Vav Proteins in Development of the Brain: A Potential Relationship to the Pathogenesis of Congenital Zika Syndrome?

Norbury, Aidan J.; Jolly, Lisa; Kris, Luke P; Carr, Jillian M.

doi:10.3390/v14020386

Cited by 3 publications

(2 citation statements)

References 125 publications

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“… 26 Taken together it is conceivable that the substitution to valine could alter the interaction with viral RNA 38 and host proteins. 42 It is beyond the scope of this study to directly verify this mechanism but is implied by our observation of the increased replication fitness of virus clones harbouring NS2A:V117 (prM L130/NS2A V117 clones #11 and #20) compared with prM L130 virus clone #2 with NS2A:A117 in LN-229 cells ( Fig. 2 d).…”

Section: Discussionmentioning

confidence: 69%

Tissue-specific expansion of Zika virus isogenic variants drive disease pathogenesis

Chan¹,

Bifani²,

Watanabe³

et al. 2023

eBioMedicine

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Section: Discussionmentioning

confidence: 69%

Tissue-specific expansion of Zika virus isogenic variants drive disease pathogenesis

Chan¹,

Bifani²,

Watanabe³

et al. 2023

eBioMedicine

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“…VAV2 directly binds to the Y682-phosphorylated APP tail via its SH2 domain, inhibiting APP degradation and increasing the levels of APP and its cleavage products, which are implicated in AD 98 . VAV2 is also involved in various biological processes, including endothelial cell function, vasodilation, blood pressure regulation, and neurogenesis, indicating its importance in early brain development 99 . VAV2…”

Section: Vav2mentioning

confidence: 99%

mosGraphFlow: a novel integrative graph AI model mining disease targets from multi-omic data

Zhang,

Cao,

et al. 2024

Preprint

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Multi-omic data can better characterize complex cellular signaling pathways from multiple views compared to individual omic data. However, integrating multi-omic data to rank key disease biomarkers and infer core signaling pathways remains an open problem. Compared to other AI models, graph AI can integrate multi-omic data with large-scale signaling networks and rank biomarkers and signaling interactions using attention mechanisms. In this study, we present a novel graph AI model,mosGraphFlow, and apply it on multi-omic datasets of Alzheimer’s disease (AD). The comparison results show that the proposed model not only achieves the best classification accuracy but also identifies important AD disease biomarkers and signaling interactions. Moreover, the signaling sources are highlighted at specific omic levels to facilitate the understanding of the pathogenesis of AD. The proposed model can also be applied and expanded for other studies using multi-omic data. And the model code are uploaded via GitHub with link:https://github.com/mosGraph/mosGraphFlow

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Zika virus infection of retinal cells and the developing mouse eye induces host responses that contrasts to the brain and dengue virus infection

et al. 2023

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Zika virus (ZIKV) infection causes ocular and neurological pathologies with ZIKV-induction of developmental abnormalities following in utero infection a major concern. The study here has compared ZIKV and the related dengue virus (DENV) infection in the eye and brain. In vitro, both ZIKV and DENV could infect cell lines representing the retinal pigmented epithelium, endothelial cells, and Mueller cells, with distinct innate responses in each cell type. In a 1-day old mouse challenge model, both ZIKV and DENV infected the brain and eye by day 6 post-infection (pi). ZIKV was present at comparable levels in both tissues, with RNA increasing with time post-infection. DENV infected the brain, but RNA was detected in the eye of less than half of the mice challenged. NanoString analysis demonstrated comparable host responses in the brain for both viruses, including induction of mRNA for myosin light chain-2 (Mly2), and numerous antiviral and inflammatory genes. Notably, mRNA for multiple complement proteins were induced, but C2 and C4a were uniquely induced by ZIKV but not DENV. Consistent with the viral infection in the eye, DENV induced few responses while ZIKV induced substantial inflammatory and antiviral responses. Compared to the brain, ZIKV in the eye did not induce mRNAs such as C3, downregulated Retnla, and upregulated CSF-1. Morphologically, the ZIKV-infected retina demonstrated reduced formation of specific retinal layers. Thus, although ZIKV and DENV can both infect the eye and brain, there are distinct differences in host cell and tissue inflammatory responses that may be relevant to ZIKV replication and disease.

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Vav Proteins in Development of the Brain: A Potential Relationship to the Pathogenesis of Congenital Zika Syndrome?

Cited by 3 publications

References 125 publications

Tissue-specific expansion of Zika virus isogenic variants drive disease pathogenesis

Tissue-specific expansion of Zika virus isogenic variants drive disease pathogenesis

mosGraphFlow: a novel integrative graph AI model mining disease targets from multi-omic data

Zika virus infection of retinal cells and the developing mouse eye induces host responses that contrasts to the brain and dengue virus infection

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