Your search keyword '"Christopher J Pappas"' showing total 13 results

1. Editorial: Spirochetal diseases (syphilis, Lyme disease, and leptospirosis): transmission, pathogenesis, host-pathogen interactions, prevention, and treatment

Author

Christopher J. Pappas, Camila Hamond, Helena Pětrošová, and Ellie J. Putz

Subjects

leptospirosis, Weil's disease, syphilis, Lyme disease, treatment, host-pathogen interactions, Microbiology, QR1-502

Published

2024

2. Characterization of the RelBbu Regulon in Borrelia burgdorferi Reveals Modulation of Glycerol Metabolism by (p)ppGpp.

Author

Julia V Bugrysheva, Christopher J Pappas, Darya A Terekhova, Radha Iyer, Henry P Godfrey, Ira Schwartz, and Felipe C Cabello

Subjects

Medicine, Science

Abstract

The bacterial stringent response is triggered by deficiencies of available nutrients and other environmental stresses. It is mediated by 5'-triphosphate-guanosine-3'-diphosphate and 5'-diphosphate-guanosine-3'-diphosphate (collectively (p)ppGpp) and generates global changes in gene expression and metabolism that enable bacteria to adapt to and survive these challenges. Borrelia burgdorferi encounters multiple stressors in its cycling between ticks and mammals that could trigger the stringent response. We have previously shown that the B. burgdorferi stringent response is mediated by a single enzyme, RelBbu, with both (p)ppGpp synthase and hydrolase activities, and that a B. burgdorferi 297 relBbu null deletion mutant was defective in adapting to stationary phase, incapable of down-regulating synthesis of rRNA and could not infect mice. We have now used this deletion mutant and microarray analysis to identify genes comprising the rel regulon in B. burgdorferi cultured at 34°C, and found that transcription of genes involved in glycerol metabolism is induced by relBbu. Culture of the wild type parental strain, the relBbu deletion mutant and its complemented derivative at 34°C and 25°C in media containing glucose or glycerol as principal carbon sources revealed a growth defect in the mutant, most evident at the lower temperature. Transcriptional analysis of the glp operon for glycerol uptake and metabolism in these three strains confirmed that relBbu was necessary and sufficient to increase transcription of this operon in the presence of glycerol at both temperatures. These results confirm and extend previous findings regarding the stringent response in B. burgdorferi. They also demonstrate that the stringent response regulates glycerol metabolism in this organism and is likely crucial for its optimal growth in ticks.

Published

2015

3. Borrelia burgdorferi requires glycerol for maximum fitness during the tick phase of the enzootic cycle.

Author

Christopher J Pappas, Radha Iyer, Mary M Petzke, Melissa J Caimano, Justin D Radolf, and Ira Schwartz

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Borrelia burgdorferi, the spirochetal agent of Lyme disease, is a vector-borne pathogen that cycles between a mammalian host and tick vector. This complex life cycle requires that the spirochete modulate its gene expression program to facilitate growth and maintenance in these diverse milieus. B. burgdorferi contains an operon that is predicted to encode proteins that would mediate the uptake and conversion of glycerol to dihydroxyacetone phosphate. Previous studies indicated that expression of the operon is elevated at 23°C and is repressed in the presence of the alternative sigma factor RpoS, suggesting that glycerol utilization may play an important role during the tick phase. This possibility was further explored in the current study by expression analysis and mutagenesis of glpD, a gene predicted to encode glycerol 3-phosphate dehydrogenase. Transcript levels for glpD were significantly lower in mouse joints relative to their levels in ticks. Expression of GlpD protein was repressed in an RpoS-dependent manner during growth of spirochetes within dialysis membrane chambers implanted in rat peritoneal cavities. In medium supplemented with glycerol as the principal carbohydrate, wild-type B. burgdorferi grew to a significantly higher cell density than glpD mutant spirochetes during growth in vitro at 25°C. glpD mutant spirochetes were fully infectious in mice by either needle or tick inoculation. In contrast, glpD mutants grew to significantly lower densities than wild-type B. burgdorferi in nymphal ticks and displayed a replication defect in feeding nymphs. The findings suggest that B. burgdorferi undergoes a switch in carbohydrate utilization during the mammal to tick transition. Further, the results demonstrate that the ability to utilize glycerol as a carbohydrate source for glycolysis during the tick phase of the infectious cycle is critical for maximal B. burgdorferi fitness.

Published

2011

4. Creating a Library of Random Transposon Mutants in Leptospira

Author

A. Motaleb, Christopher J. Pappas, and Hui Xu

Subjects

Transposable element, Genetics, Leptospira, animal diseases, Mutant, Mutagenesis (molecular biology technique), Biology, medicine.disease_cause, biology.organism_classification, bacterial infections and mycoses, Polymerase Chain Reaction, Article, Transformation (genetics), Mutagenesis, Insertional, Plasmid, Mutation, medicine, DNA Transposable Elements, Escherichia coli, bacteria, Nested polymerase chain reaction, Gene Library, Plasmids

Abstract

Generation of a random transposon mutant library is advantageous in Leptospira as site-directed mutagenesis remains a challenge, especially in pathogenic species. This procedure is typically completed by transformation of Leptospira with a Himar1 containing plasmid via conjugation with Escherichia coli as a donor cell. Here we describe the methodology to generate random transposon mutants in the saprophyte Leptospira biflexa via conjugation of plasmid pSW29T-TKS2 harbored in E. coli β2163. Determination of transposon insertion site by semi-random nested PCR will also be described. A similar methodology may be employed to generate Tn mutants of pathogenic Leptospira species.

Published

2020

5. The EbpA-RpoN regulatory pathway of the pathogen Leptospira interrogans is essential for survival in the environment

Author

Jie Yan, X. Frank Yang, Jun-Jie Zhang, Mathieu Picardeau, Wei Lin Hu, You Yun Yang, Christopher J. Pappas, Department of Medical Microbiology and Parasitology [Zhejiang], Zhejiang University School of Medicine, Department of Microbiology and Immunology [Indianapolis], Indiana University School of Medicine, Indiana University System-Indiana University System, Biologie des Spirochètes / Biology of Spirochetes, Institut Pasteur [Paris], Department of Biology [New York], Manhattanville College [New York], This work was supported in part by grants from the National Natural Science Foundation of China (No. 81501713, WLH), China Postdoctoral Science Foundation (No. 2015M570516, WLH), National Science Foundation grant IIA-1159099 (CJP) and the Institut Pasteur (MP)., and Institut Pasteur [Paris] (IP)

Subjects

0301 basic medicine, 030106 microbiology, Mutant, Sigma Factor, Genetics and Molecular Biology, Biology, Environment, Applied Microbiology and Biotechnology, Microbiology, 03 medical and health sciences, Bacterial Proteins, Sigma factor, Gene, RpoN, Leptospira, Ecology, Gene Expression Regulation, Bacterial, biology.organism_classification, 3. Good health, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, rpoN, Host adaptation, Regulatory Pathway, Leptospira interrogans, Food Science, Biotechnology, Ammonium transport

Abstract

Leptospira interrogans is the agent of leptospirosis, a reemerging zoonotic disease. It is transmitted to humans through environmental surface waters contaminated by the urine of mammals chronically infected by pathogenic strains able to survive in water for long periods. Little is known about the regulatory pathways underlying environmental sensing and host adaptation of L. interrogans during its enzootic cycle. This study identifies the EbpA-RpoN regulatory pathway in L. interrogans . In this pathway, EbpA, a σ 54 activator and putative prokaryotic enhancer-binding protein (EBP), and the alternative sigma factor RpoN (σ 54 ) control expression of at least three genes, encoding AmtB (an ammonium transport protein) and two proteins of unknown function. Electrophoresis mobility shift assay demonstrated that recombinant RpoN and EbpA bind to the promoter region and upstream of these three identified genes, respectively. Genetic disruption of ebpA in L. interrogans serovar Manilae virtually abolished expression of the three genes, including amtB in two independent ebpA mutants. Complementation of the ebpA mutant restored expression of these genes. Intraperitoneal inoculation of gerbils with the ebpA mutant did not affect mortality. However, the ebpA mutant had decreased cell length in vitro and had a significantly lowered cell density at stationary phase when grown with l -alanine as the sole nitrogen source. Furthermore, the ebpA mutant has dramatically reduced long-term survival ability in water. Together, these studies identify a regulatory pathway, the EbpA-RpoN pathway, that plays an important role in the zoonotic cycle of L. interrogans . IMPORTANCE Leptospirosis is a reemerging disease with global importance. However, our understanding of gene regulation of the spirochetal pathogen Leptospira interrogans is still in its infancy, largely due to the lack of robust tools for genetic manipulation of this spirochete. Little is known about how the pathogen achieves its long-term survival in the aquatic environment. By utilizing bioinformatic, genetic, and biochemical methods, we discovered a regulatory pathway in L. interrogans , the EbpA-RpoN pathway, and demonstrated that this pathway plays an important role in environmental survival of this pathogen.

Published

2016

6. Genome-Wide Transcriptional Start Site Mapping and sRNA Identification in the Pathogen

Author

Anna, Zhukova, Luis Guilherme, Fernandes, Perrine, Hugon, Christopher J, Pappas, Odile, Sismeiro, Jean-Yves, Coppée, Christophe, Becavin, Christophe, Malabat, Azad, Eshghi, Jun-Jie, Zhang, Frank X, Yang, and Mathieu, Picardeau

Subjects

promoter, Temperature, Chromosome Mapping, bacterial infections and mycoses, Microbiology, transcription factors, RNA, Small Untranslated, leptospirosis, RNA, spirochetes, Leptospira interrogans, Transcription Initiation Site, Genome, Bacterial, Original Research

Abstract

Leptospira are emerging zoonotic pathogens transmitted from animals to humans typically through contaminated environmental sources of water and soil. Regulatory pathways of pathogenic Leptospira spp. underlying the adaptive response to different hosts and environmental conditions remains elusive. In this study, we provide the first global Transcriptional Start Site (TSS) map of a Leptospira species. RNA was obtained from the pathogen Leptospira interrogans grown at 30°C (optimal in vitro temperature) and 37°C (host temperature) and selectively enriched for 5′ ends of native transcripts. A total of 2865 and 2866 primary TSS (pTSS) were predicted in the genome of L. interrogans at 30 and 37°C, respectively. The majority of the pTSSs were located between 0 and 10 nucleotides from the translational start site, suggesting that leaderless transcripts are a common feature of the leptospiral translational landscape. Comparative differential RNA-sequencing (dRNA-seq) analysis revealed conservation of most pTSS at 30 and 37°C. Promoter prediction algorithms allow the identification of the binding sites of the alternative sigma factor sigma 54. However, other motifs were not identified indicating that Leptospira consensus promoter sequences are inherently different from the Escherichia coli model. RNA sequencing also identified 277 and 226 putative small regulatory RNAs (sRNAs) at 30 and 37°C, respectively, including eight validated sRNAs by Northern blots. These results provide the first global view of TSS and the repertoire of sRNAs in L. interrogans. These data will establish a foundation for future experimental work on gene regulation under various environmental conditions including those in the host.

Published

2016

7. Control of Gene Expression in Leptospira spp. by Transcription Activator-Like Effectors Demonstrates a Potential Role for LigA and LigB in Leptospira interrogans Virulence

Author

Christopher J. Pappas, Mathieu Picardeau, Manhattanville College [New York], Biologie des Spirochètes / Biology of Spirochetes, Institut Pasteur [Paris], This work was supported in part by National Science Foundation grant IIA-1159099 (CJP) and the Institut Pasteur (MP)., and Institut Pasteur [Paris] (IP)

Subjects

Transcription Activator-Like Effectors, Regulation of gene expression, Leptospira, Ecology, biology, Organisms, Genetically Modified, Virulence, [SDV]Life Sciences [q-bio], Galactosidase activity, Genetics and Molecular Biology, Gene Expression Regulation, Bacterial, biology.organism_classification, Applied Microbiology and Biotechnology, 3. Good health, Microbiology, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Bacterial Proteins, Gene expression, Leptospira interrogans, Gene, Food Science, Biotechnology

Abstract

Leptospirosis is a zoonotic disease that affects ∼1 million people annually, with a mortality rate of >10%. Currently, there is an absence of effective genetic manipulation tools for targeted mutagenesis in pathogenic leptospires. Transcription activator-like effectors (TALEs) are a recently described group of repressors that modify transcriptional activity in prokaryotic and eukaryotic cells by directly binding to a targeted sequence within the host genome. To determine the applicability of TALEs within Leptospira spp., two TALE constructs were designed. First, a constitutively expressed TALE gene specific for the lacO -like region upstream of bgaL was trans inserted in the saprophyte Leptospira biflexa (the TALE βgal strain). Reverse transcriptase PCR (RT-PCR) analysis and enzymatic assays demonstrated that BgaL was not expressed in the TALE βgal strain. Second, to study the role of LigA and LigB in pathogenesis, a constitutively expressed TALE gene with specificity for the homologous promoter regions of ligA and ligB was cis inserted into the pathogen Leptospira interrogans (TALE lig ). LigA and LigB expression was studied by using three independent clones: TALE lig1 , TALE lig2 , and TALE lig3 . Immunoblot analysis of osmotically induced TALE lig clones demonstrated 2- to 9-fold reductions in the expression levels of LigA and LigB, with the highest reductions being noted for TALE lig1 and TALE lig2 , which were avirulent in vivo and nonrecoverable from animal tissues. This study reconfirms galactosidase activity in the saprophyte and suggests a role for LigA and LigB in pathogenesis. Collectively, this study demonstrates that TALEs are effective at reducing the expression of targeted genes within saprophytic and pathogenic strains of Leptospira spp., providing an additional genetic manipulation tool for this genus.

Published

2015

8. A Replicative Plasmid Vector Allows Efficient Complementation of Pathogenic Leptospira Strains

Author

Christopher J. Pappas, Nadia Benaroudj, Mathieu Picardeau, Manhattanville College [New York], Biologie des Spirochètes / Biology of Spirochetes, Institut Pasteur [Paris] (IP), This work was supported in part by National Science Foundation grant IIA-1159099 (CJP) and the Institut Pasteur (MP)., Authors thank J. Vinetz and D. Fouts for their permission to use the draft genomes which are part of a project which was funded with federal funds from the National Institute of Allergy and Infectious Diseases, National Institutes of Health, Department of Health and Human Services under contract number HHSN272200900007C., and Institut Pasteur [Paris]

Subjects

DNA, Bacterial, Genetics, Microbial, MESH: Sequence Analysis, DNA, [SDV]Life Sciences [q-bio], Genetic Vectors, Molecular Sequence Data, Genetics and Molecular Biology, Applied Microbiology and Biotechnology, MESH: Leptospira, Genomic Instability, Plasmid, Shuttle vector, Leptospira, MESH: Genetic Vectors, MESH: Plasmids, Genomic island, Molecular Biology, Genetics, MESH: Genetic Complementation Test, MESH: Molecular Sequence Data, Ecology, biology, MESH: Genomic Instability, Genetic Complementation Test, MESH: Molecular Biology, Sequence Analysis, DNA, MESH: Genetics, Microbial, biology.organism_classification, Virology, MESH: DNA, Bacterial, 3. Good health, Transformation (genetics), [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Transposon mutagenesis, Homologous recombination, Leptospira interrogans, Food Science, Biotechnology, Plasmids

Abstract

Leptospirosis, an emerging zoonotic disease, remains poorly understood because of a lack of genetic manipulation tools available for pathogenic leptospires. Current genetic manipulation techniques include insertion of DNA by random transposon mutagenesis and homologous recombination via suicide vectors. This study describes the construction of a shuttle vector, pMaORI, that replicates within saprophytic, intermediate, and pathogenic leptospires. The shuttle vector was constructed by the insertion of a 2.9-kb DNA segment including the parA , parB , and rep genes into pMAT, a plasmid that cannot replicate in Leptospira spp. and contains a backbone consisting of an aadA cassette, ori R6K, and oriT RK2/RP4. The inserted DNA segment was isolated from a 52-kb region within Leptospira mayottensis strain 200901116 that is not found in the closely related strain L. mayottensis 200901122. Because of the size of this region and the presence of bacteriophage-like proteins, it is possible that this region is a result of a phage-related genomic island. The stability of the pMaORI plasmid within pathogenic strains was tested by passaging cultures 10 times without selection and confirming the presence of pMaORI. Concordantly, we report the use of trans complementation in the pathogen Leptospira interrogans . Transformation of a pMaORI vector carrying a functional copy of the perR gene in a null mutant background restores the expression of PerR and susceptibility to hydrogen peroxide comparable to that of wild-type cells. In conclusion, we demonstrate the replication of a stable plasmid vector in a large panel of Leptospira strains, including pathogens. The shuttle vector described will expand our ability to perform genetic manipulation of Leptospira spp.

Published

2015

9. Characterization of the RelBbu Regulon in Borrelia burgdorferi Reveals Modulation of Glycerol Metabolism by (p)ppGpp

Author

Christopher J. Pappas, Felipe C. Cabello, Henry P. Godfrey, Julia V. Bugrysheva, Radha Iyer, Darya Terekhova, and Ira Schwartz

Subjects

Glycerol, Transcription, Genetic, Hydrolases, Stringent response, Operon, Mutant, lcsh:Medicine, Guanosine Tetraphosphate, Biology, Regulon, 03 medical and health sciences, chemistry.chemical_compound, Guanosine pentaphosphate, Borrelia burgdorferi, lcsh:Science, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Multidisciplinary, 030306 microbiology, Gene Expression Profiling, lcsh:R, Guanosine Pentaphosphate, Wild type, Correction, biology.organism_classification, Cell biology, Glucose, chemistry, Biochemistry, lcsh:Q, Gene Deletion, Research Article

Abstract

The bacterial stringent response is triggered by deficiencies of available nutrients and other environmental stresses. It is mediated by 5'-triphosphate-guanosine-3'-diphosphate and 5'-diphosphate-guanosine-3'-diphosphate (collectively (p)ppGpp) and generates global changes in gene expression and metabolism that enable bacteria to adapt to and survive these challenges. Borrelia burgdorferi encounters multiple stressors in its cycling between ticks and mammals that could trigger the stringent response. We have previously shown that the B. burgdorferi stringent response is mediated by a single enzyme, RelBbu, with both (p)ppGpp synthase and hydrolase activities, and that a B. burgdorferi 297 relBbu null deletion mutant was defective in adapting to stationary phase, incapable of down-regulating synthesis of rRNA and could not infect mice. We have now used this deletion mutant and microarray analysis to identify genes comprising the rel regulon in B. burgdorferi cultured at 34°C, and found that transcription of genes involved in glycerol metabolism is induced by rel Bbu. Culture of the wild type parental strain, the rel Bbu deletion mutant and its complemented derivative at 34°C and 25°C in media containing glucose or glycerol as principal carbon sources revealed a growth defect in the mutant, most evident at the lower temperature. Transcriptional analysis of the glp operon for glycerol uptake and metabolism in these three strains confirmed that rel Bbu was necessary and sufficient to increase transcription of this operon in the presence of glycerol at both temperatures. These results confirm and extend previous findings regarding the stringent response in B. burgdorferi. They also demonstrate that the stringent response regulates glycerol metabolism in this organism and is likely crucial for its optimal growth in ticks.

Published

2015

10. Learning and Unlearning the Myths We Are Taught: Gender and Social Dominance Orientation

Author

Rob Foels and Christopher J. Pappas

Subjects

Social Psychology, Mediation (Marxist theory and media studies), media_common.quotation_subject, Socialization, Identity (social science), Social dominance theory, Femininity, Feminism, Developmental psychology, Gender Studies, Masculinity, Developmental and Educational Psychology, Psychology, Social psychology, Social dominance orientation, media_common

Abstract

Within social dominance theory (SDT) the invariance hypothesis predicts that men will be higher in social dominance orientation (SDO) even after accounting for cultural or social factors. We tested this hypothesis by measuring the relationship between sex and SDO while controlling for the effects of gender socialization. Our first two studies demonstrated that the sex difference in SDO is mediated by gender socialization and that masculinity and femininity are differentially related to two different forms of SDO. Study 3 extended these results by showing that SDO decreases as a function of feminist identity acquisition. These results suggest that the status hierarchy based on gender has properties of arbitrary classifications such as race, and they call into question the classification of gender as invariant within SDT.

Published

2004

11. BB0844, an RpoS-regulated protein, is dispensable for Borrelia burgdorferi infectivity and maintenance in the mouse-tick infectious cycle

Author

Melissa J. Caimano, Justin D. Radolf, Radha Iyer, Christopher J. Pappas, Darya Terekhova, Sukalyani Banik, and Ira Schwartz

Subjects

Genotype, Immunology, Mutant, Molecular Sequence Data, Virulence, Sigma Factor, Spirochaetaceae, Microbiology, Mice, Plasmid, Bacterial Proteins, Animals, Borrelia burgdorferi, Gene, Genetics, biology, Base Sequence, Ixodes, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Regulation, Bacterial, biology.organism_classification, bacterial infections and mycoses, Virology, Molecular Pathogenesis, Insect Vectors, Infectious Diseases, Ixodes scapularis, Genes, Bacterial, Parasitology

Abstract

The genome of Borrelia burgdorferi , the causative agent of Lyme disease, is comprised of a large linear chromosome and numerous smaller linear and circular plasmids. B. burgdorferi exhibits substantial genomic variation, and previous studies revealed genotype-specific variation at the right chromosomal telomere. A correlation has also been established between genotype and invasiveness. The correlation between chromosome length and genotype and between genotype and invasiveness suggested that a gene(s) at the right chromosome telomere may be required for virulence. Of particular interest was bb0844 , an RpoS-regulated gene at the right telomere, the expression of which is induced when the spirochete undergoes adaptation to the mammalian host. The structure of the right chromosomal telomere was examined in 53 B. burgdorferi clinical isolates of various genotypes. Four distinct patterns were observed for bb0844 : (i) chromosomal localization, (ii) plasmid localization, (iii) presence on both chromosome and plasmid, and (iv) complete absence. These patterns correlated with the B. burgdorferi genotype. On the basis of available sequence data, we propose a mechanism for the genomic rearrangements that accounts for the variability in bb0844 genomic localization. To further explore the role of BB0844 in the spirochete life cycle, a bb0844 deletion mutant was constructed by allelic exchange, and the viability of wild-type and bb0844 deletion mutants was examined in an experimental mouse-tick infection model. The bb0844 mutant was fully infectious in C3H/HeJ mice by either needle inoculation or tick transmission with B. burgdorferi -infected Ixodes scapularis larvae. Naïve larval ticks acquired both wild-type and mutant spirochetes with equal efficiency from B. burgdorferi -infected mice. The results demonstrate that BB0844 is not required for spirochete viability, pathogenicity, or maintenance in the tick vector or the mammalian host. At present, a defined role for BB0844 in B. burgdorferi cannot be ascertained.

Published

2010

12. Fitness Variation of Borrelia burgdorferi Sensu Stricto Strains in Mice▿

Author

Nicholas H. Ogden, Radha Iyer, Ira Schwartz, Klaus Kurtenbach, Christopher J. Pappas, Klára Hanincová, Durland Fish, and Maria A. Diuk-Wasser

Subjects

Male, Peromyscus, Range (biology), Zoology, Spirochaetaceae, Biology, Applied Microbiology and Biotechnology, Mice, Lyme disease, Ticks, Genotype, medicine, Invertebrate Microbiology, Animals, Borrelia burgdorferi, Lyme Disease, Mice, Inbred C3H, Ecology, Host (biology), biology.organism_classification, medicine.disease, bacterial infections and mycoses, Virology, Lyme disease microbiology, Female, Food Science, Biotechnology

Abstract

Lyme borreliosis in North America is caused by the tick-borne spirochete Borrelia burgdorferi , a zoonotic bacterium that is able to persistently infect a wide range of vertebrate species. Given the pronounced strain structure of B. burgdorferi in the northeastern United States, we asked whether the fitness of the different genotypes varies among susceptible vertebrate hosts. The transmission dynamics of two genetically divergent human isolates of B. burgdorferi , BL206 and B348, were analyzed experimentally in white-footed mice and in C3H/HeNCrl mice over a time period of almost 3 months. We found that the initially high transmission efficiency from white-footed mice to ticks declined sharply for isolate B348 but remained considerably high for isolate BL206. In contrast, in C3H/HeNCrl mice, high transmission efficiency persisted for both isolates. Our findings provide proof-of-principle evidence for intrinsic fitness variation of B. burgdorferi strains in vertebrate host species, perhaps indicating the beginnings of adaptive radiation.

Published

2007

13. Borrelia burgdorferi Requires Glycerol for Maximum Fitness During The Tick Phase of the Enzootic Cycle

Author

Justin D. Radolf, Ira Schwartz, Radha Iyer, Mary M. Petzke, Christopher J. Pappas, and Melissa J. Caimano

Subjects

Glycerol, Operon, Mutant, Pathogenesis, Rats, Sprague-Dawley, Mice, chemistry.chemical_compound, Ticks, Sigma factor, lcsh:QH301-705.5, Lyme Disease, Mice, Inbred C3H, 0303 health sciences, Virulence, biology, Microbial Growth and Development, Bacterial Biochemistry, Bacterial Pathogens, Hindlimb, 3. Good health, Host-Pathogen Interaction, Host-Pathogen Interactions, Research Article, lcsh:Immunologic diseases. Allergy, Immunology, Sigma Factor, Tick, Microbiology, Vector Biology, 03 medical and health sciences, Bacterial Proteins, Virology, Genetics, Animals, Borrelia burgdorferi, Biology, Molecular Biology, Microbial Metabolism, 030304 developmental biology, Dihydroxyacetone phosphate, Glycerol-3-Phosphate Dehydrogenase (NAD+), Ixodes, 030306 microbiology, Bacteriology, Gene Expression Regulation, Bacterial, bacterial infections and mycoses, biology.organism_classification, Rats, Disease Models, Animal, Emerging Infectious Diseases, lcsh:Biology (General), chemistry, Joints, Parasitology, lcsh:RC581-607, rpoS

Abstract

Borrelia burgdorferi, the spirochetal agent of Lyme disease, is a vector-borne pathogen that cycles between a mammalian host and tick vector. This complex life cycle requires that the spirochete modulate its gene expression program to facilitate growth and maintenance in these diverse milieus. B. burgdorferi contains an operon that is predicted to encode proteins that would mediate the uptake and conversion of glycerol to dihydroxyacetone phosphate. Previous studies indicated that expression of the operon is elevated at 23°C and is repressed in the presence of the alternative sigma factor RpoS, suggesting that glycerol utilization may play an important role during the tick phase. This possibility was further explored in the current study by expression analysis and mutagenesis of glpD, a gene predicted to encode glycerol 3-phosphate dehydrogenase. Transcript levels for glpD were significantly lower in mouse joints relative to their levels in ticks. Expression of GlpD protein was repressed in an RpoS-dependent manner during growth of spirochetes within dialysis membrane chambers implanted in rat peritoneal cavities. In medium supplemented with glycerol as the principal carbohydrate, wild-type B. burgdorferi grew to a significantly higher cell density than glpD mutant spirochetes during growth in vitro at 25°C. glpD mutant spirochetes were fully infectious in mice by either needle or tick inoculation. In contrast, glpD mutants grew to significantly lower densities than wild-type B. burgdorferi in nymphal ticks and displayed a replication defect in feeding nymphs. The findings suggest that B. burgdorferi undergoes a switch in carbohydrate utilization during the mammal to tick transition. Further, the results demonstrate that the ability to utilize glycerol as a carbohydrate source for glycolysis during the tick phase of the infectious cycle is critical for maximal B. burgdorferi fitness., Author Summary Borrelia burgdorferi is the vector-borne pathogen that causes Lyme disease. It has a complex life cycle that involves growth in a tick vector and a mammalian host — two diverse environments that present B. burgdorferi with alternative carbohydrate sources for support of growth. Previous studies suggested that glycerol may be an important nutrient in the tick vector. Here we show that genes predicted to be involved in glycerol metabolism have significantly elevated expression during all tick stages. Repression of expression in the mammalian host is dependent on the alternative sigma factor, RpoS. A mutant that cannot convert glycerol into dihydroxyacetone phosphate to support glycolysis was able to infect mice. In contrast, the mutant was present at significantly lower levels in nymphal ticks, its replication was delayed during nymphal feeding and longer feeding times were required for transmission from nymph to mouse. The results demonstrate that the ability to utilize glycerol as a carbohydrate source for glycolysis during the tick phase of the infectious cycle is critical for maximal B. burgdorferi fitness.

Published

2011