Indispensable roles of OX40L-derived signal and epistatic genetic effect in immune-mediated pathogenesis of spontaneous pulmonary hypertension

<p>Abstract</p> <p>Background</p> <p>Pulmonary hypertension (PH) refers to a spectrum of diseases with elevated pulmonary artery pressure. Pulmonary arterial hypertension (PAH) is a disease category that clinically presents with severe PH and that is histopathologically characterized by the occlusion of pulmonary arterioles, medial muscular hypertrophy, and/or intimal fibrosis. PAH occurs with a secondary as well as a primary onset. Secondary PAH is known to be complicated with immunological disorders. The aim of the present study is to histopathologically and genetically characterize a new animal model of PAH and clarify the role of OX40 ligand in the pathogenesis of PAH.</p> <p>Results</p> <p>Spontaneous onset of PAH was stably identified in mice with immune abnormality because of overexpression of the tumor necrosis factor (TNF) family molecule OX40 ligand (OX40L). Histopathological and physical examinations revealed the onset of PAH-like disorders in the C57BL/6 (B6) strain of OX40L transgenic mice (B6.TgL). Comparative analysis performed using different strains of transgenic mice showed that this onset depends on the presence of OX40L in the B6 genetic background. Genetic analyses demonstrated a susceptibility locus of a B6 allele to this onset on chromosome 5. Immunological analyses revealed that the excessive OX40 signals in TgL mice attenuates expansion of regulatory T cells the B6 genetic background, suggesting an impact of the B6 genetic background on the differentiation of regulatory T cells.</p> <p>Conclusion</p> <p>Present findings suggest a role for the OX40L-derived immune response and epistatic genetic effect in immune-mediated pathogenesis of PAH.</p

Pharmacologic modulation of RORγt translates to efficacy in preclinical and translational models of psoriasis and inflammatory arthritis.

The IL-23/IL-17 pathway is implicated in autoimmune diseases, particularly psoriasis, where biologics targeting IL-23 and IL-17 have shown significant clinical efficacy. Retinoid-related orphan nuclear receptor gamma t (RORγt) is required for Th17 differentiation and IL-17 production in adaptive and innate immune cells. We identified JNJ-54271074, a potent and highly-selective RORγt inverse agonist, which dose-dependently inhibited RORγt-driven transcription, decreased co-activator binding and promoted interaction with co-repressor protein. This compound selectively blocked Th17 differentiation, significantly reduced IL-17A production from memory T cells, and decreased IL-17A- and IL-22-producing human and murine γδ and NKT cells. In a murine collagen-induced arthritis model, JNJ-54271074 dose-dependently suppressed joint inflammation. Furthermore, JNJ-54271074 suppressed IL-17A production in human PBMC from rheumatoid arthritis patients. RORγt-deficient mice showed decreased IL-23-induced psoriasis-like skin inflammation and cytokine gene expression, consistent with dose-dependent inhibition in wild-type mice through oral dosing of JNJ-54271074. In a translational model of human psoriatic epidermal cells and skin-homing T cells, JNJ-54271074 selectively inhibited streptococcus extract-induced IL-17A and IL-17F. JNJ-54271074 is thus a potent, selective RORγt modulator with therapeutic potential in IL-23/IL-17 mediated autoimmune diseases

Herpesvirus entry mediator (TNFRSF14) regulates the persistence of T helper memory cell populations

Blocking HVEM–LIGHT interactions on T cells reduces the persistence of antigen-specific memory T cell populations after secondary expansion through decreased Akt activity and loss of Bcl-2 expression

CD4+ cells are required for chronic eosinophilic lung inflammation but not airway remodeling

The contribution of CD4 T cells and other CD4+ cells to lung inflammation and airway remodeling remains unclear during bouts of chronic exposure to airborne allergen. Previously, murine models have shown that CD4 T cells are required for initiation of acute inflammation and the remodeling process. However, it is unknown whether CD4 T cells or other CD4+ cells continue to be required for remodeling during ongoing allergen challenges after the development of acute eosinophilic lung inflammation. To test this, mice were sensitized and challenged with ovalbumin (OVA). After acute airway inflammation was established, a CD4 depleting antibody was administered for 4 wk during a period of chronic exposure to intranasal OVA, resulting in effective depletion of CD4+ cells from all organs, including the lung, lung-draining lymph nodes, and spleen. In these mice, levels of peribronchial inflammation, bronchoalveolar (BAL) eosinophils, and lung CD11c+, CD8+, and Siglec-F+CD11c- cells were significantly reduced. However, mucus metaplasia, peribronchial subepithelial fibrosis, and smooth muscle mass were not affected. Additionally, depletion of CD4+ cells before the last week of chronic allergen challenges also led to significant reductions in BAL eosinophils, peribronchial inflammation, and lung CD11c+, CD8+, and Siglec-F+CD11c- cells. These results show that CD4 T cells, and other CD4+ cells including subsets of dendritic cells, iNKT cells, and LTi cells, play a role in ongoing eosinophilic lung inflammation during periods of chronic allergen challenge, but are not required for progressive airway remodeling that develops after initial acute inflammation

Programmed cell death ligand 2 regulates TH9 differentiation and induction of chronic airway hyperreactivity.

Our findings suggest that PD-L2 plays a pivotal role in the regulation of TH9 cell development in chronic AHR, providing novel strategies for modulating adaptive immunity during chronic allergic responses