Abstract
Zika virus (ZIKV) infection during pregnancy can result in a significant impact on the brain and eye of the developing fetus, termed congenital zika syndrome (CZS). At a morphological level, the main serious presentations of CZS are microcephaly and retinal scarring. At a cellular level, many cell types of the brain may be involved, but primarily neuronal progenitor cells (NPC) and developing neurons. Vav proteins have guanine exchange activity in converting GDP to GTP on proteins such as Rac1, Cdc42 and RhoA to stimulate intracellular signaling pathways. These signaling pathways are known to play important roles in maintaining the polarity and self-renewal of NPC pools by coordinating the formation of adherens junctions with cytoskeletal rearrangements. In developing neurons, these same pathways are adopted to control the formation and growth of neurites and mediate axonal guidance and targeting in the brain and retina. This review describes the role of Vavs in these processes and highlights the points of potential ZIKV interaction, such as (i) the binding and entry of ZIKV in cells via TAM receptors, which may activate Vav/Rac/RhoA signaling; (ii) the functional convergence of ZIKV NS2A with Vav in modulating adherens junctions; (iii) ZIKV NS4A/4B protein effects on PI3K/AKT in a regulatory loop via PPI3 to influence Vav/Rac1 signaling in neurite outgrowth; and (iv) the induction of SOCS1 and USP9X following ZIKV infection to regulate Vav protein degradation or activation, respectively, and impact Vav/Rac/RhoA signaling in NPC and neurons. Experiments to define these interactions will further our understanding of the molecular basis of CZS and potentially other developmental disorders stemming from in utero infections. Additionally, Vav/Rac/RhoA signaling pathways may present tractable targets for therapeutic intervention or molecular rationale for disease severity in CZS.
Highlights
Zika virus (ZIKV) is a positive-sense single-stranded RNA virus of the flavivirus genus, which includes other viruses such as dengue virus, West Nile virus, Japanese encephalitis virus and yellow fever virus [1,2]
The entire central nervous system (CNS) arises from a primordial neuronal progenitor cells (NPC) population known as neuroepithelial NPCs, which are organized in a tube structure called the neural tube [71]
Vav/Rho GTPase signaling affects neuronal cell functions including neurite growth cone regulation, axon projection and targeting. This presents a circumstantial association of Vav/Rho GTPase signaling pathways with the pathogenesis of congenital zika syndrome (CZS)—where these aspects of neurodevelopment are disrupted
Summary
Zika virus (ZIKV) is a positive-sense single-stranded RNA virus of the flavivirus genus, which includes other viruses such as dengue virus, West Nile virus, Japanese encephalitis virus and yellow fever virus [1,2]. One prospective study found that around a quarter of babies potentially exposed to ZIKV in utero and who did not exhibit symptoms or signs at birth, eventually progressed to developing visual, auditory or developmental abnormalities [19] This suggests that CZS involves a spectrum of developmental defects in the brain and eye, and even in the absence of gross morphological changes, there are significant alterations that have a functional impact. Transcriptional profiling in a mouse model of ZIKV microcephaly has identified many genes dysregulated that are associated with neurogenesis, cell death and microglial activation [24] It is, the ability of ZIKV to target and infect the developing brains’ primordial cells, called neural progenitor cells (NPCs), and the neurons they generate during fetal stages of CNS development, which is considered the key driver of CZS pathogenesis [23,25–27]. Between and Vav signaling pathways that we propose may influence the pathogenesis of CZS
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