Characterization of Extracellular Yeast Peptide Factors and Their Stress-Protective Effect on Probiotic Lactic Acid Bacteria.

Protective effect of the extracellular peptide fraction (reactivating factors, RF) produced by yeasts of various taxonomic groups (Saccharomyces cerevisiae, Kluyveromyces lactis, Candida utilis, and Yarrowia li- polytica) on probiotic lactic acid bacteria (LAB) Lactobacillus casei, L. acidophilus,'and L. reuteri under bile salt (BS)-induced stress was shown. RF of all yeasts were shown to be of peptide nature; the active component of the S. cerevisiae RF was identified as a combination of low-molecular polypeptides with molecular masses of 0.6 to 1.5 kDa. The protective and reactivating effects of the yeast factors were not species-specific and were similar to those of the Luteococcusjaponicus subsp. casei R. In BS-treated cells of the tester bacteria, a pro- tective effect was observed after 10-min preincubation of the LAB cell suspension with yeast RE: the number of surviving cells (CFU) was 2 to 4.5 times higher than in the control. The reactivating effect was observed when RF was added to LAB cell suspensions not later than 15 min after stress treatment. It was less pro- nounced than the protector effect, with the CFU number I to 3 times that of the control. Both the protector and the reactivating effects were most pronounced in the S. cerevisiae and decreased in the row: C. utilis > K. lactis > Y lipolytica. The efficiency of protective action of yeast RF was found to depend on the properties of recepient LAB cells, with the L. casei strain being most sensitive to BS treatment. In both variants, the highest protective effect of RF (increase in the CFU number) was observed for L. acidophilus, while the least pronounced one, for L. casei. The reasons for application of the LAB strains combining high stress resistance and high response to stress-protecting metabolites, including RF factors, as probiotics, is discussed.

[Reactivating factor of Luteococcus japonicus subsp. casei: isolation and characterization].

It has been shown that a producer strain of reactivating factor (RF) is identical to a typical strain of Luteococcus japonicus DSM 10546 from the Propionibacteriaceae family according to the physiological and biochemical properties and the sequencing of 16S rRNA fragments. A number of phenotypical differences from the model strain allowed the producer strain to be considered a subspecies of Luteococcus japonicus, and it was named Luteococcus japonicus subsp. casei. At cultivation of the producer, RF is secreted into the medium and plays the role of a signaling molecule. RF antioxidant activities towards various organic radicals may be a possible mechanism of its protective and reactivating effects. Metabolites secreted by the L. casei producer strain into the culture medium were separated by a combination of liquid chromatographies. Four components possessing biological activities were found. The most active one was studied by MALDI-TOF mass spectrometry, which revealed that it is a polypeptide. Primary identification of some amino acid residues was performed. Sugar residues were found in the structure.

[Biological effect of extracellular peptide factor from Lateococcus japonicas subsp. casei on probiotic bacteria].

The biological effect of the extracellular peptide reactivating factor (RF) from Luteococcus casei on cells of probiotic cultures was studied. The RF showed the protective and reactivating effects on the Bifidobacterium bifidum cells under the action of bile salts and an acidic stress. Also, it acted as a cryoprotector during lyophilisation and long-term culture storage. The RF and the L. casei culture liquid (CL) were shown to have bifidogenic properties. The degree of protection and reactivation of lactic-acid bacteria under the action of bile salts depended on the particular strain properties. The maximum degree of protection (more than thirteen-fold) and reactivation (close to three-fold) was found in Lactobacillus casei, while the minimum values were characteristic of Lactobacillus reuterii. The resistance of lactobacilli to bile was increased in the row of L. acidophilus, L. casei, L. plantarum, L. rhamnosus, and L. reuterii correlating with the RF protection degree.

[Antistress cross-effects of extracellular metabolites of bacteria, archaea, and yeasts: a review].

This paper reviews examples of specific and global responses of microorganisms and the characteristics of stress responses involving extracellular signaling metabolites. Information regarding the protective and reactivating effects produced by active exometabolites of representatives of domains of bacteria, archaea, and eukaryotes is summarized, and interdomain cross-responses to stressors are demonstrated.

[Stress-protective and cross action of the extracellular reactivating factor of the microorganisms of the domains Bacteria, Archaea, and Eukaryota].

Cross protection of members of the domains Bacteria, Archaea, and lower Eukaryota from stress factors due to the action of extracellular low-molecular metabolites with adaptogenic functions was shown. The adaptogen produced by Luteococcus japonicus subsp. casei and described previously as a reactivating factor (RF) was shown to protect the yeasts Saccharomyces cerevisiae, archaea Haloarcula marismorti, and the cells of higher eukaryotes (HeLa) against weak stressor impacts. Production of an archaeal extracellular metabolite with a weak adaptogenic effect of the producer cells and capable of a threefold increase in survival of heat-inactivated yeast cells was discovered. Our results confirm the similarity of the compensatory adaptive reactions in prokaryotes (bacteria and archaea) and eukaryotes.

[Antistress cross-protection of UV irradiated yeast cells with participation of extracellular peptide factors].

Antistress effect of extracellular peptides on UV irradiated yeast of different phylogenetic groups was studied. Yeast from different ecotopes and taxonomic groups exposed to UV radiation of a lethal intensity showed a protective effect and reactivating effect with participation of extracellular peptides. The highest protective activity was found in peptide reactivation factors (RFs) of bakery yeast-Saccharomyces cerevisiae, Kluyveromyces fragilis, and Candida utilis; the highest reactivating activity was exhibited by factors of the above-mentioned cultures and Debariomyces hansenii. Cross-protective and reactivating effects of RFs of yeast belonging to different taxonomic groups were demonstrated. Cross-protection increased two to three times after preexposure of reactivation factors to UV light (activation) in contrast to their reactivating effect.

[Protective and reactivating effect of the protein exometabolite on yeast cells inactivated by the ultraviolet irradiation].

It has been shown that Saccharomyces cerevisiae, Kluyveromyces lactis, and Candida utilis strains produce the protein exometabolites, which has a protective and reactivating effect on the ultraviolet irradiated yeast cells. The protective effect of the preliminary ultraviolet irradiated (activated) protein exometabolite of all strains increased 2-3 times, though its reactivating activity did not change. Yarrowia lipolytica yeast cells, isolated from the areas with the high daily irradiation, and Endomyces magnusii, the obligate fungi parasites, were characterized by the highest ultraviolet tolerance in comparison with the other strains. However, they did not produce the exometabolites with the antistress effect. Luteococcus casei reactivating factor demonstrated protective and reactivating cross-action in relation to the ultraviolet irradiated S. cerevisiae, K. lactis, and C. utilis cells and were inactive in relation to Y. lipolytica and E. magnusii. Using killer and nonkiller S. cerevisiae strain, it has been shown that the peptide exometabolite accumulation was not associated with toxin production.

[Protective action of reactivating factor of Luteococcus japonicus subsp. casei toward cells of Escherichia coli reparation mutants inactivated with UV-light].

Reactivating factor (RF) from Luteococcus japonicus subsp. casei had a protective action on UV-irradiated cells of Escherichia coli AB1157 with a native reparation system and on cells of isogenic reparation mutants of E. coli UvrA-, RecA-, and PolA-: the effect resulted in multifold increase of survivability. Defense action of L. casei exometabolite is not connected with stimulating reparation systems in E. coli, and, probably, it is mediated by involvement of the exometabolite in the mechanism of cell division. RF did not provoke the reactivation of E. coli cells inactivated by UV-light.

[The mechanism of action of reactivating factor from Luteococcus japonicus subsp. casei].

Reactivating factor (RF) from Luteococcus japonicus subsp. casei was shown to be constitutively synthesized and to act a by one-step mechanism, being activated independently from stress. Cell reactivation (reversion of a cell's ability to form macrocolonies) might be ensured by the membrane mechanism of RF action, which is proved with the dependence of antistress activity from the condition of the cytoplasmic membrane and with the form of concentration dependence. The incubation of UV-treated L. casei suspension with RF increased the number of cells with intact barrier membrane (1.6-1.8-fold increase compared to RF-untreated cells) and the number of colony-forming cells. Cross defensive and reactivating RF effects on both L. casei and yeast Saccharomyces cerevisiae cells were described. Bacterial and yeast's RF compete for membrane receptors. Matrix Assisted Laser Desorption/Ionization time-of-flight (MALDI-TOF) spectrometry revealed that RF ofL. casei contained two major peptides of 5.8 and 7.6 kDa, while RF of S. cerevisiae was represented by a single peptide of 5.8 kDa. The presence of 5.8 kDa peptide in RF from bacteria and yeasts might ensure cross responses in these organisms.

[Reactivating effect of Escherichia coli exometabolites on UV-irradiated cells].

Wild-type and mutant (AB 1157 and K-12) strains of Escherichia coli were shown to synthesize the logarithmic growth phase, exometabolites reactivating UV-irradiated cells of producer strains. The exometabolites of the strain K-12 were of protein nature and had a molecular weight of no more than 10 kDa. The reactivating activity of these exometabolites was inversely related to bacterial survival and slightly increased under the influence of stress factors. The reactivating factor of Luteococcus casei had a cross-reactivating and protective effect on UV-irradiated cells of E. coli strain K-12. Due to activation of the reactivating factor after UV irradiation and heating, the cross-protective effect increased more than threefold. The reactivating effect remained unchanged under these conditions. The protein exometabolites of E. coli did not induce cross-stress response in L. casei.

[Protective effect of extracellular protein metabolite of Luteococcus japonicus subsp, casei on cells subjected to heating and UV irradiation].

Extracellular protein metabolite isolated from the culture liquid of Luteococcus japonicus subsp. casei had reactivating and protective effects on UV-irradiated and heated cells. The extracellular metabolite, produced by cells in the logarithmic growth phase, was present in culture liquid in minuscule amounts. Mass spectral analysis showed that, along with the major component with a molecular weight of 7.6 kDa, the preparation contained low quantities of three minor proteins. Apparently, the biological activity of the exometabolite is determined by the major polypeptide component.

[Inheritance features of mating behavior components in Drosophila melanogaster and their significance for fitness].

Components of mating behavior of Drosophila melanogaster mutant and wild-type strains were studied with respect to fitness. The magnitude of the effect of genotype on the male mating activity, female sexual receptivity, fertility and viability was determined. Strong positive correlation was found between the male mating activity and fitness components. It was shown that mating of strains contrasting in sexual behavior features can be accompanied by both heterosis and maternal effect. Inheritance coefficients were determined for sexual behavior components.

[Cross-effects of extracellular factors of adaptation to stress in Luteococcus casei and Saccharomyces cerevisiae].

Saccharomyces cerevisiae yeasts (lower eukaryotes) were shown to produce a protein exometabolite with reactivation activity. We demonstrated cross-effects of extracellular protein factors of adaptation to stress (heat and UV irradiation) in yeasts and Luteococcus casei bacteria. The possibility for isolation and partial purification of protein exometabolites from the culture liquid of yeasts and bacteria by similar methods, as well as the similarity of elution profiles for the active proteins in high-performance liquid chromatography, suggests that the proteins (or fragments thereot) of the organisms studied are homologous.

[Stressors, stress reactions, and survival of bacteria (a review)]. / Stressory, stressy i vyzhivaemost' bakterii (obzor).

Recent data on the molecular mechanisms of stress responses of bacteria are reviewed, with emphasis on their reactions to a variety of stressors (heat, oxidation, cold, osmotic shock, etc.). Mechanisms underlying the phenomenon of sensoring are discussed. It is shown that cross-resistance to stressors and cell-to-cell communication of bacteria, mediated by chemical metabolites, affect their survival in food products. Stress-antiagonizing activity of bacteria is discussed in relation to food product biotechnology.

[Effect of parental age on endoreduplication of giant chromosomes and some quantitative traits in Drosophila melanogaster descendants]. / Vliianie vozrasta roditelei na funktsiiu éndoreduplikatsii gigantskikh khromosom i nekotorye kolichestvennye priznaki u potomkov Drosophila melanogaster.

We studied the influence of parental age on the degree of polyteny of giant chromosomes and expressivity of mutation eyeless in Drosophila melanogaster descendants. The parental age equal to six days exerted an adverse effect on the function of endoreduplication of giant chromosomes in strain eyeless. The highest degree of polyteny was observed in descendants of four- and ten-day imago. The maximum reduction of eye facets was observed in descendants of four-day imago, while in the progeny of older parents, the mutation expressivity was sharply reduced. Relations between the changes in chromosome polyteny, expressivity of mutation eyeless, and earlier studied components of adaptation were statistically analyzed in descendants of aging parents of this Drosophila strain.

[The extracellular protein of Luteococcus japonicus subsp casei reactivates cells inactivated by ultraviolet radiation or heating]. / Vnekletochnyi belok Luteococcus japonicus subsp. casei reaktiviruet kletki, inaktivirovannye ul'trafioletovym oblucheniem i nagrevaniem.

The culture liquid of Luteococcus japonicus subsp. casei was found to be able to reactivate cells of this bacterium inactivated by UV irradiation or heat shock. The antistress activity of the culture liquid was due to the presence of an extracellular exometabolite of a protein nature with a molecular mass of more than 10 kDa. When the bacterium was grown in nutrient broth or glucose-containing mineral medium, the antistress protein was secreted by cells in the logarithmic growth phase. The reactivating effect of the antistress protein was inversely proportional to the survival rate of stressed cells.