Investigation of intramacrophage stages of Burkholderia cenocepacia using a zebrafish model / Analyse des stades intramacrophagiques de la bactérie Burkholderia cenocepacia grâce à l'utilisation du poisson zèbre comme modèle d'infection

Zhang, Lili

09 November 2016

Les bactéries appartenant au complexe Burkholderia cepacia (Bcc) peuvent causer des infections pulmonaires dévastatrices chez les patients atteints de mucoviscidose. Les bactéries Bcc sont capables de survivre et se multiplier dans les macrophages in vitro. Des études cliniques ont confirmé que ces bactéries opportunistes se localisent au niveau des cellules phagocytaires et ne forment pas des biofilms dans les poumons des patients infectés comme on le croyait généralement. En utilisant le modèle d'infection zebrafish, nous avons établi précédemment que les macrophages constituent un site clé pour la réplication bactérienne et le développement de l'infection aiguë mortelle. Dans la présente étude, nous avons étudié le rôle des stades intracellulaires de B. cenocepacia en développant des nouvelles lignées transgéniques reportrices pour les études d’imagerie en temps réel, nous avons étudié le rôle de l'autophagie in vivo et analysé le profil « transcriptomique » des macrophages lors de l'infection par B. cenocepacia chez le poisson zèbre.En accord avec les études in vitro, nous avons constaté que la protéine « Microtubule-associated protein 1A/1B-light chain 3 » (Lc3), protéine clé dans l’autophagie, a été recrutée au niveau des vacuoles contenant B.cenocepacia K56-2. Nous avons observé en temps réel que les bactéries étaient capables de se répliquer dans ces organelles. Cependant la modulation de l'autophagie par voie génétique et pharmacologique n'a pas changé de manière significative le profil de réplication de B.cenocepacia K56-2 lors de l'infection. En dépit de la charge bactérienne inchangée, une baisse de l’autophagie était reliée avec une augmentation de la mortalité par rapport aux embryons de type sauvage. Ceci suggère une corrélation entre l'autophagie et l'inflammation, et nous proposons que la capacité de B. cenocepacia à arrêter la maturation des (auto) phagosomes et la présence de « cross-talk » entre l’autophagie d’une part et l’inflammasome de l’autre jouent un rôle important dans les réactions inflammatoires observées. Pour approfondir les connaissances sur le rôle des macrophages lors de l'infection aiguë, nous avons déterminé le profil transcriptomique des macrophages isolés à partir d'embryons de poisson zèbre infectés par B. cenocepacia après l'infection. Notre analyse bio-informatique a montré que la plupart des gènes surexprimés sont impliqués dans la signalisation de la réponse immunitaire, tandis que la plupart des gènes sous exprimés sont associés à la transcription et à la traduction. Nous avons confirmé l’activation de l’expression de tnfa dans les macrophages, et nous avons constaté que l'expression des cytokines cxcl8 et Il1b, induite par l'infection, ne dépendait pas de la signalisation par le récepteur TNFa, TNFRSF1A.Nos résultats contribuent à une meilleure compréhension de l'interaction entre B. cenocepacia et les macrophages in vivo, et peuvent contribuer à l’identification de nouvelles cibles pour le développement de thérapies anti-infectieuses pour lutter contre ces bactéries intracellulaires. / Opportunistic bacteria belonging to Burkholderia cepacia complex (Bcc) can cause devastating pulmonary infections in cystic fibrosis patients. These bacteria can survive and replicate in macrophages in vitro. Clinical evidence confirmed that the bacteria localize in phagocytic cells, and do not form biofilms in the lungs of infected patients as generally believed. Using a zebrafish infection model we established previously that macrophages are a critical site for bacterial replication and development of acute fatal infection. In the present study, we further explored the role of the intracellular stages of B. cenocepacia by developing new transgenic reporter lines for real time imaging of subcellular trafficking, studying in detail the role of autophagy in vivo, and performing host transcriptome analysis of FACS-sorted macrophages from zebrafish larvae infected with B. cenocepacia.In agreement with in vitro studies, we found that the autophagy related protein Microtubule-associated protein 1A/1B-light chain 3 (Lc3) was recruited to B. cenocepacia K56-2-containing vacuoles. Although not critical, using real time confocal microscopy, we observed that the bacteria were able to replicate in such organelles. Both genetic and pharmacological modulation of autophagy did not significantly change the replication profile of B. cenocepacia K56-2 during infection. However, reduction in autophagy resulted in more rapid embryo death compared to wild type embryos. This suggests an inverse correlation between autophagy and fatal inflammation, and we hypothesize that the ability of B. cenocepacia to arrest maturation of (auto)phagosomes, and cross talk between autophagy and inflammasome signaling pathways during B. cenocepacia infection play an important role in the observed inflammatory responses. This study further describes the host transcriptome profile of macrophages isolated from infected zebrafish embryos. Our bio-informatics analysis showed that most of the genes up-regulated during infection were involved in immune response signaling, while the major group of down-regulated genes was associated with transcription and translation. We experimentally confirmed rapidly increased expression of tnfa in macrophages, and found that infection-induced expression of the cytokines cxcl8 and il1b did not depend on signalling through the Tnfa receptor, Tnfrsf1a.Our results contribute to a better understanding of the interaction between B. cenocepacia and macrophages in vivo, and the zebrafish may help finding new targets for development of anti-infectious therapies to combat these intracellular bacteria.

Autophagie

Burkholderia cenocepacia

Poissons zebre

Maladies infectieuses

Bacteries intracellulaires

Autophagy

Burkholderia cenocepacia

Zebrafish

Infectious disease

Intracellular bacteria

Nitric Oxide Production: A Mechanism for Inhibition of Chlamydia Trachomatis Replication

Chen, Bojun

01 December 1993

Chlamydia trachomatis (CT) replicates in macrophages, but is inhibited by IFN-$\gamma$ or LPS. IFN-$\gamma$ and/or LPS induced nitrite production in mouse peritoneal macrophages, macrophage cell lines (RAW264.7 and J774A.1) and McCoy cells. Kinetic studies indicated that peak production occurred 48 hours post-treatment. CT infection itself was insufficient to induce nitrite production, but resulted in enhancement of nitrite production in IFN-$\gamma$-treated cells. Treatment with IFN-$\gamma$ or LPS resulted in significant inhibition of CT replication in these cells. Strong correlation between nitrite production and inhibition of CT replication was observed in RAW264.7 and J774A.1 cells (correlation coefficients: $-$0.93 and $-$0.94, p $<$ 0.001). N$\sp{\rm g}$- monomethyl-L-arginine (L-NMMA) specifically inhibited nitrite production and partially reversed inhibition of CT replication in macrophage cell lines. NOS mRNA was measured in RAW264.7 cells by Northern blot and Dot blot hybridization. Strong correlation between NOS mRNA expression and inhibition of CT replication (correlation coefficient: $-$0.97, p $<$ 0.05) was observed. Anti-TNF-$\alpha$ antibody completely neutralized the biological activity of TNF-$\alpha$ secreted by LPS-treated RAW264.7 cells, yet the antibody neither reduced nitrite production nor restored CT replication. Combination of the antibody and L-NMMA significantly enhanced restoration of CT replication. In peritoneal macrophages, inhibition of CT replication induced by IFN-$\gamma$ was partially restored by L-NMMA or anti-TNF-$\alpha$ antibody. In McCoy cells, inhibition of CT replication induced by IFN-$\gamma$ and LPS was not significantly restored by L-NMMA. Great restoration of CT replication by 1 mM L-NMMA was observed in LPS-treated J774A.1 cells (31%), but not in IFN-$\gamma$-treated cells (5%). Our data indicate that (1) NO production is one of the mechanisms for inhibition of CT replication in IFN-$\gamma$-activated peritoneal macrophages and RAW264.7 cells; (2) NO plays a significant role in CT inhibition in LPS-treated macrophage cell lines, but not peritoneal macrophages; (3) TNF-$\alpha$ may be associated with inhibition, but the mechanism(s) may not involve NO production; (4) NO production may not be the mechanism for CT inhibition in McCoy cells treated with IFN-$\gamma$ and LPS.

Applied sciences

Biological sciences

Biomedical research

Health and environmental sciences

Immunology

Macrophages

Microbiology

Immunology and Infectious Disease

Microbiology

Role of Mitogen-activated Kinases in Cd40-mediated T Cell Activation of Monocyte/macrophage and Vascular Smooth Muscle Cell Cytokine/chemokine Production

Milhorn, Denise M.

01 August 1999

This dissertation represents efforts to determine the functional consequences acquired by vascular smooth muscle cells (SMC) in response to CD40 ligation by activated CD154+ T cells, and to elucidate components of the signaling pathway(s) activated in response to CD40 signaling in both monocytes and SMC. To study the consequences of CD40 stimulation, primary human monocytes and aortic SMC were treated with plasma membranes purified from CD154 + , CD4+ T cells. The results presented in this dissertation demonstrate that SMC, like monocytes/macrophages, are capable of interacting with T cells in a manner that results in reciprocal activation events. SMC were shown to present antigen to, and activate T cells. In turn T cell stimulus resulted in the activation of proinflammatory function in SMC initiated through the CD154:CD40 interaction. CD40 stimulation of SMC resulted in the production of the chemokines interleukin 8 (IL-8) and macrophage chemotactic protein-1 (MCP-1), and the upregulation of intercellular adhesion molecule (ICAM). Examination of the intracellular signaling pathways activated through CD40 signaling revealed the involvement of MAPKs in the pathway leading to induction of proinflammatory activity. Evaluation of CD40 signaling in monocytes demonstrated the activation of the MAPK family members ERK1/2, but not the MAPK family members p38 or c-jun-N-terminal kinase (JNK). In contrast, CD40 signaling in SMC was shown to result in ERK1/2 and p38 activation, and both of these kinases were shown to play a critical role in the induction of chemokine synthesis. An examination of the ability of anti-inflammatory cytokines to modulate CD40 signaling in monocytes and SMC demonstrated that the anti-inflammatory cytokines IL-4 and IL-10 abrogate CD40-mediated induction of inflammatory cytokine production by monocytes. This inhibition was shown to be a result of a negative influence of IL-4 and IL-10 on CD40 mediated ERK1/2, activation in monocytes. However, IL-4 and IL-10 did not inhibit SMC proinflammatory responses indicating a difference in the intracellular responses to these cytokines by the two cell types. (Abstract shortened by UMI.)

CD40-mediated

Cytokine/chemokine

Health and environmental sciences

Immunology

MAPK

Monocyte/macrophage

Smooth muscle cell

T cell activation

Immunology and Infectious Disease

Cd40-mediated Signaling of Interleukin-1(beta) Synthesis and Rescue from Apoptosis in Monocytes: Modulation by Il-4 and Il-10

Poe, Jonathan C.

01 December 1997

To date, the cellular mechanisms involved in the progression of diseases characterized by chronic inflammation, such as rheumatoid arthritis (RA), remain largely unknown. However, cell-to-cell contact interactions between CD4+ helper T (Th) cells and monocytes have been implicated in the induction and maintenance of pro-inflammatory cytokine synthesis that is characteristic to the pathogenesis of RA. One such cytokine produced during monocyte-Th cell contact is interleukin (IL)-1 β, a mediator directly involved in the characteristic tissue destruction that occurs in the synovia of individuals with RA. Previous studies in our laboratories have shown that ligation of CD40 on monocytes with CD40 ligand (CD40L) present on activated Th cells induces monocyte IL-1β synthesis and rescues monocytes from apoptosis. These findings suggest a role for CD40 signaling of monocyte activation in the exacerbation and maintenance of chronic inflammatory responses. This dissertation represents efforts to elucidate components of the CD40 signaling pathway critical to monocyte activation and how CD40-mediated signaling events are modulated by the anti-inflammatory cytokines IL-4 and IL-10. Using either monocytes isolated from human peripheral blood or a monocytic cell line (THP-1), cellular kinases and transcription factors activated upon CD40 ligation were examined by western blot analyses and electrophoretic mobility shift assays (EMSA), respectively. CD40-dependent interleukin-1β synthesis in monocytes was abrogated by inhibitors of protein tyrosine kinase (PTK) activity but not by inhibitors of protein kinase C (PKC). The extracellular signal-regulated kinases 1 and 2 (Erk1/Erk2) mitogen-activated protein kinases (MAPK's) were specifically activated upon CD40 ligation, and specific inhibition of Erk1/Erk2 activation diminished IL-10 production in a dose-dependent manner. Both IL-4 and IL-10 reduced Erk1/Erk2 activation and synergized in this effect. Finally, STAT3, a member of the family of transcription factors involved in cytokine signaling, was highly phosphorylated in monocytes treated with IL-10 or with IL-10 and IL-4 in combination but not with IL-4 alone. Together these results suggest that in monocytes (1) CD40-mediated IL-1β synthesis and NF-κB activation require PTK activity, (2) CD40-mediated IL-1β production is critically dependent upon Erk1/Erk2 activity, (3) both IL-4 and IL-10 target the Erk1/Erk2 signaling cascade in the downregulation of IL-1β synthesis, (4) IL-4 and IL-10 have divergent effects on the CD40 signaling pathway in that these cytokines are synergistic with respect to their ability to inhibit CD40-mediated Erk1/Erk2 activation and IL-1β synthesis, and differ in their ability to block CD40-mediated rescue from apoptosis, and (5) STAT3 activation may be directly involved in the downregulatory effects of IL-10 on CD40 signaling. (Abstract shortened by UMI.)

Apoptosis

CD40-mediated

Health and environmental sciences

Immunology

Interleukin-1 beta

Interleukin-4

Interleukin-10

Monocytes

Signaling

Immunology and Infectious Disease

Comparison of Anti-Pneumococcal Functions of Native and Modified Forms of C-Reactive Protein

Ngwa, Donald Neba

01 May 2016

The anti-pneumococcal function of native C-reactive protein (CRP) involves its binding to phosphocholine molecules present on Streptococcus pneumoniae and subsequent activation of the complement system. However, when pneumococci recruit complement inhibitory protein factor H on their surface, they escape complement attack. Non-native forms of CRP have been shown to bind immobilized factor H. Accordingly, we hypothesized that modified CRP would bind to factor H on pneumococci, masking its complement inhibitory activity, allowing native CRP to exert its anti-pneumococcal function. As reported previously, native CRP protected mice from lethal pneumococcal infection when injected 30 minutes before infection but not when injected 24 hours after infection. However, a combination of native and mutant CRP was found to protect mice even when administered 24 hours after infection. Therefore, it is concluded that while native CRP is protective only against early-stage infection, a combination of native and mutant CRP offers protection against late-stage infection.

C-reactive protein

Complement

Factor H

Phosphocholine

Phosphoethanolamine

Pneumococcal C-polysaccharide

Streptococcus pneumoniae

Immunity

Immunology of Infectious Disease

Immunopathology

Pathogenic Microbiology

Using Scientific Inquiry to Increase Knowledge of Vaccine Theory and Infectious Diseases

Walls, Zachary, Bossaer, John B., Cluck, David

19 August 2016

Background: The aim of this study was to design and evaluate a laboratory activity based on scientific inquiry to educate first-year pharmacy students in the U.S. about vaccination theory and the attributes of common pathogens. Methods: The laboratory activity had two principal sections. The first consisted of an interactive game during which students rolled a die to determine outcomes based on a set of pre-determined criteria. In the second section, students generated and tested hypotheses about vaccine theory using a computer simulation that modeled disease transmission within a large population. In each section students were asked to evaluate epidemiological data and make inferences pertinent to vaccination effectiveness. Results: Mean scores on a knowledge-based assessment given immediately before and immediately after the activity increased from 46% to 71%. Discussion: A laboratory activity designed to stimulate scientific inquiry within pharmacy students enabled them to increase their knowledge of common vaccines and infectious diseases.

infectious disease

pharmacological treatment

pharmacology

scientific inquiry

vaccine theory

Pharmacy Practice

Medical Education

Pharmacy and Pharmaceutical Sciences

Public Health

T cell factor-1 regulates CD4+ and CD8+ T cell responses in a stage-specific manner

Gullicksrud, Jodi Ann

01 August 2017

CD4+ and CD8+ T cells are critical components of the adaptive arm of immune responses. During viral infection, CD8+ T cells utilize their cytotoxic function to kill infected cells and clear the infection. In addition, CD4+ T cells differentiate into either T helper 1 (Th1) or T follicular helper (Tfh) cells, which provide essential help to enhance the efficacy of other response immune cells, including macrophages, CD8+ T cells, and B cells. The transcription factor, T cell factor-1 (TCF1), and its homologue, Lymphoid enhancer-binding factor-1 (LEF1), have critical roles in the development, differentiation, and persistence of both CD4+ and CD8+ T cells. However, the influence of TCF1 and LEF1 on Th1 and Tfh differentiation remains to be examined. Furthermore, due to alternative promoter usage, TCF1 and LEF1 are expressed as both long and short isoforms. The distinct roles of the long and short isoforms of TCF1 in the context of CD4+ and CD8+ T cell responses have not been defined. My studies utilized multiple novel mouse strains to examine the roles of TCF1 and LEF1 in Tfh and Th1 differentiation during viral infection, and the unique requirements of TCF1 long isoforms in CD4+ and CD8+ T cell responses. Specifically, my initial studies characterized a new TCF1 reporter construct (referred to as p45GFP reporter) and used this reporter to address the specific contributions of TCF1 long isoforms to the CD8+ T cell response. Previous studies have abrogated all TCF1 isoforms and shown that in the absence of TCF1, the memory CD8+ T cell population is dramatically impaired and exhibits defective persistence over time. Here, I showed that TCF1 short isoforms are sufficient for the generation of memory CD8+ T cells, however TCF1 long isoforms are important for the maturation of memory CD8+ T cells. Another critical component of pathogen clearance and long-term protection is a productive humoral response, which is optimized by the B cell help provided by Tfh cells. Using the p45GFP reporter, I showed that TCF1 is specifically retained in Tfh cells, but downregulated in Th1 cells. I utilized a huCd2-Cre system to conditionally delete TCF1 and LEF1 in mature T cells. In response to viral infection, TCF1 and LEF1 double-deficient mice showed normal Th1 responses, but severely defective Tfh differentiation and a concomitant impaired B cell response. I further demonstrated that TCF1 promotes Tfh differentiation by directly regulating many Tfh-associated genes. Furthermore, I used the p45GFP reporter to I identified distinct, but critical, roles for both long and short isoforms of TCF1 in driving Tfh differentiation and repressing differentiation toward Th1 or germinal center Tfh cells. Finally, while TCF1 is known to be critical in the formation of memory CD8+ T cells, its impact on memory CD4+ T cell generation has not been assessed. Once again utilizing the p45GFP reporter, my studies identified an important role for TCF1 long isoforms in the survival of both Th1 and Tfh cells through contraction. In the absence of TCF1 long isoforms, the memory CD4+ T cell population is severely reduced. Taken together, my work has demonstrated critical roles for TCF1 during both effector and memory phases of the CD4+ T cell response to viral infection. In summary, TCF1 is crucial for CD4+ T cells to effectively differentiate and provide important help to B cells during viral infection. Moreover, my studies have identified critical and unique roles for long and short isoforms of TCF1. Finally, TCF1 is necessary for optimal formation of memory CD4+ and CD8+ T cells, and thus is an essential component in achieving protective immunological memory after viral infection.

CD4+ T cell

CD8+ T cell

T cell factor-1

Tfh cell

Transcriptional regulation

Immunology of Infectious Disease

T cell responses to S-glutathionylated And heteroclitic viral epitopes and CCl2-mediated immune dysregulation in mice infected with a neurotropic coronavirus

Trujillo, Jonathan Anthony

01 May 2014

Mice infected with neurotropic variants of the murine coronavirus, mouse hepatitis virus, (strains JHMV or J2.2–V–1) develop acute and chronic CNS infections, and provide a model system to study the pathogenesis of virus–induced neuroinflammation, mechanisms of virus persistence, and anti–viral immune responses in the CNS. Using the J2.2–V–1 model of CNS infection, we addressed the role of sustained CCL2 production during viral infection using mice in which CCL2 was expressed transgenically in oligodendrocytes. Tonic CCL2 expression in the CNS resulted in delayed kinetics of virus clearance, and converted what is typically a mild, nonlethal disease to acutely lethal encephalitis, with the majority of mice succumbing to the infection. CCL2 induced a rapid and dysregulated inflammatory response that was no longer protective and was unable to efficiently clear virus from the CNS. Infected CCL2 Tg mice had increased numbers of Foxp3–expressing CD4 T cells (Tregs) and of macrophages and microglia expressing elevated levels of YM–1, a marker for alternatively activated macrophages, and nitric oxide. Our results showed that CCL2 has effects beyond serving as a chemoattractant for leukocytes, and has effects on the composition and function of inflammatory cells at sites of infection. In a separate set of experiments, I identified and characterized two additional heteroclitic variants of the JHMV epitope S598 that induced CD8 T cells with greater antigen sensitivity to the native S598 determinant relative to the cells primed by the native epitope. One of these heteroclitic epitopes elicited a T cell response with nearly complete cross–reactivity towards the native peptide. The structural data show that these heteroclitic epitopes induced modest conformational changes in the local environment of the peptide–MHCI complex. I also provide data to support the notion that heteroclitic determinants augment functional avidity by increasing surface epitope density. Collectively, these data will help guide the design of heteroclitic epitopes in the setting of vaccine development. Lastly, I examined the consequences of oxidative stress induced by viral infection on antigen presentation. The brains of JHMV–infected mice were found to have signs of oxidative stress, with significantly decreased ratios of reduced (GSH) to oxidized (GSSG) glutathione, suggesting that there is an environment that is conducive for cysteine modification with oxidized glutathione. We found that virus–induced oxidative stress resulted in the presentation of both native and S–glutathionylated forms of the JHMV epitope S510 by infected cells. A subset of the S510–specific CD8 T cells failed to recognize the modified form of the epitope, suggesting that GSH–modification of a cysteine–containing viral epitope might interfere with T cell recognition. Further, GSH-modified peptides were identified in stressed human cells, including herpes virus–transformed B cells, suggesting that the modification is not limited to mouse cells. Collectively these findings have implications for both anti–viral immunity and anti–tumor immunity, where oxidative stress has been shown to play a role during infection and tumorgenesis.

Antigen presentation

Chemokine (C-C motif) ligand 2

Coronavirus infection

Glutathionylation

Heteroclitic epitope

Mouse Hepatitis Virus-JHM

Immunology of Infectious Disease

The Response of Mice to Infection by the Parasitic Nematode Trichinella: A Comparison of Trichinella Spiralis and Trichinella Pseudospiralis

Anderson, Barry Clayton

01 January 2002

The intracellular parasite Trichinella is a genus in phylum Nematoda that contains six named species including Trichinella spiralis and Trichinella pseudospiralis. These parasites infect a large variety of wild and domestic animals, human beings and a few species of birds. The parasitic strategies and the pathological effects on the host between trichinella spiralis and Trichinella pseudospiralis are quite different. The purpose of this study is to gain an understanding of the physiological, immunological and pathological differences between these two species of Trichinella using infections in the mouse as a model. In the course of this research I have attempted to answer the following questions: A) Is cortisol a factor in the differences of the host response to Trichinella spiralis or Trichinella pseudospiralis? B) Are there differences in leukocyte response in the peripheral blood of Trichinella infected mice? C) Are there differences in the up-regulation or down-regulation of cell surface molecules on leukocytes in the spleens of Trichinella infected mice? D) Is there a difference in the degree of muscle damage (as measured by creatine phosphokinase) when infections by the two species of Trichinella are compared? E) Are there differences in angiogenesis and collagen deposition in Trichinella infected mice and are these differences related to cortisol? F) Is nitric oxide a component in parasite killing and are there differences in nitric oxide production in host mice when the two species of Trichinella are compared? My research has shown that there are significant differences in the parasitic strategies and pathological consequences in mice infected with one or the other of the two species of Trichinella. The two species appear to generate different immune and inflammatory responses from the host. Trichinella pseudospiralis is much less damaging to the host, generates a very different peripheral blood response, stimulates the production of substantially greater levels of serum cortisol, generates a significantly different profile in cytokine production presents a very different cell surface antigen profile and does not produce a collagen nurse cell or generate an angiogenic response when compared to T spiralis. In addition, I have shown a role for nitric oxide in parasite killing and a role for serum cortisol in larval survival. I have also shown that cortisol has no role in either collagen deposition or the angiogenic response in Balb/c mice under the experimental conditions detailed here.

Trichinella spiralis

Nematodes

Parasites -- Behavior

Mice -- Parasites -- Analysis

Trichinella

Biology

Immunology and Infectious Disease

Parasitology

Altered Gastrointestinal Motility in Multiple Sclerosis

Spear, Estelle Trego

01 January 2018

Multiple sclerosis (MS) is an autoimmune disease of the central nervous system that causes motor, visual, and sensory symptoms. Patients also experience constipation, which is not yet understood, but could involve dysfunction of the enteric nervous system (ENS). Autoimmune targeting of the ENS occurs in other autoimmune diseases that exhibit gastrointestinal (GI) symptoms, and similar mechanisms could lead to GI dysfunction in MS. Here, we characterize GI dysmotility in the experimental autoimmune encephalomyelitis (EAE) model of MS and test whether autoantibodies targeting the ENS are present in the serum of MS patients. Male SJL or B6 mice were induced with EAE by immunization against PLP139-151, MOG35-55, or mouse spinal cord homogenate, and monitored daily for somatic motor symptoms. EAE mice developed GI symptoms consistent with those observed in MS. In vivo motility analysis demonstrated slower whole GI transit, and decreased colonic propulsive motility. EAE mice had faster rates of gastric emptying, with no changes in small intestinal motility. Consistent with these results, ex vivo evaluation of isolated colons demonstrated that EAE mice have slower colonic migrating myoelectric complexes and slow wave contractions. Immunohistochemistry of EAE colons exhibited a significant reduction in GFAP area of ENS ganglia, with no changes in HuD, S100, or neuron numbers. To test whether antibodies in MS bind to ENS structures, we collected serum samples from MS patients with constipation and without constipation, and healthy control patients without constipation. Immunoreactivity was tested using indirect immunofluorescence by applying serum samples to guinea pig ENS tissue. MS serum exhibited significantly higher immunoreactivity against guinea pig ENS than control patients, which was particularly evident in MS patients who did not experience constipation. There was no significant difference in immunoreactivity between MS patients with and without constipation. Targets of human MS and mouse EAE serum include enteric glia and neurons. Taken together, these data validate EAE as a model for constipation in MS, and support the concept that this symptom involves changes within the neuromuscular system of the colon. EAE mice develop symptoms consistent with constipation that affects functional ENS networks and may result in structural or phenotypic changes at the cellular level. Serum immunoreactivity suggests that autoantibodies could play a role in the development of constipation in MS by targeting the ENS itself.

constipation

enteric nervous system

gastrointestinal

motility

multiple sclerosis

Immunology and Infectious Disease

Neuroscience and Neurobiology

Physiology