UC Riverside

Background & aims

The mechanisms by which macrophages regulate intestinal epithelial cell (IEC) barrier properties are poorly understood. Protein tyrosine phosphatase non-receptor type 2 (PTPN2) protects the IEC barrier from inflammation-induced disruption and regulates macrophage functions. We investigated whether PTPN2 controls interactions between IECs and macrophages to maintain intestinal barrier function.

Methods

Human IEC (Caco-2BBe/HT-29.cl19a cells) and mouse enteroid monolayers were cocultured with human macrophages (THP-1, U937, primary monocyte-derived macrophages from patients with inflammatory bowel disease [IBD]) or mouse macrophages, respectively. We assessed barrier function (transepithelial electrical resistance [TEER] and permeability to 4-kDa fluorescently labeled dextran or 70-kDa rhodamine B-dextran) and macrophage polarization. We analyzed intestinal tissues from mice with myeloid cell-specific deletion of PTPN2 (Ptpn2-LysMCre mice) and mice without disruption of Ptpn2 (controls); some mice were given injections of a neutralizing antibody against interleukin (IL) 6. Proteins were knocked down in macrophages and/or IECs with small hairpin RNAs.

Results

Knockdown of PTPN2 in either macrophages and/or IECs increased the permeability of IEC monolayers, had a synergistic effect when knocked down from both cell types, and increased the development of inflammatory macrophages in macrophage-IEC cocultures. Colon lamina propria from Ptpn2-LysMCre mice had significant increases in inflammatory macrophages; these mice had increased in vivo and ex vivo colon permeability to 4-kDa fluorescently labeled dextran and reduced ex vivo colon TEER. Nanostring analysis showed significant increases in the expression of IL6 in colon macrophages from Ptpn2-LysMCre mice. An IL6-blocking antibody reversed the effects of PTPN2-deficient macrophages, reducing the permeability of IEC monolayers in culture and in Ptpn2-LysMCre mice. Macrophages from patients with IBD carrying a single-nucleotide polymorphism associated with the disease (PTPN2 rs1893217) had the same features of PTPN2-deficient macrophages from mice, including reduced TEER and increased permeability in cocultures with human IEC or mouse enteroid monolayers, which were restored by anti-IL6.

Conclusions

PTPN2 is required for interactions between macrophages and IECs; loss of PTPN2 from either cell type results in intestinal barrier defects, and loss from both cell types has a synergistic effect. We provide a mechanism by which the PTPN2 gene variants compromise intestinal epithelial barrier function and increase the risk of inflammatory disorders such as IBD.