Lauren M. Brady scite author profile

Beyond the well-defined role of the Eph receptor tyrosine kinases in developmental processes, cell motility, cell trafficking/adhesion and cancer, nothing is known about their involvement in liver pathologies. During blood-stage rodent malaria infection we have found that EphB2 transcripts and proteins were upregulated in the liver, a result likely driven by elevated surface expression on immune cells including macrophages. This was significant for malaria pathogenesis because EphB2−/− mice were protected from malaria-induced liver fibrosis despite having a similar liver parasite burden compared with littermate control mice. This protection was correlated with a defect in the inflammatory potential of hepatocytes from EphB2−/− mice resulting in a reduction in adhesion molecules, chemokines/chemokines receptors RNA levels and infiltration of leukocytes including macrophages/Kupffer cells which mediate liver fibrosis during rodent malaria infections. These observations are recapitulated in the well-established carbon tetrachloride (CCL4) model of liver fibrosis in which EphB2−/− CCL4-treated mice showed a significant reduction of liver fibrosis compared to CCL4-treated littermate mice. Depletion of macrophages by clodronate-liposome abrogates liver EphB2 mRNA and proteins up-regulation and fibrosis in malaria-infected mice. Conclusion: During rodent malaria, EphB2 expression promotes malaria-associated liver fibrosis. To our knowledge, our data is the first to reveal the implication of the EphB family of receptor tyrosine kinases in liver fibrosis or in the pathogenesis of malaria infection.

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EphA2 contributes to disruption of the blood-brain barrier in cerebral malaria

Darling

Mimche

Bray

et al. 2020

PLoS Pathog

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Disruption of blood-brain barrier (BBB) function is a key feature of cerebral malaria. Increased barrier permeability occurs due to disassembly of tight and adherens junctions between endothelial cells, yet the mechanisms governing junction disassembly and vascular permeability during cerebral malaria remain poorly characterized. We found that EphA2 is a principal receptor tyrosine kinase mediating BBB breakdown during Plasmodium infection. Upregulated on brain microvascular endothelial cells in response to inflammatory cytokines, EphA2 is required for the loss of junction proteins on mouse and human brain microvascular endothelial cells. Furthermore, EphA2 is necessary for CD8+ T cell brain infiltration and subsequent BBB breakdown in a mouse model of cerebral malaria. Blocking EphA2 protects against BBB breakdown highlighting EphA2 as a potential therapeutic target for cerebral malaria.

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Expression of the Receptor Tyrosine Kinase EphB2 on Dendritic Cells Is Modulated by Toll-Like Receptor Ligation but Is Not Required for T Cell Activation

et al. 2015

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The Eph receptor tyrosine kinases interact with their ephrin ligands on adjacent cells to facilitate contact-dependent cell communication. Ephrin B ligands are expressed on T cells and have been suggested to act as co-stimulatory molecules during T cell activation. There are no detailed reports of the expression and modulation of EphB receptors on dendritic cells, the main antigen presenting cells that interact with T cells. Here we show that mouse splenic dendritic cells (DC) and bone-marrow derived DCs (BMDC) express EphB2, a member of the EphB family. EphB2 expression is modulated by ligation of TLR4 and TLR9 and also by interaction with ephrin B ligands. Co-localization of EphB2 with MHC-II is also consistent with a potential role in T cell activation. However, BMDCs derived from EphB2 deficient mice were able to present antigen in the context of MHC-II and produce T cell activating cytokines to the same extent as intact DCs. Collectively our data suggest that EphB2 may contribute to DC responses, but that EphB2 is not required for T cell activation. This result may have arisen because DCs express other members of the EphB receptor family, EphB3, EphB4 and EphB6, all of which can interact with ephrin B ligands, or because EphB2 may be playing a role in another aspect of DC biology such as migration.

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Deficiency in the receptor tyrosine kinase EphB2 attenuates experimentally-induced liver fibrosis in mice (CAM1P.156)

Mimche

Brady

Bray

et al. 2015

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Beyond the well-defined role of Eph receptor tyrosine kinases in biological processes, cell migration, adhesion, nothing is known about their implication in liver pathologies. During blood-stage rodent malaria infection, EphB2 mRNA and proteins are upregulated in the liver, a result likely driven by elevated surface expression on macrophages. This is significant for malaria pathogenesis because EphB2-/- mice are protected from malaria-induced liver fibrosis despite having a similar liver parasite burden compared with littermate mice. This protection is correlated with a defect in inflammatory potential of hepatocytes from EphB2-/- mice resulting in a reduction in adhesion molecules, chemokine/chemokine receptors RNA levels and infiltration of leukocytes including Kupffer cells which mediate liver fibrosis during malaria. These observations are recapitulated in the well-established carbon tetrachloride (CCL4) model of liver fibrosis in which EphB2-/- CCL4-treated mice showed a significant reduction of liver fibrosis compared to CCL4-treated littermate mice. EphB2 is predominantly expressed by Kupffer cells and depletion of macrophages abrogates liver EphB2 mRNA and protein increase in malaria infected mice, as well as fibrosis. Altogether these results reinforce the critical role played by EphB2 in promoting liver inflammation and fibrosis. To our knowledge, this work is the first to reveal the potential profibrotic nature of EphB receptor tyrosine kinases in liver injury.

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The Eph/Ephrin molecules are modulated in organs of parasitized red blood cells sequestration and may contribute to disease pathogenesis in rodent malaria. (P3059)

Mimche

Brady

Cox

et al. 2013

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Eph receptors and their Ephrin ligands are the largest family of receptor tyrosine kinases. Beyond their role in cell trafficking/adhesion and cancer, nothing is known about their activation during malaria infection. We explored the regulation of Eph/Ephrin in malaria using the rodent malaria model P. berghei ANKA, a parasite that causes experimental cerebral malaria in C57BL/6 mice. Infection with P. berghei ANKA leads to modulation of transcription for some members of the Eph/Ephrin in C57BL/6 mouse brain and spleen. This may be driven by inflammatory cytokines upregulated in these organs in response to sequestration of iRBCs because TNFR2-/- mice which are known to be resistant from death by ECM did not display any upregulation of Eph/Ephrin. To further examine their modulation, subsets of antigen presenting cells and T cells were FACS sorted from splenocytes at different time points post infection. Transcription was found to be modulated between days 2 and 3, particularly for EphB2 on CD11b+ macrophage/neutrophil subset. To support the modulation of transcription in the brain during ECM, mouse primary brain microvascular endothelial cells were isolated from naïve mice and stimulated with inflammatory cytokines and lysates of iRBCs. We observed an increase in the transcription of EphB4 and EphB6 in response to inflammatory cytokine signaling and an increase in the protein expression of EphB4 in response to iRBC lysates. The implications of these results will be discussed.

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Lauren M. Brady

The receptor tyrosine kinase EphB2 promotes hepatic fibrosis in mice

EphA2 contributes to disruption of the blood-brain barrier in cerebral malaria

Expression of the Receptor Tyrosine Kinase EphB2 on Dendritic Cells Is Modulated by Toll-Like Receptor Ligation but Is Not Required for T Cell Activation

Deficiency in the receptor tyrosine kinase EphB2 attenuates experimentally-induced liver fibrosis in mice (CAM1P.156)

The Eph/Ephrin molecules are modulated in organs of parasitized red blood cells sequestration and may contribute to disease pathogenesis in rodent malaria. (P3059)

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