RESUMO
Positive-sense RNA viruses modify intracellular calcium stores, endoplasmic reticulum and Golgi apparatus (Golgi) to generate membranous replication organelles known as viral factories. Viral factories provide a conducive and substantial enclave for essential virus replication via concentrating necessary cellular factors and viral proteins in proximity. Here, we identified the vital role of a broad-spectrum antiviral, peruvoside in limiting the formation of viral factories. Mechanistically, we revealed the pleiotropic cellular effect of Src and PLC kinase signaling via cyclin-dependent kinase 1 signaling leads to Golgi-specific brefeldin A-resistance guanine nucleotide exchange factor 1 (GBF1) phosphorylation and Golgi vesiculation by peruvoside treatment. The ramification of GBF1 phosphorylation fosters GBF1 deprivation consequentially activating downstream antiviral signaling by dampening viral factories formation. Further investigation showed signaling of ERK1/2 pathway via cyclin-dependent kinase 1 activation leading to GBF1 phosphorylation at Threonine 1337 (T1337). We also showed 100% of protection in peruvoside-treated mouse model with a significant reduction in viral titre and without measurable cytotoxicity in serum. These findings highlight the importance of dissecting the broad-spectrum antiviral therapeutics mechanism and pave the way for consideration of peruvoside, host-directed antivirals for positive-sense RNA virus-mediated disease, in the interim where no vaccine is available.
RESUMO
In order to obtain some evidences of the role of parathyroid hormone (PTH) in regulating calcium metabolism, and explore the mechanisms by which PTH regulates calcium in the heart, 45Ca was used to study the influence of bovine PTH1-34 fragment (bPTH1-34) on calcium transsacolemma. The results indicate that bPTH1-34(l?I0-7mol ? L-1) increases beating rate of heart cells under normal state and it markedly increases the rapid (5 min) and the slow (120 min) phases of 45Ca influx in heartcells (under normal, KC1 10-5 mol?L-1 high K+depolarised, NA 10-7mol?L-1receptors activated states), but it could also reduce 45Ca efflux from the cultured heart cells. It suggests that the mechanisms caused by bPTH1-34 which enhances the cytosolic calcium concentration and myocardial beating rate may be related with cAMP level elevated in heart cells.