Pharmaceutical grade synthetic peptide Thr-Glu-Lys-Lys-Arg-Arg-Glu-Thr-Val-Glu-Arg-Glu-Lys-Glu ameliorates DSS-induced murine colitis by reducing the number and pro-inflammatory activity of colon tissue-infiltrating Ly6G+ granulocytes and Ly6C+ monocytes.

A pharmaceutical grade synthetic tetradecapeptide Thr-Glu-Lys-Lys-Arg-Arg-Glu-Thr-Val-Glu-Arg-Glu-Lys-Glu (GEPON) that mimics the ezrin protein hinge region was studied in dextran sodium sulphate-induced murine experimental colitis (DSS colitis). We report that GEPON intraperitoneal injections significantly attenuated DSS-induced pathological manifestations in the large intestine, bloody diarrhoea, and body weight loss in C57BL/6 mice. GEPON markedly inhibited the transcription rate of pro-inflammatory Il1b, Il6, and Nos2 genes in the colon tissue, in contrast with those encoding anti-inflammatory factors, such as Tgfb1, I10, and Arg1, whose transcription rate did not change significantly. Using flow cytometry, we found that GEPON treatment significantly reduced the accumulation of Ly6G+ granulocytes and Ly6C+ monocytes in the colon infiltrate of DSS colitis mice. Analysis of the mRNA level in myeloid cells sorted from the colon tissue revealed that GEPON had decreased the expression of pro-inflammatory genes in both colon-infiltrating Ly6G+ granulocytes and Ly6C+ monocytes, but not in Ly6C-CD64+ macrophages of DSS-treated mice. The direct anti-inflammatory impact of GEPON was shown in an in vitro culture of Ly6C+ monocytes, as evidenced by an inhibition of IL-1 beta and IL-6 mRNA expression. Taken together, our results demonstrated that GEPON had a pronounced therapeutic effect on ulcerative colitis in a laboratory mice model and provided evidence of its curative efficacy via inhibition of colon tissue inflammation by decreasing Ly6G+ granulocyte and Ly6C+ monocyte infiltration and by reducing their pro-inflammatory activities.

The TLR4 Agonist Immunomax Affects the Phenotype of Mouse Lung Macrophages during Respiratory Syncytial Virus Infection.

In the study, the effect of the TLR4 agonist Immunomax was investigated in vitro and in vivo. In particular, Immunomax was shown to polarize mouse bone marrow macrophages from the M0 and M2 states into the M1 state (ARG1 and iNOS mRNA expression levels were used to identify the mouse M1 and M2 phenotypes). Next, we investigated the prophylactic antiviral effect of Immunomax in both a model of mouse respiratory syncytial virus (RSV) infection and a model of RSV-induced bronchial asthma (BA) exacerbation. In the experiment with RSV-induced BA exacerbation, Immunomax-treated mice were characterized by a significant decrease of the viral load in lung homogenates, an increased amount of M1 macrophages in the lung, a tendency toward Th2-dependent ovalbumin-specific IgG1 antibodies decrease in blood serum, a significant increase in RSV-activated CD4+ T cells secreting IFNγ (Th1 cells), and a simultaneous significant decrease in the amount of CD4+ cells secreting IL-4 (Th2 cells) in the mouse spleen, which were detected by ELISPOT 1.5 months after experiment. These findings suggest that treatment with the TLR4 agonist Immunomax polarizes the immune response towards antiviral Th1 and may be used for short-term antiviral prophylaxis to prevent acute respiratory viral infections in asthmatics.

Expression of immunomodulator gene mRNA in co-culture of mesenchymal stromal cells from the placenta and human mononuclear blood cells.

The expression of mRNA of cytokines and immunoregulatory molecules characterizing the interaction of mesenchymal stromal cells from chorionic villi of postpartum placenta and allogenic mononuclear blood cells was studied during 3-day co-culturing of these cells. The expression of foxp3, il2ra, and il10 mRNA in floating mononuclear cells increased from day 1 to 3 in co-culture, which can refl ect the process of induction of regulatory T cells in the lymphocyte population under the action of mesenchymal stromal cells.

Isolation of mesenchymal stromal cells from extraembryonic tissues and their characteristics.

We describe a method of isolation of human mesenchymal stromal cells from the umbilical cord (Wharton's jelly) and human placenta: amnion, placental villi, and trophoblast. Morphology, immunophenotypic characteristics, and differentiation potencies of isolated cells were studied. The capacity of mesenchymal stromal cells from extraembryonic tissues to osteogenic, adipogenic, and chondrogenic differentiation was demonstrated and the dynamics of this process was described. The isolated cells met the criteria for multipotent mesenchymal stem cells.

[A method of quantitative assessment of cytokine gene mRNA expression levels using real-time PCR in homogenous low cell number populations].

We propose a method of quantitative functional activity assessment in cells isolated via sorting on a flow cytometer. We show that cell populations vary in the mRNA expression of cytokine genes immediately after isolation and sorting, while the maintenance of homogenous populations in culture without stimulation results in an increase in these gene mRNA expression. Using the original system, it is now possible to detect mRNA cytokine genes with high sensitivity, starting from 90 cells per specimen. This approach permits genetic and immunogenetic analysis of gene expression with the goal of determining their functions in the in vitro studies.