PCR-based detection of Helicobacter spp. in animal facilities of a University in Rio de Janeiro, Brazil.

Pathogenic microbial detection and control in laboratory animal facilities is essential to guarantee animal welfare, data validity and reproducibility. Helicobacter spp. are known to affect mice health, what may interfere with experimental outcomes. This study aimed to screen for Helicobacter spp. in mice from animal facilities in Rio de Janeiro, Brazil using a PCR-based method. Primers designed to specifically identify Helicobacter spp. were used to amplify feces or intestine DNA extracted of mice from four different animal facilities. The expected 375 base pairs (bp) amplicon was purified, sequenced and a similarity of 95% was observed when compared to deposited sequences of H. hepaticus and H. bilis. In our screening, Helicobacter spp. was detected in ~59% of fecal and ~70% of intestine samples. Our study is the first to screen for Helicobacter spp. in mouse facilities of a Rio de Janeiro University using a low cost, rapid molecular diagnostic test. Although Helicobacter spp. screening is not mandatory according to Brazilian animal welfare regulation it is recommended by institutional animal health monitoring programs guidelines worldwide, including ARRIVE, AAALAC and FELASA.

The re-emergency and persistence of vaccine preventable diseases.

The introduction of vaccination worldwide dramatically reduced the incidence of pathogenic bacterial and viral diseases. Despite the highly successful vaccination strategies, the number of cases among vaccine preventable diseases has increased in the last decade and several of those diseases are still endemic in different countries. Here we discuss some epidemiological aspects and possible arguments that may explain why ancient diseases such as, measles, polio, pertussis, diphtheria and tuberculosis are still with us.

NOD1 and NOD2 Signaling in Infection and Inflammation.

Sensing intracellular pathogens is a process mediated by innate immune cells that is crucial for the induction of inflammatory processes and effective adaptive immune responses against pathogenic microbes. NOD-like receptors (NLRs) comprise a family of intracellular pattern recognition receptors that are important for the recognition of damage and microbial-associated molecular patterns. NOD1 and NOD2 are specialized NLRs that participate in the recognition of a subset of pathogenic microorganisms that are able to invade and multiply intracellularly. Once activated, these molecules trigger intracellular signaling pathways that lead to the activation of transcriptional responses culminating in the expression of a subset of inflammatory genes. In this review, we will focus on the role of NOD1 and NOD2 in the recognition and response to intracellular pathogens, including Gram-positive and Gram-negative bacteria, and on their ability to signal in response to non-peptidoglycan-containing pathogens, such as viruses and protozoan parasites.

Arginase-1 expression in granulomas of tuberculosis patients.

Mycobacterium tuberculosis (Mtb) is an intracellular pathogen able to survive and multiply within macrophages. Several mechanisms allow this bacterium to escape macrophage microbicidal activity. Mtb may interfere with the ability of mouse macrophages to produce antibactericidal nitric oxide, by inducing the expression of arginase 1 (Arg1). It remains unclear whether this pathway has a role in humans infected with Mtb. In this study, we investigated the expression of Arg1 in granulomas of human lung tissues from patients with tuberculosis. We show that Arg1 is expressed not only in granuloma-associated macrophages, but also in type II pneumocytes.

Caspase-7 deficiency protects from endotoxin-induced lymphocyte apoptosis and improves survival.

Extensive apoptosis of leukocytes during sepsis and endotoxic shock constitutes an important mechanism linked to the excessive mortality associated with these disorders. Caspase inhibitors confer protection from endotoxin-induced lymphocyte apoptosis and improve survival, but it is not clear which caspases mediate lipopolysaccharide (LPS)-induced lymphocyte apoptosis and mortality. We report here that the apoptotic executioner caspase-7 was activated in the splenocytes of LPS-injected mice, suggesting a role for caspase-7 in lymphocyte apoptosis. Indeed, caspase-7-deficient mice were resistant to LPS-induced lymphocyte apoptosis and were markedly protected from LPS-induced lethality independently of the excessive production of serum cytokines. These results reveal for the first time a nonredundant role for caspase-7 in vivo and identify caspase-7 inhibition as a component of the mechanism by which caspase inhibitors protect from endotoxin-induced mortality.

Modulation of adaptive immunity by different adjuvant-antigen combinations in mice lacking Nod2.

The mechanisms underlying adjuvant effects are under renewed scrutiny because of the enormous implications for vaccine development. Additionally, new low-toxicity adjuvants are sought to enhance vaccine formulations. Muramyl dipeptide (MDP) is a component of the peptidoglycan polymer and was shown to be an active but low-toxicity component of complete Freund's adjuvant, a powerful adjuvant composed of mycobacteria lysates in an oil emulsion. MDP activates cells primarily via the cytosolic NLR family member Nod2 and is therefore linked to the ability of adjuvants to enhance antibody production. Accordingly, we tested the adjuvant properties of the MDP-Nod2 pathway. We found that MDP, compared to the TLR agonist lipopolysaccharide, has minimal adjuvant properties for antibody production under a variety of immunization conditions. We also observed that the oil emulsion incomplete Freund's adjuvant (IFA) supplanted the requirements for the TLR pathway independent of the antigen. Surprisingly, we observed that Nod2 was required for an optimal IgG1 and IgG2c response in the absence of exogenous TLR or NLR agonists. Collectively, our results argue that oil emulsions deserve greater attention for their immunostimulatory properties.

The TLR2-MyD88-NOD2-RIPK2 signalling axis regulates a balanced pro-inflammatory and IL-10-mediated anti-inflammatory cytokine response to Gram-positive cell walls.

Systemic infection with Streptococcus pneumoniae is associated with a vigorous pro-inflammatory response to structurally complex cell wall fragments (PnCW) that are shed during cell growth and antibiotic-induced autolysis. Consistent with previous studies, inflammatory cytokine production induced by PnCW was dependent on TLR2 but independent of NOD2, a cytoplasmic NLR protein. However, in parallel with the pro-inflammatory response, we found that PnCW also induced prodigious secretion of anti-inflammatory IL-10 from macrophages. This response was dependent on TLR2, but also involved NOD2 as absence of NOD2-reduced IL-10 secretion in response to cell wall and translated into diminished downstream effects on IL-10-regulated target gene expression. PnCW-mediated production of IL-10 via TLR2 required RIPK2 a kinase required for NOD2 function, and MyD88 but differed from that known for zymosan in that ERK pathway activation was not detected. As mutations in NOD2 are linked to aberrant immune responses, the temporal and quantitative effects of activation of the TLR2-NOD2-RIPK2 pathway on IL-10 secretion may affect the balance between pro- and anti-inflammatory responses to Gram-positive bacteria.

Influence of polarisation and differentiation on interaction of 43-kDa outer-membrane protein of Aeromonas caviae with human enterocyte-like Caco-2 cell line.

It has been recognised that adherence and invasion to host cells are important steps in the pathogenesis of entero-pathogenic bacteria, including Aeromonas caviae. However, the virulence factors of A. caviae remain, for the most part, poorly known. This study examined the interaction of A. caviae isolates to Caco-2 cells in different polarisation and differentiation conditions. The adherence of A. caviae may be related to accessibility of host cell basolateral receptors. Aggregative A. caviae isolates, grown at 22 degrees C, were more adherent in both non-polarised and undifferentiated Caco-2 cells and EGTA-treated polarised and differentiated Caco-2 cells. Furthermore, monolayers pre-incubated with 43-kDa outer-membrane protein (OMP) or A. caviae strains pre-incubated with rabbit IgG anti-43-kDa OMP decreased adherence of some A. caviae strains to EGTA-treated polarised and differentiated Caco-2 cells, suggesting an interaction of 43-kDa OMP with basolateral cell receptors. Bacterial cells were observed adhering to microvilli and to plasma membrane on both the apical and basal surfaces of the monolayer. Pedestal-like formation with cytoskeletal rearrangement was also observed. The bacteria entered the Caco-2 cells and were observed enclosed in single and multiple membrane-bound vacuoles within the host cell cytoplasm. Furthermore, A. caviae were observed free in the cytosol of Caco-2 cells, suggesting escape form cytoplasmatic vacuoles.