Intestinal CD103+ Dendritic Cells Are Key Players in the Innate Immune Control of Cryptosporidium parvum Infection in Neonatal Mice

Lantier, Louis; Lacroix‐Lamandé, Sonia; Potiron, Laurent; Metton, Coralie; Drouet, Françoise; Guesdon, William; Gnahoui-David, Audrey; Vern, Yves Le; Dériaud, Edith; Fenis, Aurore; Rabot, Sylvie; Descamps, Amandine; Werts, Catherine; Laurent, Fabrice

doi:10.1371/journal.ppat.1003801

Cited by 85 publications

(110 citation statements)

References 56 publications

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“…But as shown in the current report, ϩ DC loaded with OVA can exhibit a classical DC function and initiate a significant immune response in the MLN (37). The importance of CD103 ϩ DC in the mucosal immune response against an oral pathogen is further emphasized by a very recent study using a neonate model of C. parvum infection (50). In agreement with these observations, we demonstrate in this study that LP CD103 ϩ CD11b Ϫ CD8 ϩ DC are able to traffic to the MLN and that S1P blockade inhibits this process.…”

Section: Discussionmentioning

confidence: 52%

Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

et al. 2015

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Microsporidia, which belong to the kingdom Fungi, are important opportunistic pathogens in HIV-infected populations and organ transplant recipients that are often associated with a broad range of symptoms, such as diarrhea, nephritis, and encephalitis. Natural infection occurs via the oral route, and as a consequence, gut immunity plays an important role in restricting the dissemination of these pathogens. Studies from our laboratory have reported that the pathogens induce a rapid intraepithelial lymphocyte (IEL) response important for host protection. Although mucosal dendritic cells (DC) are likely involved in triggering an antigen-specific IEL response, the specific subset(s) responsible has yet to be identified. Toward this goal, we demonstrate a very important role for mucosal CD11b ؊ CD8 ؉ DC in the initiation of an antigen-specific IEL in vivo. Effectively, after Encephalitozoon cuniculi infection, CD11b؊ CD8 ؉ DC were activated in the lamina propria (LP) and acquired the ability to process retinoic acid (RA). However, this subset did not produce interleukin 12 (IL-12) but upregulated CD103, which is essential for migration to the mesenteric lymph nodes (MLN). Interestingly, CD103؉ CD11b ؊ CD8 ؉ DC in the MLN, in addition to processing RA, also secreted IL-12 and were responsible for gut imprinting specificity on mucosal CD8 T cells. To the best of our knowledge, this is the first report describing the importance of MLN CD103 ؉ CD11b ؊ CD8 ؉ DC isolated from infected animals in the generation of an IEL response against a live pathogen. Human microsporidiosis is an opportunistic infection caused by a spore-forming unicellular eukaryote related to fungi, most specifically zygomycetes (1). Of the 14 species infecting humans, Enterocytozoon bieneusi, Encephalitozoon intestinalis, Encephalitozoon cuniculi, and Encephalitozoon hellem are the most common (2). The incidence of microsporidia in HIV patients remains very high, especially in places such as Russia, Venezuela, and Thailand, where microsporidium prevalence ranges from 13 to 80% (3-5). Lately, it has been reported that microsporidial infections can cause complications in non-HIV populations, especially those receiving organ transplants (6-9). In a very recent study, Kotkova et al. demonstrated that microsporidiosis was probably a latent infection, which could reactivate in an immunocompromised situation, further highlighting the importance of studying the immune response against this ubiquitous pathogen (10). An experimental murine model using E. cuniculi mimics the human infection and has commonly been used to investigate the host immune response (11). Most microsporidial species are acquired by ingesting contaminated water or food, and the gut immunity to this pathogen still remains cryptic. Intraepithelial lymphocytes (IEL) form one of the first lines of immune defense in the gut tissue (12), and their protective role against various pathogens has been reported (13-16). Previous studies from our laboratory demonstrated early and rapid induction of th...

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Section: Discussionmentioning

confidence: 52%

Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

et al. 2015

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“…ϩ DCs rather than CD103 ϩ DCs have been consistently observed to sample the intestinal luminal content by extending TEDs (56)(57)(58). Recently, CD103…”

Section: Discussionmentioning

confidence: 99%

“…ϩ DCs have been shown to be capable of efficiently sampling luminal bacteria by using their intraepithelial dendrites and then migrating into the mesenteric lymph nodes (57,59). In the lung, CD103…”

Section: Discussionmentioning

confidence: 99%

CpG Oligodeoxynucleotides Facilitate Delivery of Whole Inactivated H9N2 Influenza Virus via Transepithelial Dendrites of Dendritic Cells in Nasal Mucosa

Qin

Yin

et al. 2015

J Virol

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The spread of the low-pathogenicity avian H9N2 influenza virus has seriously increased the risk of a new influenza pandemic. Although whole inactivated virus (WIV) vaccine via intranasal pathway is the effective method of blocking virus transmission, the mucosal barrier seems to be a major factor hampering its development. CpG oligodeoxynucleotides, a known adjuvant, can target downstream dendritic cells (DCs) and effectively enhance the mucosal and systemic immune responses. However, the ability of CpGs to assist H9N2 WIV in transepithelial transport remains unknown. Here, in vitro and in vivo, we showed that CpGs provided assistance for H9N2 WIV in recruiting DCs to the nasal epithelial cells (ECs) and forming transepithelial dendrites (TEDs) to capture luminal viruses. CD103؉ DCs participated in this process. Chemokine CCL20 from nasal ECs played a key role in driving DC recruitment and TED formation. Virus-loaded DCs quickly migrated into the draining cervical lymph nodes (CLNs) for antigen presentation. In addition, the competence of CpGs was independent of direct epithelial transport via the transcellular or paracellular pathway. Taken together, our data demonstrated that CpGs enhanced the transport of H9N2 WIV via TEDs of nasal DCs, which might be a novel mechanism for optimal adaptive immune responses. IMPORTANCE This paper demonstrates by both an in vivo and an in vitro coculture model that CpG oligodeoxynucleotides, known as an adjuvant generally targeting downstream immune responses, also are crucial for the transport of H9N2 WIV across nasal epithelial cells (ECs) via the uptake of transepithelial dendrites (TEDs).Our results prove for the first time to our knowledge that the immune-potentiating mechanism of CpGs is based on strengthening the transepithelial uptake of H9N2 WIV in nasal mucosa. These findings provide a fresh perspective for further improvement of intranasal influenza vaccines, which are urgently needed in the face of the potential threat of H9N2 influenza.T he prevention and control of influenza are becoming more and more urgent, especially given the recent avian influenza A (H7N9) outbreaks in China (1). This subtype is primarily reassorted with enzootic H9N2 viruses that have circulated widely among birds in the Far East and the Middle East since the late 1990s (2). Based on their safety profile, high immunogenicity, and the capability of establishing cross-protection at the pathogen's entry site and interrupting viral transmission (3-6), whole inactivated H9N2 influenza vaccines given via intranasal (i.n.) immunization are very effective for virus elimination. Nonetheless, the efficacy of intranasal immunization is currently poor, primarily because of the physiology of the nasal cavity. Antigens have to find their way to overcome a series of barriers (mucus, cilia, and compact epithelium) before they are absorbed into the body (7). Numerous studies have attempted to improve the effect of i.n. whole inactivated virus (WIV) influenza vaccines by using mucoadhesive particulate...

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“…The age-dependent susceptibility to this intestinal infection is associated with incomplete colonization of the lamina propria by various types of immune cells, including dendritic cells (DCs), macrophages and T lymphocytes, and low basal levels of the type II interferon required to prevent parasite development in epithelial cells. 3- 5 We recently highlighted the importance of innate immunity for control of the acute phase of this infection in neonatal mice, with intestinal DCs, which are massively recruited during infection, playing a particularly crucial role. 5 During infection, immune responses are generally triggered by the recognition of microbial molecules by cellular sensors known as pattern recognition receptors (PRR), such as Toll-like receptors (TLRs), Nod-like receptors (NLRs) and helicases.…”

Section: Introductionmentioning

confidence: 99%

“…3- 5 We recently highlighted the importance of innate immunity for control of the acute phase of this infection in neonatal mice, with intestinal DCs, which are massively recruited during infection, playing a particularly crucial role. 5 During infection, immune responses are generally triggered by the recognition of microbial molecules by cellular sensors known as pattern recognition receptors (PRR), such as Toll-like receptors (TLRs), Nod-like receptors (NLRs) and helicases. In the intestine, these innate receptors are expressed on intestinal epithelial cells and on immune cells, such as mononuclear phagocytes.…”

Section: Introductionmentioning

confidence: 99%

The gut flora is required for the control of intestinal infection by poly(I:C) administration in neonates

et al. 2014

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We found that immunostimulation of the intestinal immune system of neonatal mice by poly(I:C) injection decreased intestinal infection by the parasite Cryptosporidium parvum. We showed that the presence of dendritic cells and the cooperation of mutually dependent cytokines, such as IL-12p40, and type I and type II IFNs, were involved in the mechanism of protection induced by poly(I:C). This protection is dependent not only on TLR3-TRIF signaling, but also on the activation of the TLR5-MyD88 pathway by gut microbiota. These results raise the possibility that flagellated intestinal commensal bacteria may, in the presence of natural or synthetic agonists of TLR3, provide synergy between the TRIF and MyD88 signaling pathways, thereby favoring the development of mucosal defenses. In this addendum, we summarize these recent findings and discuss their implications for neonatal infections and immunomodulatory strategies.

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Intestinal CD103+ Dendritic Cells Are Key Players in the Innate Immune Control of Cryptosporidium parvum Infection in Neonatal Mice

Cited by 85 publications

References 56 publications

Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

CpG Oligodeoxynucleotides Facilitate Delivery of Whole Inactivated H9N2 Influenza Virus via Transepithelial Dendrites of Dendritic Cells in Nasal Mucosa

The gut flora is required for the control of intestinal infection by poly(I:C) administration in neonates

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Intestinal CD103+ Dendritic Cells Are Key Players in the Innate Immune Control of Cryptosporidium parvum Infection in Neonatal Mice

Cited by 85 publications

References 56 publications

Interleukin-12-Producing CD103+CD11b−CD8+Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

Interleukin-12-Producing CD103+CD11b−CD8+Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

CpG Oligodeoxynucleotides Facilitate Delivery of Whole Inactivated H9N2 Influenza Virus via Transepithelial Dendrites of Dendritic Cells in Nasal Mucosa

The gut flora is required for the control of intestinal infection by poly(I:C) administration in neonates

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Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi

Interleukin-12-Producing CD103⁺CD11b⁻CD8⁺Dendritic Cells Are Responsible for Eliciting Gut Intraepithelial Lymphocyte Response against Encephalitozoon cuniculi