Your search keyword '"Sivasankaran, Sathesh K."' showing total 20 results

1. Conserved B cell signaling, activation, and differentiation in porcine jejunal and ileal Peyer’s patches despite distinct immune landscapes

Author

Wiarda, Jayne E., Shircliff, Adrienne L., Becker, Sage R., Stasko, Judith B., Sivasankaran, Sathesh K., Ackermann, Mark R., and Loving, Crystal L.

Published

2024

2. Date palm transcriptome analysis provides new insights on changes in response to high salt stress of colonized roots with the endophytic fungus Piriformospora indica.

Author

Ahmad, Manzoor, Aziz, Mughair Abdul, Sabeem, Miloofer, Kutty, M. Sangeeta, Sivasankaran, Sathesh K., Brini, Faical, Ting Ting Xiao, Blilou, Ikram, and Masmoudi, Khaled

Subjects

DATE palm, GENE expression, PRINCIPAL components analysis, ATP-binding cassette transporters, ABSCISIC acid

Abstract

Salinity is a significant threat that causes considerable yield losses in date palm. The root endophytic fungus Piriformospora indica has proven effective in providing salt stress tolerance to host plants. However, the underlying molecular mechanism facilitating the date palm's response to P. indica inoculation, and its involvement in the salt stress tolerance, remains unknown. In this study, the colonization of P. indica on date palm seedlings exposed to saline conditions was observed through confocal microscopy, and its impact on gene expressions was evaluated using the transcriptomic analysis. Our findings show that P. indica colonization reinforced the cortical cells, prevented them from plasmolysis and cell death under salinity. The RNAseq analysis produced clean reads ranging from 62,040,451 to 3,652,095 across the treatment groups, successfully assembling into 30,600 annotated genes. Out of them, the number of differentially expressed genes (DEGs) varied across the treatments: i.e., 2523, 2031, and 1936 DEGs were upregulated, while 2323, 959, and 3546 were downregulated in Salt, Fungi, and Fungi+Salt groups, respectively. Furthermore, principal component analysis based on transcriptome profiles revealed discrete clustering of samples from different treatment groups. KEGG and GO pathways enrichment analysis highlighted variation in the number and types of enriched pathways among the treatments. Our study indicated variations in gene expression related to plant hormone biosynthesis and signal transduction (auxin, abscisic acid, gibberellin, and ethylene), ABC transporters, sodium/hydrogen exchanger, cation HKT transporter, transcription factors such as WRKY and MYBs, and the plant immune system (lipoxygenase and jasmonate) of the date palm seedlings. By characterizing the transcriptome of date palm roots under salt stress and with colonization of P. indica, the present findings provide valuable perspectives on the molecular mechanisms responsible for inducing salinity stress tolerance in plants. [ABSTRACT FROM AUTHOR]

Published

2024

3. Genomic and phenotypic characterization of multidrug-resistant Salmonella enterica serovar Reading isolates involved in a turkey-associated foodborne outbreak.

Author

Sivasankaran, Sathesh K., Bearson, Bradley L., Trachsel, Julian M., Nielsen, Daniel W., Looft, Torey, and Bearson, Shawn M. D.

Subjects

SALMONELLA enterica, WHOLE genome sequencing, BACTERIAL colonies, PHENOTYPES, FOODBORNE diseases, FOOD contamination

Abstract

Salmonella is a global bacterial foodborne pathogen associated with a variety of contaminated food products. Poultry products are a common source of Salmonella-associated foodborne illness, and an estimated 7% of human illnesses in the United States are attributed to turkey products. From November 2017 to March 2019, the Centers for Disease Control and Prevention reported a turkey-associated outbreak of multidrug-resistant (MDR; resistant to ≥3 antimicrobial classes) Salmonella enterica serovar Reading (S. Reading) linked to 358 human infections in 42 US states and Canada. Since S. Reading was seldom linked to human illness prior to this outbreak, the current study compared genomic sequences of S. Reading isolates prior to the outbreak (pre-outbreak) to isolates identified during the outbreak period, focusing on genes that were different between the two groups but common within a group. Following whole-genome sequence analysis of five pre-outbreak and five outbreak-associated turkey/turkey product isolates of S. Reading, 37 genes located within two distinct chromosomal regions were identified only in the pre-outbreak isolates: (1) an ~5 kb region containing four protein-coding genes including uidA which encodes beta-glucuronidase, pgdA encoding peptidoglycan deacetylase, and two hypothetical proteins and (2) an ~28 kb region comprised of 32 phage-like genes and the xerC gene, which encodes tyrosine recombinase (frequently associated with phage genes). The five outbreak isolates also had a deletional event within the cirA gene, introducing a translational frame shift and premature stop codon. The cirA gene encodes a protein with dual receptor functions: a siderophore receptor for transport of dihydroxybenzoylserine as well as a colicin Ia/b receptor. Significant differences for the identified genetic variations were also detected in 75 S. Reading human isolates. Of the 41 S. Reading isolates collected before or in 2017, 81 and 90% of the isolates contained the uidA and pgdA genes, respectively, but only 24% of the isolates collected after 2017 harbored the uidA and pgdA genes. The truncation event within the cirA gene was also significantly higher in isolates collected after 2017 (74%) compared to before or in 2017 (5%). Phenotypic analysis of the S. Reading isolates for colicin and cefiderocol sensitivities (CirA) and β-methyl-D-glucuronic acid utilization (UidA and accessory proteins) supported the genomic data. Overall, a similar genome reduction pattern was generally observed in both the turkey and human isolates of S. Reading during the outbreak period, and the genetic differences were present in genes that could potentially promote pathogen dissemination due to variation in Salmonella colonization, fitness, and/or virulence. [ABSTRACT FROM AUTHOR]

Published

2024

4. The transcriptional landscape and small RNAs of Salmonella enterica serovar Typhimurium

Author

Kröger, Carsten, Dillon, Shane C., Cameron, Andrew D. S., Papenfort, Kai, Sivasankaran, Sathesh K., Hokamp, Karsten, Chao, Yanjie, Sittka, Alexandra, Hébrard, Magali, Händler, Kristian, Colgan, Aoife, Leekitcharoenphon, Pimlapas, Langridge, Gemma C., Lohan, Amanda J., Loftus, Brendan, Lucchini, Sacha, Ussery, David W., Dorman, Charles J., Thomson, Nicholas R., Vogel, Jörg, and Hinton, Jay C. D.

Published

2012

5. Regional epithelial cell diversity in the small intestine of pigs.

Author

Wiarda, Jayne E, Becker, Sage R, Sivasankaran, Sathesh K, and Loving, Crystal L

Subjects

EPITHELIAL cells, GENE expression, SMALL intestine, RNA analysis, ENTEROCYTES, RNA sequencing

Abstract

Understanding regional distribution and specialization of small intestinal epithelial cells is crucial for developing methods to control appetite, stress, and nutrient uptake in swine. To establish a better understanding of specific epithelial cells found across different regions of the small intestine in pigs, we utilized single-cell RNA sequencing (scRNA-seq) to recover and analyze epithelial cells from duodenum, jejunum, and ileum. Cells identified included crypt cells, enterocytes, BEST4 enterocytes, goblet cells, and enteroendocrine (EE) cells. EE cells were divided into two subsets based on the level of expression of the EE lineage commitment gene, NEUROD1. NEUROD1 hi EE cells had minimal expression of hormone-encoding genes and were dissimilar to EE cells in humans and mice, indicating a subset of EE cells unique to pigs. Recently discovered BEST4 enterocytes were detected in both crypts and villi throughout the small intestine via in situ staining, unlike in humans, where BEST4 enterocytes are found only in small intestinal villi. Proximal-to-distal gradients of expression were noted for hormone-encoding genes in EE cells and nutrient transport genes in enterocytes via scRNA-seq, demonstrating regional specialization. Regional gene expression in EE cells and enterocytes was validated via quantitative PCR (qPCR) analysis of RNA isolated from epithelial cells of different small intestinal locations. Though many genes had similar patterns of regional expression when assessed by qPCR of total epithelial cells, some regional expression was only detected via scRNA-seq, highlighting advantages of scRNA-seq to deconvolute cell type-specific regional gene expression when compared to analysis of bulk samples. Overall, results provide new information on regional localization and transcriptional profiles of epithelial cells in the pig small intestine. [ABSTRACT FROM AUTHOR]

Published

2023

6. Intestinal single-cell atlas reveals novel lymphocytes in pigs with similarities to human cells.

Author

Wiarda, Jayne E., Trachsel, Julian M., Sivasankaran, Sathesh K., Tuggle, Christopher K., and Loving, Crystal L.

Published

2022

7. 16S rRNA Based Profiling of Bacterial Communities Colonizing Bakery-Production Environments.

Author

Muthappa, Dechamma Mundanda, Lamba, Sakshi, Sivasankaran, Sathesh K., Naithani, Ankita, Rogers, Noel, Srikumar, Shabarinath, Macori, Guerrino, Scannell, Amalia G.M., and Fanning, Séamus

Published

2022

8. Does Silver in Different Forms Affect Bacterial Susceptibility and Resistance? A Mechanistic Perspective.

Author

Pareek, Vikram, Gupta, Rinki, Devineau, Stéphanie, Sivasankaran, Sathesh K., Bhargava, Arpit, Khan, Mohd. Azeem, Srikumar, Shabrinath, Fanning, Séamus, and Panwar, Jitendra

Published

2022

9. Reference Transcriptomes of Porcine Peripheral Immune Cells Created Through Bulk and Single-Cell RNA Sequencing.

Author

Herrera-Uribe, Juber, Wiarda, Jayne E., Sivasankaran, Sathesh K., Daharsh, Lance, Liu, Haibo, Byrne, Kristen A., Smith, Timothy P. L., Lunney, Joan K., Loving, Crystal L., and Tuggle, Christopher K.

Subjects

MONONUCLEAR leukocytes, RNA sequencing, TRANSCRIPTOMES, KILLER cells, CELL populations, GENE expression

Abstract

Pigs are a valuable human biomedical model and an important protein source supporting global food security. The transcriptomes of peripheral blood immune cells in pigs were defined at the bulk cell-type and single cell levels. First, eight cell types were isolated in bulk from peripheral blood mononuclear cells (PBMCs) by cell sorting, representing Myeloid, NK cells and specific populations of T and B-cells. Transcriptomes for each bulk population of cells were generated by RNA-seq with 10,974 expressed genes detected. Pairwise comparisons between cell types revealed specific expression, while enrichment analysis identified 1,885 to 3,591 significantly enriched genes across all 8 cell types. Gene Ontology analysis for the top 25% of significantly enriched genes (SEG) showed high enrichment of biological processes related to the nature of each cell type. Comparison of gene expression indicated highly significant correlations between pig cells and corresponding human PBMC bulk RNA-seq data available in Haemopedia. Second, higher resolution of distinct cell populations was obtained by single-cell RNA-sequencing (scRNA-seq) of PBMC. Seven PBMC samples were partitioned and sequenced that produced 28,810 single cell transcriptomes distributed across 36 clusters and classified into 13 general cell types including plasmacytoid dendritic cells (DC), conventional DCs, monocytes, B-cell, conventional CD4 and CD8 αβ T-cells, NK cells, and γδ T-cells. Signature gene sets from the human Haemopedia data were assessed for relative enrichment in genes expressed in pig cells and integration of pig scRNA-seq with a public human scRNA-seq dataset provided further validation for similarity between human and pig data. The sorted porcine bulk RNAseq dataset informed classification of scRNA-seq PBMC populations; specifically, an integration of the datasets showed that the pig bulk RNAseq data helped define the CD4CD8 double-positive T-cell populations in the scRNA-seq data. Overall, the data provides deep and well-validated transcriptomic data from sorted PBMC populations and the first single-cell transcriptomic data for porcine PBMCs. This resource will be invaluable for annotation of pig genes controlling immunogenetic traits as part of the porcine Functional Annotation of Animal Genomes (FAANG) project, as well as further study of, and development of new reagents for, porcine immunology. [ABSTRACT FROM AUTHOR]

Published

2021

10. Distinct transcriptional profiles of Leptospira borgpetersenii serovar Hardjo strains JB197 and HB203 cultured at different temperatures.

Author

Putz, Ellie J., Sivasankaran, Sathesh K., Fernandes, Luis G. V., Brunelle, Brian, Lippolis, John D., Alt, David P., Bayles, Darrell O., Hornsby, Richard L., and Nally, Jarlath E.

Subjects

*LEPTOSPIRA interrogans, *LEPTOSPIRA, *SYMPTOMS, *GENE expression profiling, *GENES, *SPECIES specificity

Abstract

Background: Leptospirosis is a zoonotic, bacterial disease, posing significant health risks to humans, livestock, and companion animals around the world. Symptoms range from asymptomatic to multi-organ failure in severe cases. Complex species-specific interactions exist between animal hosts and the infecting species, serovar, and strain of pathogen. Leptospira borgpetersenii serovar Hardjo strains HB203 and JB197 have a high level of genetic homology but cause different clinical presentation in the hamster model of infection; HB203 colonizes the kidney and presents with chronic shedding while JB197 causes severe organ failure and mortality. This study examines the transcriptome of L. borgpetersenii and characterizes differential gene expression profiles of strains HB203 and JB197 cultured at temperatures during routine laboratory conditions (29°C) and encountered during host infection (37°C). Methodology/Principal findings: L. borgpetersenii serovar Hardjo strains JB197 and HB203 were isolated from the kidneys of experimentally infected hamsters and maintained at 29°C and 37°C. RNAseq revealed distinct gene expression profiles; 440 genes were differentially expressed (DE) between JB197 and HB203 at 29°C, and 179 genes were DE between strains at 37°C. Comparison of JB197 cultured at 29°C and 37°C identified 135 DE genes while 41 genes were DE in HB203 with those same culture conditions. The consistent DE of ligB, which encodes the outer membrane virulence factor LigB, was validated by immunoblotting and 2D-DIGE. Differential expression of lipopolysaccharide was also observed between JB197 and HB203. Conclusions/Significance: Investigation of the L. borgpetersenii JB197 and HB203 transcriptome provides unique insight into the mechanistic differences between acute and chronic disease. Characterizing the nuances of strain to strain differences and investigating the environmental sensitivity of Leptospira to temperature is critical to the development and progress of leptospirosis prevention and treatment technologies, and is an important consideration when serovars are selected and propagated for use as bacterin vaccines as well as for the identification of novel therapeutic targets. Author summary: Leptospirosis is a global zoonotic, neglected tropical disease. Interestingly, a high level of species specificity (both bacteria and host) plays a major role in the severity of disease presentation which can vary from asymptomatic to multi-organ failure. Pathogenic Leptospira colonize the kidneys of infected individuals and are shed in urine into the environment where they can survive until they are contracted by another host. This study looks at two strains of L. borgpetersenii, HB203 and JB197 which are genetically very similar, and identical by serotyping as serovar Hardjo, yet HB203 causes a chronic infection in the hamster while JB197 causes organ failure and mortality. To better characterize bacterial factors causing different disease outcomes, we examined the gene expression profile of these strains in the context of temperatures that would reflect natural Leptospira life cycles (environmentally similar 29°C and 37°C which is more indicative of host environment). We found vast differences in gene expression both between the strains and within strains between temperatures. Characterization of the transcriptome of L. borgpetersenii serovar Hardjo strains JB197 and HB203 provides insights into factors that can determine acute versus chronic disease in the hamster model of infection. Additionally, these studies highlight strain to strain variability within the same species, and serovar, at different growth temperatures, which needs to be considered when serovars are selected and propagated for use as bacterin vaccines used to immunize domestic animal species. [ABSTRACT FROM AUTHOR]

Published

2021

11. Silver Nanoparticles Induce a Triclosan-Like Antibacterial Action Mechanism in Multi-Drug Resistant Klebsiella pneumoniae.

Author

Pareek, Vikram, Devineau, Stéphanie, Sivasankaran, Sathesh K., Bhargava, Arpit, Panwar, Jitendra, Srikumar, Shabarinath, and Fanning, Séamus

Subjects

TRICLOSAN, SILVER nanoparticles, ANTIBACTERIAL agents, KLEBSIELLA pneumoniae, RNA sequencing, FOURIER transform infrared spectroscopy, ZETA potential

Abstract

Infections associated with antimicrobial-resistant bacteria now represent a significant threat to human health using conventional therapy, necessitating the development of alternate and more effective antibacterial compounds. Silver nanoparticles (Ag NPs) have been proposed as potential antimicrobial agents to combat infections. A complete understanding of their antimicrobial activity is required before these molecules can be used in therapy. Lysozyme coated Ag NPs were synthesized and characterized by TEM-EDS, XRD, UV-vis, FTIR spectroscopy, zeta potential, and oxidative potential assay. Biochemical assays and deep level transcriptional analysis using RNA sequencing were used to decipher how Ag NPs exert their antibacterial action against multi-drug resistant Klebsiella pneumoniae MGH78578. RNAseq data revealed that Ag NPs induced a triclosan-like bactericidal mechanism responsible for the inhibition of the type II fatty acid biosynthesis. Additionally, released Ag+ generated oxidative stress both extra- and intracellularly in K. pneumoniae. The data showed that triclosan-like activity and oxidative stress cumulatively underpinned the antibacterial activity of Ag NPs. This result was confirmed by the analysis of the bactericidal effect of Ag NPs against the isogenic K. pneumoniae MGH78578 Δ soxS mutant, which exhibits a compromised oxidative stress response compared to the wild type. Silver nanoparticles induce a triclosan-like antibacterial action mechanism in multi-drug resistant K. pneumoniae. This study extends our understanding of anti- Klebsiella mechanisms associated with exposure to Ag NPs. This allowed us to model how bacteria might develop resistance against silver nanoparticles, should the latter be used in therapy. [ABSTRACT FROM AUTHOR]

Published

2021

12. Immune and Inflammatory Pathways Implicated by Whole Blood Transcriptomic Analysis in a Diverse Ancestry Alzheimer's Disease Cohort.

Author

Griswold, Anthony J., Sivasankaran, Sathesh K., Van Booven, Derek, Gardner, Olivia K., Rajabli, Farid, Whitehead, Patrice L., Hamilton-Nelson, Kara L., Adams, Larry D., Scott, Aja M., Hofmann, Natalia K., Vance, Jeffery M., Cuccaro, Michael L., Bush, William S., Martin, Eden R., Byrd, Goldie S., Haines, Jonathan L., Pericak-Vance, Margaret A., and Beecham, Gary W.

Subjects

*BLOOD testing, *ALZHEIMER'S disease, *APOLIPOPROTEIN E4, *NUCLEOTIDE sequence, *GENEALOGY, *GENE expression profiling, *BIOCHEMISTRY, *SEQUENCE analysis, *CASE-control method, *PHENOMENOLOGY, *CELLULAR signal transduction, *RESEARCH funding, BRAIN metabolism

Abstract

Background: Significant work has identified genetic variants conferring risk and protection for Alzheimer's disease (AD), but functional effects of these variants is lacking, particularly in under-represented ancestral populations. Expression studies performed in easily accessible tissue, such as whole blood, can recapitulate some transcriptional changes occurring in brain and help to identify mechanisms underlying neurodegenerative processes.Objective: We aimed to identify transcriptional differences between AD cases and controls in a cohort of diverse ancestry.Methods: We analyzed the protein coding transcriptome using RNA sequencing from peripheral blood collected from 234 African American (AA) (115 AD, 119 controls) and 240 non-Hispanic Whites (NHW) (121 AD, 119 controls). To identify case-control differentially expressed genes and pathways, we performed stratified, joint, and interaction analyses using linear regression models within and across ancestral groups followed by pathway and gene set enrichment analyses.Results: Overall, we identified 418 (291 upregulated, 127 downregulated) and 488 genes (352 upregulated, 136 downregulated) differentially expressed in the AA and NHW datasets, respectively, with only 16 genes commonly differentially expressed in both ancestral groups. Joint analyses provided greater power to detect case-control differences and identified 1,102 differentially expressed genes between cases and controls (812 upregulated, 290 downregulated). Interaction analysis identified only 27 genes with different effects in AA compared to NHW. Pathway and gene-set enrichment analyses revealed differences in immune response-related pathways that were enriched across the analyses despite different underlying gene sets.Conclusion: These results support the hypothesis of converging underlying pathophysiological processes in AD across ancestral groups. [ABSTRACT FROM AUTHOR]

Published

2020

13. The Impact of 18 Ancestral and Horizontally-Acquired Regulatory Proteins upon the Transcriptome and sRNA Landscape of Salmonella enterica serovar Typhimurium.

Author

Colgan, Aoife M., Kröger, Carsten, Diard, Médéric, Hardt, Wolf-Dietrich, Puente, José L., Sivasankaran, Sathesh K., Hokamp, Karsten, and Hinton, Jay C. D.

Subjects

SALMONELLA enterica, GENETIC regulation, NON-coding RNA, TRANSCRIPTION factors, GENE expression

Abstract

We know a great deal about the genes used by the model pathogen Salmonella enterica serovar Typhimurium to cause disease, but less about global gene regulation. New tools for studying transcripts at the single nucleotide level now offer an unparalleled opportunity to understand the bacterial transcriptome, and expression of the small RNAs (sRNA) and coding genes responsible for the establishment of infection. Here, we define the transcriptomes of 18 mutants lacking virulence-related global regulatory systems that modulate the expression of the SPI1 and SPI2 Type 3 secretion systems of S. Typhimurium strain 4/74. Using infection-relevant growth conditions, we identified a total of 1257 coding genes that are controlled by one or more regulatory system, including a sub-class of genes that reflect a new level of cross-talk between SPI1 and SPI2. We directly compared the roles played by the major transcriptional regulators in the expression of sRNAs, and discovered that the RpoS (σ38) sigma factor modulates the expression of 23% of sRNAs, many more than other regulatory systems. The impact of the RNA chaperone Hfq upon the steady state levels of 280 sRNA transcripts is described, and we found 13 sRNAs that are co-regulated with SPI1 and SPI2 virulence genes. We report the first example of an sRNA, STnc1480, that is subject to silencing by H-NS and subsequent counter-silencing by PhoP and SlyA. The data for these 18 regulatory systems is now available to the bacterial research community in a user-friendly online resource, SalComRegulon. [ABSTRACT FROM AUTHOR]

Published

2016

14. RNA-seq Brings New Insights to the Intra-Macrophage Transcriptome of Salmonella Typhimurium.

Author

Srikumar, Shabarinath, Kröger, Carsten, Hébrard, Magali, Colgan, Aoife, Owen, Siân V., Sivasankaran, Sathesh K., Cameron, Andrew D. S., Hokamp, Karsten, and Hinton, Jay C. D.

Subjects

RNA sequencing, RNA analysis, NUCLEOTIDE sequence, SALMONELLA typhimurium, SALMONELLA

Abstract

Salmonella enterica serovar Typhimurium is arguably the world’s best-understood bacterial pathogen. However, crucial details about the genetic programs used by the bacterium to survive and replicate in macrophages have remained obscure because of the challenge of studying gene expression of intracellular pathogens during infection. Here, we report the use of deep sequencing (RNA-seq) to reveal the transcriptional architecture and gene activity of Salmonella during infection of murine macrophages, providing new insights into the strategies used by the pathogen to survive in a bactericidal immune cell. We characterized 3583 transcriptional start sites that are active within macrophages, and highlight 11 of these as candidates for the delivery of heterologous antigens from Salmonella vaccine strains. A majority (88%) of the 280 S. Typhimurium sRNAs were expressed inside macrophages, and SPI13 and SPI2 were the most highly expressed pathogenicity islands. We identified 31 S. Typhimurium genes that were strongly up-regulated inside macrophages but expressed at very low levels during in vitro growth. The SalComMac online resource allows the visualisation of every transcript expressed during bacterial replication within mammalian cells. This primary transcriptome of intra-macrophage S.-Typhimurium describes the transcriptional start sites and the transcripts responsible for virulence traits, and catalogues the sRNAs that may play a role in the regulation of gene expression during infection. [ABSTRACT FROM AUTHOR]

Published

2015

15. A Model System for Studying the Transcriptomic and Physiological Changes Associated with Mammalian Host-Adaptation by Leptospira interrogans Serovar Copenhageni.

Author

Caimano, Melissa J., Sivasankaran, Sathesh K., Allard, Anna, Hurley, Daniel, Hokamp, Karsten, Grassmann, André A., Hinton, Jay C. D., and Nally, Jarlath E.

Subjects

*LEPTOSPIROSIS, *SPIROCHETES, *LEPTOSPIRA, *INFECTIOUS disease transmission, *GENE expression in viruses

Abstract

Leptospirosis, an emerging zoonotic disease with worldwide distribution, is caused by spirochetes belonging to the genus Leptospira. More than 500,000 cases of severe leptospirosis are reported annually, with >10% of these being fatal. Leptospires can survive for weeks in suitably moist conditions before encountering a new host. Reservoir hosts, typically rodents, exhibit little to no signs of disease but shed large numbers of organisms in their urine. Transmission occurs when mucosal surfaces or abraded skin come into contact with infected urine or urine-contaminated water or soil. In humans, leptospires can cause a variety of clinical manifestations, ranging from asymptomatic or mild fever to severe icteric (Weil's) disease and pulmonary haemorrhage. Currently, little is known about how Leptospira persist within a reservoir host. Prior in vitro studies have suggested that leptospires alter their transcriptomic and proteomic profiles in response to environmental signals encountered during mammalian infection. However, no study has examined gene expression by leptospires within a mammalian host-adapted state. To obtain a more faithful representation of how leptospires respond to host-derived signals, we used RNA-Seq to compare the transcriptome of L. interrogans cultivated within dialysis membrane chambers (DMCs) implanted into the peritoneal cavities of rats with that of organisms grown in vitro. In addition to determining the relative expression levels of “core” housekeeping genes under both growth conditions, we identified 166 genes that are differentially-expressed by L. interrogans in vivo. Our analyses highlight physiological aspects of host adaptation by leptospires relating to heme uptake and utilization. We also identified 11 novel non-coding transcripts that are candidate small regulatory RNAs. The DMC model provides a facile system for studying the transcriptional and antigenic changes associated with mammalian host-adaption, selection of targets for mutagenesis, and the identification of previously unrecognized virulence determinants. [ABSTRACT FROM AUTHOR]

Published

2014

16. An Infection-Relevant Transcriptomic Compendium for Salmonella enterica Serovar Typhimurium.

Author

Kröger, Carsten, Colgan, Aoife, Srikumar, Shabarinath, Händler, Kristian, Sivasankaran, Sathesh K., Hammarlöf, Disa L., Canals, Rocío, Grissom, Joe E., Conway, Tyrrell, Hokamp, Karsten, and Hinton, Jay C.D.

Abstract

Summary: Bacterial transcriptional networks consist of hundreds of transcription factors and thousands of promoters. However, the true complexity of transcription in a bacterial pathogen and the effect of the environments encountered during infection remain to be established. We present a simplified approach for global promoter identification in bacteria using RNA-seq-based transcriptomic analyses of 22 distinct infection-relevant environmental conditions. Individual RNA samples were combined to identify most of the 3,838 Salmonella enterica serovar Typhimurium promoters in just two RNA-seq runs. Individual in vitro conditions stimulated characteristic transcriptional signatures, and the suite of 22 conditions induced transcription of 86% of all S. Typhimurium genes. We highlight the environmental conditions that induce the Salmonella pathogenicity islands and present a small RNA expression landscape of 280 sRNAs. This publicly available compendium of environmentally controlled expression of every transcriptional feature of S. Typhimurium constitutes a useful resource for the bacterial research community. [Copyright &y& Elsevier]

Published

2013

17. The Role of Salmonella Genomic Island 4 in Metal Tolerance of Salmonella enterica Serovar I 4,[5],12:i:- Pork Outbreak Isolate USDA15WA-1.

Author

Bearson, Bradley L., Trachsel, Julian M., Shippy, Daniel C., Sivasankaran, Sathesh K., Kerr, Brian J., Loving, Crystal L., Brunelle, Brian W., Curry, Shelby M., Gabler, Nicholas K., and Bearson, Shawn M. D.

Subjects

SALMONELLA enterica, SALMONELLA, ARSENIC, MOBILE genetic elements, MERCURY vapor, ANTIMONY compounds, METALS

Abstract

Multidrug-resistant (MDR; resistance to >3 antimicrobial classes) Salmonella enterica serovar I 4,[5],12:i:- strains were linked to a 2015 foodborne outbreak from pork. Strain USDA15WA-1, associated with the outbreak, harbors an MDR module and the metal tolerance element Salmonella Genomic Island 4 (SGI-4). Characterization of SGI-4 revealed that conjugational transfer of SGI-4 resulted in the mobile genetic element (MGE) replicating as a plasmid or integrating into the chromosome. Tolerance to copper, arsenic, and antimony compounds was increased in Salmonella strains containing SGI-4 compared to strains lacking the MGE. Following Salmonella exposure to copper, RNA-seq transcriptional analysis demonstrated significant differential expression of diverse genes and pathways, including induction of at least 38 metal tolerance genes (copper, arsenic, silver, and mercury). Evaluation of swine administered elevated concentrations of zinc oxide (2000 mg/kg) and copper sulfate (200 mg/kg) as an antimicrobial feed additive (Zn+Cu) in their diet for four weeks prior to and three weeks post-inoculation with serovar I 4,[5],12:i:- indicated that Salmonella shedding levels declined at a slower rate in pigs receiving in-feed Zn+Cu compared to control pigs (no Zn+Cu). The presence of metal tolerance genes in MDR Salmonella serovar I 4,[5],12:i:- may provide benefits for environmental survival or swine colonization in metal-containing settings. [ABSTRACT FROM AUTHOR]

Published

2020

18. P1‐144: TRANSCRIPTOMIC ANALYSIS OF WHOLE BLOOD IN AFRICAN AMERICAN AND NON‐HISPANIC WHITE ALZHEIMER DISEASE CASES AND CONTROLS.

Author

Griswold, Anthony J., Sivasankaran, Sathesh K., Gardner, Olivia K., Rajabli, Farid, Hamilton-Nelson, Kara L., Rolati, Sophie, Hofmann, Natalia K., Whitehead, Patrice L., Adams, Larry D., Byrd, Goldie S., Martin, Eden R., Cuccaro, Michael L., Bush, William S., Haines, Jonathan L., Vance, Jeffery M., Beecham, Gary W., and Pericak-Vance, Margaret A.

Published

2018

19. Some like it hot, some like it cold; proteome comparison of Leptospira borgpetersenii serovar Hardjo strains propagated at different temperatures.

Author

Putz, Ellie J., Fernandes, Luis G.V., Sivasankaran, Sathesh K., Bayles, Darrell O., Alt, David P., Lippolis, John D., and Nally, Jarlath E.

Subjects

*LEPTOSPIRA interrogans, *LEPTOSPIRA, *SPIROCHETES, *Q fever, *TRANSMISSION electron microscopy, *PROTEIN expression, *LEPTOSPIROSIS, *ZOONOSES

Abstract

Leptospirosis is a global zoonotic disease affecting humans and livestock species. Bacterin vaccines lack cross protection between serogroups, and include multiple serovars propagated at 29 °C. Recent work demonstrated substantial variation in the transcriptome of identical species and serovars of Leptospira. Here, substantial differences in protein abundance profiles were identified in Leptospira borgpetersenii serovar Hardjo; strain HB203, which was isolated in the 1980s, compared to newer strains TC129 and TC273 isolated in 2016, and whether they were propagated at the routine temperature of 29 °C, compared to 37 °C which more closely emulates host infection. While 388 and 385 significantly differentially expressed (DE) proteins (FDR of 0.01) were identified in HB203 versus TC129, and HB203 versus TC273 when propagated at 29 °C respectively, only 66 and 4 DE proteins were identified in HB203 versus TC129, and HB203 versus TC273 when propagated at 37 °C respectively. Within each strain comparing temperatures, HB203 had 524 significantly DE proteins, TC129 had 347 DE proteins, and TC273 had 569 DE proteins. Data are available via ProteomeXchange with identifier PXD032831. Results highlight significant differential protein expression among identical serovars of L. borgpetersenii suggesting that bacterin vaccine design can benefit from consideration of strains employed and effects of temperature on growth. Leptospirosis is a zoonotic disease caused by spirochete bacteria of the genus Leptospira. While leptospirosis affects over one million people per year, symptoms range vastly in severity from completely asymptomatic, to flu-like, to multi-organ failure and death in severe cases. Incidental hosts become infected after encountering pathogens directly from contact with another host, including domestic or wildlife animals, or indirectly from contaminated environments. Though animal vaccines exist, they lack cross protection across serogroups, and instead rely on inclusion of multiple carefully selected serovars from laboratory strains prepared at ~29 °C. Recent interest in gene expression at the Leptospira strain level, along with a newly achieved culture temperature of 37 °C (which more closely resembles host body temperature), led us to investigate the proteomic profiles of an older, established challenge strain HB203 in comparison to TC129 and TC273, two strains isolated in 2016 from abattoir cattle in the central United States. Herein, we identify substantial proteomic differences not only between strains of the same species and serovar, but notably between growth temperatures, collectively suggesting that bacterin vaccine composition may benefit from investigating strain selection and the temperature employed for growth of the bacteria used in bacterin preparation. Transmission electron microscopy of a hamster kidney infected with Leptospira borgpetersenii serovar Hardjo strain HB203, representing leptospires in a host environment close to 37 °C. Arrows indicate cross sections of individual leptospires. This study compares the proteomic profile of strains of L. borgpetersenii serovar Hardjo cultured at 37 °C compared to the conventional in vitro growth temperature of 29 °C. [Display omitted] • Differential protein expression by strains of Leptospira borgpetersenii serovar Hardjo • LC/MS/MS of bacterins propagated at 37 °C compared to 29 °C. • Differential expression of bacterial virulence factors at 37 °C and 29 °C [ABSTRACT FROM AUTHOR]

Published

2022

20. The challenge of relating gene expression to the virulence of Salmonella enterica serovar Typhimurium

Author

Hébrard, Magali, Kröger, Carsten, Sivasankaran, Sathesh K, Händler, Kristian, and Hinton, Jay CD

Subjects

*SALMONELLA typhimurium, *GENE expression, *MICROBIAL virulence, *CELL communication, *TRANSCRIPTION factors, *ENTEROBACTERIACEAE, *FOOD pathogens, *GENETIC regulation

Abstract

The first decade of transcriptomic studies of Salmonella enterica serovar Typhimurium focused upon gene expression in vitro, and during the infection of mammalian cells. The published regulons and stimulons show that the three Type Three Secretion Systems of S. Typhimurium respond to a diverse range of environmental conditions, and are controlled by a hierarchy of regulatory proteins. The integration of in vitro generated transcriptomic data with global gene expression of S. Typhimurium during infection is beginning to yield valuable information. The coordinated regulation of Salmonella gene expression is a key process for survival, adaptation and virulence capacities of the pathogen. [Copyright &y& Elsevier]

Published

2011