AI Article Synopsis
- RSV's Impact
- : Respiratory syncytial virus (RSV) primarily affects infants and the elderly, causing significant respiratory infections and utilizing its matrix (M) protein for critical early (nuclear) and later (cytoplasmic) functions during infection.
- CK2's Role
- : The protein kinase CK2 regulates the distribution of the M protein between the nucleus and cytoplasm, with its inhibition causing increased nuclear accumulation of the M protein, which can be influenced by specific phosphorylation sites.
- Potential Treatments
- : By understanding how unphosphorylated and phosphorylated states of the M protein affect its behavior and virus production, there’s potential for developing antiviral therapies targeting CK2, which could
Article Abstract
Respiratory syncytial virus (RSV) is a major cause of respiratory infections in infants and the elderly. Although the RSV matrix (M) protein has key roles in the nucleus early in infection, and in the cytoplasm later, the molecular basis of switching between the nuclear and cytoplasmic compartments is not known. Here, we show that protein kinase CK2 can regulate M nucleocytoplasmic distribution, whereby inhibition of CK2 using the specific inhibitor 4,5,6,7-tetrabromobenzo-triazole (TBB) increases M nuclear accumulation in infected cells as well as when ectopically expressed in transfected cells. We use truncation/mutagenic analysis for the first time to show that serine (S) 95 and threonine (T) 205 are key CK2 sites that regulate M nuclear localization. Dual alanine (A)-substitution to prevent phosphorylation abolished TBB- enhancement of nuclear accumulation, while aspartic acid (D) substitution to mimic phosphorylation at S95 increased nuclear accumulation. D95 also induced cytoplasmic aggregate formation, implying that a negative charge at S95 may modulate M oligomerization. A95/205 substitution in recombinant RSV resulted in reduced virus production compared with wild type, with D95/205 substitution resulting in an even greater level of attenuation. Our data support a model where unphosphorylated M is imported into the nucleus, followed by phosphorylation of T205 and S95 later in infection to facilitate nuclear export and cytoplasmic retention of M, respectively, as well as oligomerization/virus budding. In the absence of widely available, efficacious treatments to protect against RSV, the results raise the possibility of antiviral strategies targeted at CK2.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9317576 | PMC |
| http://dx.doi.org/10.3390/ijms23147976 | DOI Listing |
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