IL-4 Receptor-Alpha Signalling of Intestinal Epithelial Cells, Smooth Muscle Cells, and Macrophages Plays a Redundant Role in Oxazolone Colitis

IL-4-induced SOX9 confers lineage plasticity to aged adult lung stem cells

Wound healing in response to acute injury is mediated by the coordinated and transient activation of parenchymal, stromal, and immune cells that resolves to homeostasis. Environmental, genetic, and epigenetic factors associated with inflammation and aging can lead to persistent activation of the microenvironment and fibrosis. Here, we identify opposing roles of interleukin-4 (IL-4) cytokine signaling in interstitial macrophages and type II alveolar epithelial cells (ATIIs). We show that IL4Ra signaling in macrophages promotes regeneration of the alveolar epithelium after bleomycin-induced lung injury. Using organoids and mouse models, we show that IL-4 directly acts on a subset of ATIIs to induce the expression of the transcription factor SOX9 and reprograms them toward a progenitor-like state with both airway and alveolar lineage potential. In the contexts of aging and bleomycin-induced lung injury, this leads to aberrant epithelial cell differentiation and bronchiolization, consistent with cellular and histological changes observed in interstitial lung disease.

Lactococcus lactis as an Interleukin Delivery System for Prophylaxis and Treatment of Inflammatory and Autoimmune Diseases

Target delivery of therapeutic agents with anti-inflammatory properties using probiotics as delivery and recombinant protein expression vehicles is a promising approach for the prevention and treatment of many diseases, such as cancer and intestinal immune disorders. Lactococcus lactis, a Lactic Acid Bacteria (LAB) widely used in the dairy industry, is one of the most important microorganisms with GRAS status for human consumption, for which biotechnological tools have already been developed to express and deliver recombinant biomolecules with anti-inflammatory properties. Cytokines, for  example, are immune system communication molecules present at virtually all levels of the immune response. They are essential in cellular and humoral processes, such as hampering inflammation or adjuvating in the adaptive immune response, making them good candidates for therapeutic approaches. This review discusses the advances in the development of new therapies and prophylactic approaches using LAB to deliver/express cytokines for the treatment of inflammatory and autoimmune diseases in the future.

Influence of Rectal Ozone Application on the Intensity of Free Radical Destruction of Lipids and Intestinal Proteins in the Dynamics of Experimental Colitis

We studied clinical status, content of products of LPO, and oxidative modification of proteins (OMP) in the lesion focus of the intestine in experimental colitis under conditions of rectal administration of ozone. Experimental colitis was simulated by two-stage administration of oxazolone; rectal insufflation of ozone in the ozone-oxygen mixture was performed daily. The disease activity index (DAI), the content of calprotectin in the feces, and LPO and OMP products in the intestinal homogenate were assessed. On days 2, 4, and 6 of the pathological process, DAI, concentration of calprotectin in feces, content of primary, secondary, and end-products of LPO in the heptane and isopropanol phases, and content of primary and secondary OMP products progressively increases. Under conditions of ozone application, DAI, concentration of calprotectin in feces, the levels of heptane- and isopropanol-soluble primary, secondary, and end-products of LPO, and the level of primary and secondary products of OMP decreased on days 4 and 6; the level of isopropanol-soluble primary, secondary, end-products of LPO increased on day 2 of experimental colitis. The severity of clinical manifestations weakens as the content of LPO and OMP products in the colon decreases on days 4 and 6 of observation.