Filoviridae: insights into immune responses to Ebola virus

Abstract

Ebola virus (EBOV) is a zoonotic virus comprising of six known different species, designated within the family Filoviridae and genus Ebolavirus. The first recorded outbreak of an EBOV disease (EVD) was in Yambuku, Zaire EBOV (ZEBOV) in 1976, followed by the Sudan EBOV (SUDV) later that year. Outbreaks have been increasing throughout the 21st century, and mortality rates can reach up to 90%. Such extraordinary virulence is evidenced by a few pathogens, similar to the Marburg virus (MARV) that originated in Uganda and was first detected in Germany in 1967. The virulent nature of filovirus disease has established these related viruses as a formidable global concern. There are currently four types of Ebolaviridae species known to infect humans, with two more recently identified in other animals that are genomically different concerning cellular pathogenesis or aetiology of disease. Recent advances in understanding the pathogenesis of filovirus disease infections have been remarkable, yet the immunological response to filovirus infection remains unknown. Scientific analysis of cellular mechanisms can provide insight into virulence factors utilised by other pathogenic viruses that also cause febrile illness with occasional haemorrhagic fever in humans. In this review, a brief summary of EBOV protein structure and functional cellular effects is covered. The role of innate and adaptive immune cells known since 1976 is considered with the relevance and implications of immunological proteins measured by cluster of differentiation (CD) molecule, alongside cytokine, chemokine, and other biologically relevant pathways, and through genetic research. A thorough understanding of immunological correlates affecting host responses to EBOV will facilitate clinical and applied research knowledge, contributing to protection against potential public health threats.