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Browsing by Author "Peng, Michael"
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Item Age and sex affect TGFβ2-induced ocular hypertension in C57BL/6J mice(Elsevier, 2022) Sugali, Chenna Kesavulu; Rayana, Naga Pradeep; Dai, Jiannong; Peng, Michael; Mao, Weiming; Ophthalmology, School of MedicineGlaucoma is a leading cause of blindness worldwide. The loss of vision in glaucoma patients is due to optic nerve damage. The most important risk factor of glaucoma is elevated intraocular pressure (IOP) which is due to glaucomatous changes in the trabecular meshwork. Animal models, especially mouse models for ocular hypertension (OHT), are important for studying glaucoma. Published studies showed that 2.5X107 PFU adenoviral vectors expressing the biologically active form of human TGFβ2 elevate IOP in female C57BL/6J mice when they are intravitreally delivered. In this study, we found that 2.5X107 PFU adenoviral TGFβ2 vector did not elevate IOP in 3- or 5-month old male C57BL/6J mice. In contrast, 5X107 PFU of the same viral vectors elevated IOP in both 3- and 5-month old male C57BL/6J mice. Also, 5-month old mice showed earlier OHT and higher IOP compared to 3-month old mice. In summary, our data showed that age and sex play roles in adenoviral vector-mediated TGFβ2-induced OHT in C57BL/6J mice.Item An ex vivo model of human corneal rim perfusion organ culture(Elsevier, 2022) Peng, Michael; Margetts, Tyler J.; Sugali, Chenna Kesavulu; Rayana, Naga Pradeep; Dai, Jiannong; Sharma, Tasneem P.; Raghunathan, Vijay Krishna; Mao, Weiming; Ophthalmology, School of MedicineThe human anterior segment perfusion culture model is a valuable tool for studying the trabecular meshwork (TM) and aqueous humor outflow in glaucoma. The traditional model relies on whole eye globes resulting in high cost and limited availability. Here, we developed a glue-based method which enabled us to use human corneal rims for perfusion culture experiments. Human corneal rim perfusion culture plates were 3D printed. Human corneal rims containing intact TM were attached and sealed to the plate using low viscosity and high viscosity glues, respectively. The human corneal rims were perfused using the constant flow mode, and the pressure changes were recorded using a computerized system. Outflow facility, TM stiffness, and TM morphology were evaluated. When perfused at rates from 1.2 to 3.6 μl/min, the outflow facility was 0.359 ± 0.216 μl/min/mmHg among 10 human corneal rims. The stiffness of the TM in naïve human corneal rim was similar to that of perfusion cultured human corneal rim. Also, the stiffness of TM of corneal rims perfused with dexamethasone was significantly higher than the control. Human corneal rims with glue contamination in the TM could be differentiated by high baseline intraocular pressure as well as high TM stiffness. Histology studies showed that the TM tissues perfused with plain medium appeared normal. We believed that our glued-based method is a useful tool and low-cost alternative to the traditional anterior segment perfusion culture model.Item The Canonical Wnt Signaling Pathway Inhibits the Glucocorticoid Receptor Signaling Pathway in the Trabecular Meshwork(Elsevier, 2021) Sugali, Chenna Kesavulu; Rayana, Naga Pradeep; Dai, Jiannong; Peng, Michael; Harris, Sherri L.; Webber, Hannah C.; Liu, Shaohui; Dixon, Stephan G.; Parekh, Priyanka H.; Martin, Elizabeth A.; Cantor, Louis B.; Fellman, Ronald L.; Godfrey, David G.; Butler, Michelle R.; Emanuel, Matthew E.; Grover, Davinder S.; Smith, Oluwatosin U.; Clark, Abbot F.; Raghunathan, Vijay Krishna; Mao, Weiming; Ophthalmology, School of MedicineGlucocorticoid-induced glaucoma is a secondary open-angle glaucoma. About 40% of the general population may develop elevated intraocular pressure on prolonged glucocorticoid treatment secondary to damages in the trabecular meshwork (TM), a tissue that regulates intraocular pressure. Therefore, identifying the key molecules responsible for glucocorticoid-induced ocular hypertension is crucial. In this study, Dickkopf-related protein 1 (Dkk1), a canonical Wnt signaling inhibitor, was found to be elevated in the aqueous humor and TM of glaucoma patients. At the signaling level, Dkk1 enhanced glucocorticoid receptor (GR) signaling, whereas Dkk1 knockdown or Wnt signaling activators decreased GR signaling in human TM cells as indicated by luciferase assays. Similarly, activation of the GR signaling inhibited Wnt signaling. At the protein level, glucocorticoid-induced extracellular matrix was inhibited by Wnt activation using Wnt activators or Dkk1 knockdown in primary human TM cells. In contrast, inhibition of canonical Wnt signaling by β-catenin knockdown increased glucocorticoid-induced extracellular matrix proteins. At the physiological level, adenovirus-mediated Wnt3a expression decreased glucocorticoid-induced ocular hypertension in mouse eyes. In summary, Wnt and GR signaling inhibit each other in the TM, and canonical Wnt signaling activators may prevent the adverse effect of glucocorticoids in the eye.Item Cross-linked actin networks (CLANs) affect stiffness and/or actin dynamics in transgenic transformed and primary human trabecular meshwork cells(Elsevier, 2022) Peng, Michael; Rayana, Naga Pradeep; Dai, Jiannong; Sugali, Chenna Kesavulu; Baidouri, Hasna; Suresh, Ayush; Raghunathan, Vijay Krishna; Mao, Weiming; Ophthalmology, School of MedicineCross-linked actin networks (CLANs) in trabecular meshwork (TM) cells may contribute to increased IOP by altering TM cell function and stiffness. However, there is a lack of direct evidence. Here, we developed transformed TM cells that form spontaneous fluorescently labeled CLANs. The stable cells were constructed by transducing transformed glaucomatous TM (GTM3) cells with the pLenti-LifeAct-EGFP-BlastR lentiviral vector and selection with blastcidin. The stiffness of the GTM3-LifeAct-GFP cells were studied using atomic force microscopy. Elastic moduli of CLANs in primary human TM cells treated with/without dexamethasone/TGFβ2 were also measured to validate findings in GTM3-LifeAct-GFP cells. Live-cell imaging was performed on GTM3-LifeAct-GFP cells treated with 1μM latrunculin B or pHrodo bioparticles to determine actin stability and phagocytosis, respectively. The GTM3-LifeAct-GFP cells formed spontaneous CLANs without the induction of TGFβ2 or dexamethasone. The CLAN containing cells showed elevated cell stiffness, resistance to latrunculin B-induced actin depolymerization, as well as compromised phagocytosis, compared to the cells without CLANs. Primary human TM cells with dexamethasone or TGFβ2-induced CLANs were also stiffer and less phagocytic. The GTM3-LifeAct-GFP cells are a novel tool for studying the mechanobiology and pathology of CLANs in the TM. Initial characterization of these cells showed that CLANs contribute to at least some glaucomatous phenotypes of TM cells.Item The Ex Vivo Human Translaminar Autonomous System to Study Spaceflight Associated Neuro-ocular Syndrome Pathogenesis(Nature, 2022-10) Peng, Michael; Curry, Stacy M.; Liu, Yang; Lohawala, Husain; Sharma, Gaurav; Sharma, Tasneem P.; Ophthalmology, School of MedicineSpaceflight-Associated Neuro-ocular Syndrome (SANS) is a significant unexplained adverse reaction to long-duration spaceflight. We employ an ex vivo translaminar autonomous system (TAS) to recreate a human ocular ground-based spaceflight analogue model to study SANS pathogenesis. To recapitulate the human SANS conditions, human ocular posterior segments are cultured in the TAS model for 14 days. Translaminar pressure differentials are generated by simulating various flow rates within intracranial pressure (ICP) and intraocular (IOP) chambers to maintain hydrostatic pressures of ICP: IOP (12:16, 15:16, 12:21, 21:16 mmHg). In addition, optic nerves are mechanically kinked by 6- and 10-degree tilt inserts for the ICP: IOP;15:16 mmHg pressure paradigm. The TAS model successfully maintains various pressure differentials for all experimental groups over 14 days. Post culture, we determine inflammatory and extracellular component expression changes within posterior segments. To further characterize the SANS pathogenesis, axonal transport capacity, optic nerve degeneration and retinal functional are measured. Identifiable pathogenic alterations are observed in posterior segments by morphologic, apoptotic, and inflammatory changes including transport and functional deficits under various simulated SANS conditions. Here we report our TAS model provides a unique preclinical application system to mimic SANS pathology and a viable therapeutic testing device for countermeasures.Item Mismatch Repair Proteins Initiate Epigenetic Alterations during Inflammation-Driven Tumorigenesis(American Association for Cancer Research, 2017-07-01) Maiuri, Ashley R.; Peng, Michael; Sriramkumar, Shruthi; Kamplain, Caitlin M.; DeStefano Shields, Christina E.; Sears, Cynthia L.; O’Hagan, Heather M.; Medicine, School of MedicineAberrant silencing of genes by DNA methylation contributes to cancer, yet how this process is initiated remains unclear. Using a murine model of inflammation-induced tumorigenesis, we tested the hypothesis that inflammation promotes recruitment of epigenetic proteins to chromatin, initiating methylation and gene silencing in tumors. Compared with normal epithelium and noninflammation-induced tumors, inflammation-induced tumors gained DNA methylation at CpG islands, some of which are associated with putative tumor suppressor genes. Hypermethylated genes exhibited enrichment of repressive chromatin marks and reduced expression prior to tumorigenesis, at a time point coinciding with peak levels of inflammation-associated DNA damage. Loss of MutS homolog 2 (MSH2), a mismatch repair (MMR) protein, abrogated early inflammation-induced epigenetic alterations and DNA hypermethylation alterations observed in inflammation-induced tumors. These results indicate that early epigenetic alterations initiated by inflammation and MMR proteins lead to gene silencing during tumorigenesis, revealing a novel mechanism of epigenetic alterations in inflammation-driven cancer. Understanding such mechanisms will inform development of pharmacotherapies to reduce carcinogenesis.Item The Role of the Ocular Tissue in SARS-CoV-2 Transmission(Dove Medical Press, 2020-10-02) Peng, Michael; Dai, Jiannong; Sugali, Chenna Kesavulu; Rayana, Naga Pradeep; Mao, Weiming; Ophthalmology, School of MedicineThe current global pandemic of coronavirus disease 2019 (COVID-19) has affected over 21 million people and caused over half a million deaths within a few months. COVID-19 has become one of the most severe public health crises in recent years. Compared to other pathogenic coronaviruses, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is highly infectious. Due to the lack of specific and effective treatment or vaccines, disease prevention and early detection are essential for establishing guidelines to mitigate further spread. The potential role of the ocular system in COVID-19 is still not clear but it has gained increasing attention. Here, we reviewed both clinical and research evidence on the ocular manifestations associated with COVID-19, the presence of SARS-CoV-2 in ocular surface tissues and tears, and the potential role of the eye in contracting SARS-CoV-2.Item A smartphone based method for mouse fundus imaging(Elsevier, 2021) Peng, Michael; Park, Bomina; Harikrishnan, Hemavathy; Jahan, Sultana N.; Dai, Jiannong; Rayana, Naga Pradeep; Sugali, Chenna Kesavulu; Sharma, Tasneem P.; Imanishi, Sanae; Imanishi, Yoshikazu; Corson, Timothy W.; Mao, Weiming; Ophthalmology, School of MedicineNoninvasive in vivo imaging of the mouse retina is essential for eye research. However, imaging the mouse fundus is challenging due to its small size and requires specialized equipment, maintenance, and training. These issues hinder the routine evaluation of the mouse retina. In this study, we developed a noncontact imaging system consisting of a smartphone, a 90D condensing lens, a homemade light diaphragm, a tripod, and a Bluetooth remote. With minimal training, examiners were able to capture fundus images from the mouse retina. We also found that fundus images captured using our system from wild type mice, mice with laser-induced retinal injury, and a mouse model of retinitis pigmentosa showed a quality similar to those captured using a commercial fundus camera. These images enabled us to identify normal structures and pathological changes in the mouse retina. Additionally, fluorescein angiography was possible with the smartphone system. We believe that the smartphone imaging system is low cost, simple, accessible, easy to operate, and suitable for the routine screening and examination of the mouse eye.Item The application of lentiviral vectors for the establishment of TGFβ2-induced ocular hypertension in C57BL/6J mice(Elsevier, 2022) Peng, Michael; Margetts, Tyler J.; Rayana, Naga Pradeep; Sugali, Chenna Kesavulu; Dai, Jiannong; Mao, Weiming; Biochemistry and Molecular Biology, School of MedicineElevated levels of TGFβ2 in the aqueous humor is associated with the pathological changes in the trabecular meshwork (TM). These changes lead to ocular hypertension (OHT), the most important risk factor for the development and progression of primary open angle glaucoma (POAG), a leading cause of blindness worldwide. Therefore, TGFβ2 is frequently used to develop OHT models including in perfusion cultured eyes and in mouse eyes. Adenovirus-mediated overexpression of human mutant TGFβ2 has demonstrated great success in increasing intraocular pressure (IOP) in mouse eyes. However, adenoviruses have limited capacity for a foreign gene, induce transient expression, and may cause ocular inflammation. Here, we explored the potential of using lentiviral vectors carrying the mutant human TGFβ2C226S/C228S (ΔhTGFβ2C226S/C228S) gene expression cassette for the induction of OHT in C57BL/6J mice. Lentiviral vectors using CMV or EF1α promoter to drive the expression of ΔhTGFβ2C226S/C228S were injected into one of the mouse eyes and the fellow eye was injected with the same vector but expressing GFP/mCherry as controls. Both intravitreal and intracameral injection routes were tested in male and female mice. We did not observe significant IOP changes using either promoter or injection route at the dose of 8×105 PFU/eye. Immunostaining showed normal anterior chamber angle structures and a slight increase in TGFβ2 expression in the TM of the eyes receiving intracameral viral injection but not in those receiving intravitreal viral injection. At the dose of 2×106 PFU/eye, intracameral injection of the lentiviral vector with the CMV-ΔhTGFβ2C226S/C228S cassette induced significant IOP elevation and increased the expression of TGFβ2 and fibronectin isoform EDA in the TM. Our data suggest that lentiviral doses are important for establishing the TGFβ2-induced OHT model in the C57BL/6J strain.Item Using CRISPR Interference as a Therapeutic Approach to Treat TGFβ2-Induced Ocular Hypertension and Glaucoma(Association for Research in Vision and Ophthalmology, 2021-09-02) Rayana, Naga Pradeep; Sugali, Chenna Kesavulu; Dai, Jiannong; Peng, Michael; Liu, Shaohui; Zhang, Yucheng; Wan, Jun; Mao, Weiming; Ophthalmology, School of MedicinePurpose: Primary open angle glaucoma (POAG) is a leading cause of blindness worldwide with elevated intraocular pressure (IOP) as the most important risk factor. POAG IOP elevation is due to pathological changes in the trabecular meshwork (TM). Elevated TGFβ2 contributes to these changes and increases IOP. We have shown that histone hyperacetylation is associated with TGFβ2 elevation in the TM. In this study, we determined if clustered regularly interspaced short palindromic repeats (CRISPR) interference could specifically deacetylate histones and decrease TGFβ2 in the TM. Methods: We tested the efficiency of different promoters in driving KRAB-dCAS9 expression in human TM cells. We also screened and determined the optimal sgRNA sequence in the inhibition of TGFβ2. Chromatin immunoprecipitation-qPCR was used to determine the binding of KRAB-dCAS9. An adenovirus-mediated TGFβ2-induced ocular hypertension (OHT) mouse model was used to determine the effect of the CRISPR interference system in vivo. Results: We found that the CRISPR interference system inhibited TGFβ2 expression in human TM cells, and properly designed sgRNA targeted the promoter of the TGFβ2 gene. Using sgRNA targeting the CMV promoter of the Ad5-CMV-TGFβ2 viral vector, we found that lentivirus-mediated KRAB-dCAS9 and sgRNA expression was able to inhibit Ad5-CMV-TGFβ2-induced OHT in C57BL/6J female and male mice eyes. This inhibition of OHT was associated with decreased levels of TGFβ2 and extracellular matrix proteins in the mouse eye. Conclusions: Our results indicate that CRISPR interference is a useful tool for gene inhibition and may be a therapeutic approach to treat TGFβ2-induced OHT.