Your search keyword '"Karasova D"' showing total 38 results

1. Non-steroidal anti-inflammatory drugs caused an outbreak of inflammation and oxidative stress with changes in the gut microbiota in rainbow trout (Oncorhynchus mykiss)

Author

Hodkovicova, N., Hollerova, A., Blahova, J., Mikula, P., Crhanova, M., Karasova, D., Franc, A., Pavlokova, S., Mares, J., Postulkova, E., Tichy, F., Marsalek, P., Lanikova, J., Faldyna, M., and Svobodova, Z.

Published

2022

2. High resolution parallel sequencing reveals multistrain Campylobacter in broiler chicken flocks testing 'negative' by conventional culture methods: implications for control of Campylobacter infection

Author

Colles, FM, Karasova, D, Crhanova, M, Preston, SG, Smith, AL, Dawkins, MS, Rychlik, I, and Gebhardt-Henrich, SG

Subjects

630 Agriculture, animal diseases, Campylobacter Infections, Animals, Membrane Proteins, Campylobacter, Animal Science and Zoology, General Medicine, Chickens, Poultry Diseases

Abstract

Contaminated chicken meat is a major source of human Campylobacteriosis and rates of infection remain high, despite efforts to limit the colonisation of broiler (meat) chicken flocks on farms. Using conventional testing methods of culture or qPCR, Campylobacter is typically detected amongst broiler flocks from 3 weeks of age, leading to the assumption that infection is introduced horizontally into chicken rearing houses at this time. In this study, we use parallel sequencing of a fragment of the Campylobacter outer membrane protein, encoded by the porA gene, to test for presence of Campylobacter DNA amongst fresh faecal samples collected from broiler flocks aged 23-28 days. Campylobacter DNA was detected in all of the 290 samples tested using the porA target, and in 48% of samples using 16S bacterial profiling, irrespective of whether or not Campylobacter could be detected using conventional qPCR thresholds. A single porAf2 variant was predominant amongst flocks that would be determined to be Campylobacter ‘positive’ by conventional means, but a diverse pattern was seen amongst flocks that were Campylobacter ‘negative’. The ability to routinely detect low levels of Campylobacter amongst broiler flocks at a much earlier age than would conventionally be identified requires a re-examination of how and when biosecurity measures are best applied for live birds. In addition, it may be useful to investigate why single Campylobacter variants proliferate in some broiler flocks and not others.

Published

2022

3. Comparative analysis of Salmonella enterica serovar Enteritidis mutants with a vaccine potential

Author

Karasova, D., Sebkova, A., Vrbas, V., Havlickova, H., Sisak, F., and Rychlik, I.

Published

2009

4. Characterization of Salmonella enterica serovar Typhimurium conjugative plasmids transferring resistance to antibiotics and their interaction with the virulence plasmid

Author

Hradecka, H., Karasova, D., and Rychlik, I.

Published

2008

5. LPS structure influences protein secretion in

Author

Crhanova, M., Malcova, M., Mazgajova, M., Karasova, D., Sebkova, A., Fucikova, A., Bortlicek, Z., Pilousova, L., Kyrova, K., Dekanova, M., Rychlik, I., Veterinary Research Institute, Faculty of Military Health Sciences, University of Defense, Faculty of Medicine and Faculty of Science, and Masaryk University [Brno] (MUNI)

Subjects

LPS, SPI-1, [SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, motility, protein secretion, bacteria

Abstract

International audience; In this study we have compared protein secretion in the wild type of Typhimurium and the mutant. We found out that the mutant was defective in protein secretion. In addition, the mutant was defective in its invasion into an IPEC-J2 porcine epithelial cell line and also in motility in semisolid agar. Consistent with this, reduced flagella numbers were observed in the mutant. In the mutant, there were no defects in flagellin expression as detected by western blot and immune electron microscopy which demonstrated equal amounts of flagellin in the cytoplasm of both the mutant and the wild-type . Typhimurium. However, in the wild-type strain only, the flagellin was assembled to spatially restricted areas on the inner side of cytoplasmic membrane. The oligosaccharide core of LPS is therefore required for the assembly of flagella and T3SS secretion machinery followed by protein secretion.

Published

2011

6. Deletion of sodCI and spvBC in Salmonella enterica serovar Enteritidis reduced its virulence to the natural virulence of serovars Agona, Hadar and Infantis for mice but not for chickens early after infection

Author

Karasova, D., primary, Havlickova, H., additional, Sisak, F., additional, and Rychlik, I., additional

Published

2009

7. Characterization of Salmonella enterica serovar Typhimurium conjugative plasmids transferring resistance to antibiotics and their interaction with the virulence plasmid

Author

Hradecka, H., primary, Karasova, D., additional, and Rychlik, I., additional

Published

2008

8. SPI-1-encoded type III secretion system of Salmonella enterica is required for the suppression of porcine alveolar macrophage cytokine expression

Author

Pavlova Barbora, Volf Jiri, Ondrackova Petra, Matiasovic Jan, Stepanova Hana, Crhanova Magdalena, Karasova Daniela, Faldyna Martin, and Rychlik Ivan

Subjects

Veterinary medicine, SF600-1100

Abstract

Abstract Genes localized at Salmonella pathogenicity island-1 (SPI-1) are involved in Salmonella enterica invasion of host non-professional phagocytes. Interestingly, in macrophages, SPI-1-encoded proteins, in addition to invasion, induce cell death via activation of caspase-1 which also cleaves proIL-1β and proIL-18, precursors of 2 proinflammatory cytokines. In this study we were therefore interested in whether SPI-1-encoded type III secretion system (T3SS) may influence proinflammatory response of macrophages. To test this hypothesis, we infected primary porcine alveolar macrophages with wild-type S. Typhimurium and S. Enteritidis and their isogenic SPI-1 deletion mutants. ΔSPI1 mutants of both serovars invaded approx. 5 times less efficiently than the wild-type strains and despite this, macrophages responded to the infection with ΔSPI1 mutants by increased expression of proinflammatory cytokines IL-1β, IL-8, TNFα, IL-23α and GM-CSF. Identical macrophage responses to that induced by the ΔSPI1 mutants were also observed to the infection with sipB but not the sipA mutant. The hilA mutant exhibited an intermediate phenotype between the ΔSPI1 mutant and the wild-type S. Enteritidis. Our results showed that the SPI-1-encoded T3SS is required not only for cell invasion but in macrophages also for the suppression of early proinflammatory cytokine expression.

Published

2011

9. Influence of 5 major Salmonella pathogenicity islands on NK cell depletion in mice infected with Salmonella enterica serovar Enteritidis

Author

Ondrackova Petra, Faldyna Martin, Volf Jiri, Sisak Frantisek, Havlickova Hana, Sebkova Alena, Karasova Daniela, Kummer Vladimir, and Rychlik Ivan

Subjects

Microbiology, QR1-502

Abstract

Abstract Background In this study we were interested in the colonisation and early immune response of Balb/C mice to infection with Salmonella Enteritidis and isogenic pathogenicity island free mutants. Results The virulence of S. Enteritidis for Balb/C mice was exclusively dependent on intact SPI-2. Infections with any of the mutants harbouring SPI-2 (including the mutant in which we left only SPI-2 but removed SPI-1, SPI-3, SPI-4 and SPI-5) resulted in fatalities, liver injures and NK cell depletion from the spleen. The infection was of minimal influence on counts of splenic CD4 CD8 T lymphocytes and γδ T-lymphocytes although a reduced ability of splenic lymphocytes to respond to non-specific mitogens indicated general immunosuppression in mice infected with SPI-2 positive S. Enteritidis mutants. Further investigations showed that NK cells were depleted also in blood but not in the caecal lamina propria. However, NK cell depletion was not directly associated with the presence of SPI-2 and was rather an indicator of virulence or avirulence of a particular mutant because the depletion was not observed in mice infected with other attenuated mutants such as lon and rfaL. Conclusions The virulence of S. Enteritidis for Balb/C mice is exclusively dependent on the presence of SPI-2 in its genome, and a major hallmark of the infection in terms of early changes in lymphocyte populations is the depletion of NK cells in spleen and blood. The decrease of NK cells in circulation can be used as a marker of attenuation of S. Enteritidis mutants for Balb/C mice.

Published

2010

10. Virulence potential of five major pathogenicity islands (SPI-1 to SPI-5) of Salmonella enterica serovar Enteritidis for chickens

Author

Imre Ariel, Kummer Vladimir, Havlickova Hana, Sisak Frantisek, Volf Jiri, Sebkova Alena, Karasova Daniela, Rychlik Ivan, Szmolka Annamaria, and Nagy Bela

Subjects

Microbiology, QR1-502

Abstract

Abstract Background Salmonella is a highly successful parasite of reptiles, birds and mammals. Its ability to infect and colonise such a broad range of hosts coincided with the introduction of new genetic determinants, among them 5 major pathogenicity islands (SPI1-5), into the Salmonella genome. However, only limited information is available on how each of these pathogenicity islands influences the ability of Salmonella to infect chickens. In this study, we therefore constructed Salmonella Enteritidis mutants with each SPI deleted separately, with single individual SPIs (i.e. with the remaining four deleted) and a mutant with all 5 SPIs deleted, and assessed their virulence in one-day-old chickens, together with the innate immune response of this host. Results The mutant lacking all 5 major SPIs was still capable of colonising the caecum while colonisation of the liver and spleen was dependent on the presence of both SPI-1 and SPI-2. In contrast, the absence of SPI-3, SPI-4 or SPI-5 individually did not influence virulence of S. Enteritidis for chickens, but collectively they contributed to the colonisation of the spleen. Proinflammatory signalling and heterophil infiltration was dependent on intact SPI-1 only and not on other SPIs. Conclusions SPI-1 and SPI-2 are the two most important pathogenicity islands of Salmonella Enteritidis required for the colonisation of systemic sites in chickens.

Published

2009

11. Impact of the Lipopolysaccharide Chemotype of Salmonella Enterica Serovar Typhimurium on Virulence in Gnotobiotic Piglets

Author

Zdislava Splichalova, Paolo Trevisi, Marek Sinkora, Alla Splichalova, Daniela Karasova, Ivan Rychlik, Igor Splichal, Splichalova A., Splichalova Z., Karasova D., Rychlik I., Trevisi P., Sinkora M., and Splichal I.

Subjects

Lipopolysaccharides, Salmonella typhimurium, Salmonella, Swine, Health, Toxicology and Mutagenesis, gnotobiotic, Virulence, lcsh:Medicine, Spleen, Ileum, Δrfa mutant, Toxicology, medicine.disease_cause, Occludin, Article, Microbiology, 03 medical and health sciences, Intestine, Small, medicine, Animals, Germ-Free Life, Mesenteric lymph nodes, Cytokine, Lung, 030304 developmental biology, 0303 health sciences, Salmonella Typhimurium, biology, 030306 microbiology, lcsh:R, lipopolysaccharide, Tight junction protein, biology.organism_classification, Small intestine, cytokines, germ-free piglet, medicine.anatomical_structure, Liver, Salmonella enterica, Mutation, Salmonella Infections, tight junction proteins, bacteria, Lymph Nodes

Abstract

Salmonella Typhimurium is an enteric pathogen that causes acute and chronic infections in humans and animals. One-week-old germ-free piglets were orally colonized/infected with the Salmonella Typhimurium LT2 strain or its isogenic rough &Delta, rfaL, &Delta, rfaG or &Delta, rfaC mutants with exactly defined lipopolysaccharide (LPS) defects. After 24 h, the piglets were euthanized and the colonization of the small intestine, translocations into the mesenteric lymph nodes, liver, spleen, lungs, and bacteremia, along with changes in the ileum histology, and transcription levels of the tight junction proteins claudin-1, claudin-2, and occludin were all assessed. Additionally, transcription levels of IL-8, TNF-&alpha, and IL-10 in the terminal ileum, and their local and systemic protein levels were evaluated. Wild-type Salmonella Typhimurium showed the highest translocation, histopathological changes, upregulation of claudins and downregulation of occludin, transcription of the cytokines, intestinal IL-8 and TNF-&alpha, levels, and systemic TNF-&alpha, and IL-10 levels. Depending on the extent of the incompleteness of the LPS, the levels of the respective elements decreased, or no changes were observed at all in the piglets colonized/infected with &Delta, rfa mutants. Intestinal IL-10 and systemic IL-8 levels were not detected in any piglet groups. This study provided foundational data on the gnotobiotic piglet response to colonization/infection with the exactly defined rough Salmonella Typhimurium LT2 isogenic mutants.

Published

2019

12. Probiotic Mixtures Consisting of Representatives of Bacteroidetes and Selenomonadales Increase Resistance of Newly Hatched Chicks to Salmonella Enteritidis Infection.

Author

Volf J, Faldynova M, Matiasovicova J, Sebkova A, Karasova D, Prikrylova H, Havlickova H, and Rychlik I

Abstract

There are extensive differences in the caecal microbiota of chicks from hatcheries and those inoculated with faecal material from adult hens. Besides differences in microbial composition, the latter chickens are highly resistant to Salmonella Enteritidis challenges, while the former are susceptible. In this study, we tested whether strains from genera Bacteroides , Megamonas, or Megasphaera can increase chicken resistance to Salmonella and Campylobacter jejuni when defined microbial mixtures consisting of these bacterial genera are administered. Mixtures consisting of different species and strains from the above-mentioned genera efficiently colonised the chicken caecum and increased chicken resistance to Salmonella by a factor of 50. The tested mixtures were even more effective in protecting chickens from Salmonella in a seeder model of infection (3-5 log reduction). The tested mixtures partially protected chickens from C. jejuni infection, though the effect was lower than that against Salmonella . The obtained data represent a first step for the development of a new type of probiotics for poultry.

Published

2024

13. Immunoglobulin secretion influences the composition of chicken caecal microbiota.

Author

Volf J, Kaspers B, Schusser B, Crhanova M, Karasova D, Stepanova H, Babak V, and Rychlik I

Subjects

Animals, Bacteria classification, Bacteria genetics, Chickens microbiology, Chickens immunology, Cecum microbiology, Immunoglobulins, Gastrointestinal Microbiome, RNA, Ribosomal, 16S genetics

Abstract

The chicken caecum is colonised by hundreds of different bacterial species. Which of these are targeted by immunoglobulins and how immunoglobulin expression shapes chicken caecal microbiota has been addressed in this study. Using cell sorting followed by sequencing of V3/V4 variable region of 16S rRNA, bacterial species with increased or decreased immunoglobulin coating were determined. Next, we determined also caecal microbiota composition in immunoglobulin knockout chickens. We found that immunoglobulin coating was common and major taxa were coated with immunoglobulins. Similarly, more taxa required immunoglobulin production for caecum colonisation compared to those which became abundant in immunoglobulin-deficient chickens. Taxa with low immunoglobulin coating such as Lactobacillus, Blautia, [Eubacterium] hallii, Megamonas, Fusobacterium and Desulfovibrio all encode S-layer proteins which may reduce interactions with immunoglobulins. Although there were taxa which overgrew in Ig-deficient chickens (e.g. Akkermansia) indicating immunoglobulin production acted to exclude them from the chicken caecum, in most of the cases, immunoglobulin production more likely contributed to fixing the desired microbiota in the chicken caecum., (© 2024. The Author(s).)

Published

2024

14. Modulation of Gut Microbiome and Autism Symptoms of ASD Children Supplemented with Biological Response Modifier: A Randomized, Double-Blinded, Placebo-Controlled Pilot Study.

Author

Hrnciarova J, Kubelkova K, Bostik V, Rychlik I, Karasova D, Babak V, Datkova M, Simackova K, and Macela A

Subjects

Humans, Pilot Projects, Double-Blind Method, Male, Female, Child, Feces microbiology, Child, Preschool, Prospective Studies, Autistic Disorder microbiology, Dysbiosis microbiology, Gastrointestinal Microbiome, Autism Spectrum Disorder microbiology, Dietary Supplements

Abstract

The etiology and mechanisms of autism and autism spectrum disorder (ASD) are not yet fully understood. There is currently no treatment for ASD for providing significant improvement in core symptoms. Recent studies suggest, however, that ASD is associated with gut dysbiosis, indicating that modulation of gut microbiota in children with ASD may thus reduce the manifestation of ASD symptoms. The aim of this pilot study (prospective randomized, double-blinded, placebo-controlled) was to evaluate efficacy of the biological response modifier Juvenil in modulating the microbiome of children with ASD and, in particular, whether Juvenil is able to alleviate the symptoms of ASD. In total, 20 children with ASD and 12 neurotypical children were included in our study. Supplementation of ASD children lasted for three months. To confirm Juvenil's impact on the gut microbiome, stool samples were collected from all children and the microbiome's composition was analyzed. This pilot study demonstrated that the gut microbiome of ASD children differed significantly from that of healthy controls and was converted by Juvenil supplementation toward a more neurotypical microbiome that positively modulated children's autism symptoms.

Published

2024

15. In Vivo Expression of Chicken Gut Anaerobes Identifies Carbohydrate- or Amino Acid-Utilising, Motile or Type VI Secretion System-Expressing Bacteria.

Author

Rajova J, Zeman M, Seidlerova Z, Vlasatikova L, Matiasovicova J, Sebkova A, Faldynova M, Prikrylova H, Karasova D, Crhanova M, Kulich P, Babak V, Volf J, and Rychlik I

Subjects

Animals, Carbohydrate Metabolism, Cecum microbiology, Cecum metabolism, Bacteria classification, Bacteria metabolism, Bacteria genetics, Chickens microbiology, Gastrointestinal Microbiome, Amino Acids metabolism, Type VI Secretion Systems metabolism, Type VI Secretion Systems genetics

Abstract

Complex gut microbiota increases chickens' resistance to enteric pathogens. However, the principles of this phenomenon are not understood in detail. One of the possibilities for how to decipher the role of gut microbiota in chickens' resistance to enteric pathogens is to systematically characterise the gene expression of individual gut microbiota members colonising the chicken caecum. To reach this aim, newly hatched chicks were inoculated with bacterial species whose whole genomic sequence was known. Total protein purified from the chicken caecum was analysed by mass spectrometry, and the obtained spectra were searched against strain-specific protein databases generated from known genomic sequences. Campylobacter jejuni , Phascolarctobacterium sp. and Sutterella massiliensis did not utilise carbohydrates when colonising the chicken caecum. On the other hand, Bacteroides , Mediterranea , Marseilla , Megamonas , Megasphaera , Bifidobacterium , Blautia , Escherichia coli and Succinatimonas fermented carbohydrates. C. jejuni was the only motile bacterium, and Bacteroides mediterraneensis expressed the type VI secretion system. Classification of in vivo expression is key for understanding the role of individual species in complex microbial populations colonising the intestinal tract. Knowledge of the expression of motility, the type VI secretion system, and preference for carbohydrate or amino acid fermentation is important for the selection of bacteria for defined competitive exclusion products.

Published

2024

16. Contact with adult hens affects the composition of skin and respiratory tract microbiota in newly hatched chicks.

Author

Faldynova M, Prikrylova H, Sebkova A, Volf J, Karasova D, Crhanova M, Babak V, and Rychlik I

Subjects

Animals, Female, RNA, Ribosomal, 16S analysis, Escherichia coli genetics, Respiratory System, Chickens, Microbiota

Abstract

Chickens in commercial production are hatched in hatcheries without any contact with their parents and colonization of their skin and respiratory tract is therefore dependent on environmental sources only. However, since chickens evolved to be hatched in nests, in this study we evaluated the importance of contact between hens and chicks for the development of chicken skin and tracheal microbiota. Sequencing of PCR amplified V3/V4 variable regions of the 16S rRNA gene showed that contact with adult hens decreased the abundance of E. coli, Proteus mirabilis and Clostridium perfringens both in skin and the trachea, and Acinetobacter johnsonii and Cutibacterium acnes in skin microbiota only. These species were replaced by Lactobacillus gallinarum, Lactobacillus aviarius, Limosilactobacillus reuteri, and Streptococcus pasterianus in the skin and tracheal microbiota of contact chicks. Lactobacilli can be therefore investigated for their probiotic effect in respiratory tract in the future. Skin and respiratory microbiota of contact chickens was also enriched for Phascolarctobacterium, Succinatimonas, Flavonifractor, Blautia, and [Ruminococcus] torque though, since these are strict anaerobes from the intestinal tract, it is likely that only DNA from nonviable cells was detected for these taxa., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

17. Colonization of chickens with competitive exclusion products results in extensive differences in metabolite composition in cecal digesta.

Author

Vlasatikova L, Zeman M, Crhanova M, Matiasovicova J, Karasova D, Faldynova M, Prikrylova H, Sebkova A, and Rychlik I

Subjects

Animals, Cecum microbiology, Glutamic Acid, Vitamin K, Vitamins, Nucleotides, Chickens microbiology, Poultry Diseases microbiology

Abstract

The concept of competitive exclusion is well established in poultry and different products are used to suppress the multiplication of enteric pathogens in the chicken intestinal tract. While the effect has been repeatedly confirmed, the specific principles of competitive exclusion are less clear. The aim of the study was to compare metabolites in the cecal digesta of differently colonized chickens. Metabolites in the cecal contents of chickens treated with a commercial competitive exclusion product or with an experimental product consisting of 23 gut anaerobes or in control untreated chickens were determined by mass spectrometry. Extensive differences in metabolite composition among the digesta of all 3 groups of chickens were recorded. Out of 1,706 detected compounds, 495 and 279 were differently abundant in the chicks treated with a commercial or experimental competitive exclusion product in comparison to the control group, respectively. Soyasaponins, betaine, carnitine, glutamate, tyramine, phenylacetaldehyde, or 3-methyladenine were more abundant in the digesta of control chicks while 4-oxododecanedioic acid, nucleotides, dipeptides, amino acids (except for glutamate), and vitamins were enriched in the digesta of chickens colonized by competitive exclusion products. Metabolites enriched in the digesta of control chicks can be classified as of plant feed origin released in the digesta by degradative activities of the chicken. Some of these molecules disappeared from the digesta of chicks colonized by complex microbiota due to them being metabolized. Instead, nucleotides, amino acids, and vitamins increased in the digesta of colonized chicks as a consequence of the additional digestive potential brought to the cecum by microbiota from competitive exclusion products. It is therefore possible to affect metabolite profiles in the chicken cecum by its colonization with selected bacterial species., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

18. Microbial Succession in the Cheese Ripening Process-Competition of the Starter Cultures and the Microbiota of the Cheese Plant Environment.

Author

Korena K, Krzyzankova M, Florianova M, Karasova D, Babak V, Strakova N, and Juricova H

Abstract

A large variety of cheeses can be produced using different manufacturing processes and various starter or adjunct cultures. In this study, we have described the succession of the microbial population during the commercial production and subsequent ripening of smear-ripened cheese using 16S rRNA gene sequencing. The composition of the microbiota during the first 6 days of production was constant and consisted mainly of LAB (lactic acid bacteria) originating from the starter culture. From day 7, the proportion of LAB decreased as other bacteria from the production environment appeared. From the 14th day of production, the relative proportion of LAB decreased further, and at the end of ripening, bacteria from the environment wholly dominated. These adventitious microbiota included Psychrobacter , Pseudoalteromonas haloplanktis / hodoensis , Vibrio toranzoniae , and Vibrio litoralis (Proteobacteria phylum), as well as Vagococcus and Marinilactibacillus (Firmicutes phylum), Psychrilyobacter (Fusobacteria phylum), and Malaciobacter marinus (Campylobacterota phylum), all of which appeared to be characteristic taxa associated with the cheese rind. Subsequent analysis showed that the production and ripening of smear-ripened cheese could be divided into three stages, and that the microbiota compositions of samples from the first week of production, the second week of production, and supermarket shelf life all differed.

Published

2023

19. Microbiota of Chickens and Their Environment in Commercial Production.

Author

Rychlik I, Karasova D, and Crhanova M

Subjects

Animals, Chickens, Cecum, Poultry, Escherichia coli, RNA, Ribosomal, 16S, Poultry Diseases, Microbiota

Abstract

Chickens in commercial production are subjected to constant interaction with their environment, including the exchange of microbiota. In this review, we therefore focused on microbiota composition in different niches along the whole line of chicken production. We included a comparison of microbiota of intact eggshells, eggshell waste from hatcheries, bedding, drinking water, feed, litter, poultry house air and chicken skin, trachea, crop, small intestine, and cecum. Such a comparison showed the most frequent interactions and allowed for the identification of microbiota members that are the most characteristic for each type of sample as well as those that are the most widespread in chicken production. Not surprisingly, Escherichia coli was the most widely distributed species in chicken production, although its dominance was in the external aerobic environment and not in the intestinal tract. Other broadly distributed species included Ruminococcus torque , Clostridium disporicum , and different Lactobacillus species. The consequence and meaning of these and other observations are evaluated and discussed.

Published

2023

20. Succession, Replacement, and Modification of Chicken Litter Microbiota.

Author

Kubasova T, Faldynova M, Crhanova M, Karasova D, Zeman M, Babak V, and Rychlik I

Subjects

Animals, RNA, Ribosomal, 16S genetics, Cecum microbiology, Chickens microbiology, Microbiota genetics

Abstract

Chickens are in constant interaction with their environment, e.g., bedding and litter, and their microbiota. However, how litter microbiota develops over time and whether bedding and litter microbiota may affect the cecal microbiota is not clear. We addressed these questions using sequencing of V3/V4 variable region of 16S rRNA genes of cecal, bedding, and litter samples from broiler breeder chicken flocks for 4 months of production. Cecal, bedding, and litter samples were populated by microbiota of distinct composition. The microbiota in the bedding material did not expand in the litter. Similarly, major species from litter microbiota did not expand in the cecum. Only cecal microbiota was found in the litter forming approximately 20% of total litter microbiota. A time-dependent development of litter microbiota was observed. Escherichia coli, Staphylococcus saprophyticus, and Weissella jogaejeotgali were characteristic of fresh litter during the first month of production. Corynebacterium casei, Lactobacillus gasseri, and Lactobacillus salivarius dominated in a 2-month-old litter, Brevibacterium , Brachybacterium , and Sphingobacterium were characteristic for 3-month-old litter, and Salinococcus , Dietzia , Yaniella , and Staphylococcus lentus were common in a 4-month-old litter. Although the development was likely determined by physicochemical conditions in the litter, it might be interesting to test some of these species for active modification of litter to improve the chicken environment and welfare. IMPORTANCE Despite intimate contact, the composition of bedding, litter, and cecal microbiota differs considerably. Species characteristic for litter microbiota at different time points of chicken production were identified thus opening the possibility for active manipulation of litter microbiota.

Published

2022

21. Influence of heat stress on intestinal integrity and the caecal microbiota during Enterococcus cecorum infection in broilers.

Author

Schreier J, Rychlik I, Karasova D, Crhanova M, Breves G, Rautenschlein S, and Jung A

Subjects

Tight Junction Proteins, Cecum microbiology, Heat-Shock Response, Animals, Enterococcus, Chickens microbiology, Microbiota

Abstract

Enterococcus cecorum (EC) is one of the most relevant bacterial pathogens in modern broiler chicken production from an economic and animal welfare perspective. Although EC pathogenesis is generally well described, predisposing factors are still unknown. This study aimed to understand the effect of heat stress on the caecal microbiota, intestinal integrity, and EC pathogenesis. A total of 373 1-day-old commercial broiler chicks were randomly assigned to four groups: (1) noninoculated, thermoneutral conditions (TN); (2) noninoculated, heat stress conditions (HS); (3) EC-inoculated, thermoneutral conditions (TN + EC); and (4) EC-inoculated, heat stress conditions (HS + EC). Birds were monitored daily for clinical signs. Necropsy of 20 broilers per group was performed at 7, 14, 21, and 42 days post-hatch (dph). A trend towards enhanced and more pronounced clinical disease was observed in the EC-inoculated, heat-stressed group. EC detection rates in extraintestinal tissues via culture were higher in the HS + EC group (~19%) than in the TN + EC group (~11%). Significantly more birds were colonized by EC at 7 dph in the HS + EC group (100%) than in the TN + EC group (65%, p < 0.05). The caecal microbiota in the two EC-inoculated groups was significantly more diverse than that in the TN group (p < 0.05) at 14 dph, which may indicate an effect of EC infection. An influence of heat stress on mRNA expression of tight junction proteins in the caecum was detected at 7 dph, where all six investigated tight junction proteins were expressed at significantly lower levels in the heat stressed groups compared to the thermoneutral groups. These observations suggest that heat stress may predispose broilers to EC-associated disease and increase the severity thereof. Furthermore, heat stress may impair intestinal integrity and promote EC translocation., (© 2022. The Author(s).)

Published

2022

22. Host Species Adaptation of Obligate Gut Anaerobes Is Dependent on Their Environmental Survival.

Author

Karasova D, Faldynova M, Matiasovicova J, Sebkova A, Crhanova M, Kubasova T, Seidlerova Z, Prikrylova H, Volf J, Zeman M, Babak V, Juricova H, Rajova J, Vlasatikova L, Rysavka P, and Rychlik I

Abstract

The gut microbiota of warm-blooded vertebrates consists of bacterial species belonging to two main phyla; Firmicutes and Bacteroidetes. However, does it mean that the same bacterial species are found in humans and chickens? Here we show that the ability to survive in an aerobic environment is central for host species adaptation. Known bacterial species commonly found in humans, pigs, chickens and Antarctic gentoo penguins are those capable of extended survival under aerobic conditions, i.e., either spore-forming, aerotolerant or facultatively anaerobic bacteria. Such bacteria are ubiquitously distributed in the environment, which acts as the source of infection with similar probability in humans, pigs, chickens, penguins and likely any other warm-blooded omnivorous hosts. On the other hand, gut anaerobes with no specific adaptation for survival in an aerobic environment exhibit host adaptation. This is associated with their vertical transmission from mothers to offspring and long-term colonisation after administration of a single dose. This knowledge influences the design of next-generation probiotics. The origin of aerotolerant or spore-forming probiotic strains may not be that important. On the other hand, if Bacteroidetes and other host-adapted species are used as future probiotics, host preference should be considered.

Published

2022

23. Probiotic Lactobacilli Do Not Protect Chickens against Salmonella Enteritidis Infection by Competitive Exclusion in the Intestinal Tract but in Feed, Outside the Chicken Host.

Author

Juricova H, Matiasovicova J, Faldynova M, Sebkova A, Kubasova T, Prikrylova H, Karasova D, Crhanova M, Havlickova H, and Rychlik I

Abstract

Lactobacilli are commonly used as probiotics in poultry to improve production parameters and to increase chicken resistance to enteric infections. However, lactobacilli do not efficiently colonise the chicken intestinal tract, and also, their anti-infection effect in vivo is sometimes questionable. In this study, we therefore evaluated the potential of a mixture of four Lactobacillus species ( L. salivarius , L. reuteri , L. ingluviei and L. alvi ) for the protection of chickens against Salmonella Enteritidis infection. Whenever the chickens were inoculated by lactobacilli and S . Enteritidis separately, there was no protective effect of lactobacilli. This means that when lactobacilli and S . Enteritidis are exposed to each other as late as in the crop of chickens, lactobacilli did not influence chicken resistance to S. Enteritidis at all. The only positive effect was recorded when the mixture of lactobacilli and S . Enteritidis was used for the inoculation of feed and the feed was anaerobically fermented for 1 to 5 days. In this case, chickens fed such a diet remained S . Enteritidis negative. In vitro experiments showed that the protective effect was caused by acidification of feed down to pH 4.6 due to lactobacilli fermentation and was associated with S . Enteritidis inactivation. The probiotic effect of lactobacilli was thus expressed in the feed, outside the chicken host.

Published

2022

24. Influence of lincomycin-spectinomycin treatment on the outcome of Enterococcus cecorum infection and on the cecal microbiota in broilers.

Author

Schreier J, Karasova D, Crhanova M, Rychlik I, Rautenschlein S, and Jung A

Abstract

Background: Enterococcus cecorum (EC) is one of the main reasons for skeletal disease in meat type chickens. Intervention strategies are still rare and focus mainly on early antibiotic treatment of the disease, although there are no data available concerning the effectivity of this procedure. The present study aimed to investigate the effectivity of early lincomycin-spectinomycin treatment during the first week of life after EC-infection. Furthermore, the impact of lincomycin-spectinomycin treatment and EC infection on the development of cecal microbiota was investigated., Methods: A total of 383 day-old broiler chicks were randomly assigned to four groups (non-infected and non-treated, non-infected and treated, EC-infected and non-treated, and EC-infected and treated). The EC-infected groups were inoculated orally with an EC suspension at the day of arrival and at study day 3. The treatment groups were treated with lincomycin-spectinomycin via the drinking water for six consecutive days, starting two hours after the first inoculation. Necropsy of 20 chickens per group was performed at study days 7, 14, 21, and 42. Bacteriological examination via culture and real-time PCR was performed to detect EC in different extraintestinal organs. Cecal samples of nine chickens per group and necropsy day were analyzed to characterize the composition of the cecal microbiota., Results: No clinical signs or pathologic lesions were found at necropsy, and EC was not detected in extraintestinal organs of the EC-infected and treated birds. Lincomycin-spectinomycin promoted the growth of the bacterial genus Escherichia/Shigella and reduced the amount of potentially beneficial Lactobacillus spp. in the ceca regardless of EC-infection. Unexpectedly, the highest abundances of the genus Enterococcus were found directly after ending antibiotic treatment in both treatment groups, suggesting the growth of resistant enterococcal species. EC was not detected among the most abundant members of the genus Enterococcus. Oral EC-infection at the first day of life did not influence the development of cecal microbiota in the present study., Conclusions: Lincomycin-spectinomycin treatment during the first week of life can prevent the EC-associated disease in broiler type chickens and has a direct impact on the development of the cecal microbiota. The low abundance of EC in the ceca of infected chickens underlines the pathogenic nature of the disease-causing EC strains. Further research on alternative prevention and intervention strategies is needed with regard to current efforts on reducing the use of antibiotics in livestock animals., (© 2022. The Author(s).)

Published

2022

25. Somatic Mutations in Oncogenes Are in Chronic Myeloid Leukemia Acquired De Novo via Deregulated Base-Excision Repair and Alternative Non-Homologous End Joining.

Author

Curik N, Polivkova V, Burda P, Koblihova J, Laznicka A, Kalina T, Kanderova V, Brezinova J, Ransdorfova S, Karasova D, Rejlova K, Bakardjieva M, Kuzilkova D, Kundrat D, Linhartova J, Klamova H, Salek C, Klener P, Hrusak O, and Machova Polakova K

Abstract

Somatic mutations are a common molecular mechanism through which chronic myeloid leukemia (CML) cells acquire resistance to tyrosine kinase inhibitors (TKIs) therapy. While most of the mutations in the kinase domain of BCR-ABL1 can be successfully managed, the recurrent somatic mutations in other genes may be therapeutically challenging. Despite the major clinical relevance of mutation-associated resistance in CML, the mechanisms underlying mutation acquisition in TKI-treated leukemic cells are not well understood. This work demonstrated de novo acquisition of mutations on isolated single-cell sorted CML clones growing in the presence of imatinib. The acquisition of mutations was associated with the significantly increased expression of the LIG1 and PARP1 genes involved in the error-prone alternative nonhomologous end-joining pathway, leading to genomic instability, and increased expression of the UNG , FEN and POLD3 genes involved in the base-excision repair (long patch) pathway, allowing point mutagenesis. This work showed in vitro and in vivo that de novo acquisition of resistance-associated mutations in oncogenes is the prevalent method of somatic mutation development in CML under TKIs treatment., Competing Interests: HK was a consultant for and received honoraria from Novartis. KMP was a consultant for and received honoraria from Incyte and Angelini. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Curik, Polivkova, Burda, Koblihova, Laznicka, Kalina, Kanderova, Brezinova, Ransdorfova, Karasova, Rejlova, Bakardjieva, Kuzilkova, Kundrat, Linhartova, Klamova, Salek, Klener, Hrusak and Machova Polakova.)

Published

2021

26. Eggshell and Feed Microbiota Do Not Represent Major Sources of Gut Anaerobes for Chickens in Commercial Production.

Author

Volf J, Crhanova M, Karasova D, Faldynova M, Kubasova T, Seidlerova Z, Sebkova A, Zeman M, Juricova H, Matiasovicova J, Foltyn M, Tvrdon Z, and Rychlik I

Abstract

In this study, we addressed the origin of chicken gut microbiota in commercial production by a comparison of eggshell and feed microbiota with caecal microbiota of 7-day-old chickens, using microbiota analysis by 16S rRNA sequencing. In addition, we tested at which timepoint during prenatal or neonatal development it is possible to successfully administer probiotics. We found that eggshell microbiota was a combination of environmental and adult hen gut microbiota but was completely different from caecal microbiota of 7-day-old chicks. Similarly, we observed that the composition of feed microbiota was different from caecal microbiota. Neither eggshell nor feed acted as an important source of gut microbiota for the chickens in commercial production. Following the experimental administration of potential probiotics, we found that chickens can be colonised only when already hatched and active. Spraying of eggs with gut anaerobes during egg incubation or hatching itself did not result in effective chicken colonisation. Such conclusions should be considered when selecting and administering probiotics to chickens in hatcheries. Eggshells, feed or drinking water do not act as major sources of gut microbiota. Newly hatched chickens must be colonised from additional sources, such as air dust with spores of Clostridiales. The natural colonisation starts only when chickens are already hatched, as spraying of eggs or even chickens at the very beginning of the hatching process did not result in efficient colonisation.

Published

2021

27. Typhlitis induced by Histomonas meleagridis affects relative but not the absolute Escherichia coli counts and invasion in the gut in turkeys.

Author

Abdelhamid MK, Rychlik I, Hess C, Hatfaludi T, Crhanova M, Karasova D, Lagler J, Liebhart D, Hess M, and Paudel S

Subjects

Animals, Colony Count, Microbial veterinary, Escherichia coli physiology, Typhlitis parasitology, Chickens, Gastrointestinal Microbiome, Poultry Diseases parasitology, Protozoan Infections, Animal parasitology, Trichomonadida physiology, Typhlitis veterinary

Abstract

Unlike in chickens, dynamics of the gut microbiome in turkeys is limitedly understood and no data were yet published in context of pathological changes following experimental infection. Thus, the impact of Histomonas meleagridis-associated inflammatory changes in the caecal microbiome, especially the Escherichia coli population and their caecal wall invasion in turkeys was investigated. Birds experimentally inoculated with attenuated and/or virulent H. meleagridis and non-inoculated negative controls were divided based on the severity of macroscopic caecal lesions. The high throughput amplicon sequencing of 16SrRNA showed that the species richness and diversity of microbial community significantly decreased in severely affected caeca. The relative abundances of operational taxonomic units belonging to Anaerotignum lactatifermentans, E. coli, and Faecalibacterium prausnitzii were higher and paralleled with a decreased abundances of those belonging to Alistipes putredinis, Streptococcus alactolyticus, Lactobacillus salivarius and Lactobacillus reuteri in birds with the highest lesion scores. Although the relative abundance of E. coli was higher, the absolute count was not affected by the severity of pathological lesions. Immunohistochemistry showed that E. coli was only present in the luminal content of caecum and did not penetrate even severely inflamed and necrotized caecal wall. Overall, it was demonstrated that the fundamental shift in caecal microbiota of turkeys infected with H. meleagridis was attributed to the pathology induced by the parasite, which only led to relative but not absolute changes in E. coli population. Furthermore, E. coli cells did not show tendency to penetrate the caecal tissue even when the intestinal mucosal barriers were severely compromised.

Published

2021

28. Development of piglet gut microbiota at the time of weaning influences development of postweaning diarrhea - A field study.

Author

Karasova D, Crhanova M, Babak V, Jerabek M, Brzobohaty L, Matesova Z, and Rychlik I

Subjects

Animals, Bacteria classification, Bacteria genetics, Diarrhea microbiology, Probiotics, RNA, Ribosomal, 16S genetics, Swine microbiology, Swine Diseases prevention & control, Weaning, Diarrhea veterinary, Gastrointestinal Microbiome, Swine Diseases microbiology

Abstract

Postweaning diarrhea is a common issue in pig production which is currently controlled by feed supplementation with zinc oxide. However, new alternatives are being sought due to an expected ban on zinc oxide in feed supplementation from 2022 in the EU. One possible alternative is to use novel types of probiotics consisting of microbiota characteristic for healthy weaned piglets. In this study, we therefore collected rectal swabs of piglets 3 days before weaning and 4 days after weaning in a commercial farm considering all risks of field trial like the use of antibiotics, classified the piglets as predisposed, healthy or sick and using 16S rRNA sequencing, we determined and compared the microbiota composition. Increased Actinobacteria before weaning was a marker of piglets predisposed for diarrhea. Increased Chlamydia or Helicobacter before weaning was surprisingly a marker of healthy and resistant piglets after weaning. After weaning, unclassified Clostridiales, Deltaproteobacteria, Selenomonadales, Fusobacterium, Akkermansia or Anaerovibrio increased in microbiota of piglets with postweaning diarrhea while an increase in Prevotella and Faecalibacterium was characteristic for healthy, weaned piglets. Both changes in individual microbiota members and also correct timing of microbiota reshaping around weaning and the increase of mainly Prevotella species just after weaning are equally important for resistance to postweaning diarrhea in piglets under field conditions., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

29. Toll-Like Receptor 4 Signaling in the Ileum and Colon of Gnotobiotic Piglets Infected with Salmonella Typhimurium or Its Isogenic ∆ rfa Mutants.

Author

Splichal I, Rychlik I, Splichalova I, Karasova D, and Splichalova A

Subjects

Animals, Colon microbiology, Ileum microbiology, Mutation physiology, Salmonella Infections genetics, Salmonella Infections pathology, Salmonella typhimurium genetics, Swine, Swine, Miniature, Colon metabolism, Germ-Free Life physiology, Ileum metabolism, Salmonella Infections metabolism, Salmonella typhimurium isolation & purification, Toll-Like Receptor 4 metabolism

Abstract

Salmonella Typhimurium is a Gram-negative bacterium that causes enterocolitis in humans and pigs. Lipopolysaccharide (LPS) is a component of the outer leaflet of Gram-negative bacteria that provokes endotoxin shock. LPS can be synthesized completely or incompletely and creates S (smooth) or R (rough) chemotypes. Toll-like receptors (TLR) 2, 4, and 9 initiate an inflammatory reaction to combat bacterial infections. We associated/challenged one-week-old gnotobiotic piglets with wild-type S. Typhimurium with S chemotype or its isogenic ∆ rfa mutants with R chemotype LPS. The wild-type S. Typhimurium induced TLR2 and TLR4 mRNA expression but not TLR9 mRNA expression in the ileum and colon of one-week-old gnotobiotic piglets 24 h after challenge. The TLR2 and TLR4 stimulatory effects of the S. Typhimurium ∆ rfa mutants were related to the completeness of their LPS chain. The transcription of IL-12/23 p40, IFN-γ, and IL-6 in the intestine and the intestinal and plasmatic levels of IL-12/23 p40 and IL-6 but not IFN-γ were related to the activation of TLR2 and TLR4 signaling pathways. The avirulent S . Typhimurium ∆ rfa mutants are potentially useful for modulation of the TLR2 and TLR4 signaling pathways to protect the immunocompromised gnotobiotic piglets against subsequent infection with the virulent S. Typhimurium.

Published

2020

30. Environmental Impact on Differential Composition of Gut Microbiota in Indoor Chickens in Commercial Production and Outdoor, Backyard Chickens.

Author

Seidlerova Z, Kubasova T, Faldynova M, Crhanova M, Karasova D, Babak V, and Rychlik I

Abstract

In this study, we compared the caecal microbiota composition of egg-laying hens from commercial production that are kept indoors throughout their whole life with microbiota of hens kept outdoors. The microbiota of outdoor hens consisted of lower numbers of bacterial species than the microbiota of indoor hens. At the phylum level, microbiota of outdoor hens was enriched for Bacteroidetes (62.41 ± 4.47% of total microbiota in outdoor hens and 52.01 ± 6.27% in indoor hens) and Proteobacteria (9.33 ± 4.99% in outdoor and 5.47 ± 2.24% in indoor hens). On the other hand, Firmicutes were more abundant in the microbiota of indoor hens (33.28 ± 5.11% in indoor and 20.66 ± 4.41% in outdoor hens). Horizontally transferrable antibiotic resistance genes tetO , tet(32) , tet(44) , and tetW were also less abundant in the microbiota of outdoor hens than indoor hens. A comparison of the microbiota composition at the genus and species levels pointed toward isolates specifically adapted to the two extreme environments. However, genera and species recorded as being similarly abundant in the microbiota of indoor and outdoor hens are equally as noteworthy because these represent microbiota members that are highly adapted to chickens, irrespective of their genetics, feed composition, and living environment.

Published

2020

31. Gut Anaerobes Capable of Chicken Caecum Colonisation.

Author

Kubasova T, Kollarcikova M, Crhanova M, Karasova D, Cejkova D, Sebkova A, Matiasovicova J, Faldynova M, Sisak F, Babak V, Pokorna A, Cizek A, and Rychlik I

Abstract

Chicks in commercial production are highly sensitive to enteric infections and their resistance can be increased by administration of complex adult microbiota. However, it is not known which adult microbiota members are capable of colonising the caecum of newly hatched chicks. In this study, we therefore orally inoculated chicks with pure cultures of 76 different bacterial isolates originating from chicken caecum on day 1 of life and determined their ability to colonise seven days later. The caecum of newly hatched chickens could be colonised by bacteria belonging to phyla Bacteroidetes, Proteobacteria, Synergistetes, or Verrucomicrobia, and isolates from class Negativicutes (phylum Firmicutes). On the other hand, we did not record colonisation with isolates from phyla Actinobacteria and Firmicutes (except for Negativicutes), including isolates from families Lachnospiraceae, Ruminococcaceae, Erysipelotrichaceae, and Lactobacillaceae. Representatives of genera commonly used in probiotics such as Lactobacillus , Enterococcus , or Bacillus therefore did not colonise the chicken intestinal tract after a single dose administration. Following challenge with Salmonella enterica serovar Enteritidis, the best protecting isolates increased the chicken's resistance to S. Enteritidis only tenfold, which, however, means that none of the tested individual bacterial isolates on their own efficiently protected chicks against S. Enteritidis., Competing Interests: The authors declare no conflict of interest.

Published

2019

32. Systematic Culturomics Shows that Half of Chicken Caecal Microbiota Members can be Grown in Vitro Except for Two Lineages of Clostridiales and a Single Lineage of Bacteroidetes .

Author

Crhanova M, Karasova D, Juricova H, Matiasovicova J, Jahodarova E, Kubasova T, Seidlerova Z, Cizek A, and Rychlik I

Abstract

Epidemiological data show that the composition of gut microbiota influences host health, disease status, and even behaviour. However, to confirm these epidemiological observations in controlled experiments, pure cultures of gut anaerobes must be obtained. Since the culture of gut anaerobes is not a simple task due to the large number of bacterial species colonising the intestinal tract, in this study we inoculated 174 different culture media with caecal content from adult hens, and compared the microbiota composition in the original caecal samples and in bacterial masses growing in vitro by 16S rRNA sequencing. In total, 42% of gut microbiota members could be grown in vitro and since there were some species which were not cultured but for which the culture conditions are known, it is likely that more than half of chicken gut microbiota can be grown in vitro. However, there were two lineages of Clostridiales and a single lineage of Bacteroidetes which were common in chicken caecal microbiota but resistant to culture. Of the most selective culture conditions, nutrient broths supplemented with mono- or di-saccharides, including those present in fruits, positively selected for Lactobacillaceae . The addition of bile salts selected for Veillonellaceae and YCFA (yeast casitone fatty acid agar) enriched for Desulfovibrionaceae . In addition, Erysipelotrichaceae were positively selected by colistin, trimethoprim, streptomycin and nalidixic acid. Culture conditions tested in this study can be used for the selective enrichment of desired bacterial species but also point towards the specific functions of individual gut microbiota members.

Published

2019

33. Use of 16S rRNA gene sequencing for prediction of new opportunistic pathogens in chicken ileal and cecal microbiota.

Author

Kollarcikova M, Kubasova T, Karasova D, Crhanova M, Cejkova D, Sisak F, and Rychlik I

Subjects

Animals, Bacteria classification, Cecum microbiology, Female, Fusobacterium isolation & purification, Helicobacter isolation & purification, Ileum microbiology, RNA, Bacterial analysis, RNA, Ribosomal, 16S analysis, Sequence Analysis, RNA veterinary, Bacteria isolation & purification, Chickens microbiology, Gastrointestinal Microbiome

Abstract

In this study, we addressed differences in the development of gut microbiota in 4 successive batches of commercially hatched broiler parent chickens. When planning this study, we expected to find a batch with compromised performance which would allow identification of microbiota of suboptimal composition. Microbiota composition was determined only by sequencing the V3/V4 region of 16S rRNA genes in samples collected from chickens 5 to 18 wk of age. In a total, 100 and 160 samples originating from the ileum or cecum were processed, respectively. In one of the flocks with suboptimal performance we identified an increased abundance of Helicobacter brantae forming over 80% of ileal microbiota in individual chickens. Moreover, we also tested samples of 53-wk-old hens from the same genetic line in which egg production decreased. In this case, cecal microbiota was enriched for Fusobacterium mortiferum forming over 30% of total cecal microbiota. Although none of the identified unusual microbiota members have been well recognized as pathogenic, they may represent new opportunistic pathogens of chickens worth of further investigation. Analysis of gut microbiota composition by next generation sequencing thus proved as a useful and unbiased alternative to bacterial culture, especially in the cases of unspecific symptoms like decrease in flock performance., (© 2019 Poultry Science Association Inc.)

Published

2019

34. Contact with adult hen affects development of caecal microbiota in newly hatched chicks.

Author

Kubasova T, Kollarcikova M, Crhanova M, Karasova D, Cejkova D, Sebkova A, Matiasovicova J, Faldynova M, Pokorna A, Cizek A, and Rychlik I

Subjects

Animals, Female, Bacteria classification, Bacteria genetics, Bacteria growth & development, Bacteria isolation & purification, Cecum microbiology, Chickens microbiology, Gastrointestinal Microbiome

Abstract

Chickens in commercial production are hatched in a clean hatchery environment in the absence of any contact with adult hens. However, Gallus gallus evolved to be hatched in a nest in contact with an adult hen which may act as a donor of gut microbiota. In this study, we therefore addressed the issue of microbiota development in newly hatched chickens with or without contact with an adult hen. We found that a mere 24-hour-long contact between a hen and newly hatched chickens was long enough for transfer of hen gut microbiota to chickens. Hens were efficient donors of Bacteroidetes and Actinobacteria. However, except for genus Faecalibacterium and bacterial species belonging to class Negativicutes, hens did not act as an important source of Gram-positive Firmicutes. Though common to the chicken intestinal tract, Lactobacilli and isolates from families Erysipelotrichaceae, Lachnospiraceae and Ruminococcaceae therefore originated from environmental sources instead of from the hens. These observation may have considerable consequences for the evidence-based design of the new generation of probiotics for poultry., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

35. Whole genome sequencing and function prediction of 133 gut anaerobes isolated from chicken caecum in pure cultures.

Author

Medvecky M, Cejkova D, Polansky O, Karasova D, Kubasova T, Cizek A, and Rychlik I

Subjects

Animals, Bacteria, Anaerobic genetics, Gastrointestinal Microbiome, Genome Size, High-Throughput Nucleotide Sequencing, Phylogeny, Bacteria, Anaerobic isolation & purification, Cecum microbiology, Chickens, DNA, Bacterial genetics, Whole Genome Sequencing methods

Abstract

Background: In order to start to understand the function of individual members of gut microbiota, we cultured, sequenced and analysed bacterial anaerobes from chicken caecum., Results: Altogether 204 isolates from chicken caecum were obtained in pure cultures using Wilkins-Chalgren anaerobe agar and anaerobic growth conditions. Genomes of all the isolates were determined using the NextSeq platform and subjected to bioinformatic analysis. Among 204 sequenced isolates we identified 133 different strains belonging to seven different phyla - Firmicutes, Bacteroidetes, Actinobacteria, Proteobacteria, Verrucomicrobia, Elusimicrobia and Synergistetes. Genome sizes ranged from 1.51 Mb in Elusimicrobium minutum to 6.70 Mb in Bacteroides ovatus. Clustering based on the presence of protein coding genes showed that isolates from phyla Proteobacteria, Verrucomicrobia, Elusimicrobia and Synergistetes did not cluster with the remaining isolates. Firmicutes split into families Lactobacillaceae, Enterococcaceae, Veillonellaceae and order Clostridiales from which the Clostridium perfringens isolates formed a distinct sub-cluster. All Bacteroidetes isolates formed a separate cluster showing similar genetic composition in all isolates but distinct from the rest of the gut anaerobes. The majority of Actinobacteria clustered closely together except for the representatives of genus Gordonibacter showing that the genome of this genus differs from the rest of Actinobacteria sequenced in this study. Representatives of Bacteroidetes commonly encoded proteins (collagenase, hemagglutinin, hemolysin, hyaluronidase, heparinases, chondroitinase, mucin-desulfating sulfatase or glutamate decarboxylase) that may enable them to interact with their host. Aerotolerance was recorded in Akkermansia and Cloacibacillus and was also common among representatives of Bacteroidetes. On the other hand, Elusimicrobium and the majority of Clostridiales were highly sensitive to air exposure despite their potential for spore formation., Conclusions: Major gut microbiota members utilise different strategies for gut colonisation. High oxygen sensitivity of Firmicutes may explain their commonly reported decrease after oxidative burst during gut inflammation.

Published

2018

36. The structure and functional analysis of canine T-cell receptor beta region.

Author

Matiasovic J, Andrysikova R, Karasova D, Toman M, and Faldyna M

Subjects

Animals, Base Sequence, DNA Primers genetics, Databases, Genetic, Gene Rearrangement, beta-Chain T-Cell Antigen Receptor, Humans, Mice, RNA Splicing, Sequence Homology, Nucleic Acid, Species Specificity, Dogs genetics, Dogs immunology, Genes, T-Cell Receptor beta

Abstract

VDJ recombination is a key process in T-cell receptor (TCR) and immunoglobulin (Ig) molecules development. Comparison of ENSEMBL and GenBank database information revealed major differences in dog T-cell receptor beta (TRB) region annotations. ENSEMBL based genomic alignment of dog TRB sequence with human sequence and annotation showed a very similar structure of TRB. However, there is only one cluster of DJC segments in dogs. In dog, 38 V segments are followed by 1 D segment, 6 J segments and 1 C segment. Like humans and mice, dogs have another V segment opposite in orientation downstream of the C segment. V segments anticipated were analyzed using the RT-PCR and capillary electrophoresis. Thirty-one of them were identified in samples of thymus and spleen RNA and thus believed to be subjected to chromosomal rearrangement and RNA splicing. We identified and analyzed probable structure of canine TCR beta region, which is different when compared to sequences published in GenBank or ENSEMBL databases.

Published

2009

37. aroA and aroD mutations influence biofilm formation in Salmonella Enteritidis.

Author

Malcova M, Karasova D, and Rychlik I

Subjects

Bacterial Adhesion, Bacterial Proteins genetics, Cellulose metabolism, Genetic Complementation Test, Polysaccharides, Bacterial metabolism, Salmonella enteritidis genetics, Bacterial Proteins metabolism, Biofilms, Mutation, Salmonella enteritidis physiology

Abstract

aro mutants of Salmonella enterica are frequently used as live vaccines for the oral vaccination of domestic animals. Interestingly, besides their auxotrophy, they appear to be of reduced resistance to the components of innate immune response due to a defect in outer membrane and/or cell wall integrity. Because different extracellular structures associated with the cell wall or outer membrane are involved in biofilm formation, we were interested in the ability of aroA and aroD mutants of S. Enteritidis to adhere to solid surfaces. We found that aroA and aroD mutants did not adhere to solid surfaces although they bind Congo red and produced D-mannose and D-glucose capsular polysaccharides in the same amounts as the wild-type strain. However, the aro mutants exhibited a decreased production of cellulose, N-acetyl-D-glucosamine or N-acetylneuraminic acid containing capsular polysaccharide and fimbriae which explains their inability to form biofilms. aroA and aroD containing plasmids complemented all the defects of the aro mutants. Beside its attenuation for different hosts, the loss of ability to form biofilm is an additional interesting characteristic of aro mutants.

Published

2009

38. aro mutations in Salmonella enterica cause defects in cell wall and outer membrane integrity.

Author

Sebkova A, Karasova D, Crhanova M, Budinska E, and Rychlik I

Subjects

Albumins pharmacology, Alkyl and Aryl Transferases genetics, Amino Acids, Aromatic biosynthesis, Animals, Anti-Bacterial Agents pharmacology, Cell Membrane drug effects, Cell Wall drug effects, Cloning, Molecular, Complement System Proteins pharmacology, Conalbumin pharmacology, Edetic Acid pharmacology, Genetic Complementation Test, Mutation, Oligonucleotide Array Sequence Analysis, Phosphoenolpyruvate metabolism, Plasmids genetics, Salmonella enteritidis drug effects, Salmonella enteritidis enzymology, Salmonella typhimurium drug effects, Salmonella typhimurium enzymology, Serum, Amino Acids, Aromatic genetics, Cell Membrane genetics, Cell Wall genetics, Drug Resistance, Bacterial genetics, Genes, Bacterial, Salmonella enteritidis genetics, Salmonella typhimurium genetics

Abstract

In this study we characterized aro mutants of Salmonella enterica serovars Enteritidis and Typhimurium, which are frequently used as live oral vaccines. We found that the aroA, aroD, and aroC mutants were sensitive to blood serum, albumen, EDTA, and ovotransferrin, and this defect could be complemented by an appropriate aro gene cloned in a plasmid. Subsequent microarray analysis of gene expression in the aroD mutant in serovar Typhimurium indicated that the reason for this sensitivity might be the upregulation of murA. To confirm this, we artificially overexpressed murA from a multicopy plasmid, and this overexpression caused sensitivity of the strain to albumen and EDTA but not to serum and ovotransferrin. We concluded that attenuation of aro mutants is caused not only by their inability to synthesize aromatic metabolites but also by their defect in cell wall and outer membrane functions associated with decreased resistance to components of innate immune response.

Published

2008