The Effect of a Gluten Free Diet on the Permeability of the Blood Brain Barrier in Patients With CIS

Not Applicable

Completed

• Conditions: Optic Neuritis; Multiple Sclerosis; Clinically Isolated Syndrome
• Interventions: Other: Gluten-free diet

• Registration Number: NCT03451955
• Lead Sponsor: University of Copenhagen

Brief Summary

Disruption of the blood brain barrier (BBB) is associated with inflammatory conditions of the central nervous system (CNS). This clinical trial aims to investigate whether following a gluten-free diet (GFD) for six months can contribute to normalizing BBB permeability in patients with newly diagnosed clinically isolated syndrome (CIS) and multiple sclerosis (MS). Furthermore, the study seeks to identify possible effects of a GFD on markers of systemic as well as CNS inflammation. Lastly, gut permeability is measured in order to examine whether there are any correlations between the permeability of the gut and the BBB as well as the inflammatory state in the intestine and CNS. From a patient's view, potential positive effects of a GFD will be manifested through an alleviation of symptoms, improved quality of life and reduced risk of CIS progressing to MS. Evaluating a possible role of gluten in MS pathogenesis can contribute to directing future research and optimizing treatment protocols.

Detailed Description

Background:

Disruption of the blood brain barrier (BBB) is believed to play a critical role in the pathogenesis of multiple sclerosis (MS). Cramer et al. (2014) found increased BBB permeability in MS patients compared to healthy controls (HC) with values being higher in cases with recent relapses (1). Furthermore, BBB permeability can contribute to predicting the conversion of optic neuritis (ON) to MS (2). In the same study, significant correlations were found between BBB permeability, leukocyte counts and levels of the chemokine CXCL10 in cerebrospinal fluid (CSF). Chemokines are believed to contribute to MS pathogenesis by attracting leukocyte populations to the CNS.

Sørensen et al. (1999) found elevated levels of the cytokines CXCL9, CXCL10 and CCL5 together with their receptors CXCR3 and CCR5 on leukocytes in CSF from MS patients during attacks (3). CXCR3 is expressed in human enterocytes, endothelial cells in the BBB and a variety of immune cells. Elevated expression of CXCR3 has also been measured on T cells from MS patients compared to HC, and in patients during relapses compared to remission (4). Exposure of intestinal epithelial cell lines to gliadin has been shown to activate the chemokine receptor CXCR3 and hereby leading to release of zonulin (5). Ex vivo experiments illustrated that zonulin, which has been identified as pre-haptoglobin 2, leads to a time- and dose dependent, reversible reduction of the transepithelial electrical resistance (TEER) of murine small intestinal mucosa (6). The effects of zonulin on gut permeability are assumed to be due to disruption of tight junctional integrity.

A pilot study (7) showed a higher proportion of individuals with increased intestinal permeability among patients with MS compared to sex-matched HC. A randomized clinical trial showed beneficial effects of a gluten-free diet (GFD) on annual relapse rate, lesional activity and expanded disability status scale (EDSS) in patients with relapsing-remitting MS (RRMS), when compared to a regular diet (8). Additionally, findings of significantly higher titers of IgA against gliadin, gluten and casein in MS patients compared to HC, could indicate a role of nutritional factors in MS (8).

The role of gluten in the pathogenesis of celiac disease (CD) is established. In CD dietary intake of gluten leads to the development of autoantibodies against the enzyme transglutaminase 2 (TG2). White matter autopsies have shown TG2 immunoreactivity in astrocytes from activated MS lesions (9). Furthermore, treatment with TG2 inhibitors led to attenuation of demyelination and clinical deficits in rats with chronic-relapsing experimental autoimmune encephalomyelitis (EAE) (10). A GFD has also been documented to protect against type 1 diabetes (T1D) in mice (11) and prolong the asymptomatic period after diagnosis of T1D in humans (12).

Lastly, gliadin fragments have been documented to stimulate the production of TNF-α and IL-8 in human monocytes directly (13). TNF-α has also been shown to have a regulatory effect on zonulin and to increase the permeability of the endothelial and epithelial cell layers (14), which could be an indirect mechanism through which gluten can induce alterations of gut and possibly also BBB permeability. A high gluten intake could thereby not only increase the influx of antigens, but also activate pathways of the innate immune system. This can theoretically contribute to establishing an inflammatory milieu and thereby facilitate the activation of autoreactive T cells. It could be hypothesized that the role of gluten in autoimmunity is not restricted to gluten itself being recognized as an antigen by people with specific HLA genotypes, but gluten might also increase the risk of losing tolerance against other antigens.

Purpose:

The study aims to investigate whether a GFD can contribute to decreasing BBB permeability in patients with ON, other clinically isolated syndrome (CIS) and MS. Furthermore, the study seeks to identify possible effects of a GFD on markers of systemic as well as CNS inflammation. Lastly, gut permeability is measured in order to examine whether there are any correlations between the permeability of the gut and the BBB as well as the inflammatory state in the intestine and CNS. Evaluating the effects of gluten intake on disease progression could contribute to identifying crucial mechanisms that underlie the pathogenesis of CIS and MS, directing future research and designing new, optimized treatment protocols.

Hypothesis:

Gluten may increase intestinal permeability and thereby elevate antigen influx possibly by activating CXCR3 on enterocytes. Increased gut permeability, gut inflammation and absorption of larger gliadin molecules may be associated with increased permeability of the BBB. Activation of BBB endothelial cells may lead to loss of tight junctional integrity, but also increased integrin expression and thereby enhanced extravasation of immune cells into the CNS.

Expected research value:

The study can contribute to a better understanding of the pathologies of ON and MS and provide a basis for the development of new treatment protocols. Conducting evidence-based research regarding the possible effects of gluten intake on the progression of autoimmune diseases will reduce misinformation as well as shed light on practical challenges associated with the implementation of dietary interventions for treatment purposes. The study is approved of the Scientific Ethics Committee.

Methods:

The trial is a clinically controlled, open label, intervention study including 40 patients with newly diagnosed CIS or MS. Patients will be divided into an intervention group and a control group, each of 20 patients. The intervention group will abstain from gluten for six months, while patients in the control group will retain their usual dietary habits. Before and after the intervention period, a variety of measurements will be conducted. These include:

* Anthropometric measurements: conducted to monitor possible effects of the GFD on participants´ body composition.

* Diet and lifestyle surveys: used to monitor participants´ dietary habits, smoking status, exercise, physical activity, sleeping pattern and quality of life.

* Clinical measures: Relapses, expanded disability status scale (EDSS), MS diagnosis, disease modifying treatment, T2 lesions count and lesion load. Treatment status and recent relapses will be used as covariates in the logistic regression analysis.

* Dynamic contrast-enhanced MRI: used to measure the permeability of the BBB in several tissue subtypes (normal appearing white matter and grey matter and MS lesions) as segmented on high resolution T2 FLAIR and 3D T1 weighted images. The number of new or enhancing lesions is being monitored.

* Intestinal permeability test: conducted to measure intestinal permeability and absorption capacity.

* Lumbar puncture: used to determine disease activity in the CNS. Analyses include pre-haptoglobin 2, oligoclonal bands, TNF-α, IL-1β, IL-8, INF-γ, CXCL9, CXCL10, CCL5, immune cell counts, expression of CXCR3 on immune cells.

* Blood samples: used to determine the grade of inflammation outside the CNS and diagnose celiac disease. Analyses include S100β, pre-haptoglobin 2, anti-gliadin antibodies, CRP, TNF-α, IL-1β, INF-γ, immune cell counts, expression of CXCR3 on immune cells, endotoxin, intestinal fatty acid binding protein, 25-(OH)-cholecalciferol.

* Fecal samples: used to measure gut microbiota profiling and short chain fatty acids.

BBB and intestinal permeability will not only be measured through an MRI scan and an intestinal permeability test respectively, but also using the biomarker zonulin. Of notice is that our measurements of zonulin in CSF (for BBB permeability) and serum (for intestinal permeability) will be carried out in collaboration with Assistant Professor Dr. Ian Galea, who has established a unique analytical method, based on western blotting using a non-commercially, proprietary antibody manufactured by Biorad, for this purpose. Every other assay used in the scientific community measures both haptoglobin and zonulin, whereas our assay measures only zonulin and is therefore characterized by increased accuracy.

Expected results:

A gluten-free diet is expected to alleviate CIS symptoms, improve quality of life and reduce the risk of CIS progressing into MS. Mechanistically this is expected to be manifested through a normalized BBB and intestinal permeability, decreased lesional activity and by dampening the activity of a previously overactive immune system. If our hypothesis is proven to be correct, MS and CIS patients should be informed about the results of the study and the option of following a GFD could potentially become part of the standardized patient treatment in hospitals.

Publication of results:

Results will be published independent of study outcome. Positive, negative as well as inconclusive results will be published. Results are expected to be published in peer-reviewed international journals.

Study Timeline

• Study First Submitted: 2017-09-22
• Study Start: 2018-01-19
• Study First Submitted QC: 2018-02-25
• Study First Posted: 2018-03-02
• Primary Completion: 2022-06-07
• Study Completion: 2022-06-16
• Status Verified: 2022-12
• Last Update Submitted: 2022-12-25
• Last Update Posted: 2022-12-28

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 103

Inclusion Criteria

• Adult men and women ≥18 and ≤59 years of age
• Patients with newly diagnosed CIS or MS deemed physically and mentally able to participate in a study

Exclusion Criteria

• More conflicting disorders in the same patient
• Pregnancy and lactating women and women planning pregnancy during the study period
• People with severe claustrophobia
• People with MR incompatible implants/ foreign objects, including implanted pacemakers, heart valve prostheses, prostheses in the middle ear, implanted devices (e.g. insulin pump), metal debris, e.g. metal splinters in the eyes, miscellaneous shunts and catheters, metal clips from operations
• Surgeries within the last 6 weeks
• Previous reactions to MR contrast agent, bronchial asthma or history of other allergies
• Elevated serum creatinine
• People already on a gluten restricted/ GFD

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Intervention group	Gluten-free diet	Patients in the intervention group follow a gluten-free diet for six months.

Primary Outcome Measures

Name	Time	Method
Permeability of the blood brain barrier	Change from baseline at 6 months	Blood brain barrier permeability measured by contrast enhanced magnetic resonance imaging as well as concentration of pre-haptoglobin 2 in CSF

Secondary Outcome Measures

Name	Time	Method
Bacterial translocation	Change from baseline at 6 months	Measured as endotoxin in blood by ELISA
Intestinal absorption capacity	Change from baseline at 6 months	Measured by D-xylose test
Intestinal permeability	Change from baseline at 6 months	Measured by lactulose/mannitol intestinal permeability test and concentration of pre-haptoglobin 2 in blood
Counts of T cell subpopulations in peripheral blood and CSF	Change from baseline at 6 months	Flow cytometry analysis using antibodies for CD3, CD8, CD4, CD45RA, CXCR3, CCR6, CCR4, CCR9, integrins alpha4, beta7 and beta1
Macrophage activation in peripheral blood and CSF	Change from baseline at 6 months	Soluble CD163 in peripheral blood and CSF measured by ELISA
Neuroinflammation	Change from baseline at 6 months	Measured as neurofilament light chain in CSF and peripheral blood
Osteopontin as a marker of disease activity in multiple sclerosis	Change from baseline at 6 months	Measured in blood and CSF by ELISA
Enterocyte damage	Change from baseline at 6 months	Measured as intestinal fatty acid binding protein in blood by ELISA
Gut microbiota profiling	Change from baseline at 6 months	Measured in feces by 16S rRNA sequencing

Trial Locations

Locations (2)

Rigshopitalet; 🇩🇰 Glostrup, Denmark

University of Copenhagen; 🇩🇰 Copenhagen, Frederiksberg, Denmark