Claire Chevaleyre

Early immune response following Salmonella enterica subspecies enterica serovar Typhimurium infection in porcine jejunal gut loops

Salmonella enterica subspecies enterica serovar Typhimurium, commonly called S. Typhimurium, can cause intestinal infections in humans and various animal species such as swine. To analyze the host response to Salmonella infection in the pig we used an in vivo gut loop model, which allows the analysis of multiple immune responses within the same animal. Four jejunal gut-loops were each inoculated with 3×108 cfu of S. Typhimurium in 3 one-month-old piglets and mRNA expressions of various cytokines, chemokines, transcription factors, antimicrobial peptides, toll like and chemokine receptors were assessed by quantitative real-time PCR in the Peyer’s patch and the gut wall after 24 h. Several genes such as the newly cloned CCRL1/CCX-CKR were assessed for the first time in the pig at the mRNA level. Pro-inflammatory and T-helper type-1 (Th1) cytokine mRNA were expressed at higher levels in infected compared to non-infected control loops. Similarly, some B cell activation genes, NOD2 and toll like receptor 2 and 4 transcripts were more expressed in both tissues while TLR5 mRNA was down-regulated. Interestingly, CCL25 mRNA expression as well as the mRNA expressions of its receptors CCR9 and CCRL1 were decreased both in the Peyer’s patch and gut wall suggesting a potential Salmonella strategy to reduce lymphocyte homing to the intestine. In conclusion, these results provide insight into the porcine innate mucosal immune response to infection with entero-invasive microorganisms such as S. Typhimurium. In the future, this knowledge should help in the development of improved prophylactic and therapeutic approaches against porcine intestinal S. Typhimurium infections.

Differential Recruitment of T- and IgA B-lymphocytes in the Developing Mammary Gland in Relation to Homing Receptors and Vascular Addressins

The mammary gland (MG) develops new vasculature and is colonized by lymphocytes, primarily T-cells, during pregnancy. In contrast, during lactation it is colonized primarily by IgA-containing B-cells (c-IgA cells). To explain this difference, we analyzed the spatiotemporal relationships between lymphocytes that expressed peripheral or mucosal homing receptors (HR) and the location of their vascular counterreceptors using quantitative immunohistochemical techniques. We observed that the density of β7+/CD3+ T-cells varied with the amount of the mucosal addressin cell adhesion molecule-1 (MAdCAM-1)-stained area. Both increased during pregnancy to peak at delivery, decreased rapidly in early lactation to a steady level in mid- and late lactation, and returned to resting values after weaning. Although 60% of these β7 +/CD3+ T-cells scattered in the epithelium co-expressed αEβ7, whereas the remaining 40% in association with blood vessels were α4β7, these results are consistent with a role of MAdCAM-1 in the localization of α4β7 + T-cells. In contrast to T-cells, β7 +/c-IgA+ B plasmablasts (∼ 30% of total c-IgA cells) were located at the alveolar confluence, and their numbers increased in mid- and late lactation when MAdCAM-1 density plateaued. However, both T-and B-cells decreased after weaning. These results show an association between MAdCAM-1 expression level and recruitment of T-cells that does not hold for c-IgA B cells. Furthermore, the recruitment and accumulation of α4β7 + c-IgA cells are reminiscent of locally produced chemoattractants.

Expression and Immunogenicity of the Mycobacterial Ag85B/ESAT-6 Antigens Produced in Transgenic Plants by Elastin-Like Peptide Fusion Strategy

This study explored a novel system combining plant-based production and the elastin-like peptide (ELP) fusion strategy to produce vaccinal antigens against tuberculosis. Transgenic tobacco plants expressing the mycobacterial antigens Ag85B and ESAT-6 fused to ELP (TBAg-ELP) were generated. Purified TBAg-ELP was obtained by the highly efficient, cost-effective, inverse transition cycling (ICT) method and tested in mice. Furthermore, safety and immunogenicity of the crude tobacco leaf extracts were assessed in piglets. Antibodies recognizing mycobacterial antigens were produced in mice and piglets. A T-cell immune response able to recognize the native mycobacterial antigens was detected in mice. These findings showed that the native Ag85B and ESAT-6 mycobacterial B- and T-cell epitopes were conserved in the plant-expressed TBAg-ELP. This study presents the first results of an efficient plant-expression system, relying on the elastin-like peptide fusion strategy, to produce a safe and immunogenic mycobacterial Ag85B-ESAT-6 fusion protein as a potential vaccine candidate against tuberculosis.

New insights into the dual recruitment of IgA+ B cells in the developing mammary gland.

In monogastric mammals, transfer of passive immunity via milk and colostrum plays an important role in protecting the neonate against mucosal infections. Here we analyzed the hypothesis that during gestation/lactation IgA+ plasmablasts leave the intestinal and respiratory surfaces towards the mammary gland (MG). We compared the recruitment of lymphocytes expressing homing receptors alpha4beta1 and alpha4beta7 to expression of their vascular counter-receptors, VCAM-1 and MAdCAM-1. Furthermore, the expression of the chemokines responsible for the recruitment of IgA+ plasmablasts was analyzed. Data confirmed that expressions of CCL28 and MAdCAM-1 in the MG increased during pregnancy and alpha4beta1+ and alpha4beta7+/IgA+ cell recruitment in lactation correlated with increase of CCL28 expression. Interestingly, VCAM-1 expression was found in small blood vessels of the lactating porcine MG, while in mice VCAM-1 was expressed in large blood vessels within the MG. Thus, our results indicate that the recruitment of IgA+ plasmablasts to MG is mediated by VCAM-1/alpha4beta1 and MAdCAM-1/alpha4beta7 in conjunction with CCL28/CCR10. They support the existence of a functional link between entero- and upper respiratory surfaces and MG, thereby, conferring protection against aero-digestive pathogens in the newborn.

T and IgA B Lymphocytes of the Pharyngeal and Palatine Tonsils: Differential Expression of Adhesion Molecules and Chemokines

The pharyngeal (Ph) and palatine (Pa) tonsils, although located in different regions of the upper aero‐digestive tract (UADT), are thought to protect the respiratory tract similarly against infections by inducing and disseminating T and surface IgA+ (sIgA+) B cells. We investigated the factors controlling the migratory properties of T and sIgA+ B lymphocytes in the UADT of pigs by comparing the expression of vascular addressins, homing receptors and chemokine transcripts in Ph/Pa tonsils, Peyers patches (PP) and their draining lymph nodes (LN). The vascular addressin PNAd was detected on high endothelial venules in both tonsils, whereas mucosal addressin cell adhesion molecule‐1, otherwise present in PP and mesenteric LN, was not detected. More importantly, the vascular cell adhesion molecule‐1 (VCAM‐1) addressin was present in Ph tonsil and LN but neither in Pa tonsil nor in PP vascular cells, whereas both T and sIgA+ B lymphocytes displayed similar levels of α4β1high integrin, the ligand of VCAM‐1. Analysis of transcript levels for several lymphoid (CCL19, CXCL12 and CCL21) and epithelial chemokines also demonstrated opposite chemokine mRNA ratios for Ph tonsil (CCL28 > CCL25) and PP, with Pa tonsil expressing very low levels of CCL28. Collectively, these data indicate that the differential compartmentalization of sIgA+ lymphocytes between Pa and Ph tonsils may partly result from the differential expression of VCAM‐1 and CCL28. They also suggest that tonsillar addressins and epithelial chemokines, rather than the cells intravasating it, control the regionalization of sIgA+ lymphocytes in the UADT.

Saccharomyces cerevisiae decreases inflammatory responses induced by F4+ enterotoxigenic Escherichia coli in porcine intestinal epithelial cells

Probiotic yeasts may provide protection against intestinal inflammation induced by enteric pathogens. In piglets, infection with F4+ enterotoxigenic Escherichia coli (ETEC) leads to inflammation, diarrhea and intestinal damage. In this study, we investigated whether the yeast strains Saccharomyces cerevisiae (Sc, strain CNCM I-3856) and S. cerevisiae variety boulardii (Sb, strain CNCM I-3799) decreased the expression of pro-inflammatory cytokines and chemokines in intestinal epithelial IPI-2I cells cultured with F4+ ETEC. Results showed that viable Sc inhibited the ETEC-induced TNF-α gene expression whereas Sb did not. In contrast, killed Sc failed to inhibit the expression of pro-inflammatory genes. This inhibition was dependent on secreted soluble factors. Sc culture supernatant decreased the TNF-α, IL-1α, IL-6, IL-8, CXCL2 and CCL20 ETEC-induced mRNA. Furthermore, Sc culture supernatant filtrated fraction < 10 kDa displayed the same effects excepted for TNF-α. Thus, our results extended to Sc (strain CNCM I-3856) the inhibitory effects of some probiotic yeast strains onto inflammation.

Ultra-early weaning in piglets results in low serum IgA concentration and IL17 mRNA expression

In pigs raised for meat production, weaning is a critical period because of related physiological perturbations and negative consequences on performance. Previous studies have shown that early weaning could either impair development of mucosal barrier function or boost intestinal immunologic parameters. In order to obtain further knowledge about the impact of ultra-early weaning on the porcine immune system development, three groups of piglets were weaned at different ages and compared to the unweaned control group. Lower IgA concentrations in ultra-early and early weaned piglets than in other piglets were identified in serum. In the mesenteric lymph node (MLN), significant differences in the mRNA expression of IL17a, TGF beta and FOXP3 were found between specific groups. Indeed, IL17a mRNA was mainly detected in ultra-early weaned piglets while FOXP3 and TGF beta mRNA were associated to both ultra-early weaned and suckling piglets. Reduced serum IgA concentration and MLN induction of a Th17 cytokine in ultra-early weaned piglets could be related to alterations of the mucosal barrier functions consecutive to the milk deprivation. All together, our findings suggest a crucial role for endogenous milk factors onto the onset of IgA synthesis.

Differential expression of adhesion molecules and chemokines between nasal and small intestinal mucosae: implications for T- and sIgA+ B-lymphocyte recruitment

Nasal and small intestinal mucosae are the first sites of contact with infectious agents and the sites of T‐cell‐mediated and secreted immunoglobulin A (IgA)‐mediated defences against pathogens. We investigated the factors controlling the infiltration of CD3+ T lymphocytes and surface IgA+ (sIgA+) B lymphocytes into swine epithelium and lamina propria (LP) within and between these two mucosal effector sites. Vascular addressins, vascular cell adhesion molecule 1 and mucosal addressin cell adhesion molecule‐1 were reciprocally expressed in both mucosae. Strong expression of α4β1 relative to α4β7 was characteristic of CD3+ T cells in nasal mucosa LP and epithelium and of sIgA+ cells in nasal mucosa epithelium. The same profile was observed on corresponding blood cells. Conversely, higher levels of integrins β7 and α4β7 than α4β1 were characteristic of CD3+ T cells and sIgA+ cells in the small intestine. However, about 40% of the LP‐activated sIgA+ cells displayed sIgAhigh, integrin α4 and integrin α4 expression. Whereas CCL19, CXCL12, CCL21 and CCL28 messenger RNAs were similarly expressed in both mucosae, CCL25 messenger RNA was only expressed in the small intestine. Thus, the nasal and small intestine mucosae represent separate compartments for infiltration by CD3+ T cells and sIgA+ effector cells, with the exception of a population of small intestine activated sIgA+ cells, which may gain access to both mucosae.

Identification in milk of a serum amyloid A peptide chemoattractant for B lymphoblasts

BackgroundNormal mammary gland contains an extravascular population of B lymphoblasts, precursors of the immunoglobulin plasma cells that play a key role in the passive protection of neonates by secreting immunoglobulins to colostrum and milk. We investigated the presence of chemoattractants in the milk by analysing the chemoattractant activity of various fractions of this secretion. Milk chemoattractants are potentially involved in the recruitment of lymphocytes from the maternal bloodstream in lactating mammary glands.ResultsThe dilution-related lymphoid cell chemoattraction of whey was associated with a < 10 kDa ultrafiltrate. Active fractions were purified by reverse-phase high performance liquid chromatography. Two peptides of 2.7 kDa (DMREANYKNSDKYFHARGNYDAA) and 1 kDa (RPPGLPDKY) were identified as fragments of the SAA protein family, tentatively identified as SAA2. Only the 2.7 kDa synthetic peptide displayed chemotactic activity, at two different optimal concentrations. At the lower concentration (3.7 nM), it attracted B-cell lymphoblasts, whereas at the higher (3.7 μM), it attracted B lymphocytes. Then, the SAA mRNA expression was analysed and we observed more SAA transcripts during lactation than gestation.ConclusionThese data are consistent with the SAA23–45 fragment being involved in preplasma B-cell recruitment to the mammary gland and resultant benefit to the neonate.

Effects of dietary yeast strains on immunoglobulin in colostrum and milk of sows

The ban of antibiotic growth promoters in pig diet required the development of alternative strategies and reinforced the importance of maternal immunity to protect neonates from intestinal disorders. Milk from sows fed active dry yeasts during gestation and lactation exhibited higher immunoglobulin (Ig) and protein content in milk at day 21 of lactation. In this study, we investigated whether the administration of Saccharomyces cerevisiae strains of various origins (Sc01, Sc02, Sb03) to sows during late gestation and lactation could induce higher Ig content in colostrum and milk. Results show that yeast supplementation did not increase significantly sow body weight at days 112 of gestation and 18 of lactation as well as piglet body weight gain from birth to weaning. In contrast, the IgG level in colostrum was increased in comparison with the control group when sows were supplemented with Sc01 at both 0.05 and 0.5% (p<0.05) and Sb03 at 0.5% (p<0.01). During the lactation, the level of milk IgG remained significantly higher in comparison with the control group when sows were supplemented with Sc02 at 0.05% and 0.5% and with Sb03 at 0.5%. Furthermore, in comparison with the control sows, the level of milk IgA was significantly maintained in sows supplemented with the 3 yeast strains at 0.05%. The incidence of piglet diarrhoea was decreased in groups Sc01 at both 0.05% and 0.5% and Sc02 at 0.05%. Thus, these results show that the 3 yeast strains display immunostimulatory effects on maternal immunity, but only Sc01 supplementation at 0.05% allowed jointly the increase of IgG level in colostrum, the maintenance of IgA level in milk and the decrease of piglet diarrhoea incidence. This stimulation of maternal immunity could be associated with a better systemic (colostrum IgG) and local (milk IgA) protection of neonates and suggests that dietary yeasts may have stimulated the local gut immune system of sows.