Zika Virus Infection of Human Iris Pigment Epithelial Cells.

During recent Zika epidemics, adults infected with Zika virus (ZIKV) have developed organ-specific inflammatory complications. The most serious Zika-associated inflammatory eye disease is uveitis, which is commonly anterior in type, affecting both eyes and responding to corticosteroid eye drops. Mechanisms of Zika-associated anterior uveitis are unknown, but ZIKV has been identified in the aqueous humor of affected individuals. The iris pigment epithelium is a target cell population in viral anterior uveitis, and it acts to maintain immune privilege within the anterior eye. Interactions between ZIKV and human iris pigment epithelial cells were investigated with infectivity assays and RNA-sequencing. Primary cell isolates were prepared from eyes of 20 cadaveric donors, and infected for 24 hours with PRVABC59 strain ZIKV or incubated uninfected as control. Cytoimmunofluorescence, RT-qPCR on total cellular RNA, and focus-forming assays of culture supernatant showed cell isolates were permissive to infection, and supported replication and release of infectious ZIKV. To explore molecular responses of cell isolates to ZIKV infection at the whole transcriptome level, RNA was sequenced on the Illumina NextSeq 500 platform, and results were aligned to the human GRCh38 genome. Multidimensional scaling showed clear separation between transcriptomes of infected and uninfected cell isolates. Differential expression analysis indicated a vigorous molecular response of the cell to ZIKV: 7,935 genes were differentially expressed between ZIKV-infected and uninfected cells (FDR < 0.05), and 99% of 613 genes that changed at least two-fold were up-regulated. Reactome and KEGG pathway and Gene Ontology enrichment analyses indicated strong activation of viral recognition and defense, in addition to biosynthesis processes. A CHAT network included 6275 molecular nodes and 24 contextual hubs in the cell response to ZIKV infection. Receptor-interacting serine/threonine kinase 1 (RIPK1) was the most significantly connected contextual hub. Correlation of gene expression with read counts assigned to the ZIKV genome identified a negative correlation between interferon signaling and viral load across isolates. This work represents the first investigation of mechanisms of Zika-associated anterior uveitis using an in vitro human cell model. The results suggest the iris pigment epithelium mounts a molecular response that limits intraocular pathology in most individuals.

A synthetic glycosaminoglycan mimetic blocks HSV-1 infection in human iris stromal cells.

Herpes simplex virus type-1 (HSV-1) is a significant pathogen that affects vision by targeting multiple regions in the human eye including iris. Using a focused library of synthetic non-saccharide glycosaminoglycan mimetics (NSGMs), we identified sulfated pentagalloylglucoside (SPGG) as a potent inhibitor of HSV-1 entry and cell-to-cell spread in the primary cultures of human iris stromal (HIS) cells isolated from eye donors. Using in vitro ß-galactosidase reporter assay and plaque reduction assay, SPGG was found to inhibit HSV-1 entry in a dosage-dependent manner (IC50 ∼6.0 µM). Interestingly, a pronounced inhibition in HSV-1 entry and spread was observed in HIS cells, or a cell line expressing specific gD-receptor, when virions were pre-treated with mimetics suggesting a possible interaction between SPGG and the HSV-1 glycoprotein. To examine the significance of gD-SPGG interaction, HIS cells were pretreated with SPGG, which showed a significant reduction in gD binding. Taken together, our results provide strong evidence of SPGG being a novel viral entry inhibitor against ocular HSV infection.

A role for 3-O-sulfated heparan sulfate in promoting human cytomegalovirus infection in human iris cells.

Human cytomegalovirus (HCMV) has emerged as a clinically opportunistic pathogen that targets multiple types of ocular cells and tissues, including the iris region of the uveal tract during anterior uveitis. In this report, we used primary cultures of human iris stroma (HIS) cells derived from human eye donors to investigate HCMV entry. The following lines of evidence suggested the role of 3-O-sulfated heparan sulfate (3-OS HS) during HCMV-mediated entry and cell-to-cell fusion in HIS cells. First, 3-O-sulfotransferase-3 (3-OST-3) expression in HIS cells promoted HCMV internalization, while pretreatment of HIS cells with heparinase enzyme or with anti-3-OS HS (G2) peptide significantly reduced the HCMV-mediated formation of plaques/foci. Second, coculture of the HCMV-infected HIS cells with CHO-K1 cells expressing 3-OS HS significantly enhanced cell fusion. Finally, a similar trend of enhanced fusion was observed with cells expressing HCMV glycoproteins (gB, gO, and gH-gL) cocultured with 3-OS HS cells. Taken together, these results highlight the role of 3-OS HS during HCMV plaque formation and cell-to-cell fusion and identify a novel target for future therapeutic interventions.

Susceptibility of human iris stromal cells to herpes simplex virus 1 entry.

Ocular herpes simplex virus 1 (HSV-1) infection can lead to multiple complications, including iritis, an inflammation of the iris. Here, we use human iris stroma cells as a novel in vitro model to demonstrate HSV-1 entry and the inflammatory mediators that can damage the iris. The upregulated cytokines observed in this study provide a new understanding of the intrinsic immune mechanisms that can contribute to the onset of iritis.

Interferon γ-dependent migration of microglial cells in the retina after systemic cytomegalovirus infection.

Microglial cells are the resident macrophages of the central nervous system and participate in both innate and adaptive immune responses but can also lead to exacerbation of neurodegenerative pathologies after viral infections. Microglia in the outer layers of the retina and the subretinal space are thought to be involved in retinal diseases where low-grade chronic inflammation and oxidative stress play a role. This study investigated the effect of systemic infection with murine cytomegalovirus on the distribution and dynamics of retinal microglia cells. Systemic infection with murine cytomegalovirus elicited a significant increase in the number of microglia in the subretinal space and an accumulation of iris macrophages, along with morphological signs of activation. Interferon γ (IFN-γ)-deficient mice failed to induce changes in microglia distribution. Bone marrow chimera experiments confirmed that microglial cells in the subretinal space were not recruited from the circulating monocyte pool, but rather represented an accumulation of resident microglial cells from within the retina. Our results demonstrate that a systemic viral infection can lead to IFN-γ-mediated accumulation of microglia into the outer retinal layers and offer proof of concept that systemic viral infections alter the ocular microenvironment and therefore, may influence the course of diseases such as macular degeneration, diabetic retinopathy, or autoimmune uveitis, where low-grade inflammation is implicated.

Structure and genome organization of the large RNA of iris yellow spot virus (genus Tospovirus, family Bunyaviridae).

The structure and organization of the large (L) RNA of iris yellow spot virus (IYSV) was determined, and with this report, the complete genomic sequence of IYSV of the genus Tospovirus, family Bunyaviridae has been elucidated. The L RNA of IYSV was 8,880 nucleotides in length and contained a single open reading frame in the viral complementary (vc) strand. The primary translation product of 331.17 kDa shared many of the features of the viral RNA-dependent RNA polymerase (RdRp) coded by L RNAs of known tospoviruses. The 5' and 3' termini of IYSV L RNA (vc) contain two untranslated regions of 33 and 226 nucleotides, respectively, and both termini have conserved terminal nucleotides, another common feature of tospovirus genomic RNAs. Conserved motifs characteristic of RdRps of members of the family Bunyaviridae were present in the IYSV RdRp.

In vivo imaging of ocular MCMV infection.

PURPOSE: To develop a technique by which murine cytomegalovirus (MCMV) infection can be confirmed and monitored in vivo in various ocular compartments and to investigate the dynamics and time course of primary ocular CMV infection. METHODS: The ability of recombinant MCMV-expressing enhanced green fluorescent protein (eGFP) to serve as a tool to monitor the in vivo dynamics of experimental intraocular CMV infection was examined. Immunocompetent BALB/c mice were infected subretinally with eGFP-MCMV. Confocal scanning laser ophthalmoscopy (SLO) was used to visualize viral spread in vivo on sequential days after infection. Eyes were processed for histology and immunofluorescence microscopy to confirm viral infection and replication by means of GFP signal. RESULTS: Retina was readily permissive to primary infection with eGFP-mCMV, and fluorescent signal was detected by SLO 24 hours after subretinal injection, with scattered foci around the posterior pole of the retina. GFP levels in the retina reached a maximum on day 6. Signal in the iris developed from day 4 and lasted until day 25. Examinations of retinal and iris tissue wholemounts by immunofluorescence revealed signal localized to the outer retina, iris stroma, and anterior lens capsule. CONCLUSIONS: The ability to noninvasively monitor infectious agents in the eye may improve current knowledge of the course and pathogenesis of intraocular infections and could lead to further clarification of the mechanisms by which the immune system responds to intraocular pathogens.

Herpes simplex virus type 1 induction of chemokine production is unrelated to viral load in the cornea but not in the nervous system.

Herpes simplex virus type 1 elicits a strong host inflammatory response after corneal infection. The purpose of the current study was to compare the production of chemokines induced by viral infection at sites known to harbor virus after ocular inoculation in order to determine the relationship between viral load and chemokine expression. Using highly resistant IFN-alpha1 transgenic mice whose transgene is under the control of the glial fibrillary acidic protein promoter in comparison with the more sensitive wild-type counterparts, we compared the expression of chemokines versus the amount of infectious virus recovered from the anterior segment of the eye and nervous system. Consistent with our predicted outcome, the level of infectious virus recovered in the iris, trigeminal ganglia, and brainstem of resistant versus sensitive mice correlated with chemokine production; that is, the less virus recovered the less chemokine (CCL2, CCL3, CCL5, CXCL9, and CXCL10) produced. In contrast to the nervous system and iris, there was no correlation between chemokine expression and level of infectious virus recovered in the cornea. We interpret these results as suggesting chemokine expression within the cornea in response to herpes simplex virus type 1 infection is driven by factors other than antigenic stimulation.

HSV1 latency sites after inoculation in the lip: assessment of their localization and connections to the eye.

PURPOSE: To localize the sites of HSV1 latency in mice after a primary infection induced by injection into the lip and to assess their connection to the eye. METHODS: The SC16 strain of HSV1, or a recombinant virus containing the HSV1 latency-associated transcript (LAT)-promoter driving expression of the LacZ reporter gene, were injected into the left upper lip. Tissues from animals killed at 6, 28, 180, and 720 days postinoculation (dpi) were analyzed for LATs, either by in situ hybridization (ISH) or by identifying LAT-promoter-driven transgene expression. HSV1 antigens were detected by immunochemistry. RESULTS: At 28 dpi, all the neurologic structures that were acutely infected at 6 dpi exhibited a pattern of virus gene expression consistent with HSV1 latency--that is, LATs with no detectable HSV1 antigens. LAT staining differed among structures: intense and widespread within trigeminal neurons, intermediate within the sympathetic intermediolateral cell group of the spinal cord and the facial motor nucleus, and weak in other sites. Long-term expression of LATs (positive at 180 and 720 days) was observed only in tissues where the staining was intense or intermediate at 28 dpi. CONCLUSIONS: After inoculation into the upper lip of mice, HSV1 established latency in several nervous system structures that have direct or indirect connections with ocular tissues. These results suggest that after an oral primary infection, the most frequent in humans, HSV1 may establish latency in several sites connected to the eye and may finally result in herpetic ocular disease involving the cornea, the iris, or even the retina.

Detection of herpes simplex virus in pseudoexfoliation syndrome and exfoliation glaucoma.

PURPOSE: The pathogenesis of pseudoexfoliation syndrome (PEX) remains unknown. An infection, possibly viral, is one of the proposed pathogenetic mechanisms. This study examines the presence of herpes simplex virus (HSV) and varicella-zoster virus (VZV) in iris and anterior capsule specimens of PEX and non-PEX patients. METHODS: Iris and anterior capsule specimens were obtained from 64 patients with PEX (study group, SG) and 61 patients without PEX (control group, CG). The presence of HSV and VZV DNA was evaluated with a polymerase chain reaction (PCR). RESULTS: Herpes simplex virus type I was detected significantly more often in iris specimens from the SG (13.79%), compared to those from the CG (1.75%). Varicella-zoster virus DNA was not detected in any of the examined specimens. CONCLUSION: Results imply a possible relationship between HSV type I and PEX, although no aetiological role of HSV infection in PEX pathogenesis can be established. Results also advocate against any association between VZV and PEX.

Cytomegalovirus as a cause of anterior uveitis with sectoral iris atrophy.

OBJECTIVE: To report two cases of recurrent anterior uveitis with sectoral iris atrophy and ocular hypertension during attacks caused by cytomegalovirus (CMV). DESIGN: Two observational case reports. PARTICIPANTS: Two immunocompetent patients with a history of recurrent unilateral hypertensive anterior uveitis with sectoral iris atrophy were referred to us with the presumptive diagnosis of herpetic uveitis. MAIN OUTCOME MEASURES: Comprehensive ophthalmic examination, aqueous humor polymerase chain reaction (PCR), and peripheral blood serologic studies were performed on both patients. RESULTS: Examination of aqueous humor by PCR was positive for CMV and negative for herpesvirus. Serum IgG/IgM titers disclosed past CMV infection. Both patients responded well to antiviral therapy with ganciclovir. The final visual acuity level was 20/20 in both eyes of both patients. CONCLUSIONS: CMV infection can produce recurrent attacks of anterior uveitis with clinical characteristics indistinguishable from those previously considered highly suggestive or even pathognomonic for herpetic infection. This observation has implications for the therapeutic management of such patients.

Varicella-zoster viral antigen identified in iridocyclitis patient.

BACKGROUND: The varicella-zoster virus (VZV) antigen has not been identified immunohistologically in iridocyclitis due to VZV. CASE: A 65-year-old woman diagnosed with iridocyclitis and secondary glaucoma underwent trabeculectomy. Samples of aqueous humor and juxtacanalicular and iris tissue were obtained for immunohistological and polymerase chain reaction (PCR) study. OBSERVATIONS: Slit-lamp microscopy revealed ciliary injection, corneal epithelial edema, mutton fat precipitates, flare, cells, and progressive iris atrophy in the right eye. Subsequently, scant eruptions on her right upper eyelid appeared and disappeared within a week. Although a diagnostic increase in the complement fixation antibody titer to VZV was not observed, we started medical treatment for VZV, on suspicion of iridocyclitis due to VZV. Despite medical treatment, the ratio of peripheral anterior synechia was greater than 60% and iris atrophy progressed in parallel. The intraocular pressure in the right eye remained above 30 mm Hg at 6 months after the first visit, so trabeculectomy was performed. VZV-specific DNA was detected in the aqueous humor by the PCR study. Immunohistological examination demonstrated numerous VZV antigen-positive cells in the iris stroma, in particular, vascular endothelial cells. CONCLUSION: To our knowledge, this is the first report of the detection of VZV antigen in the iris of an iridocyclitis patient.

Gene transfer by adenovirus in rabbit iris sphincter muscle.

The effect of insertion of an exogenous gene on smooth muscle function in rabbit iris sphincter muscle was investigated. An adenoviral vector encoding the bacterial LacZ gene (AdLacZ, 10(7) pfu) and viscoelastics were injected into the posterior chamber of eyes of albino rabbits. Three days after injection, the effects of acetylcholine (Ach), carbachol (Carb), substance P (SP) and electrical field stimuli on isolated iris sphincter were investigated using isometric tension-recording methods. X-Gal histostaining showed that iris sphincter smooth muscle cells were transfected in 7 of 11 muscle strips. Contraction-response curves for Ach, Carb or SP were not different from control. We conclude that the iris sphincter muscle can be gene-transfected by posterior chamber infusion of an adenoviral vector with viscoelastics. Adenovirus-mediated gene transfer per se had no measurable effect on tension development.

Neuronal propagation of HSV1 from the oral mucosa to the eye.

PURPOSE: To identify possible neuronal pathways leading to herpetic ocular disease after primary oral infection in mice. METHODS: The SC16 strain of herpes simplex virus (HSV)-1 (10(6) plaque-forming units) was injected into the mucocutaneous border of the left upper lip. Animals were killed 2 to 10 days postinoculation (DPI). Spread of the virus in neural structures was studied by immunochemistry. RESULTS: HSV1 first replicated at the site of inoculation and then at the superior cervical ganglion (at 2 DPI). The trigeminal ganglion and the facial nerve fibers were infected by 4 DPI. Infection of the ciliary body and iris occurred at 6 DPI, together with several brain stem nuclei belonging to the autonomic or sensory pathways. Between 8 and 10 DPI, the neural infection gradually cleared up, except for the ipsilateral sympathetic ganglion, and ipsilateral keratitis appeared in some animals. CONCLUSIONS: The pattern of viral dissemination in this mouse model suggests that infection of iris and ciliary body results from transfer of virus in the superior cervical ganglion from sympathetic neurons innervating the lip to neighboring neurons innervating the anterior uvea. Later, zosteriform spread of virus from the trigeminal system may have contributed to the clinical and histologic findings.

Neuronal pathways for the propagation of herpes simplex virus type 1 from one retina to the other in a murine model.

Herpetic retinitis in humans is characterized by a high frequency of bilateral localization. In order to determine the possible mechanisms leading to bilateral retinitis, we studied the pathways by which herpes simplex virus type 1 (HSV-1) is propagated from one retina to the other after intravitreal injection in mice. HSV-1 strain SC16 (90 p.f.u.) was injected into the vitreous body of the left eye of BALB/c mice. Animals were sacrificed 1, 2, 3, 4 and 5 days post-inoculation (p.i.). Histological sections were studied by immunochemical staining. Primary retinitis in the inoculated eye (beginning 1 day p.i.) was followed by contralateral retinitis (in the uninoculated eye) starting at 3 days p.i. Infected neurons of central visual pathway nuclei (lateral geniculate nuclei, suprachiasmatic nuclei and pretectal areas) were detected at 4 days p.i. Iris and ciliary body infection was minimal early on, but became extensive thereafter and was accompanied by the infection of connected sympathetic and parasympathetic pathways. The pattern of virus propagation over time suggests that the onset of contralateral retinitis was mediated by local (non-synaptic) transfer in the optic chiasm from infected to uninfected axons of the optic nerves. Later, retinopetal transneuronal propagation of the virus from visual pathways may have contributed to increase the severity of contralateral retinitis.

Cytomegalovirus iritis.

We describe a case of focal cytomegalovirus iritis in a patient with acquired immunodeficiency syndrome (AIDS) who had CMV retinitis. The autopsy showed histologic evidence of focal iritis in the left eye. This iritis was characterized by infiltration of acute inflammatory cells mixed with cytomegalic cells, which was confirmed by CMV-specific immunohistochemical staining. The case suggested that cytomegalovirus could be a direct causative agent of infectious iritis in AIDS patients.

Chronic uveitis in guinea pigs infected with varicella-zoster virus expressing Escherichia coli beta-galactosidase.

There is no small animal model that replicates chickenpox and herpes zoster, which are caused by varicella-zoster virus (VZV). Therefore, to detect VZV in tissues of infected animals, the Escherichia coli beta-galactosidase gene was inserted into the viral genome. Intravitreal inoculation of guinea pigs with virus-infected cells resulted in a chronic uveitis, with mononuclear cells in the vitreous cavity of the eye of nearly all animals. Staining with X-gal demonstrated the presence of VZV in the ciliary body or iris of approximately 40% of the animals and in retinal pigmented epithelial cells in 4 animals. X-gal staining showed VZV in the eye of 1 animal 140 days after inoculation. These experiments indicate that VZV expressing beta-galactosidase is useful for detecting virus in tissues and that VZV can cause a chronic uveitis in which virus can be detected in some animals for up to 4 months.

Immunohistochemical analysis of pseudorabies virus spread through neurons innervating the eyeball.

Pseudorabies virus (PRV) was inoculated intraocularly into BALB/c mice, and the distribution pattern of cells positive for several neurotransmitters and viral antigens in the eyeball, trigeminal nerve ganglia, and superior cervical ganglia was examined immunohistochemically to clarify the neural route of the virus spread. In the eyeball, substance P (SP)- and calcitonin gene-related peptide (CGRP)-positive cells were detected in the ipsilateral iris and ciliary body, neuropeptide tyrosine (NPY)-positive cells were detected in the choloid membrane, and tyrosine hydroxylase (TH)-positive cells were detected in the ipsilateral inner nuclear layer of the retina; all these cells contained viral antigens. In the superior cervical ganglia, viral antigen-positive cells containing TH or NPY were found at bilateral sites. In the trigeminal nerve ganglia, viral antigen-positive cells containing SP or CGRP were found at bilateral sites. These findings indicated that the SP- and CGRP-positive ganglion cells of the trigeminal nerve ganglia innervating the iris or ciliary body, and the NPY-positive ganglion cells of the superior cervical ganglia innervating the iris, ciliary body, and choroid membrane served as the route for the virus spread. These findings also suggested that dopaminergic neurons, such as the TH-positive retinal cells and TH-positive ganglion cells of the superior cervical ganglia, served as the route for virus spread.