Pathogenesis of herpes simplex virus-induced ocular immunoinflammatory lesions in B-cell-deficient mice

The role of B cells and humoral immunity in herpes simplex virus (HSV) ocular infections was studied in immunoglobulin mu chain gene-targeted B-cell-deficient mice (muK/O). At doses of virus well tolerated by immunocompetent mice, heightened susceptibility of muK/O mice to herpetic encephalitis as well as to herpetic stromal keratitis (HSK) was observed. An explanation was sought for the increased severity of HSK in the muK/O mice. First, the lack of antibody responses in muK/O mice resulted in longer viral persistence and dissemination to the corneal stroma, the site of inflammation. Prolonged virus expression in the corneal stroma was suggested to cause bystander activation of Th1-type CD4(+) T cells, further contributing to the severity of HSK lesion expression in muK/O mice. Second, muK/O mice generated minimal Th2 cytokine responses compared to wild-type mice. Such responses might serve to downregulate the severity of Th1-mediated HSK lesions.     

Contribution of vascular endothelial growth factor in the neovascularization process during the pathogenesis of herpetic stromal keratitis

This report analyzes the role of vascular endothelial growth factor (VEGF)-induced angiogenesis in the immunoinflammatory lesion stromal keratitis induced by ocular infection with herpes simplex virus (HSV). Our results show that infection with replication-competent, but not mutant, viruses results in the expression of VEGF mRNA and protein in the cornea. This a rapid event, with VEGF mRNA detectable by 12 h postinfection (p.i.) and proteins detectable by 24 h p.i. VEGF production occurred both in the virus-infected corneal epithelium and in the underlying stroma, in which viral antigens were undetectable. In the stroma, VEGF was produced by inflammatory cells; these initially were predominantly polymorphonuclear leukocytes (PMN), but at later time points both PMN and macrophage-like cells were VEGF producers. In the epithelium, the major site of VEGF-expressing cells in early infection, the infected cells themselves were usually negative for VEGF. Similarly, in vitro infection studies indicated that the cells which produced VEGF were not those which expressed virus. Attesting to the possible role of VEGF-induced angiogenesis in the pathogenesis of herpetic stromal keratitis were experiments showing that VEGF inhibition with mFlt(1-3)-immunoglobulin G diminished angiogenesis and the severity of lesions after HSV infection. These observations are the first to evaluate VEGF-induced angiogenesis in the pathogenesis of stromal keratitis. Our results indicate that the control of angiogenesis represents a useful adjunct to therapy of herpetic ocular disease, an important cause of human blindness.     

Survival and integration of tissue-engineered corneal stroma in a model of corneal ulcer

Tissue-engineered replacement of diseased or damaged tissue has become a reality for some types of tissue, such as skin and cartilage. Tissue-engineered corneal stroma represents a promising concept to overcome the limitations of cornea replacement with allograft. In this study, porcine cornea was decellularized by a series of extraction methods, and the in vivo biocompatibility of the scaffold was measured subcutaneously in rabbits (n = 8). These were not acutely rejected and no abscesses were observed by hematoxylin and eosin staining at the 8th week, indicating that the scaffolds had good biocompatibility. To investigate the potential value of clinical applications, rabbit stromal keratocytes were implanted onto decellularized scaffolds to fabricate tissue-engineered corneal stroma. Allograft, tissue-engineered corneal stroma, or scaffolds were implanted into a model of corneal ulcer. The survival and reconstruction of corneal transplantation were morphologically evaluated by light and electron microscopy until the 32nd week after implantation. Experiments involving transplantation indicated that the epithelial and stromal defect healed quickly, with improvement in corneal clarity. The integration of the graft was accompanied by neurite ingrowth from the host tissue. By 16 weeks after transplantation, the cornea had gradually regained an intact state similar to that of normal cornea. Our results demonstrate that the tissue-engineered corneal stroma with allogenetic cells is a promising therapeutic method for corneal injury. This study was supported by the Nature Science Foundation of China (project no. 30572046) and the Development of High and New Science and Technology (863 Project) of China (2002AA205041, 2005AA205241).     

Corneal latency and transmission of herpes simplex virus-1

The transmission of herpes simplex virus (HSV)-1 by corneal transplantation has rarely been reported. It is believed that these cases have resulted either from reactivated virus traveling from the trigeminal ganglion to the cornea or from latent HSV-1 in the donor cornea itself. Studies of long-term viral presence in corneal tissue have sought to determine whether there is evidence of true non-neuronal latency, although there are problems in its definition. Recent studies provide new insights into neuronal latency, while similar HSV-1 gene regulation in the cornea may implicate corneal latency in pathophysiology and as a potential risk for transplant recipients. This issue has led to concerns over eye banking, which currently screens for other infectious agents but not HSV-1. Here we review the literature regarding corneal latency and the transmission of HSV-1.     

Cytodiagnosis of herpes simplex keratitis by means of an immunoperoxidase technique. A case report

Typical herpes simplex keratitis that developed in a 5-year-old boy was initially diagnosed cytologically in Papanicolaou-stained samples. Subsequently, an immunoperoxidase staining technique was used to identify the specific type of herpes simplex virus (HSV) in the destained cellular samples. The positive staining helped to establish the diagnosis of a type 1 HSV infection, permitting early treatment with acyclovir and subsequent complete recovery from the ocular herpetic infection. Emphasis is placed on the value of the immunoperoxidase technique for the rapid and specific diagnosis of cases of suspected HSV infection.     

The effects of aminoguanidine on primary and recurrent ocular herpes simplex virus infection

In primary ocular herpes simplex virus (HSV) infection, nitric oxide may function to control viral replication and herpetic stromal keratitis (HSK) lesions. Recurrent HSK, manifested as corneal opacity and neovascularization, is the potentially blinding sequel to primary infection. Here, we assess the effects of nitric oxide synthase inhibition on a mouse model of recurrent HSK. In preliminary primary infection experiments, NIH inbred mice treated with aminoguanidine, an inhibitor of inducible nitric oxide synthase (iNOS), experienced no changes in post-infection tear, brain, or ganglia virus titers, but encephalitis-related mortality was elevated. After UV-B stimulated viral reactivation, iNOS inhibition did not affect virus shedding or clinical disease. In contrast to primary HSK, there was no exacerbation of mortality in recurrent disease. Our findings indicate that nitric oxide can be neuroprotective without antiviral effects in primary HSK, and does not play a significant role in the pathogenesis of recurrent HSK. Compared with data from other mouse strains, this work suggests that there may be a genetic component to the importance of NO in controlling ocular HSV infection.     

Herpetic eye disease: immunopathogenesis and therapeutic measures

Infection of the cornea with herpes simplex virus (HSV) can result in a chronic disease called herpetic stromal keratitis (HSK). The disease represents one of the leading causes of infectious blindness in the Western world. Immune-mediated cellular damage is suspected in the pathogenesis of human HSK. The murine model has been pivotal in further establishing HSK as an immunopathological disease. This article reviews understanding of HSK, both in humans and in the mouse model, with an emphasis on possible future therapeutic strategies to counteract this blinding immunoinflammatory disease.     

The in vitro immunomodulatory activity of a synthetic brassinosteroid analogue would account for the improvement of herpetic stromal keratitis in mice

Herpes simplex virus type 1 (HSV-1) induces an ocular chronic immunoinflammatory syndrome named herpetic stromal keratitis that can lead to vision impairment and blindness. We have reported that the synthetic brassinosteroid (22S,23S)-3beta-bromo-5alpha,22,23-trihydroxystigmastan-6-one, designated as 2, is a potent antiviral in vitro and reduces the incidence of murine herpetic stromal keratitis, although it does not exert an antiviral effect in vivo. In the present report, we investigated whether brassinosteroid 2 may play a role in the modulation of the response of epithelial and immune cells to HSV-1 infection. Compound 2 blocked HSV-1-induced activation of NF-kappaB by inhibiting its translocation to the nucleus of infected corneal and conjunctival cells in vitro, as well as significantly reduced the secretion of TNF-alpha in infected NHC cells. Conversely, IL-6 production was enhanced by compound 2 after HSV-1 infection in both cell types. The production of these cytokines was considerably reduced in a LPS-stimulated macrophage cell line after treatment with compound 2. In conclusion, brassinosteroid 2 would be playing a modulating effect as an inductor or inhibitor, depending on the cell type involved. The improvement of disease observed in mice could be a balance between both, the immunostimulating and immunosuppressive effects of brassinosteroid 2 in vivo.     

Robo 4 Counteracts Angiogenesis in Herpetic Stromal Keratitis

The cornea is a complex tissue that must preserve its transparency to maintain optimal vision. However, in some circumstances, damage to the eye can result in neovascularization that impairs vision. This outcome can occur when herpes simplex virus type 1 (HSV-1) causes the immunoinflammatory lesion stromal keratitis (SK). Potentially useful measures to control the severity of SK are to target angiogenesis which with herpetic SK invariably involves VEGF. One such way to control angiogenesis involves the endothelial receptor Robo4 (R4), which upon interaction with another protein activates an antiangiogenic pathway that counteracts VEGF downstream signaling. In this study we show that mice unable to produce R4 because of gene knockout developed significantly higher angiogenesis after HSV-1 ocular infection than did infected wild type (WT) controls. Moreover, providing additional soluble R4 (sR4) protein by subconjunctival administration to R4 KO HSV-1 infected mice substantially rescued the WT phenotype. Finally, administration of sR4 to WT HSV-1 infected mice diminished the extent of corneal angiogenesis compared to WT control animals. Our results indicate that sR4 could represent a useful therapeutic tool to counteract corneal angiogenesis and help control the severity of SK.     

Herpetic stromal keratitis in the reconstituted scid mouse model.

Infections of the cornea with herpes simplex virus type 1 cause inflammatory lesions which frequently lead to blindness. The disease is suspected to be immunopathological in nature. To establish this point and to study possible mechanisms involved, corneal infections in C.B-17 scid/scid and cell-reconstituted scid mice were investigated. Whereas unreconstituted scid mice failed to develop herpetic stromal keratitis (HSK) and died of encephalitis, mice reconstituted with T lymphocytes generated severe lesions. T cells of the CD4+ subset were found to be essential mediators of the HSK lesion, while T cells of the CD8+ subset protected mice from lethality. The results confirm that HSK is an immunopathological disease and that scid mice provide a convenient model that should prove valuable in establishing the biochemical mechanisms by which HSK is mediated.     

Amniotic Membrane Transplantation for Ocular Surface Reconstruction

The use of amniotic membrane (or amnion) for transplantation as graft in ocular surface reconstruction is reviewed. This technique has become widespread because of the availability of the amnion, convenience and ease of use, and high and reproducible success rates. The mechanisms of action of the transplantation are varied and include the prolongation and clonogenic maintenance of epithelial progenitor cells, promotion of goblet and non-goblet cell differentiation, exclusion of inflammatory cells with anti-protease activities, suppression of Transforming Growth Factor signaling and myoblast differentiation of normal fibroblasts. The observed clinical effects include facilitation of epithelialization, maintenance of normal phenotypes, and reduction of inflammation, vascularization and scarring. Amniotic membrane transplantation is being increasingly used as graft for various conjunctival and corneal diseases and as a patch in cases of chemical and thermal burns, refractory and recalcitrant keratitis, and most recently as an excellent substrate for expanding epithelial stem cells ex vivo.     

14例茄病镰刀菌所致角膜溃疡临床分析

目的探讨真菌性角膜溃疡的病原学特点、临床表现及抗真菌综合治疗的方法。方法对2004年10月-2006年10月送检的疑似感染的角膜标本进行镜检、培养及菌种鉴定。对其中14例病历资料完整的茄病镰刀菌所致角膜溃疡患者进行临床分析。结果在33例送检标本中分离出茄病镰刀菌24株（72．7％）。上述14例患者中,有3例角膜穿孔合并眼内炎行眼球内容物除去术,3例行结膜瓣或羊膜移植,1例角膜移植,7例经非手术治疗保留较好视力。结论茄病镰刀菌是我国北方真菌性角膜炎的主要致病菌,可导致视力严重受损且治愈困难。早期诊断配合以抗真菌为主的综合治疗可阻止病情进展,明显改善视力。     

Ex Vivo Organotypic Corneal Model of Acute Epithelial Herpes Simplex Virus Type I Infection

Herpes keratitis is one of the most severe pathologies associated with the herpes simplex virus-type 1 (HSV-1). Herpes keratitis is currently the leading cause of both cornea-derived and infection-associated blindness in the developed world. Typical presentation of herpes keratitis includes infection of the corneal epithelium and sometimes the deeper corneal stroma and endothelium, leading to such permanent corneal pathologies as scarring, thinning, and opacity ¹.Corneal HSV-1 infection is traditionally studied in two types of experimental models. The in vitro model, in which cultured monolayers of corneal epithelial cells are infected in a Petri dish, offers simplicity, high level of replicability, fast experiments, and relatively low costs. On the other hand, the in vivo model, in which animals such as rabbits or mice are inoculated directly in the cornea, offers a highly sophisticated physiological system, but has higher costs, longer experiments, necessary animal care, and a greater degree of variability. In this video article, we provide a detailed demonstration of a new ex vivo model of corneal epithelial HSV-1 infection, which combines the strengths of both the in vitro and the in vivo models. The ex vivo model utilizes intact corneas organotypically maintained in culture and infected with HSV-1. The use of the ex vivo model allows for highly physiologically-based conclusions, yet it is rather inexpensive and requires time commitment comparable to that of the in vitro model.     

两种手术方式治疗真菌性角膜炎的临床观察

目的 观察深板层角膜移植术（deep lamellar keratoplasty,DLKP）和穿透性角膜移植术（penetrating keratoplasty,PKP）治疗真菌性角膜炎的临床疗效.方法 回顾44例（44眼）临床确诊为真菌性角膜炎的患者,根据共焦激光显微镜检查是否累及角膜内皮分别行DLKP 28例（28眼）或PKP 16例（16眼）.术后随访6～24个月,观察术后真菌复发情况以及拆线后两周视力和角膜地形图散光.结果 术后角膜病理切片检查均检出真菌.术后DLKP组有1例、PKP组有3例出现排斥反应,经抗排斥治疗后均好转.拆线后两周最佳矫正视力DLKP组为0.59×0.04,PKP组为0.41 ×0.05,两组间相比较差异具有统计学意义（t =2.577,P =0.01）;角膜地形图散光DLKP组为（2.0 ×0.17） D;PKP组为（2.9×0.30）D,两组间相比较差异具有统计学意义（t =0.088,P=0.016）.结论 激光共焦显微镜检查对于手术方式的选择提供了良好的客观依据.两种手术方式治疗真菌性角膜炎均有良好的疗效,DLKP术后视觉疗效优于PKP.     

角膜激光共聚焦显微镜在单眼感染性角膜炎疾病诊断中的应用

摘要 目的：探讨角膜激光共聚焦显微镜在单眼感染性角膜炎疾病诊断中的应用价值。方法：回顾性研究2020年6月到2021年6月选择在本院诊治的单眼感染性角膜炎疾病患者62例,所有患者都给予角膜激光共聚焦显微镜检查,记录影像学特征并判断诊断价值（以病原学诊断为金标准）。结果：真菌性角膜炎在角膜激光共焦显微镜下的病变区纵横交错的高反射的真菌菌丝或高反光细长颗粒状的孢子,细菌性角膜炎的病变处会聚集活化的树突状细胞及大量的炎症细胞,病毒性角膜炎的基底膜下神经纤维密度、神经主干的分支数减少,棘阿米巴性角膜炎的包囊表现为圆形高反光厚壁结构。角膜激光共聚焦显微镜判断为病毒性角膜炎17例,诊断病毒性角膜炎的敏感性与特异性为94.4 %和100.0 %;角膜激光共聚焦显微镜判断为棘阿米巴性角膜炎4例,诊断棘阿米巴性角膜炎的敏感性与特异性为94.4 %和100.0 %;角膜激光共聚焦显微镜判断为细菌性角膜炎21例,诊断细菌性角膜炎的敏感性与特异性为95.5 %和97.5 %;角膜激光共聚焦显微镜判断为真菌性角膜炎20例,诊断真菌性角膜炎的敏感性与特异性为94.4 %和93.2 %。ROC曲线分析显示角膜激光共聚焦显微镜诊断细菌性角膜炎、真菌性角膜炎、病毒性角膜炎、棘阿米巴性角膜炎的曲线下面积分别为0.525、0.579、0.777、0.731。结论：角膜激光共聚焦显微镜在单眼感染性角膜炎疾病诊断中的应用能较好的区分细菌性角膜炎、真菌性角膜炎、病毒性角膜炎、棘阿米巴性角膜炎,具有良好的诊断敏感性与特异性。     

Keratitis

Corneal inflammation or keratitis is a significant cause of ocular morbidity around the world. Fortunately, the majority of the cases are successfully managed with medical therapy, but the failure of therapy does occur, leading to devastating consequences of either losing the vision or the eye. This review attempts to provide current information on most, though not all, aspects of keratitis.Corneal inflammation may be ulcerative or nonulcerative and may arise because of infectious or noninfectious causes. The nonulcerative corneal inflammation may be confined to the epithelial layer or to the stroma of the cornea or may affect both. For clarity, this section has been divided into nonulcerative superficial keratitis and nonulcerative stromal keratitis. While the former usually includes hypersensitivity responses to microbial toxins and unknown agents, the latter can be either infectious or noninfectious.In the pathogenesis of ulcerative keratitis, microorganisms such as bacteria, fungi, parasites (Acanthamoeba), or viruses play an important role. Approximately, 12.2% of all corneal transplantations are done for active infectious keratitis. Available world literature pertaining to the incidence of microbial keratitis has been provided special place in this review. On the other hand, noninfectious ulcerative keratitis can be related to a variety of systemic or local causes, predominantly of autoimmune origin.     

Herpes simplex virus-induced stromal keratitis: role of T-lymphocyte subsets in immunopathology.

Herpetic stromal keratitis (SK), a frequent cause of visual impairment, is considered to represent an immune-mediated inflammatory response to persistent herpes simplex virus virions or subcomponents within the corneal stroma. The experimental disease in mice involves the essential participation of T lymphocytes, but the role of T-lymphocyte subsets in either mediating or controlling the disease is uncertain. In this report, rat monoclonal antibodies were used to selectively deplete mice in vivo of CD4+ (helper-inducer) and CD8+ (cytotoxic-suppressor) T-cell populations and the effect on herpetic SK was evaluated. As measured by flow cytometry, mice treated with anti-CD4 monoclonal antibody (GK 1.5) were greater than 95% depleted of CD4+ T lymphocytes and mice treated with anti-CD8 monoclonal antibody (2.43) were 90% depleted of CD8+ T lymphocytes. Depleted and nonspecific mouse ascites-treated control mice were infected topically on the corneas with herpes simplex virus type 1, and the induction of various immune parameters during the acute infection was evaluated. CD4+-depleted mice failed to produce either a significant antiviral antibody or delayed-type hypersensitivity response but were capable of producing normal cytotoxic T-lymphocyte responses. In contrast, CD8+-depleted mice produced antiviral antibody and delayed-type hypersensitivity responses comparable with those in control animals, but cytotoxic T-lymphocyte responses were markedly reduced. Clinical observations of the corneas revealed that SK in CD4+-depleted mice was significantly reduced, whereas in CD8+-depleted mice SK developed more rapidly, was more severe, and involved a greater percentage of mice. These observations implicate the CD4+ T-lymphocyte subset as the principal mediators of SK and CD8+ T lymphocytes as possible regulators that control the severity of SK.     

A Dual Role for Corneal Dendritic Cells in Herpes Simplex Keratitis: Local Suppression of Corneal Damage and Promotion of Systemic Viral Dissemination

The cornea is the shield to the foreign world and thus, a primary site for peripheral infections. However, transparency and vision are incompatible with inflammation and scarring that may result from infections. Thus, the cornea is required to perform a delicate balance between fighting infections and preserving vision. To date, little is known about the specific role of antigen-presenting cells in viral keratitis. In this study, utilizing an established murine model of primary acute herpes simplex virus (HSV)-1 keratitis, we demonstrate that primary HSV keratitis results in increased conventional dendritic cells (cDCs) and macrophages within 24 hours after infection. Local depletion of cDCs in CD11c-DTR mice by subconjuntival diphtheria toxin injections, led to increased viral proliferation, and influx of inflammatory cells, resulting in increased scarring and clinical keratitis. In addition, while HSV infection resulted in significant corneal nerve destruction, local depletion of cDCs resulted in a much more severe loss of corneal nerves. Further, local cDC depletion resulted in decreased corneal nerve infection, and subsequently decreased and delayed systemic viral transmission in the trigeminal ganglion and draining lymph node, resulting in decreased mortality of mice. In contrast, sham depletion or depletion of macrophages through local injection of clodronate liposomes had neither a significant impact on the cornea, nor an effect on systemic viral transmission. In conclusion, we demonstrate that corneal cDCs may play a primary role in local corneal defense during viral keratitis and preserve vision, at the cost of inducing systemic viral dissemination, leading to increased mortality.