Mechanism studies of Xinfeng capsule on improving cardiovascular function though toll-like receptor 4/nuclear factor kappa B pathway in a rat model of adjuvant arthritis

GRK2-facilitated TLR4 signaling promotes cardiac fibrosis in rheumatic mice

OBJECTIVE

Patients with rheumatoid arthritis (RA) have a much higher prevalence of cardiac dysfunction, which explains the high mortality rate in RA patients despite treatment with anti-arthritic drugs. This study elucidates a molecular mechanism that causes abnormal activation of cardiac fibroblasts in the inflammatory state of RA through transactivation of canonical TLR4 signaling by GRK2-dependent signaling mechanisms, and which ultimately induces heart disease.

METHODS AND RESULTS

Collagen-induced arthritis (CIA) models were established in mice, and the cardiac function in these CIA mice was dynamically examined using echocardiography. Cardiac diastolic and systolic dysfunction appeared and persisted in the hearts of CIA mice even after joint inflammation subsides, and significant fibrosis occurred in the cardiac tissue. TLR4 expression was elevated in the hearts of CIA mice which was associated with cardiac fibrosis. Cardiac fibroblasts from CIA mice undergo aberrant proliferation and a significant increase in NF-κB p65 nuclear translocation. Treatment with the specific TLR4 inhibitor, TAK-242, effectively protected CIA mice from cardiac fibrosis and cardiac diastolic dysfunction. Cardiac function was effectively rescued by administration of the GRK2 inhibitor paroxetine and carvedilol as well, with a concomitant reduction in NF-κB nuclear localization. In cardiac tissues of CIA mice, elevated levels of GRK2 expression thereby cause cardiac fibroblasts to undergo transdifferentiation.

CONCLUSION

GRK2 transactivates TLR4 signaling, which promoted cardiac fibroblast transdifferentiation. Furthermore, GRK2 inhibition effectively mitigated myocardial fibrosis and protected cardiac function, which offered an important strategy to protect RA patients from heart failure.

Animal models to study pathogenesis and treatments of cardiac disorders in rheumatoid arthritis: Advances and challenges for clinical translation

Although cardiac diseases such as acute myocardial infarction, heart failure and arrhythmias are the leading cause of cardiovascular complications in rheumatoid arthritis (RA), their pathogenesis is far from being understood and optimal therapeutic options to treat specifically these disorders in RA are lacking. Preclinical studies on animal models of arthritis can help to decipher the complex link between arthritis and the heart, and to identify critical pathways and novel therapeutic targets. This review presented the available data on cardiac disorders in animal models of RA, as well as the current knowledge on pathophysiology and pharmacology of these disorders. Future directions for translational studies in a cardiorheumatic perspective are proposed.