Clinical Trial: Inoculating Celiac Disease Patients With the Human Hookworm Necator Americanus: Evaluating Immunity and Gluten-sensitivity

Study Status: Completed
Recruit Status: Completed
Study Type: Interventional

Official Title: A Phase 2a, Randomized, Double Blinded, Placebo Controlled, Study Evaluating Immunity and Gluten-sensitivity by Inoculating Celiac Disease Patients With the Human Hookworm

Brief Summary:

The disappearance of intestinal parasites from humans in developed countries may be responsible for the upsurge in many diseases including Celiac Disease, Crohn's, ulcerative colitis, asthma and hay fever. A parasite's survival relies on its ability to interfere with the host's immune response. The mechanisms employed to do this are similar to those required by a person to regulate against the so-called autoimmune disorders, diseases in which the system turns on itself. The investigators suspect that when parasites are excluded from the environment, some individuals become sufficiently self-reactive to develop an autoimmune disease. American researchers have successfully treated patients with Crohn's and ulcerative colitis using a pig whipworm (Trichuris suis). The investigators have undertaken a similar preliminary study using a human hookworm in Crohn's patients.

Using a small group of healthy people with celiac disease, the investigators will test if a human hookworm, Necator americanus, inhibits immune responsiveness to gluten. Celiac disease is a very common autoimmune-like disease (1% of Americans are affected although only a minority are aware they have the condition). In this condition, an individual becomes reactive to gluten, a protein in foods derived from wheat, barley, oats and rye.

What makes celiac disease such a good model for Crohn's disease is that similar immune changes are common to both, but in celiac disease the people are usually well, are not taking powerful immune suppressive drugs and the provocative antigens (the molecules that engage the immune system and provoke the disease) are known and can be excluded or introduced. As well as being of direct benefit to people with celiac disease, this study may give direction as to the potential of this parasite to manage inflammatory bowel disease.

Detailed Summary:

Background and aims: A number of lines of evidence suggest that the disappearance of helminths from human populations in developed countries may be responsible for the upsurge in autoimmune diseases, the so-called hygiene hypothesis. Using a small cohort of healthy subjects with quiescent celiac disease, our aim is to test if the ubiquitous hookworm (HW) of humans, Necator americanus, inhibits immune responsiveness to a gluten challenge (GC). As well as being of potential benefit to people with gluten intolerance, this study will provide the opportunity to undertake detailed investigation at the mucosal level of the host-parasite interaction, and the underlying immune response, and by extension, the potential of nematode infection to modulate the inflammatory response in IBD. Unlike experimental helminth infections in either animals genetically predisposed to colitis or in clinical IBD (where a range of complicating cofactors are present), this study addresses what happens in healthy humans who do not have a background of helminth exposure, and who are not currently compromised by either inflammation or immunosuppressive drugs.

Methods: Twenty healthy adults with well-documented celiac disease (DQ2 phenotype) compliant with a gluten-free (GF) diet for ≥ 6 months (based on history and a normal tissue transglutaminase [tTG]) will be recruited and randomly assigned to two groups of ten. Ten will be inoculated with hookworm (HW) larvae and 10 will serve as uninfected controls. Study subjects and Investigators will be blinded to allow comparison of disease activity and immune profiles. HW larvae will be cultured from feces supplied by a volunteer donor, previously infected for this purpose. Conventional endoscopy and biopsy will be performed twice per subject, before and after oral and rectal GCs (2x50g slices of wheat bread twice daily for 3-5 days and 6g of gluten in a
Sponsor: Princess Alexandra Hospital, Brisbane, Australia

Current Primary Outcome: Duodenal histology (Marsh classification) and rectal histology [ Time Frame: 21 weeks ]

Original Primary Outcome: Same as current

Current Secondary Outcome: Peripheral blood mononuclear cells and mucosal lymphocytes will be grown ex vivo and challenged with gluten antigen immunodominant peptide. Cell proliferation and cytokine profiles will also be measured. [ Time Frame: 21 weeks ]

Original Secondary Outcome: Same as current

Information By: Princess Alexandra Hospital, Brisbane, Australia

Dates:
Date Received: May 1, 2008
Date Started: October 2007
Date Completion:
Last Updated: January 31, 2016
Last Verified: January 2016