Alexander Schering scite author profile

Angiopoietin-2 (ANG-2) is a key regulator of angiogenesis that exerts context-dependent effects on ECs. ANG-2 binds the endothelial-specific receptor tyrosine kinase 2 (TIE2) and acts as a negative regulator of ANG-1/TIE2 signaling during angiogenesis, thereby controlling the responsiveness of ECs to exogenous cytokines. Recent data from tumors indicate that under certain conditions ANG-2 can also promote angiogenesis. However, the molecular mechanisms of dual ANG-2 functions are poorly understood. Here, we identify a model for the opposing roles of ANG-2 in angiogenesis. We found that angiogenesis-activated endothelium harbored a subpopulation of TIE2-negative ECs (TIE2 lo ). TIE2 expression was downregulated in angiogenic ECs, which abundantly expressed several integrins. ANG-2 bound to these integrins in TIE2 lo ECs, subsequently inducing, in a TIE2-independent manner, phosphorylation of the integrin adaptor protein FAK, resulting in RAC1 activation, migration, and sprouting angiogenesis. Correspondingly, in vivo ANG-2 blockade interfered with integrin signaling and inhibited FAK phosphorylation and sprouting angiogenesis of TIE2 lo ECs. These data establish a contextual model whereby differential TIE2 and integrin expression, binding, and activation control the role of ANG-2 in angiogenesis. The results of this study have immediate translational implications for the therapeutic exploitation of angiopoietin signaling.

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ROCK-Isoform-Specific Polarization of Macrophages Associated with Age-Related Macular Degeneration

Zandi

et al. 2015

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Age is a major risk factor in age-related macular degeneration (AMD), but the underlying cause is unknown. We find increased Rho-associated kinase (ROCK) signaling and M2 characteristics in eyes of aged mice, revealing immune changes in aging. ROCK isoforms determine macrophage polarization into M1 and M2 subtypes. M2-like macrophages accumulated in AMD, but not in normal eyes, suggesting these macrophages may be linked to macular degeneration. M2 macrophages injected into the mouse eye exacerbated choroidal neovascular lesions, while M1 macrophages ameliorated them, supporting a causal role for macrophage subtypes in AMD. Selective ROCK2 inhibition with a small molecule decreased M2-like macrophages and choroidal neovascularization. ROCK2 inhibition upregulated M1 markers without affecting macrophage recruitment, underlining the plasticity of these macrophages. These results reveal age-induced innate immune imbalance as underlying AMD pathogenesis. Targeting macrophage plasticity opens up new possibilities for more effective AMD treatment.

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Blood vessel endothelial VEGFR-2 delays lymphangiogenesis: an endogenous trapping mechanism links lymph- and angiogenesis

Nakao

Zandi

Hata

et al. 2011

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Angio- and lymphangiogenesis are inherently related processes. However, how blood and lymphatic vessels regulate each other is unknown. This work introduces a novel mechanism explaining the temporal and spatial relation of blood and lymphatic vessels. Vascular endothelial growth factor-A (VEGF-A) surprisingly reduced VEGF-C in the supernatant of blood vessel endothelial cells, suggesting growth factor (GF) clearance by the growing endothelium. The orientation of lymphatic sprouting toward angiogenic vessels and away from exogenous GFs was VEGF-C dependent. In vivo molecular imaging revealed higher VEGF receptor (R)-2 in angiogenic tips compared with normal vessels. Consistently, lymphatic growth was impeded in the angiogenic front. VEGF-C/R-2 complex in the cytoplasm of VEGF-A–treated endothelium indicated that receptor-mediated internalization causes GF clearance from the extracellular matrix. GF clearance by receptor-mediated internalization is a new paradigm explaining various characteristics of lymphatics.

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VAP-1–Mediated M2 Macrophage Infiltration Underlies IL-1β– but Not VEGF-A–Induced Lymph- and Angiogenesis

Nakao

Noda

Zandi

et al. 2011

The American Journal of Pathology

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Vascular adhesion protein-1 (VAP-1) contributes to inflammatory and angiogenic diseases, including cancer and age-related macular degeneration. It is expressed in blood vessels and contributes to inflammatory leukocyte recruitment. The cytokines IL-1␤ and vascular endothelial growth factor A (VEGF-A) modulate angiogenesis, lymphangiogenesis, and leukocyte infiltration. The lymphatic endothelium expresses intercellular adhesion molecule-1 and vascular cell adhesion molecule-1, which facilitate leukocyte transmigration into the lymphatic vessels. However, whether lymphatics express VAP-1 and whether they contribute to cytokine-dependent lymph-and angiogenesis are unknown. We investigated the role of VAP-1 in IL-1␤-and VEGF-A-induced lymph-and angiogenesis using the established corneal micropocket assay. IL-1␤ increased VAP-1 expression in the inflamed cornea. Our in vivo molecular imaging revealed significantly higher VAP-1 expression in neovasculature than in the preexisting vessels. VAP-1 was expressed in blood but not lymphatic vessels in vivo. IL-1␤-induced M2 macrophage infiltration and lymphand angiogenesis were blocked by VAP-1 inhibition. In contrast, VEGF-A-induced lymph-and angiogenesis were unaffected by VAP-1 inhibition. Our results indicate a key role for VAP-1 in lymph-and angiogenesisrelated macrophage recruitment. VAP-1 might become a new target for treatment of inflammatory lymph-and angiogenic diseases, including cancer.

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Superior sensitivity of novel molecular imaging probe: simultaneously targeting two types of endothelial injury markers

et al. 2010

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The need remains great for early diagnosis of diseases. The special structure of the eye provides a unique opportunity for noninvasive light-based imaging of fundus vasculature. To detect endothelial injury at the early and reversible stage of adhesion molecule up-regulation, we generated novel imaging agents that target two distinct types of endothelial molecules, a mediator of rolling, P-selectin, and one that mediates firm adhesion, ICAM-1. Interactions of these double-conjugated fluorescent microspheres (MSs) in retinal or choroidal microvasculature were visualized in live animals by scanning laser ophthalmoscopy. The new imaging agents showed significantly higher sensitivity for detection of endothelial injury than singly conjugated MSs (rPSGL-1- or alpha-ICAM-1-conjugated), both in terms of rolling (P<0.01) and firm adhesion (P<0.01). The rolling flux of alpha-ICAM-1-conjugated MSs did not differ in EIU animals, whereas double-conjugated MSs showed significantly higher rolling flux (P<0.01), revealing that ICAM-1 in vivo supports rolling, once MS interaction with the endothelium is initiated. Double-conjugated MSs specifically detected firmly adhering leukocytes (P<0.01), allowing in vivo quantification of immune response. Antiinflammatory treatment with dexamethasone led to reduced leukocyte accumulation (P<0.01) as well as MS interaction (P<0.01), which suggests that treatment success and resolution of inflammation is quantitatively reflected with this molecular imaging approach. This work introduces novel imaging agents for noninvasive detection of endothelial injury in vivo. Our approach may be developed further to diagnose human disease at a much earlier stage than currently possible.

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In vivoimaging of endothelial injury in choriocapillaris during endotoxin‐induced uveitis

et al. 2008

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Early detection of ocular inflammation may prevent the occurrence of structural damage or vision loss. Here, we introduce a novel noninvasive technique for molecular imaging and quantitative evaluation of endothelial injury in the choriocapillaris of live animals, which detects disease earlier than currently possible. Using an established model of ocular inflammation, endotoxin-induced uveitis (EIU), we visualized the rolling and adhesive interaction of fluorescent microspheres conjugated to recombinant P-selectin glycoprotein ligand-Ig (rPSGL-Ig) in choriocapillaris using a scanning laser ophthalmoscope (SLO). The number of rolling microspheres in the choriocapillaris peaked 4-10 h after LPS injection. The number of the accumulated microspheres peaked 4 h after LPS injection in the temporal choriocapillaris and 4 and 36 h after LPS injection in the central areas around the optic disk. Furthermore, we semiquantified the levels of P-selectin mRNA expression in the choroidal vessels by reverse transcription-PCR and found its pattern to match the functional microsphere interactions, with a peak at 4 h after LPS injection. These results indicate that PSGL-1-conjugated fluorescent microspheres allow specific detection of endothelial P-selectin expression in vivo and noninvasive assessment of endothelial injury. This technique may help to diagnose subclinical signs of ocular inflammatory diseases.

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Surprising up‐regulation of P‐selectin glycoprotein ligand‐1 (PSGL‐1) in endotoxin‐induced uveitis

Almulki¹,

Noda²,

Amini³

et al. 2008

FASEB j.

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P-selectin glycoprotein ligand-1 (PSGL-1) is constitutively expressed on leukocytes and was thought to be down-regulated with cell activation. However, this work shows the surprising finding of functional PSGL-1 up-regulation during acute inflammation. PSGL-1 function was studied in our autoperfusion assay, in which blood from a mouse carotid flows through a microchamber coated with a fixed density of P-selectin. Under the inflammatory conditions--uveitis induced by systemic lipopolysaccharide injection--we recorded significantly reduced leukocyte rolling velocity, which suggests PSGL-1 up-regulation; however, flow cytometry showed reduced PSGL-1. When bound leukocytes were released from the vasculature by PSGL-1 blockade, a large peripheral blood leukocyte (PBL) population showed elevated PSGL-1, which could account for the reduced PSGL-1 in the remaining unbound population. In the eye, systemic blockade of PSGL-1 with a monoclonal antibody or recombinant soluble PSGL-1 drastically reduced the severe manifestations of uveitis. Furthermore, PSGL-1 blockade was significantly more effective in reducing retinal leukostasis than was P-selectin blockade. Our results provide surprising evidence for functional PSGL-1 up-regulation in PBLs during acute inflammation. The temporal overlap between PSGL-1 and P-selectin up-regulation reveals an as yet unrecognized collaboration between this receptor-ligand pair, increasing efficiency of the first steps of the leukocyte recruitment cascade.

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Noninvasive molecular imaging reveals role of PAF in leukocyte‐endothelial interaction in LPS‐induced ocular vascular injury

et al. 2011

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Uveitis is a systemic immune disease and a common cause of blindness. The eye is an ideal organ for light-based imaging of molecular events underlying vascular and immune diseases. The phospholipid platelet-activating factor (PAF) is an important mediator of inflammation, the action of which in endothelial and immune cells in vivo is not well understood. The purpose of this study was to investigate the role of PAF in endothelial injury in uveitis. Here, we use our recently introduced in vivo molecular imaging approach in combination with the PAF inhibitors WEB 2086 (WEB) and ginkgolide B (GB). The differential inhibitory effects of WEB and GB in reducing LPS-induced endothelial injury in the choroid indicate an important role for PAF-like lipids, which might not require the PAF receptor for their signaling. P-selectin glycoprotein ligand-1-mediated rolling of mouse leukocytes on immobilized P-selectin in our autoperfused microflow chamber assay revealed a significant reduction in rolling velocity on the cells' contact with PAF. Rolling cells that came in contact with PAF rapidly assumed morphological signs of cell activation, indicating that activation during rolling does not require integrins. Our results show a key role for PAF in mediating endothelial and leukocyte activation in acute ocular inflammation. Our in vivo molecular imaging provides a detailed view of cellular and molecular events in the complex physiological setting.

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