Your search keyword '"Pierlé, Sebastián Aguilar"' showing total 9 results

1. An innovative approach for low input forensic DNA sample analysis using the GlobalFiler™ IQC PCR amplification Kit on the Magelia® platform

Author

Larnane, Amel, Pierlé, Sebastian Aguilar, Letexier, Mélanie, Gibert, Josephine, Soucies, Camille, Santucci, Joseph, Ghosh, Deepanjan, Hubac, Sylvain, Hermitte, Francis, and Deleuze, Jean-François

Published

2024

2. Proteomics informed by transcriptomics identifies novel secreted proteins in Dermacentor andersoni saliva.

Author

Mudenda, Lwiindi, Pierlé, Sebastián Aguilar, Turse, Joshua E., Scoles, Glen A., Purvine, Samuel O., Nicora, Carrie D., Clauss, Therese R.W., Ueti, Massaro W., Brown, Wendy C., and Brayton, Kelly A.

Subjects

*PROTEOMICS, *DERMACENTOR, *SALIVARY proteins, *IXODIDAE, *TRANSMISSION of pathogenic microorganisms, *PUBLIC health

Abstract

Dermacentor andersoni , known as the Rocky Mountain wood tick, is found in the western United States and transmits pathogens that cause diseases of veterinary and public health importance including Rocky Mountain spotted fever, tularemia, Colorado tick fever and bovine anaplasmosis. Tick saliva is known to modulate both innate and acquired immune responses, enabling ticks to feed for several days without detection. During feeding ticks subvert host defences such as hemostasis and inflammation, which would otherwise result in coagulation, wound repair and rejection of the tick. Molecular characterization of the proteins and pharmacological molecules secreted in tick saliva offers an opportunity to develop tick vaccines as an alternative to the use of acaricides, as well as new anti-inflammatory drugs. We performed proteomics informed by transcriptomics to identify D. andersoni saliva proteins that are secreted during feeding. The transcript data generated a database of 21,797 consensus sequences, which we used to identify 677 proteins secreted in the saliva of D. andersoni ticks fed for 2 and 5 days, following proteomic investigations of whole saliva using mass spectrometry. Salivary gland transcript levels of unfed ticks were compared with 2 and 5 day fed ticks to identify genes upregulated early during tick feeding. We cross-referenced the proteomic data with the transcriptomic data to identify 157 proteins of interest for immunomodulation and blood feeding. Proteins of unknown function as well as known immunomodulators were identified. [ABSTRACT FROM AUTHOR]

Published

2014

3. Global transcriptional analysis reveals surface remodeling of Anaplasma marginale in the tick vector.

Author

Hammac, G. Kenitra, Pierlé, Sebastián Aguilar, Xiaoya Cheng, Scoles, Glen A., and Brayton, Kelly A.

Abstract

Background: Pathogens dependent upon vectors for transmission to new hosts undergo environment specific changes in gene transcription dependent on whether they are replicating in the vector or the mammalian host. Differential gene transcription, especially of potential vaccine candidates, is of interest in Anaplasma marginale, the tick-borne causative agent of bovine anaplasmosis. Methods: RNA-seq technology allowed a comprehensive analysis of the transcriptional status of A. marginale genes in two conditions: bovine host blood and tick derived cell culture, a model for the tick vector. Quantitative PCR was used to assess transcription of a set of genes in A. marginale infected tick midguts and salivary glands at two time points during the transmission cycle. Results: Genes belonging to fourteen pathways or component groups were found to be differentially transcribed in A. marginale in the bovine host versus the tick vector. One of the most significantly altered groups was composed of surface proteins. Of the 56 genes included in the surface protein group, eight were up regulated and 26 were down regulated. The down regulated surface protein encoding genes include several that are well studied due to their immunogenicity and function. Quantitative PCR of a set of genes demonstrated that transcription in tick cell culture most closely approximates transcription in salivary glands of recently infected ticks. Conclusions: The ISE6 tick cell culture line is an acceptable model for early infection in tick salivary glands, and reveals disproportionate down regulation of surface protein genes in the tick. Transcriptional profiling in other cell lines may help us simulate additional microenvironments. Understanding vector-specific alteration of gene transcription, especially of surface protein encoding genes, may aid in the development of vaccines or transmission blocking therapies. [ABSTRACT FROM AUTHOR]

Published

2014

4. Transcriptional pathways associated with the slow growth phenotype of transformed Anaplasma marginale.

Author

Pierlé, Sebastián Aguilar, Hammac, Gena Kenitra, Palmer, Guy H., and Brayton, Kelly A.

Subjects

*ANAPLASMA marginale, *PHENOTYPES, *PATHOGENIC microorganisms, *ANTIBIOTICS, *GENOMES, *NUCLEOTIDE sequence, *BIOSYNTHESIS

Abstract

Background: The ability to genetically manipulate bacteria has been fundamentally important for both basic biological discovery and translational research to develop new vaccines and antibiotics. Experimental alteration of the genetic content of prokaryotic pathogens has revealed both expected functional relationships and unexpected phenotypic consequences. Slow growth phenotypes have been reported for multiple transformed bacterial species, including extracellular and intracellular pathogens. Understanding the genes and pathways responsible for the slow growth phenotype provides the opportunity to develop attenuated vaccines as well as bacteriostatic antibiotics. Transformed Anaplasma marginale, a rickettsial pathogen, exhibits slow growth in vitro and in vivo as compared to the parent wild type strain, providing the opportunity to identify the underlying genes and pathways associated with this phenotype. Results: Whole genome transcriptional profiling allowed for identification of specific genes and pathways altered in transformed A. marginale. Genes found immediately upstream and downstream of the insertion site, including a four gene operon encoding key outer membrane proteins, were not differentially transcribed between wild type and transformed A. marginale. This lack of significant difference in transcription of flanking genes and the large size of the insert relative to the genome were consistent with a trans rather than a cis effect. Transcriptional profiling across the complete genome identified the most differentially transcribed genes, including an iron transporter, an RNA cleaving enzyme and several genes involved in translation. In order to confirm the trend seen in translationrelated genes, K-means clustering and Gene Set Enrichment Analysis (GSEA) were applied. These algorithms allowed evaluation of the behavior of genes as groups that share transcriptional status or biological function. Clustering and GSEA confirmed the initial observations and found additional pathways altered in transformed A. marginale. Three pathways were significantly altered as compared to the wild type: translation, translation elongation, and purine biosynthesis. Conclusions: Identification of perturbed genes and networks through genome wide transcriptional profiling highlights the relevance of pathways such as nucleotide biosynthesis, translation, and translation elongation in the growth phenotype of obligate intracellular bacteria. These genes and pathways provide specific targets for development of slow growing attenuated vaccines and for bacteriostatic antibiotics. [ABSTRACT FROM AUTHOR]

Published

2013

5. Novel Waddlia Intracellular Bacterium in Artibeus intermedius Fruit Bats, Mexico.

Author

Pierlé, Sebastián Aguila, Morales, Cirani Obregó, Martínez, Leonardo Pere, Ceballos, Nidia Aréchig, Rivero, Juan José Pérez, Díaz, Osvaldo Lópe, Brayton, Kelly A, Setién, Alvaro Aguila, Pierlé, Sebastián Aguilar, Morales, Cirani Obregón, Martínez, Leonardo Perea, Ceballos, Nidia Aréchiga, Díaz, Osvaldo López, and Setién, Alvaro Aguilar

Subjects

BACTERIAL diseases, ARTIBEUS, MYCOSES, CLADISTIC analysis, DISEASES, DIAGNOSIS of bacterial diseases, ANIMALS, BATS, CHLAMYDIALES, BIOLOGICAL evolution

Abstract

An intracellular bacterium was isolated from fruit bats (Artibeus intermedius) in Cocoyoc, Mexico. The bacterium caused severe lesions in the lungs and spleens of bats and intracytoplasmic vacuoles in cell cultures. Sequence analyses showed it is related to Waddlia spp. (order Chlamydiales). We propose to call this bacterium Waddlia cocoyoc. [ABSTRACT FROM AUTHOR]

Published

2015

6. Genome Sequence of Bibersteinia trehalosi Strain Y31 Isolated from the Pneumonic Lung of a Bighorn Sheep.

Author

Kugadas A, Humann JL, Pierlé SA, Srikumaran S, and Brayton KA

Abstract

Here, we report the genome sequence for Bibersteinia trehalosi strain Y31, isolated from the lungs of a bighorn sheep (Ovis canadensis) that had succumbed to pneumonia, which exhibits proximity-dependent inhibition (PDI) of Mannheimia haemolytica The sequence will be used to understand the mechanism of PDI for these organisms., (Copyright © 2016 Kugadas et al.)

Published

2016

7. Transcriptomic Determinants of Scrapie Prion Propagation in Cultured Ovine Microglia.

Author

Muñoz-Gutiérrez JF, Pierlé SA, Schneider DA, Baszler TV, and Stanton JB

Subjects

Animals, Cells, Cultured, Genetic Predisposition to Disease, Scrapie metabolism, Sheep, Microglia metabolism, PrPSc Proteins genetics, Scrapie genetics, Transcriptome

Abstract

Susceptibility to infection by prions is highly dependent on the amino acid sequence and host expression of the cellular prion protein (PrPC); however, cellular expression of a genetically susceptible PrPC is insufficient. As an example, it has been shown in cultured cells that permissive and resistant sublines derived from the same parental population often have similar expression levels of PrPC. Thus, additional cellular factors must influence susceptibility to prion infection. The aim of this study was to elucidate the factors associated with relative permissiveness and resistance to scrapie prions in cultured cells derived from a naturally affected species. Two closely related ovine microglia clones with different prion susceptibility, but no detectable differences in PrPC expression levels, were inoculated with either scrapie-positive or scrapie-negative sheep brainstem homogenates. Five passages post-inoculation, the transcriptional profiles of mock and infected clones were sequenced using Illumina technology. Comparative transcriptional analyses identified twenty-two differentially transcribed genes, most of which were upregulated in poorly permissive microglia. This included genes encoding for selenoprotein P, endolysosomal proteases, and proteins involved in extracellular matrix remodeling. Furthermore, in highly permissive microglia, transforming growth factor β-induced, retinoic acid receptor response 1, and phosphoserine aminotranspherase 1 gene transcripts were upregulated. Gene Set Enrichment Analysis identified proteolysis, translation, and mitosis as the most affected pathways and supported the upregulation trend of several genes encoding for intracellular proteases and ribosomal proteins in poorly permissive microglia. This study identifies new genes potentially involved in scrapie prion propagation, corroborates results from other studies, and extends those results into another cell culture model.

Published

2016

8. Genetic Diversity of Tick-Borne Rickettsial Pathogens; Insights Gained from Distant Strains.

Author

Pierlé SA, Rosshandler II, Kerudin AA, Sambono J, Lew-Tabor A, Rolls P, Rangel-Escareño C, and Brayton KA

Abstract

The ability to capture genetic variation with unprecedented resolution improves our understanding of bacterial populations and their ability to cause disease. The goal of the pathogenomics era is to define genetic diversity that results in disease. Despite the economic losses caused by vector-borne bacteria in the Order Rickettsiales, little is known about the genetic variants responsible for observed phenotypes. The tick-transmitted rickettsial pathogen Anaplasma marginale infects cattle in tropical and subtropical regions worldwide, including Australia. Genomic analysis of North American A. marginale strains reveals a closed core genome defined by high levels of Single Nucleotide Polymorphisms (SNPs). Here we report the first genome sequences and comparative analysis for Australian strains that differ in virulence and transmissibility. A list of genetic differences that segregate with phenotype was evaluated for the ability to distinguish the attenuated strain from virulent field strains. Phylogenetic analyses of the Australian strains revealed a marked evolutionary distance from all previously sequenced strains. SNP analysis showed a strikingly reduced genetic diversity between these strains, with the smallest number of SNPs detected between any two A. marginale strains. The low diversity between these phenotypically distinct bacteria presents a unique opportunity to identify the genetic determinants of virulence and transmission.

Published

2014

9. Comparative genomics and transcriptomics of trait-gene association.

Author

Pierlé SA, Dark MJ, Dahmen D, Palmer GH, and Brayton KA

Subjects

Base Sequence, Chromosome Mapping, Computational Biology, Genes, Bacterial genetics, Genetic Association Studies, High-Throughput Nucleotide Sequencing, Molecular Sequence Data, Polymorphism, Single Nucleotide genetics, Reverse Transcriptase Polymerase Chain Reaction, Species Specificity, Anaplasma marginale genetics, Gene Expression Profiling methods, Genomics methods, Phenotype

Abstract

Background: The Order Rickettsiales includes important tick-borne pathogens, from Rickettsia rickettsii, which causes Rocky Mountain spotted fever, to Anaplasma marginale, the most prevalent vector-borne pathogen of cattle. Although most pathogens in this Order are transmitted by arthropod vectors, little is known about the microbial determinants of transmission. A. marginale provides unique tools for studying the determinants of transmission, with multiple strain sequences available that display distinct and reproducible transmission phenotypes. The closed core A. marginale genome suggests that any phenotypic differences are due to single nucleotide polymorphisms (SNPs). We combined DNA/RNA comparative genomic approaches using strains with different tick transmission phenotypes and identified genes that segregate with transmissibility., Results: Comparison of seven strains with different transmission phenotypes generated a list of SNPs affecting 18 genes and nine promoters. Transcriptional analysis found two candidate genes downstream from promoter SNPs that were differentially transcribed. To corroborate the comparative genomics approach we used three RNA-seq platforms to analyze the transcriptomes from two A. marginale strains with different transmission phenotypes. RNA-seq analysis confirmed the comparative genomics data and found 10 additional genes whose transcription between strains with distinct transmission efficiencies was significantly different. Six regions of the genome that contained no annotation were found to be transcriptionally active, and two of these newly identified transcripts were differentially transcribed., Conclusions: This approach identified 30 genes and two novel transcripts potentially involved in tick transmission. We describe the transcriptome of an obligate intracellular bacterium in depth, while employing massive parallel sequencing to dissect an important trait in bacterial pathogenesis.

Published

2012