Substrates enriched by the fungus Cunninghamella echinulata: an in vitro study of nutrient composition, sheep rumen fermentation and lipid metabolism.

AIMS: Enrichment of wheat bran (WB), corn meal (CM) and barley flakes (BF) with the oleaginous fungus Cunninghamella echinulata (CE) might lead to effective use of these by-products in ruminant nutrition. We examined their effects on rumen fermentation and lipid metabolism. METHODS AND RESULTS: WB, CM and BF substrates without or with brewer's grains (WBG, CMG, BFG) and enriched with CE were incubated with meadow hay (MH, 500 : 500, w/w) in rumen fluid in vitro for 24 h. The dry matter of the CE-enriched substrates increased (by 2-4%); however, digestibility decreased (P < 0·01). Adverse effects of CE-enriched substrates on the rumen ciliate population were observed. Little effect on the rumen eubacterial population was detected by the 16S-polymerase chain reaction/denaturizing gradient gel electrophoresis method. The increase in γ-linolenic acid output in the MH + BFGCE diet (800 : 200, w/w) was accompanied by an increase in rumen biohydrogenation of polyunsaturated fatty acids. CONCLUSION: The diet substrates enriched with the fungus CE were less digestible than the untreated cereal substrates; no appreciable positive effect was observed on rumen fermentation patterns or the eubacterial and ciliate populations. SIGNIFICANCE AND IMPACT OF THE STUDY: The in vitro study showed that adding CE-enriched substrates to ruminant diets is not effective for improving rumen fermentation.

The ciliate, Troglodytella abrassarti, contributes to polysaccharide hydrolytic activities in the chimpanzee colon.

Entodiniomorphid ciliates are intestinal protists inhabiting the colons of African great apes. The participation of intestinal entodiniomorphid ciliates in ape hindgut digestion has been proposed, but little data have been available to support the hypothesis. We measured the specific activities of carboxymethyl cellulase, xylanase, inulinase, and α-amylase against different polysaccharides in the feces of captive chimpanzees and evaluated the participation of the entodiniomorphid ciliate, Troglodytella abrassarti, in these activities. T. abrassarti contributed to the total fecal hydrolytic activities of CM-cellulase by 16.2%, α-amylase by 5.95%, and xylanase by 0.66%. Inulinase activity in T. abrassarti samples was not measurable at reaction conditions used. The ciliates, T. abrassarti, actively participate in the chimpanzee hindgut fermentation of fiber and starch.

Effects of prefermented cereal-derived substrates (ground barley and rye bran) enriched with fungal γ-linolenic acid on rumen fermentation parameters and lipid metabolism in vitro.

AIMS: To increase rumen output of γ-linolenic acid (GLA), we used two cereal-derived substrates, ground barley (GB) and rye bran (RB), enriched with fungal GLA as components of feed rations. We examined their effects on rumen fermentation patterns, lipid metabolism and the ciliated protozoan population in an artificial rumen. METHODS AND RESULTS: Four diets consisting of meadow hay (MH) plus unfermented (GB or RB) or prefermented (GB - TE or RB - TE) cereal-derived substrates were fermented in an artificial rumen with ovine rumen inoculum. The cereal-derived substrates were prefermented with the fungus Thamnidium elegans (TE) by fungal solid-state fermentation. The diets with TE increased the rumen input of dietary GLA (mg day(-1)) from 0 to 21 (GB - TE) or 26 (RB - TE). Both experimental diets increased the rumen output of GLA (P < 0.001). Adverse effects on the ciliate population were observed. Both diets also had an effect on the fatty acids profile. Fermentation patterns were also affected with MH + RB - TE. CONCLUSION: Cereal-derived substrates enriched with GLA effectively enhanced the output of GLA in artificial rumen. SIGNIFICANCE AND IMPACT OF THE STUDY: The ability of the fungal strain T. elegans to grow and utilize various agro-industrial substrates might be useful in developing potential new animal diets enriched in GLA.

Bacterial-protozoal interactions in a microbial community of rumen ciliate Entodinium caudatum culture under mercury stress.

We examined the role of rumen ciliates, using Entodinium caudatum as a model organism, in the detoxification of soluble mercury(II) in vitro under conditions with enhanced or reduced diversity of a co-culture bacterial population as well as the effects of long-term mercury(II) stress on in vitro fermentation parameters and major mercury detoxification products. The E. caudatum growth depended on the capability of the co-culture bacterial population to develop resistance to mercury(II) chloride and on culture conditions. The production of fermentation gas was reduced (P < 0.01) in contrast to methane production. Proportions of volatile fatty acids were affected; however, the total concentration of volatile fatty acids was not influenced. No organic mercury species were detected after long-term application (>1 month) of mercury(II) chloride. The major mercury species was inorganic mercury(II) with substantial accumulation in the bacterial fraction (70%) and less in black sediment (21%) and ciliate fraction (9%) at the 25 micromol/L mercury(II) dose. The data indicate that free-living bacteria protect the ciliate cells by transforming mercury(II) into its insoluble forms.

Highly efficient galvanotaxis apparatus for cleaning and concentrating rumen ciliates.

Galvanotaxis was shown to be an efficient method for cleaning and concentrating rumen ciliate protozoa whose harvesting (centrifugation of large volumes of in vitro cultures followed by repeated washing of the sediment to remove plant debris) is time consuming. We suggested the use of a new galvanotaxis apparatus (a small-capacity two-way glass stopcock) to improve cell yield in concentrating the rumen ciliate protozoa and cleaning them from impurities. Migration of the ciliates (Entodinium caudatum, Entodinium furca monolobum and Diploplastron affine) into the cathode compartment under different electric currents (0, 5, 10, and 15 mA) and intervals (5, 10, 20, and 30 min) was evaluated. The lethal current level was 20 mA. Cell yield was 9-81%, depending on ciliate species, migration time and current. The migration time significantly affected both E. caudatum and D. affine. The electric current-migration time interplay was shown to be significant in both E. caudatum and D. affine. The advantages and disadvantages of the tested apparatus were determined; the two-way glass stopcock was very convenient for both cleaning and concentrating rumen ciliate in vitro cultures by galvanotaxis.

The effects of organic selenium supplementation on the rumen ciliate population in sheep.

The effect of selenium supplementation on the rumen protozoan population of sheep was demonstrated. Both the total and generic counts of rumen ciliates in sheep fed a diet with basal Se content (70 microg/kg dry matter) were compared to those of animals given feed supplemented with inorganic (disodium selenite) or organic Se (selenized yeast) (310 microg/kg dry matter). The genera of Entodinium, Isotricha, Dasytricha, Ophryoscolex, Diploplastron and Polyplastron occurred in all sheep except for the control, in which Ophryoscolex was not observed. The population of Ophryoscolex caudatus f. tricoronatus was significantly higher in sheep supplemented with organic Se than in animals given inorganic Se (by 160 %). Supplementation of feed with selenized yeast induced significant growth in the Diploplastron population (by 63 %) while no change occurred in sheep given selenite. The populations of Dasytricha ruminantium and Polyplastron multivesiculatum were higher than control in both Se-supplemented groups. The ciliate population of Entodinium spp. was not influenced by Se supplements. Our results suggest a protective effect of Se feed supplementation on the development of some rumen ciliate species in young ruminants.

Comparative teratological study of stobadin in vivo and in vitro.

Stobadin (STO) is a prospective cardioprotective drug with antiarrhythmic and antihypoxic effects on the myocardium. Single iv injections of stobadin administered to rats on days 3, 6, 9 or 12 of gestation at doses of 2 and 6 mg/kg had no teratogenic effect. Slight foetal toxicity was manifested by decreased foetal weight (day 3 of gestation, 6 mg/kg) and increased incidence of delayed ossification of the skull (day 12 of gestation, 6 mg/kg). In vitro studies were performed on chick embryos explanted at Hamburger and Hamilton (HH) stages 4-5 and cultivated in a medium with stobadin concentration ranging from 10(-3) to 10(-8) mol/litre under standard conditions. Concentrations of 10(-3) and 10(-4) mol/litre were lethal. Embryos treated with concentrations from 10(-8) to 10(-5) mol/litre were comparable to those of the control group. The results of in vivo and in vitro tests showed that the antiarrhythmic agent stobadin at concentrations up to the maximal iv therapeutic dose had no overt effects on different developmental stages of the rat embryo and early chick embryogenesis.