Morphogenesis and functional organization of viral inclusion bodies

Eukaryotic viruses are obligate intracellular parasites that rely on the host cell machinery to carry out their replication cycle. This complex process involves a series of steps, starting with virus entry, followed by genome replication, and ending with virion assembly and release. Negative strand RNA and some DNA viruses have evolved to alter the organization of the host cell interior to create a specialized environment for genome replication, known as IBs, which are precisely orchestrated to ensure efficient viral replication. The biogenesis of IBs requires the cooperation of both viral and host factors. These structures serve multiple functions during infection, including sequestering viral nucleic acids and proteins from innate immune responses, increasing the local concentration of viral and host factors, and spatially coordinating consecutive replication cycle steps. While ultrastructural and functional studies have improved our understanding of IBs, much remains to be learned about the precise mechanisms of IB formation and function. This review aims to summarize the current understanding of how IBs are formed, describe the morphology of these structures, and highlight the mechanism of their functions. Given that the formation of IBs involves complex interactions between the virus and the host cell, the role of both viral and cellular organelles in this process is also discussed.