105 research outputs found
Inflammation, Immunity, and Vaccines for Helicobacter
Helicobacter pylori represents the major etiologic agent of gastritis, gastric, and duodenal ulcer disease and can cause gastric cancer and mucosa-associated lymphoid tissue B-cell lymphoma. It is clear that the consequences of infection reflect diverse outcomes of the interaction of bacteria and host immune system. The hope is that by deciphering the deterministic rules – if any – of this interplay, we will eventually be able to predict, treat, and ultimately prevent disease. Over the past year, research on the immunology of this infection started to probe the role of small noncoding RNAs, a novel class of immune response regulators. Furthermore, we learned new details on how infection is detected by innate pattern recognition receptors. Induction of effective cell-mediated immunity will be key for the development of a vaccine, and new work published analyzed the relevance and contribution of CD4 T helper cell subsets to the immune reaction. Th17 cells, which are also induced during natural infection, were shown to be particularly important for vaccination. Cost-efficiency of vaccination was re-assessed and confirmed. Thus, induction and shaping of the effector roles of such protective Th populations will be a target of the newly described vaccine antigens, formulations, and modes of application that we also review here
Real-time imaging of Leishmania mexicana-infected early phagosomes: a study using primary macrophages generated from green fluorescent protein-Rab5 transgenic mice
The small GTPase Rab5 is a key regulator of endosome/phagosome maturation and in intravesicular infections marks a phagosome stage at which decisions over pathogen replication or destruction are integrated. It is currently unclear whether Leishmania-infected phagosomes uniformly pass through a Rab5+ stage on their intracellular path to compartments with late endosomal/early lysosomal characteristics. Differences in routes and final compartments could have consequences for accessibility to antileishmanial drugs. Here, we generated a unique gfp-rab5 transgenic mouse model to visualize Rab5 recruitment to early parasite-containing phagosomes in primary host cells. Using real-time fluorescence imaging of phagosomes carrying Leishmania mexicana, we determined that parasite-infested phagosomes follow a uniform sequence of transient Rab5 recruitment. Residence in Rab5+ compartments was much shorter compared with phagosomes harboring latex beads. Furthermore, a comparative analysis of parasite life-cycle stages and mutants deficient in lpg1, the gene encoding the enzyme required for synthesis of the dominant surface lipophosphoglycan, indicated that parasite surface ligands and host cell receptors modulate pathogen residence times in Rab5+ phagosomes, but, as far as tested, had no significant effect on intracellular L. mexicana survival or replication.—Lippuner, C., Paape, D., Paterou, A., Brand, J., Richardson, M., Smith, A. J., Hoffmann, K., Brinkmann, V., Blackburn, C., Aebischer, T. Real-time imaging of Leishmania mexicana-infected early phagosomes: a study using primary macrophages generated from green fluorescent protein-Rab5 transgenic mice
Mimicking Asymptomatic Infection?
The protozoan parasite Giardia duodenalis is responsible for more than 280
million cases of gastrointestinal complaints (“giardiasis”) every year,
worldwide. Infections are acquired orally, mostly via uptake of cysts in
contaminated drinking water. After transformation into the trophozoite stage,
parasites start to colonize the duodenum and upper jejunum where they attach
to the intestinal epithelium and replicate vegetatively. Outcome of Giardia
infections vary between individuals, from self-limiting to chronic, and
asymptomatic to severely symptomatic infection, with unspecific
gastrointestinal complaints. One proposed mechanism for pathogenesis is the
breakdown of intestinal barrier function. This has been studied by analyzing
trans-epithelial electric resistances (TEER) or by indicators of epithelial
permeability using labeled sugar compounds in in vitro cell culture systems,
mouse models or human biopsies and epidemiological studies. Here, we discuss
the results obtained mainly with epithelial cell models to highlight
contradictory findings. We relate published studies to our own findings that
suggest a lack of barrier compromising activities of recent G. duodenalis
isolates of assemblage A, B, and E in a Caco-2 model system. We propose that
this epithelial cell model be viewed as mimicking asymptomatic infection. This
view will likely lead to a more informative use of the model if emphasis is
shifted from aiming to identify Giardia virulence factors to defining non-
parasite factors that arguably appear to be more decisive for disease
Genetic Diversity of the Flavohemoprotein Gene of Giardia lamblia: Evidence for High Allelic Heterozygosity and Copy Number Variation
Purpose: The flavohemoprotein (gFlHb) in Giardia plays an important role in managing nitrosative and oxidative stress, and potentially also in virulence and nitroimidazole drug tolerance. The aim of this study was to analyze the genetic diversity of gFlHb in Giardia assemblages A and B clinical isolates.
Methods: gFlHb genes from 20 cultured clinical Giardia isolates were subjected to PCR amplification and cloning, followed by Sanger sequencing. Sequences of all cloned PCR fragments from each isolate were analyzed for single nucleotide variants (SNVs) and compared to genomic Illumina sequence data. Identical clone sequences were sorted into alleles, and diversity was further analyzed. The number of gFlHb gene copies was assessed by mining PacBio de novo assembled genomes in eight isolates. Homology models for assessment of SNV’s potential impact on protein function were created using Phyre2.
Results: A variable copy number of the gFlHb gene, between two and six copies, depending on isolate, was found. A total of 37 distinct sequences, representing different alleles of the gFlHb gene, were identified in AII isolates, and 41 were identified in B isolates. In some isolates, up to 12 different alleles were found. The total allelic diversity was high for both assemblages (> 0.9) and was coupled with a nucleotide diversity of < 0.01. The genetic variation (SNVs per CDS length) was 4.8% in sub-assemblage AII and 5.4% in assemblage B. The number of non-synonymous (ns) SNVs was high in gFIHb of both assemblages, 1.6% in A and 3.0% in B, respectively. Some of the identified nsSNV are predicted to alter protein structure and possibly function.
Conclusion: In this study, we present evidence that gFlHb, a putative protective enzyme against oxidative and nitrosative stress in Giardia, is a variable copy number gene with high allelic diversity. The genetic variability of gFlHb may contribute metabolic adaptability against metronidazole toxicity.Peer Reviewe
Heterologous expression of the filarial nematode alt gene products reveals their potential to inhibit immune function
BACKGROUND: Parasites exploit sophisticated strategies to evade host immunity that require both adaptation of existing genes and evolution of new gene families. We have addressed this question by testing the immunological function of novel genes from helminth parasites, in which conventional transgenesis is not yet possible. We investigated two such novel genes from Brugia malayi termed abundant larval transcript (alt), expression of which reaches ~5% of total transcript at the time parasites enter the human host. RESULTS: To test the hypothesis that ALT proteins modulate host immunity, we adopted an alternative transfection strategy to express these products in the protozoan parasite Leishmania mexicana. We then followed the course of infection in vitro in macrophages and in vivo in mice. Expression of ALT proteins, but not a truncated mutant, conferred greater infectivity of macrophages in vitro, reaching 3-fold higher parasite densities. alt-transfected parasites also caused accelerated disease in vivo, and fewer mice were able to clear infection of organisms expressing ALT. alt-transfected parasites were more resistant to IFN-γ-induced killing by macrophages. Expression profiling of macrophages infected with transgenic L. mexicana revealed consistently higher levels of GATA-3 and SOCS-1 transcripts, both associated with the Th2-type response observed in in vivo filarial infection. CONCLUSION: Leishmania transfection is a tractable and informative approach to determining immunological functions of single genes from heterologous organisms. In the case of the filarial ALT proteins, our data suggest that they may participate in the Th2 bias observed in the response to parasite infection by modulating cytokine-induced signalling within immune system cells
Genetic Evidence of Functional Ficolin-2 Haplotype as Susceptibility Factor in Cutaneous Leishmaniasis
Background: Ficolin-2 coded by FCN2 gene is a soluble serum protein that plays an important role in innate immunity. In this study, we analyzed five functional polymorphisms of the FCN2 gene for their possible association with cutaneous leishmaniasis. Methods: Initially we screened 40 Syrian Arabs for the entire FCN2 gene. We investigated the contribution of FCN2 functional variants in 226 patients with cutaneous leishmaniasis and 286 healthy controls from Syria. Polymorphisms in the promoter regions (2986G/A, 2602G/A, 24A/G) of the FCN2 gene were assessed by TaqMan real time PCR, whereas polymorphisms in exon8 (+6359C/T and +6424G/T) were assessed by DNA sequencing. We also measured serum ficolin-2 levels in 70 control Syrian Arabs and correlated the serum concentrations to FCN2 genotypes and haplotypes respectively. Results: Nine new FCN2 variants including two with non synonymous substitutions in exon6 and exon8 were observed. The homozygous genotypes +6424T/T were distributed more in controls and none in patients (P = 0.04). The AGACG haplotype were observed more in patients than in controls (OR = 2.0, 95%CI 1.2–3.4, P = 0.006). The serum ficolin-2 levels were significantly distributed among the reconstructed ficolin-2 haplotypes (P,0.008) and the haplotype AGACG was observed with higher ficolin-2 levels in 70 control individuals. Conclusion: Our results demonstrate a significant association of FCN2 AGACG haplotype with cutaneous leishmaniasis in a Syrian Arab population. These first results provide a basis for a future study that could confirm or disprove possibl
Non‐Toxic Glycosylated Gold Nanoparticle‐Amphotericin B Conjugates Reduce Biofilms and Intracellular Burden of Fungi and Parasites
Infections by intracellular pathogens cause significant morbidity and mortality due to lack of efficient drug delivery. Amphotericin B, currently used to treat leish maniasis and cryptococcosis, is very toxic and cannot eradicate intracellular Cryptococcus neoformans (C. neoformans). Glycosylated gold nanoparticles are water dispersible and biocompatible with very little toxici ty. While amphotericin B is insoluble in water at neutral pH, conjugates of amphotericin B and ultra-small gold nanoparticles (AuNP) are better dispersible in water. Amphotericin B conjugated glycosylated gold nanoparticles (AmpoB@AuNP) are more efficacious in treating both extracellular and intracellular forms of Leishmania mexicana (L. mexicana) than amphotericin B alone. In addition, AmpoB@AuNP are effective in reducing C. neoformans biofilms by 80% and intracellular C. neoformans burden by >90%. Furthermore, AmpoB@AuNP are not haemolytic at 50 mu g mL(-1) and are significantly less toxic to murine macrophages than amphotericin B. Ultra-small AuNPs are attractive delivery agents to treat intracellular infections and AmpoB@AuNP may be useful for treating C. neoformans infections in immunocompromised patients
insights by genetic characterization
Background Giardia duodenalis is a common flagellated protozoan parasite that
infects the small intestine of a wide range of vertebrate hosts. This study
aimed to determine whether tracing of G. duodenalis isolates by current
genetic typing tools is possible using an exemplary set of samples from
infected cattle, buffalo and children from the Ismailia province, Egypt.
Method A total of 804 fecal samples from ruminant animals was collected from
191 herds and 165 samples from diarrheal children below the age of 10 years.
Parasites were detected in these samples using the copro-antigen RIDA®QUICK
test and by real-time PCR. Samples were then genetically characterized based
on the triosephosphate isomerase, glutamate dehydrogenase and β-giardin genes.
Results The prevalence of G. duodenalis was 53% in ruminants and 21% in
symptomatic children and infection was not positively correlated with
diarrheal symptoms. Sequence typing analysis confirmed predominance of B-type
sequences (>67%) in humans and E-type sequences (>81%) in ruminants over
A-type sequences. For 39 samples the complete sequence information of the
three marker gene fragments could be derived. Integration of the concatenated
sequence information of the three marker gene fragments with the spatial data
of the respective sample revealed that identical or near identical (only up to
1 out of 1358 bp different) concatenated sequencing types were spatially
related in 4 out of 5 cases. Conclusion The risk of zoonotic infection
emanating from ruminants even in high prevalence areas is negligible. Genetic
characterization indicated a predominant anthropogenic cycle of infection
within the pediatric population studied. Integration of sequence typing data
with information on geographic origins of samples allows parasite sub-
population tracing using current typing tools
Epidemiology of Giardia duodenalis infection in ruminant livestock and children in the Ismailia province of Egypt: insights by genetic characterization
Background: Giardia duodenalis is a common flagellated protozoan parasite that infects the small intestine of a wide range of vertebrate hosts. This study aimed to determine whether tracing of G. duodenalis isolates by current genetic typing tools is possible using an exemplary set of samples from infected cattle, buffalo and children from the Ismailia province, Egypt. Method: A total of 804 fecal samples from ruminant animals was collected from 191 herds and 165 samples from diarrheal children below the age of 10 years. Parasites were detected in these samples using the copro-antigen RIDA®QUICK test and by real-time PCR. Samples were then genetically characterized based on the triosephosphate isomerase, glutamate dehydrogenase and β-giardin genes. Results: The prevalence of G. duodenalis was 53% in ruminants and 21% in symptomatic children and infection was not positively correlated with diarrheal symptoms. Sequence typing analysis confirmed predominance of B-type sequences (>67%) in humans and E-type sequences (>81%) in ruminants over A-type sequences. For 39 samples the complete sequence information of the three marker gene fragments could be derived. Integration of the concatenated sequence information of the three marker gene fragments with the spatial data of the respective sample revealed that identical or near identical (only up to 1 out of 1358 bp different) concatenated sequencing types were spatially related in 4 out of 5 cases. Conclusion: The risk of zoonotic infection emanating from ruminants even in high prevalence areas is negligible. Genetic characterization indicated a predominant anthropogenic cycle of infection within the pediatric population studied. Integration of sequence typing data with information on geographic origins of samples allows parasite sub-population tracing using current typing tools
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