Orally Administered Zinc Gluconate Induces Tight Junctional Remodeling and Reduces Passive Transmucosal Permeability Across Human Intestine in a Patient-Based Study.

This study focuses on the issue of whether orally administered zinc (gluconate) (26 mg BID) can induce the remodeling of gastrointestinal barrier function and reduce passive leak across the human intestinal mucosal barrier in situ. Increased transmucosal leak has been implicated in diseases as diverse and seemingly unconnected as Inflammatory Bowel Disease (IBD), Celiac Disease, Autism Spectrum Disorders and Alzheimer's Dementia. Our current investigation represents the first patient-based study to examine the effect of zinc on gastrointestinal epithelial tight junctions and gastrointestinal barrier leak in otherwise healthy test subjects. Using independent test subject groups for each endpoint, three separate molecular analyses indicated that zinc treatment can achieve a positive outcome: (1) RNA-seq analyses of intestinal biopsies showed salutary patterns of gene transcription changes dealing with not only transcripts of junctional proteins but also transcripts mitigating the proinflammatory state, as well as dedifferentiation (both modulators of tight junction permeability); (2) Western immunoblot analyses of intestinal tissue indicated that tight junctional protein expression was being modified by the administered zinc, most notably Claudin-2 and Tricellulin; (3) zinc treatment induced a reduction in serum levels of a functional marker of passive intestinal leak, namely the GI microbiome metabolite D-Lactate. The data collectively suggest that orally administered zinc can induce remodeling of the intestinal epithelial barrier, resulting in the reduction in GI barrier leak. The overall safety and economy of supplement levels of zinc suggest that this micronutrient could be efficacious as an adjuvant therapy to reduce the condition known as leaky gut, and possibly therefore be protective regarding diseases postulated to involve leaky gut.