Felix Bock

Cutting Edge: Lymphatic Vessels, Not Blood Vessels, Primarily Mediate Immune Rejections After Transplantation

The purpose of this study was to determine the relative importance of blood vessels (hemangiogenesis) versus lymphatic vessels (lymphangiogenesis) in mediating immunological responses after transplantation. Using the murine model of corneal transplantation, graft survival was compared in differentially prevascularized and avascular recipient beds. Donor corneas (C57BL/6) were transplanted into uninflamed or inflamed avascular, prehemvascularized only or prehemvascularized and prelymphvascularized recipient murine eyes (BALB/C). Selective inhibition of lymphangiogenesis was achieved using antivascular endothelial growth factor receptor 3 Abs and anti-integrin α5 small molecules. Grafts placed into only prehemvascularized recipient beds had a similarly good graft survival compared with grafts placed into completely avascular, normal recipients, whereas the pre-existence of lymphatic vessels significantly deteriorated corneal graft survival (p < 0.05). Lymphatic vessels seem to contribute significantly to graft rejection after (corneal) transplantation. That may allow for selective, temporary, perioperative antilymphangiogenic treatment to promote graft survival without affecting blood vessels, even after solid organ transplantation.

Promotion of Graft Survival by Vascular Endothelial Growth Factor A Neutralization After High-Risk Corneal Transplantation

OBJECTIVE To evaluate whether hemangiogenesis, lymphangiogenesis, and concomitant invasion of mononuclear phagocytes occurring after high-risk corneal transplantation in already vascularized high-risk recipient corneal beds increase the risk for subsequent immune rejection. METHODS Three intrastromal sutures were left in place for 6 weeks in the corneas of BALB/c mice, causing neovascularization. Three weeks after suture removal, keratoplasty was performed (donors C57BL/6 mice). The treatment group received a vascular endothelial growth factor A (VEGF-A)-neutralizing cytokine trap at 0, 4, 7, and 14 days postoperatively (Fc protein was used as the control treatment). Morphometry was performed in corneal flat mounts using lymphatic endothelial hyaluronan receptor-1 (a specific lymphatic endothelial marker), CD31 (a panendothelial marker), and F4/80 (a marker for mononuclear phagocytes). RESULTS After corneal transplantation, significant additional hemangiogenesis (mean area covered by vessels [SD], 68% [18%] postoperatively vs 40% [18%] preoperatively; P = .03) and lymphangiogenesis (12% [1.3%] postoperatively vs 9% [2.8%] preoperatively; P = .03) were observed. Postoperative neutralization of VEGF-A inhibited operation-induced hemangiogenesis (35% [8%]; P = .007) and lymphangiogenesis (6% [1.6%]; P = .03) and decreased the recruitment of mononuclear phagocytes into the graft (mean [SD], 501 cells/mm(2) [152] in treated mice vs 684 cells/mm(2) [35] in Fc controls; P = .03). After 8 weeks, 23% of the treated corneas were not rejected, whereas all control corneas were rejected after 21 days (P = .007). CONCLUSIONS Neutralization of VEGF-A after high-risk corneal transplantation effectively inhibits postoperative hemangiogenesis, lymphangiogenesis, and recruitment of antigen-presenting cells and improves corneal graft survival. CLINICAL RELEVANCE Blocking of VEGF-A after high-risk corneal transplantation may be a novel approach to improve graft survival.

GS-101 Antisense Oligonucleotide Eye Drops Inhibit Corneal Neovascularization Interim Results of a Randomized Phase II Trial

PURPOSE Pathologic corneal neovascularization not only reduces corneal transparency and visual acuity, but also is one of the most significant preoperative and postoperative risk factors for graft rejection after corneal transplantation. The aim of this study was to test tolerability and efficacy of gene signal (GS)-101 eye drops, an antisense oligonucleotide against insulin receptor substrate-1, versus placebo on inhibition of progressive corneal neovascularization. DESIGN Randomized, double-blind, multicenter, phase II clinical study. PARTICIPANTS AND CONTROLS Interim analysis on 40 patients with progressive corneal neovascularization resulting from various underlying diseases being nonresponsive to conventional therapy. INTERVENTIONS Four groups of 10 patients were treated for 3 months in this dose-finding study comparing 3 doses of GS-101 (eye drops twice daily; 43, 86, and 172 microg/day total) with placebo (10 patients per group). MAIN OUTCOME MEASURES The primary end point was the area covered by pathologic corneal blood vessels, which was measured morphometrically on digitized slit-lamp pictures using image analysis techniques. RESULTS GS-101 eye drops were well tolerated. All serious and 95% of all other adverse events were categorized by the investigators as unrelated. In 3 patients, there was a potentially related side effect of ocular surface discomfort. At a dose of 86 microg/day (43 microg/drop), GS-101 eye drops produced a significant inhibition and regression of corneal neovascularization (-2.04+/-1.57% of total corneal area; P = 0.0047), whereas the low dose tended to stabilize it (0.07+/-2.94%; P = 0.2088) compared with placebo (0.89+/-2.15%), where corneal neovascularization progressed in all patients. There was no apparent benefit to the higher dose (1.60+/-7.63%). CONCLUSIONS The interim results of this phase II study suggest that GS-101 eye drops at an optimal dose of 86 microg/day are an effective and noninvasive approach specifically to inhibit and regress active corneal angiogenesis, a major risk factor for corneal graft transplantation and graft rejection. Safety concerns were not detected. FINANCIAL DISCLOSURE(S) Proprietary or commercial disclosure may be found after the references.

Thrombospondin 1 inhibits inflammatory lymphangiogenesis by CD36 ligation on monocytes

By engaging CD36 on murine macrophages, thrombospondin-1 prevents excessive macrophage VEGF-C production and corneal neovascularization.

Novel anti(lymph)angiogenic treatment strategies for corneal and ocular surface diseases

The cornea is one of the few tissues which actively maintain an avascular state, i.e. the absence of blood and lymphatic vessels (corneal [lymph]angiogenic privilege). Nonetheless do several diseases interfere with this privilege and cause pathologic corneal hem- and lymphangiogenesis. The ingrowths of pathologic blood and lymphatic vessels into the cornea not only reduce transparency and thereby visual acuity up to blindness, but also significantly increases the rate of graft rejections after subsequent corneal transplantation. Therefore great interest exists in new strategies to target pathologic corneal (lymph)angiogenesis to promote graft survival. This review gives an overview on the vascular anatomy of the normal ocular surface, on the molecular mechanisms contributing to the corneal (lymph)angiogenic privilege and on the cellular and molecular mechanisms occurring during pathological neovascularization of the cornea. In addition we summarize the current preclinical and clinical evidence for three novel treatment strategies against ocular surface diseases based on targeting pathologic (lymph)angiogenesis: (a) modulation of the immune responses after (corneal) transplantation by targeting pathologic (lymph)angiogenesis prior to and after transplantation, (b) novel concepts against metastasis and recurrence of ocular surface tumors such as malignant melanoma of the conjunctiva by anti(lymph)angiogenic therapy and (c) new ideas on how to target ocular surface inflammatory diseases such as dry eye by targeting conjunctival and corneal lymphatic vessels. Based on compelling preclinical evidence and early data from clinical trials the novel therapeutic concepts of promoting graft survival, inhibiting tumor metastasis and dampening ocular surface inflammation and dry eye disease by targeting (lymph)angiogenesis are on their way to translation into the clinic.

Improved semiautomatic method for morphometry of angiogenesis and lymphangiogenesis in corneal flatmounts

Purpose of the study was to describe a novel semiautomatic, quantitative image analysis method based on threshold analysis for morphometry of corneal (lymph)angiogenesis and to test its validity, reliability and objectivity. Murine corneas were vascularized by using a suture-induced neovascularization assay. For immunohistochemistry, flatmounts of the vascularized corneas were stained with LYVE-1 as a specific lymphatic vascular endothelial marker and with CD31 as panendothelial marker. Morphometry of corneal hem and lymphangiogenesis was performed semi-automatically on digital images using image analysis software. Data were analyzed by a paired t-test, intraclass-correlation and systemic difference analysis compared to a manual method. The semiautomatic method based on threshold analysis was more valid in measuring the area covered by blood or lymphatic vessels. Both methods had a good reproducibility with respect to both vessel types (blood vessels: manual: 0.969, semiautomatic: 0.982; lymphatic vessels: manual: 0.951, semiautomatic: 0.966), whereas the systemic difference was significant for both groups measuring lymphatic vessels (manual: p<0.003; semiautomatic: p<0.035) and for the manual method measuring blood vessels (manual: p<0.0001; semiautomatic: p<0.419). The new semiautomatic morphometry method based on threshold analysis provides higher accuracy, is more valid than and at least as reproducible and objective as the manual outlining method. Therefore the semiautomatic method can be used to detect even small effects on hem and lymphangiogenesis in murine corneal flatmounts with greater precision.

Safety profile of topical VEGF neutralization at the cornea.

PURPOSE Bevacizumab eyedrops inhibit corneal neovascularization. The purpose of this study was to analyze the safety profile of VEGF-A neutralization at the ocular surface. METHODS Bevacizumab eyedrops (5 mg/mL) and an antimurine VEGF-A antibody (250 microg/mL) were applied to normal murine corneas five times a day for 7 and 14 days. Subsequently, corneas were analyzed for morphologic changes by light and electron microscopy. In a mouse model of corneal epithelial abrasion, the effects of topically applied anti-VEGF antibodies on epithelial wound healing were analyzed: the treatment group received bevacizumab (5 mg/mL) or the antimurine VEGF-A antibody (250 microg/mL) as eyedrops, and the control group received an equal volume of saline solution. After 12, 18, and 24 hours, corneas were photographed in vivo with and without fluorescein staining for morphometry. Afterwards the mice were killed, and eyes were removed for histology, immunohistochemistry with Ki67/DAPI, and electron microscopy. The effect of midterm anti-VEGF therapy on corneal nerve density was assessed by staining corneas treated with an FITC-conjugated anti-neurofilament antibody and morphometric analysis. RESULTS Murine corneas treated with two different types of anti-VEGF antibody eyedrops did not show obvious corneal morphologic changes at the light and electron microscopic levels. Furthermore, anti-VEGF antibody eyedrops had no significant impact on the wound healing process after corneal epithelial injury or on normal murine corneal nerve fiber density. CONCLUSIONS Topical neutralization of VEGF-A at the corneal surface does not have significant side effects on normal corneal epithelial wound healing, normal corneal integrity, or normal nerve fiber density. Therefore, anti-VEGF eyedrops seem to be a relatively safe option to treat corneal neovascularization.

Transient postoperative vascular endothelial growth factor (VEGF)-neutralisation improves graft survival in corneas with partly regressed inflammatory neovascularisation

Background: High-risk keratoplasties are usually performed after an uninflamed and quiescent interval in corneas with partly regressed blood and lymphatic vessels. We analysed whether the inhibition of post-keratoplasty revascularisation in mice with partly regressed corneal vessels (“intermediate-risk”) improves graft survival. Methods: Three interrupted stromal sutures (11-0) in corneas of Balb/c mice (6–8 weeks old) were placed for 6 weeks. Six months after suture removal, penetrating keratoplasty was performed with C57BL/6 donors. The treatment group received a vascular endothelial growth factor-A specific cytokine trap (VEGF Trap) intraperitoneally at days 0, 4, 7 and 14 after keratoplasty (25 mg/kg per mouse; controls received equal amounts of Fc protein). Pathological haemangiogenesis and lymphangiogenesis prior to as well as 3 days or 8 weeks after keratoplasty and graft survival were analysed. Results: Three days after keratoplasty corneal revascularisation was sufficiently reduced by VEGF Trap (haem-vascularised areas 42.7% reduction; lymph-vascularised areas 54.7% reduction). Survival proportions 8 weeks after keratoplasty were 36% in the treatment group compared with 9% in the control group (n = 11; p<0.05). At that time no differences in haemangiogenesis or lymphangiogenesis were observed between the two groups. Conclusion: Early transient postoperative induction of haemangiogenesis and lymphangiogenesis and reformation of regressed corneal blood and lymphatic vessels are important for transplant rejections after “intermediate-risk” corneal transplantation.

Suppression of Inflammatory Corneal Lymphangiogenesis by Application of Topical Corticosteroids

OBJECTIVES To analyze whether topical application of corticosteroids inhibits inflammatory corneal lymphangiogenesis and to study the potential underlying antilymphangiogenic mechanisms. METHODS Inflammatory corneal neovascularization was induced by suture placement, and the corneas were then treated with topical fluorometholone, prednisolone acetate, or dexamethasone sodium phosphate. After 1 week, the corneas were stained with lymphatic vessel endothelial hyaluronan receptor 1 for detection of pathological corneal lymphangiogenesis. The effect of these corticosteroids on macrophage recruitment was assessed via fluorescence-activated cell sorting analysis. The effect of these corticosteroids on proinflammatory cytokine expression by peritoneal exudate cells was tested via real-time polymerase chain reaction. Furthermore, the effect of steroid treatment on the proliferation of lymphatic endothelial cells was assessed via enzyme-linked immunosorbent assay. RESULTS Treatment with corticosteroids resulted in a significant reduction of inflammatory corneal lymphangiogenesis. The antilymphangiogenic effect of fluorometholone was significantly weaker than that of prednisolone and dexamethasone. Corneal macrophage recruitment was also significantly inhibited by the application of topical steroids. Treatment of peritoneal exudate cells with corticosteroids led to a significant downregulation of the RNA expression levels of tumor necrosis factor and interleukin 1β. Additionally, proliferation of lymphatic endothelial cells was also inhibited. CONCLUSIONS Corticosteroids are strong inhibitors of inflammatory corneal lymphangiogenesis, with significant differences between various corticosteroids in terms of their antilymphangiogenic potency. The main mechanism of the antilymphangiogenic effect seems to be through the suppression of macrophage infiltration, proinflammatory cytokine expression, and direct inhibition of proliferation of lymphatic endothelial cells. CLINICAL RELEVANCE Steroids block corneal lymphangiogenesis, the main risk factor for immune rejections after corneal transplantation. The different antilymphangiogenic potency of these drugs should be taken into account when using steroids in clinical practice (eg, after keratoplasty).

Original articleGS-101 Antisense Oligonucleotide Eye Drops Inhibit Corneal Neovascularization: Interim Results of a Randomized Phase II Trial

PURPOSE Pathologic corneal neovascularization not only reduces corneal transparency and visual acuity, but also is one of the most significant preoperative and postoperative risk factors for graft rejection after corneal transplantation. The aim of this study was to test tolerability and efficacy of gene signal (GS)-101 eye drops, an antisense oligonucleotide against insulin receptor substrate-1, versus placebo on inhibition of progressive corneal neovascularization. DESIGN Randomized, double-blind, multicenter, phase II clinical study. PARTICIPANTS AND CONTROLS Interim analysis on 40 patients with progressive corneal neovascularization resulting from various underlying diseases being nonresponsive to conventional therapy. INTERVENTIONS Four groups of 10 patients were treated for 3 months in this dose-finding study comparing 3 doses of GS-101 (eye drops twice daily; 43, 86, and 172 microg/day total) with placebo (10 patients per group). MAIN OUTCOME MEASURES The primary end point was the area covered by pathologic corneal blood vessels, which was measured morphometrically on digitized slit-lamp pictures using image analysis techniques. RESULTS GS-101 eye drops were well tolerated. All serious and 95% of all other adverse events were categorized by the investigators as unrelated. In 3 patients, there was a potentially related side effect of ocular surface discomfort. At a dose of 86 microg/day (43 microg/drop), GS-101 eye drops produced a significant inhibition and regression of corneal neovascularization (-2.04+/-1.57% of total corneal area; P = 0.0047), whereas the low dose tended to stabilize it (0.07+/-2.94%; P = 0.2088) compared with placebo (0.89+/-2.15%), where corneal neovascularization progressed in all patients. There was no apparent benefit to the higher dose (1.60+/-7.63%). CONCLUSIONS The interim results of this phase II study suggest that GS-101 eye drops at an optimal dose of 86 microg/day are an effective and noninvasive approach specifically to inhibit and regress active corneal angiogenesis, a major risk factor for corneal graft transplantation and graft rejection. Safety concerns were not detected. FINANCIAL DISCLOSURE(S) Proprietary or commercial disclosure may be found after the references.