In silico target fishing for the potential bioactive components contained in Huanglian Jiedu Tang (HLJDD) and elucidating molecular mechanisms for the treatment of sepsis.

The present study was designed to target fish for potential bioactive components contained in a Huang Lian Jie Du decoction (HLJDD) and identify the underlying mechanisms of action for the treatment of sepsis at the molecular level. he bioactive components database of HLJDD was constructed and the sepsis-associated targets were comprehensively investigated. The 3D structures of the PAFR and TXA2R proteins were established using the homology modelling (HM) method, and the molecular effects for sepsis treatment were analysed by comparing the bioactive components database and the sepsis targets using computational biology methods. The results of the screening were validated with biological testing against the human oral epidermal carcinoma cell line KB in vitro. We found that multiple bioactive compounds contained in the HLJDD interacted with multiple targets. We also predicted the promising compound leads for sepsis treatment, and the first 28 compounds were characterized. Several compounds, such as berberine, berberrubine and epiberberine, dose-dependently inhibited PGE2 production in human KB cells, and the effects were similar in the presence or absence of TPA. This study demonstrates a novel approach to identifying natural chemical compounds as new leads for the treatment of sepsis.

Anti-glycoprotein VI treatment severely compromises hemostasis in mice with reduced alpha2beta1 levels or concomitant aspirin therapy.

BACKGROUND: Platelet inhibition is a major strategy to prevent arterial thrombosis, but it is frequently associated with increased bleeding because of impaired primary hemostasis. The activating platelet collagen receptor, glycoprotein VI (GP VI), may serve as a powerful antithrombotic target because its inhibition or absence results in profound protection against arterial thrombosis but no major bleeding in mice. METHODS AND RESULTS: Mice lacking (-/-) or expressing half-levels (+/-) of the other major platelet collagen receptor, integrin alpha2beta1, were injected with the anti-GP VI antibody JAQ1 and analyzed on day 5. Anti-GP VI treatment resulted in a marked hemostatic defect in alpha2-/- or alpha2+/- mice, as shown by dramatically prolonged tail bleeding times. Platelet adhesion to collagen was studied in an ex vivo whole-blood perfusion system under high shear conditions. Weak integrin activation by thromboxane A2 (TxA2) receptor stimulation restored defective adhesion of anti-GP VI-treated wild-type but not alpha2-/- or alpha2+/- platelets to collagen. This process required the simultaneous activation of the G(q) and G13 signaling pathways, as demonstrated by use of the respective knockout strains. Conversely, inhibition of TxA2 production by aspirin severely compromised hemostasis in anti-GP VI-treated or GP VI/Fc receptor gamma-chain-deficient but not control mice. CONCLUSIONS: Anti-GP VI therapy may result in defective hemostasis in patients with reduced alpha2beta1 levels or concomitant aspirin therapy. These observations may have important implications for a potential use of anti-GP VI-based therapeutics in the prevention of cardiovascular disease.