8 results on '"Paulina, Pacha"'
Search Results
2. Molecular diversity of Staphylococcus aureus and the role of milking equipment adherences or biofilm as a source for bulk tank milk contamination
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M.A. Munoz, Paulina Pacha, Alejandra Andrea Latorre, Helia Bello-Toledo, Alejandro Aguayo-Reyes, Mario Quezada-Aguiluz, Gerardo González-Rocha, and I. San Martín
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Staphylococcus aureus ,Veterinary medicine ,Cattle Diseases ,Virulence ,Biology ,medicine.disease_cause ,Milking ,03 medical and health sciences ,fluids and secretions ,Genetics ,medicine ,Animals ,Bulk tank ,Potential source ,Chile ,Mastitis, Bovine ,030304 developmental biology ,0303 health sciences ,Dairy herds ,0402 animal and dairy science ,Biofilm ,food and beverages ,04 agricultural and veterinary sciences ,Staphylococcal Infections ,Contamination ,040201 dairy & animal science ,Dairying ,Milk ,Biofilms ,Cattle ,Female ,Animal Science and Zoology ,Food Science - Abstract
Staphylococcus aureus is one of the most frequent pathogens causing intramammary infections in dairy herds. Consequently, virulence factors, pathobiology, and epidemiology of Staphylococcus aureus strains have been widely assessed through the years. Nevertheless, not much has been described about the epidemiology of Staph. aureus strains from bulk tank milk (BTM) and adherences on milking equipment (AMES), even when these strains may play a role in the quality of milk that is intended for human consumption. The objective of this study was to assess the strain diversity of 166 Staph. aureus isolates collected from 3 consecutive BTM samples, and from AMES in contact with milk from 23 Chilean dairy farms. Isolates were analyzed and typed using pulsed-field gel electrophoresis. Diversity of strains, both within and among farms, was assessed using Simpson's index of diversity (SID). On farms where Staph. aureus was isolated from both AMES and BTM (n = 8), pulsotypes were further analyzed to evaluate the role of AMES as a potential source of Staph. aureus strains in BTM. Among all Staph. aureus analyzed by pulsed-field gel electrophoresis, a total of 42 pulsotypes (19 main pulsotypes and 23 subtypes) were identified. Among dairy farms, strain diversity was highly heterogeneous (SID = 0.99). Within dairy farms, Staph. aureus strain diversity was variable (SID = 0 to 1), and 18 dairy operations (81.8%) had one pulsotype that was shared between at least 2 successive BTM samples. In those farms where Staph. aureus was isolated in both AMES and BTM (n = 8), 7 (87.5%) showed a clonal distribution of Staph. aureus strains between these 2 types of samples. The overlapping of certain Staph. aureus strains among dairy farms may point out common sources of Staph. aureus among otherwise epidemiologically unrelated farms. Indistinguishable Staph. aureus strains between AMES and BTM across dairy farms suggest that Staph. aureus-containing AMES may represent a source for BTM contamination, thus affecting milk quality. Our study highlights the role of viable Staph. aureus in AMES as a source for BTM contamination on dairy farms, and also describes the overlapping and presence of specific BTM and AMES pulsotypes among farms.
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- 2021
3. Short communication: Virulence profiles of Staphylococcus aureus isolated from bulk tank milk and adherences on milking equipment on Chilean dairy farms
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E. Paredes-Osses, Paulina Pacha, Alejandra Andrea Latorre, and M.A. Munoz
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Coagulase ,Staphylococcus aureus ,Farms ,Virulence Factors ,Virulence ,Enterotoxin ,Biology ,medicine.disease_cause ,Virulence factor ,Microbiology ,Enterotoxins ,Mammary Glands, Animal ,fluids and secretions ,Antibiotic resistance ,Genetics ,medicine ,Animals ,Micrococcal Nuclease ,Bulk tank ,Chile ,Mastitis, Bovine ,Pathogen ,food and beverages ,Staphylococcal Infections ,Dairying ,Milk ,Biofilms ,Cattle ,Female ,Animal Science and Zoology ,Food Science - Abstract
Staphylococcus aureus is an important intramammary pathogen for dairy cows that also is remarkably important for public health. Multiple virulence factors can be involved simultaneously during the pathogenesis of a staphylococcal disease, including adhesion proteins, extracellular enzymes, and toxins. The main objective of this study was to assess virulence factors that are associated with cow intramammary infection (IMI) and of human health concern among Staph. aureus isolates obtained from bulk tank milk (BTM) and adherences on milking equipment surfaces. A total of 166 Staph. aureus isolates from 23 dairy farms were characterized according to their virulence profiles. For virulence factors of importance in IMI, the presence of the virulence markers thermonuclease (nuc) and coagulase (coa) and virulence genes such as fibronectin (fnbA) and intercellular adhesion (icaA, icaD) were assessed. For virulence factors of public health concern, presence of antimicrobial resistance (mecA and mecC) and enterotoxin (sea and seb) genes were analyzed. Among all Staph. aureus isolates, 5 virulence profiles were found; the profile nuc(+)coa(+)fnbA(+)icaA(+)icaD(+)mecA(-)mecC(-)sea(-)seb(-) was the most frequently observed (21 out of 23 dairy farms). No differences were found between the virulence profile frequencies of Staph. aureus from BTM and adherences on milking equipment surfaces. The virulence profiles most frequently observed included genes involved in the adherence and biofilm-forming ability of Staph. aureus, which could represent a potential advantage for the bacterium during the early stages of IMI colonization and for persistence on surfaces. Our results indicate a greater frequency of virulence factors of importance for IMI pathogenesis than virulence factors of public health concern, consistent with the dairy origin of isolates. The mecA, mecC, and seb genes were not observed among Staph. aureus isolates analyzed in this study. However, the sea gene was detected in 3 Staph. aureus isolated from BTM, thus posing a potential public health threat. Our results emphasize the importance of understanding the epidemiology and dynamics of Staph. aureus on dairy farms as a tool for the improvement of udder health and milk safety.
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- 2020
4. On-Farm Surfaces in Contact with Milk: The Role of Staphylococcus aureus-Containing Biofilms for Udder Health and Milk Quality
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Gerardo González-Rocha, Paulina Pacha, Alexis Estay, Ricardo Oliva, Iván San Martín, M.A. Munoz, Helia Bello-Toledo, Mario Quezada-Aguiluz, Alejandro Aguayo-Reyes, Julio Pugin, and Alejandra Andrea Latorre
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0303 health sciences ,Veterinary medicine ,Microbiological culture ,030306 microbiology ,040301 veterinary sciences ,food and beverages ,04 agricultural and veterinary sciences ,Biology ,biology.organism_classification ,medicine.disease_cause ,Applied Microbiology and Biotechnology ,Microbiology ,Milking ,0403 veterinary science ,03 medical and health sciences ,medicine.anatomical_structure ,Staphylococcus aureus ,medicine ,Pulsed-field gel electrophoresis ,Bulk tank ,Animal Science and Zoology ,Udder ,Somatic cell count ,Bacteria ,Food Science - Abstract
Staphylococcus aureus is a Gram-positive bacterium that causes intramammary infections and bulk tank milk (BTM) contamination in dairy operations around the world in spite of on-farm application of preventive measures. The study was conducted on a 30-cow dairy farm in the Nuble Region of Chile. For BTM culture and somatic cell count (SCC) analysis, three consecutive BTM samples were collected. Samples for bacterial culture (n = 16) were collected from macroscopic adherence on previously washed, sanitized, and dry milking equipment surfaces in direct contact with milk during milking or cooling. A total of 48 S. aureus isolates from BTM, milking equipment, and cows' quarters with intramammary infections were analyzed by pulsed-field gel electrophoresis (PFGE). Selected milking equipment pieces were removed for biofilm visualization using scanning electron microscopy (SEM). S. aureus was isolated from all three BTM samples; the average SCC for the three BTM samples was 1,429,333 cells/mL. Fourteen of the 16 samples of milking equipment (87.5%) were culture positive for S. aureus. Biofilms were visualized by SEM in all four removed milking equipment pieces. Microorganisms observed by SEM in those biofilms were mainly coccus-shaped bacteria, and microbiological culture of these biofilms yielded viable S. aureus isolates in all samples. All pulsotypes observed among S. aureus isolates from BTM were indistinguishable from those in milking equipment surfaces. All PFGE pulsotypes observed among S. aureus isolates from biofilms on rubber liners were indistinguishable from isolates from intramammary infections in cows. Our findings suggest that milking equipment films may act as source of S. aureus contamination for BTM and cows during milking, thus compromising the microbiological quality of milk used for manufacturing dairy products.
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- 2020
5. Endometritis and
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Evelyn, Lara, Alejandra, Velásquez, Joel, Cabezas, Nathaly, Rivera, Paulina, Pacha, Lleretny, Rodríguez-Alvarez, Fernando, Saravia, and Fidel Ovidio, Castro
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Research Article - Abstract
Mesenchymal stem cells (MSCs) were isolated and characterized from postpartum bovine endometrium of animals with subclinical (n = 5) and clinical endometritis (n = 3) and healthy puerperal females (n = 5). Cells isolated displayed mean morphological features of MSCs and underwent osteogenic, chondrogenic, and adipogenic differentiation after induction (healthy and subclinical). Cells from cows with clinical endometritis did not undergo adipogenic differentiation. All cells expressed mRNAs for selected MSC markers. Endometrial MSCs were challenged in vitro with PGE2 at concentrations of 0, 1, 3, and 10 μM, and their global transcriptomic profile was studied. Overall, 1127 genes were differentially expressed between unchallenged cells and cells treated with PGE2 at all concentrations (763 up- and 364 downregulated, fold change > 2, and P < 0.05). The pathways affected the most by the PGE2 challenge were immune response, angiogenesis, and cell proliferation. In conclusion, we demonstrated that healthy puerperal bovine endometrium contains MSCs and that endometritis modifies and limits some functional characteristics of these cells, such as their ability to proceed to adipogenic differentiation. Also, PGE2, an inflammatory mediator of endometritis, modifies the transcriptomic profile of endometrial MSCs. A similar situation may occur during inflammation associated with endometritis, therefore affecting the main properties of endometrial MSCs.
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- 2017
6. Endometritis and In Vitro PGE2 Challenge Modify Properties of Cattle Endometrial Mesenchymal Stem Cells and Their Transcriptomic Profile
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Fernando Saravia, Lleretny Rodriguez-Alvarez, Paulina Pacha, Fidel Ovidio Castro, Nathaly Rivera, Alejandra Velásquez, E Lara, and J. Cabezas
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0301 basic medicine ,medicine.medical_specialty ,lcsh:Internal medicine ,Article Subject ,Angiogenesis ,Inflammation ,Biology ,Endometrium ,Andrology ,Transcriptome ,03 medical and health sciences ,0302 clinical medicine ,Immune system ,Internal medicine ,medicine ,lcsh:RC31-1245 ,Molecular Biology ,030219 obstetrics & reproductive medicine ,Mesenchymal stem cell ,Cell Biology ,medicine.disease ,030104 developmental biology ,medicine.anatomical_structure ,Endocrinology ,Adipogenesis ,Endometritis ,medicine.symptom - Abstract
Mesenchymal stem cells (MSCs) were isolated and characterized from postpartum bovine endometrium of animals with subclinical (n=5) and clinical endometritis (n=3) and healthy puerperal females (n=5). Cells isolated displayed mean morphological features of MSCs and underwent osteogenic, chondrogenic, and adipogenic differentiation after induction (healthy and subclinical). Cells from cows with clinical endometritis did not undergo adipogenic differentiation. All cells expressed mRNAs for selected MSC markers. Endometrial MSCs were challenged in vitro with PGE2at concentrations of 0, 1, 3, and 10 μM, and their global transcriptomic profile was studied. Overall, 1127 genes were differentially expressed between unchallenged cells and cells treated with PGE2at all concentrations (763 up- and 364 downregulated, fold change > 2, andP<0.05). The pathways affected the most by the PGE2challenge were immune response, angiogenesis, and cell proliferation. In conclusion, we demonstrated that healthy puerperal bovine endometrium contains MSCs and that endometritis modifies and limits some functional characteristics of these cells, such as their ability to proceed to adipogenic differentiation. Also, PGE2, an inflammatory mediator of endometritis, modifies the transcriptomic profile of endometrial MSCs. A similar situation may occur during inflammation associated with endometritis, therefore affecting the main properties of endometrial MSCs.
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- 2017
7. The endometrium of cycling cows contains populations of putative mesenchymal progenitor cells
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Paulina Pacha, Lleretny Rodriguez-Alvarez, Fernando Saravia, J. Cabezas, D. Veraguas, Fidel Ovidio Castro, E Lara, and D. Rojas
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Homeobox protein NANOG ,medicine.medical_specialty ,Gene Expression ,Estrous Cycle ,Luteal phase ,Real-Time Polymerase Chain Reaction ,Andrology ,Endometrium ,Endocrinology ,SOX2 ,Internal medicine ,medicine ,Animals ,Progenitor cell ,reproductive and urinary physiology ,Cells, Cultured ,biology ,urogenital system ,SOXB1 Transcription Factors ,CD44 ,Mesenchymal stem cell ,Cell Differentiation ,Mesenchymal Stem Cells ,Embryonic stem cell ,Hyaluronan Receptors ,embryonic structures ,biology.protein ,Animal Science and Zoology ,Cattle ,Female ,Stem cell ,Octamer Transcription Factor-3 ,Biomarkers ,Biotechnology - Abstract
Contents Endometrial stem cells have been identified in humans, mice and pigs. This study was designed to determine whether the uterine endometrium of cycling cows contains such cells, to identify markers of stemness and ultimately to isolate putative stem/progenitor cell and evaluate their capability to differentiate into mesodermal derivatives. Uteri from healthy cows in the early (days 1–5) and late luteal phases (days 13–18) of the oestrous cycle were collected. Total RNA and proteins were isolated and searched for gene markers of embryonic (OCT4, NANOG, SOX2) and mesenchymal (CD44, STAT3, CD-117) stem cells and for protein markers (Oct4, Sox2, Cd44) in Western blots or immunostaining of paraffin-embedded tissue. Primary cell cultures were isolated; characterized in terms of morphology, colony formation and gene/protein expression; and induced osteogenic and chondrogenic differentiation. We identified expression of embryonic (OCT4 and SOX2, but not NANOG) and mesenchymal (STAT3, CD44 and c-KIT) gene markers in the endometrium of cycling cows and the encoded proteins (Oct4, Sox2 and Cd44) in both stages of the oestrous cycle. Derived cell lines displayed essentially the same gene expression pattern; however, at the protein level, Oct4 was not detected. No clear influence of the stage of the oestrous cycle was found. Cell lines from late luteal phase displayed osteogenic and chondrogenic differentiation potential upon chemical stimulation. In this research, we demonstrated the presence of mesenchymal progenitor cell populations of apparently mesenchymal origin in the endometrium of cycling cows, in both the early and late phases of the oestrous cycle. The cells isolated from the late luteal phase were more acquiescent to differentiate into mesodermal derivatives than cells in the early luteal phase. Our findings might have implications for the understanding of uterine stem cell biology in cows and other farm animal species.
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- 2013
8. 184 ISOLATION AND CHARACTERIZATION OF BOVINE ENDOMETRIAL STEM CELLS
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D. Veraguas, Fernando Saravia, J. Cabezas, E Lara, A. Torres, L. Rodriguez-Alvarez, Paulina Pacha, D. Rojas, and Fidel Ovidio Castro
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Homeobox protein NANOG ,biology ,CD44 ,Mesenchymal stem cell ,Stem cell marker ,medicine.disease ,Embryonic stem cell ,Andrology ,Endocrinology ,Reproductive Medicine ,SOX2 ,Immunology ,Genetics ,biology.protein ,medicine ,Animal Science and Zoology ,Endometritis ,Stem cell ,Molecular Biology ,Developmental Biology ,Biotechnology - Abstract
Adult mesenchymal stem cells had been isolated from various tissues of different species, including endometrial tissue of humans, mice, and pigs, but not from cattle. The aim of our work was to identify such cells in the bovine endometrium and to establish a model system in which to test inducers of differentiation and recruiters of stem cell niches, for potential therapeutic use in this and other species, such as horses. We searched for endometrial stem cells in healthy cycling cows and in cattle with clinical (C) or subclinical (SC) endometritis. For this, the uterine tracts of slaughtered cows were collected at early (Days 2 to 5; ELF) and late luteal phases (Days 11 to 15; LLF) of the oestrus cycle of healthy cows. For endometritis-diseased cattle, uterine biopsies were taken in live animals. In all cases, markers of stemness, inflammation, uterine function, and housekeeping were studied both at mRNA and protein level, by RT-qPCR and Western blot/immunohistochemistry respectively. In addition, cell primary cultures were established in vitro from all the animals (n = 4 for ELF, n = 4 for LLF; n = 4 for C and n = 4 for SC). We found that the endometrium of the majority of studied animals expressed embryonic stem cell markers, OCT4 and SOX2, but not or little NANOG, as well as CD44, c-Kit, and STAT3, all markers of mesenchymal stem cells. The expression profile of these markers was not related to the stage of the oestrus cycle; however there was a statistically significant reduction in the expression of embryonic stem cell markers in ill animals, being the lowest in clinically ill and intermediate in subclinical endometritis, (P
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- 2014
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