GI MAP | Zonulin

Zonulin - New Add on Marker for the GI-MAP

Fecal zonulin testing is now available to practitioners as an add-on to the GI-MAP for £65, or as a standalone test for £95.

Zonulin is a protein secreted by intestinal cells that regulates intercellular tight junctions (1, 2). Tight junctions are the connections between epithelial cells that make up the gastrointestinal lining. Zonulin increases intestinal permeability in the jejunum and ileum (3) and is considered a biomarker for barrier permeability (1, 2). Tight junctions can be opened or closed, depending on the physiological need. Zonulin’s role is to open tight junctions in the gut. In the case of enteric infections, high zonulin can “open the floodgates” and flush out bacteria and toxins (1). Certain gut bacteria and gliadin (the main staple protein from wheat) can activate the zonulin system (2, 4).

The intestinal barrier is a critical interface between the lumen of the gut and the internal milieu. Dysfunction of this barrier is believed to initiate immune dysfunction because it allows macromolecules from the gut lumen to pass into the bloodstream (5). Intestinal permeability, also known as “leaky gut,” has been associated with inflammatory bowel disease, celiac disease, food allergy, irritable bowel syndrome, critical illness, autoimmune diseases (6) and obesity and metabolic disease (7). In many cases, permeability precedes disease (1).

Zonulin regulates barrier permeability. Serum zonulin correlates with intestinal permeability and lactulose/mannitol tests for intestinal permeability (3, 8). High serum zonulin has been associated with celiac disease, type 1 diabetes (8) insulin resistance and type I diabetes (3), cancers, neurological conditions, and autoimmune diseases (see Table 1) (1).


Faecal Vs Serum: What's The Difference?

Faecal zonulin is available for investigational use but has not yet been correlated with circulating (serum) levels, as of this writing. Faecal zonulin measurement may be advantageous, compared to serum zonulin when assessing intestinal permeability, as serum zonulin may constitute secretion not only from intestinal cells, but also from extraintestinal tissues such as the liver, heart and brain (9). Stool may therefore present a more appropriate specimen for analysing only intestinal production of zonulin. 

As mentioned, faecal zonulin has been used for investigational use. For instance, in a human study of athletes, faecal zonulin was used as a marker of intestinal permeability. The subject’s faecal zonulin levels improved (decreased into a normal physiologic range) after 14 weeks of probiotic supplementation (2). Treatment with zeolite lowered stool levels of zonulin in athletes and presumably improved intestinal barrier function (10).



I love using the GI-MAP, the turn around time is efficient, it's patient friendly and the extensive range of markers make ascertaining the imbalance in gut health easy and practical. It is also the most accurate H. pylori test out there. I recommend this to everyone as a yearly M.O.T for their health.

Hannah Richards


Table 1
Serum zonulin is high in a number of immune-mediated conditions (1):

Autoimmune diseases

Celiac disease

Ankylosing spondylitis

Inflammatory bowel disease

Type 1 diabetes

Rheumatoid arthritis

Systemic lupus erythematous

Neurological diseases

Multiple sclerosis

Chronic inflammatory demyelinating polyneuropathy

Schizophrenia

Cancers

Brain (gliomas)

Breast

Lung adenocarcinoma

Ovarian

Pancreatic




Find out about other new GI-MAP analytes:

Beta-glucuronidase

Calprotectin

Steatocrit



More questions? Email our qualified support team...


References

1. Fasano A. Intestinal permeability and its regulation by zonulin: diagnostic and therapeutic implications. Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association. 2012;10(10):1096-1100.

2. Lamprecht M, Bogner S, Schippinger G, et al. Probiotic supplementation affects markers of intestinal barrier, oxidation, and inflammation in trained men; a randomized, double-blinded, placebo-controlled trial. Journal of the International Society of Sports Nutrition. 2012;9(1):45.

3. Stenman LK, Lehtinen MJ, Meland N, et al. Probiotic With or Without Fiber Controls Body Fat Mass, Associated With Serum Zonulin, in Overweight and Obese Adults-Randomized Controlled Trial. EBioMedicine. 2016;13:190-200.

4. Fasano A, Sapone A, Zevallos V, Schuppan D. Nonceliac gluten sensitivity. Gastroenterology. 2015;148(6):1195-1204.

5. Fasano A. Leaky gut and autoimmune diseases. Clinical reviews in allergy & immunology. 2012;42(1):71-78.

6. Fasano A. Physiological, pathological, and therapeutic implications of zonulin-mediated intestinal barrier modulation: living life on the edge of the wall. The American journal of pathology. 2008;173(5):1243-1252.

7. Bischoff SC, Barbara G, Buurman W, et al. Intestinal permeability--a new target for disease prevention and therapy. BMC gastroenterology. 2014;14:189.

8. Wang L, Llorente C, Hartmann P, Yang AM, Chen P, Schnabl B. Methods to determine intestinal permeability and bacterial translocation during liver disease. J Immunol Methods. 2015;421:44-53.

9. Wang W, Uzzau S, Goldblum SE, Fasano A. Human zonulin, a potential modulator of intestinal tight junctions. Journal of cell science. 2000;113 Pt 24:4435-4440.

10. Lamprecht M, Bogner S, Steinbauer K, et al. Effects of zeolite supplementation on parameters of intestinal barrier integrity, inflammation, redoxbiology and performance in aerobically trained subjects. Journal of the International Society of Sports Nutrition. 2015;12:40.