Abstract
Zika virus (ZIKV) is an emerging healthcare threat. The presence of the mosquito Aedes species across South and Central America in combination with complementary climates have incited an epidemic of locally transmitted cases of ZIKV infection in Brazil. As one of the most significant current public health concerns in the Americas, ZIKV epidemic has been a cause of alarm due to its known and unknown complications. At this point, there has been a clear association between ZIKV infection and severe clinical manifestations in both adults and neonates, including but not limited to neurological deficits such as Guillain-Barré syndrome (GBS) and microcephaly, respectively. The gravity of the fetal anomalies linked to ZIKV vertical transmission from the mother has prompted a discussion on whether to include ZIKV as a formal member of the TORCH [Toxoplasma gondii, other, rubella virus, cytomegalovirus (CMV), and herpes] family of pathogens known to breach placental barriers and cause congenital disease in the fetus. The mechanisms of these complex phenotypes have yet to be fully described. As such, diagnostic tools are limited and no effective modalities are available to treat ZIKV. This article will review the recent advancements in understanding the pathogenesis of ZIKV infection as well as diagnostic tests available to detect the infection. Due to the increase in incidence of ZIKV infections, there is an immediate need to develop new diagnostic tools and novel preventive as well as therapeutic modalities based on understanding the molecular mechanisms underlying the disease.
Highlights
Zika virus (ZIKV) belongs to the larger group of arboviruses
The cytokines return to baseline during recovery phase. These findings suggest that activation of immune responses can play a crucial role in recovery from ZIKV infection
Perhaps one of the more significant findings from this study demonstrated that the shared peptides had immunological potential, such that ZIKV infection could trigger an immune reaction and the components of these reactions could go on to cross-react with brain-specific proteins
Summary
Zika virus (ZIKV) belongs to the larger group of arboviruses (arthropod borne viruses). A recent study demonstrated that single serine to asparagine substitution (S139N) in the viral polyprotein can lead to enhanced infectivity of human and mouse neural progenitor cells (NPCs) by ZIKV (Yuan et al, 2017). ZIKV has been demonstrated to infect the primary progenitor cells of the neurological system, preventing their growth and explaining the most likely reason for microcephaly.
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