
Neovascularization, an essential step for tumor progression and metastasis development, can be modulated by the presence of macrophages (Mps) in the tumor microenvironment. The ability of Mps to regulate the angiogenicity of the LMM3 tumor cell line was studied. Peritoneal Mps from LMM3 tumor-bearing mice (TMps) potentiate in vivo LMM3 angiogenicity. These results were con¢rmed by CD31 immunoblotting assays. The activity of TMps depended on nitric oxide synthase (NOS) and arginase (A) activity. By immunoblotting we evidenced that AI and AII isoforms were up-regulated in TMps while the inducible and neuronal NOS isoforms were highly expressed in normal Mps. TMps might positively modulate tumor growth by stimulating angiogenic cascade mainly through polyamine synthesis. ß 2002 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.
Neoangiogenesis is essential for tumor and metastasis growth, but this complex process does not follow the same activation pathway, at least in tumor cell lines originated from different murine mammary adenocarcinomas. LMM3 cells were the most potent to stimulate new blood vessel formation. This response was significantly reduced by preincubating cells with indomethacin and NS-398, non-selective cyclooxygenase (COX) and COX-2 selective inhibitors, respectively. COX-1 and COX-2 isoenzymes were both highly expressed in LMM3 cells, and we observed that indomethacin was more effective than NS-398 to inhibit prostaglandin E2 (PGE2) synthesis. In addition, nitric oxide synthase (NOS) inhibitors, Nomega monomethyl L-arginine and aminoguanidine, also reduced LMM3-induced angiogenesis and nitric oxide (NO) synthesis as well. NOS2 > NOS3 proteins and arginase II isoform were detected in LMM3 cells by Western blot. The latter enzyme was also involved in the LMM3 neovascular response, since the arginase inhibitor, Nomega hydroxy L-arginine reduced the angiogenic cascade. On the other hand, parental LM3 cells were able to stimulate neovascularization via COX-1 and arginase products since only indomethacin and Nomega hydroxy L-arginine, which diminished PGE2 and urea synthesis, respectively, also reduced angiogenesis. In turn, LM2 cells angiogenic response could be due in fact to PGE2-induced VEGF liberation that stimulated neoangiogenesis at very low levels of NO.
Introduction The role of macrophages in tumor progression has generated contradictory evidence. We had previously demonstrated the ability of peritoneal macrophages from LMM3 murine mammary adenocarcinoma-bearing mice (TMps) to increase the angiogenicity of LMM3 tumor cells, mainly through polyamine synthesis. Here we investigate the ability of the parasympathetic nervous system to modulate angiogenesis induced by TMps through the activation of the muscarinic acetylcholine receptor (mAchR).
IgG from patients with breast cancer in early stages could be promoting tumor progression by muscarinic activation, and its presence could be determining the prognosis of this illness.
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