In vitro study of the effect of different ionophore antibiotics and of certain derivatives on rumen fermentation and on protein nitrogen degradation.
TL;DR: Of the compounds tested and presenting a potential 'growth-promoting action' at least comparable to that of monensin, and which demonstrated lower toxicity on mice, three molecules appeared to present a zootechnical interest as feed additives for growing cattle.
Abstract: The decrease in methanogenesis observed in the presence of monensin was also found with cationomycin and lysocellin. With the exception of lysocellin, which greatly reduced protein degradation of peanut meal, and of nigericin, which had no effect on this parameter, the 2 other molecules presented the same action as monensin. The negative effect of monensin on microbial ammonia uptake was demonstrated with the same intensity in the presence of cationomycin; it was slightly higher with nigericin and particularly accentuated with lonomycin and lysocellin. Three ester derivatives of monensin (monensin acetate, monensin propionate and monensin butyrate) had a similar action to that of monensin on the orientation of rumen fermentations. The monensin isobutyrate derivative appeared to be more active than monensin and only weakly altered microbial ammonia uptake. The oxolonomycin and hydroxolonomycin derivatives behaved identically to lonomycin with respect to microbial metabolism and protein nitrogen degradation. Unlike the molecules from which they derive, the deacylated cationomycin and nigericic acid had no effect on the orientation of rumen fermentations. Of the compounds tested and presenting a potential ’growthpromoting action’ at least comparable to that of monensin, and which demonstrated lower toxicity on mice, three molecules (oxolonomycin, lysocellin and cationomycin) appeared to present a zootechnical interest as feed additives for growing cattle.
Citations
More filters
TL;DR: It can be concluded that drastic inhibition of methane production is not unequivocally successful as a result of several factors, such as: instantaneous inhibition often followed by restoration of methanogenesis due to adaptation of the microbes or degradation of the additive, toxicity for the host animal, negative effects on overall digestion and productive performance.
Abstract: During the last decades, considerable research on methane production in the rumen and its inhibition has been carried out. Initially, as methane production represents a significant loss of gross energy in the feed (2–15%), the ultimate goal of such intervention in rumen fermentation was an increase in feed efficiency. A second reason favouring research on methane inhibition is its role in the global warming phenomenon and in the destruction of the ozone layer. In this review, the authors describe briefly several interventions for reducing methane emission by ruminants. The objective can be reached by intervention at the dietary level by ration manipulation (composition, feeding level) or by the use of additives or supplements. Examples of additives are polyhalogenated compounds, ionophores and other antibiotics. Supplementation of the ration with lipids also lowered methanogenesis. More biotechnological interventions, e.g., defaunation, probiotics and introduction of reductive acetogenesis in the rumen, are also mentioned. It can be concluded that drastic inhibition of methane production is not unequivocally successful as a result of several factors, such as: instantaneous inhibition often followed by restoration of methanogenesis due to adaptation of the microbes or degradation of the additive, toxicity for the host animal, negative effects on overall digestion and productive performance. Therefore, methanogenesis and its inhibition cannot be considered as a separate part of rumen fermentation and its consequences on the animal should be taken into account.
258 citations
TL;DR: Modification of the rumen microbial population is now considered as a possible approach to rumen manipulation by scientists and the effects on digestion of the elimination of ciliate protozoa (defaunation) are presented.
Abstract: Different methods of optimizing feed conversion into nutrients in the rumen are now available to scientists. But the rumen must be considered as an integrated system and this makes it difficult to rationalize manipulation. The observed result of any treatment is a combination of several interactive reactions. Any change to one component of the system has several uncontrolled effects on other components. The positive effects aimed for are sometimes associated with undesirable effects. Numerous chemical additives have been studied during the last two decades among which ionophore antibiotics represent the most important group. The interest of non-ionophore antibiotics, methane inhibitors, and compounds inhibiting proteases or deaminases, has also been considered during the last years. The observed effects of these chemical additives on animals, and their possible mode of action on rumen microbes and on animal metabolism, are discussed. However, the risks of the presence of residues in meat and milk are questioned by consumers. Microbial activity in the rumen can be altered by feeding animals with large amounts of certain food constituents (fats, starch) or minerals (buffer substances). The responses in the rumen to these dietary conditions are analyzed in terms of the digestive effects on plant cell wall degradation and microbial protein synthesis. Modification of the rumen microbial population is now considered as a possible approach to rumen manipulation by scientists. The effects on digestion of the elimination of ciliate protozoa (defaunation) are presented. The feasibility of these objectives, from a practical standpoint, is discussed. Finally, there is an overview of the effects of the addition of live yeasts (Saccharomyces cerevisciae), or fungi (Aspergillus orizae), used as probiotics. A possible mode of action of probiotics on the rumen ecosystem is suggested.
73 citations
TL;DR: The effects of two ionophore antibiotics, lasalocid and cationomycin, on the rumen microbial activity (cell-wall constituents degradation, fermentation and microbial biomass production) were studied using in vitro semi-continuous fermentors (RUSITEC).
13 citations
TL;DR: A study of the toxicity of epinigericin towards the ciliate Tetrahymena pyriformis showed that this molecule stopped cell division, increased cell volume and led to a more basic intracellular pH.
Abstract: A study of the toxicity of epinigericin, an antibiotic ionophor, towards the ciliate Tetrahymena pyriformis showed that this molecule stopped cell division, increased cell volume and led to a more basic intracellular pH. The action of epinigericin was probably linked to its function as an ionophor. The ionic selectivity of this molecule is still not known. The raising of the intracellular pH of ciliates by this antibiotic may be linked to its toxic action and its ion-transport mechanism in Tetrahymena. *** DIRECT SUPPORT *** AG903066 00009
7 citations
TL;DR: Ionophores are a diverse class of synthetic and naturally occurring ion transporter compounds which demonstrate both direct and in-direct antimicrobial properties against a broad panel of bacterial, fungal, viral and parasitic pathogens.
7 citations
References
More filters
TL;DR: Although avoparcin has no effect on ion-transport, it produces the same changes in the pattern of fermentation and protein degradability as the ionophores (monensin-lasalocid).
41 citations
TL;DR: HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not, for teaching and research institutions in France or abroad, or from public or private research centers.
Abstract: HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés. Orientation du métabolisme du rumen au moyen des additifs Michelle Durand
24 citations
"In vitro study of the effect of dif..." refers background in this paper
...Its lack of effect on total VFA and gas production is more debatable (Durand, 1982)....
[...]
TL;DR: Following accidental overdosage with monensin, nine deaths occurred in a batch of 40, four-to-seven-month-old calves, including the findings on post mortem examination.
Abstract: Following accidental overdosage with monensin, nine deaths occurred in a batch of 40, four-to-seven-month-old calves. A description of the incident is given including the findings on post mortem examination. Inaccurate on-farm feed mixing can present problems as was highlighted by this outbreak.
20 citations
Journal Article•
TL;DR: In this article, the effect of monensin on the in vitro degradation of cellulose was investigated using ruminal fluid obtained from sheep adapted and unadapted to the antibiotic, and the results showed that the addition of Monensin to the diet resulted in higher propionate and lower butyrate concentrations.
Abstract: The effect of monensin on the in vitro degradation of cellulosewas investigated using ruminal fluid obtained from sheep adapted and unadapted to the antibiotic. /n ylyo ruminal adaptation to monensin was also examined over a six-week treatment period. Results showed that monensin severely inhibited total VFA production when cellulose was offered as substrate to unadapted ruminal organisms. There was only a small decrease when the rumen inoculum was obtained from sheep fed monensin for 32 days. Addition of monensin to the diet resulted in higher propionate and lower butyrate concentrations when compared with values obtained from'sheep fed diets without monensin. The addition of monensin decreased dilution rate and increased rumen volume. Die uitwerking van monensin op die in vitro afbraak van sellulose is ondersoekd eur gebruikt e maak van rumenvloeistowf at verkry is van skapew at aangepase n nie aangepasi s nie.l n vivog rootpensaanpassing by monensin is ook ondersoek tydens 'n ses-weke behandelingstydperkR. esultateh et getoond at monensind ie totale produksie van vlugtige vetsure ernstig onderdruk het wanneer sellulose as substraat by onaangepaste grootpensorganismes gebruiki s. Daarw as slegs' n kleinv erlagingw anneere ntmateriaal van die grootpens van skape verkry is wat 32 dae monensin gevoer is. Byvoeging van monensin by die rantsoen het ho€r propionaat en laerb utiraatkonsentrasietso t gevolg,i n vergelykingm et waardes verkry van skape wat nie monensin gevoer is nie. Byvoeging van monensinv erlaagv erdunningstempoe n verhoogg rootpensv olume. Keywords : Monensin, rumen fermentation, volatile fatty acids, cell ulose degradation,a daptation
13 citations