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13 results on '"Kiran Bora"'

2. Animal Models of Retinopathy of Prematurity: Advances and Metabolic Regulators

Author

Meenakshi Maurya, Chi-Hsiu Liu, Kiran Bora, Neetu Kushwah, Madeline C. Pavlovich, Zhongxiao Wang, and Jing Chen

Subjects
retinopathy of prematurity, animal models, oxygen-induced retinopathy, hypoxia, metabolism, amino acid, Biology (General), QH301-705.5
Abstract

Retinopathy of prematurity (ROP) is a primary cause of visual impairment and blindness in premature newborns, characterized by vascular abnormalities in the developing retina, with microvascular alteration, neovascularization, and in the most severe cases retinal detachment. To elucidate the pathophysiology and develop therapeutics for ROP, several pre-clinical experimental models of ROP were developed in different species. Among them, the oxygen-induced retinopathy (OIR) mouse model has gained the most popularity and critically contributed to our current understanding of pathological retinal angiogenesis and the discovery of potential anti-angiogenic therapies. A deeper comprehension of molecular regulators of OIR such as hypoxia-inducible growth factors including vascular endothelial growth factors as primary perpetrators and other new metabolic modulators such as lipids and amino acids influencing pathological retinal angiogenesis is also emerging, indicating possible targets for treatment strategies. This review delves into the historical progressions that gave rise to the modern OIR models with a focus on the mouse model. It also reviews the fundamental principles of OIR, recent advances in its automated assessment, and a selected summary of metabolic investigation enabled by OIR models including amino acid transport and metabolism.

Published
2024
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3. Amino acid transporter SLC38A5 regulates developmental and pathological retinal angiogenesis

Author

Zhongxiao Wang, Felix Yemanyi, Alexandra K Blomfield, Kiran Bora, Shuo Huang, Chi-Hsiu Liu, William R Britton, Steve S Cho, Yohei Tomita, Zhongjie Fu, Jian-xing Ma, Wen-hong Li, and Jing Chen

Subjects
amino acids, angiogenesis, endothelial cells, neovascularization, retinopathy, SLC38A5, Medicine, Science, Biology (General), QH301-705.5
Abstract

Amino acid (AA) metabolism in vascular endothelium is important for sprouting angiogenesis. SLC38A5 (solute carrier family 38 member 5), an AA transporter, shuttles neutral AAs across cell membrane, including glutamine, which may serve as metabolic fuel for proliferating endothelial cells (ECs) to promote angiogenesis. Here, we found that Slc38a5 is highly enriched in normal retinal vascular endothelium, and more specifically, in pathological sprouting neovessels. Slc38a5 is suppressed in retinal blood vessels from Lrp5−/− and Ndpy/− mice, both genetic models of defective retinal vascular development with Wnt signaling mutations. Additionally, Slc38a5 transcription is regulated by Wnt/β-catenin signaling. Genetic deficiency of Slc38a5 in mice substantially delays retinal vascular development and suppresses pathological neovascularization in oxygen-induced retinopathy modeling ischemic proliferative retinopathies. Inhibition of SLC38A5 in human retinal vascular ECs impairs EC proliferation and angiogenic function, suppresses glutamine uptake, and dampens vascular endothelial growth factor receptor 2. Together these findings suggest that SLC38A5 is a new metabolic regulator of retinal angiogenesis by controlling AA nutrient uptake and homeostasis in ECs.

Published
2022
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4. Assessment of Inner Blood–Retinal Barrier: Animal Models and Methods

Author

Kiran Bora, Neetu Kushwah, Meenakshi Maurya, Madeline C. Pavlovich, Zhongxiao Wang, and Jing Chen

Subjects
blood–retinal barrier, vascular leakage, Wnt/β-catenin signaling, animal models, leakage assays, Cytology, QH573-671
Abstract

Proper functioning of the neural retina relies on the unique retinal environment regulated by the blood–retinal barrier (BRB), which restricts the passage of solutes, fluids, and toxic substances. BRB impairment occurs in many retinal vascular diseases and the breakdown of BRB significantly contributes to disease pathology. Understanding the different molecular constituents and signaling pathways involved in BRB development and maintenance is therefore crucial in developing treatment modalities. This review summarizes the major molecular signaling pathways involved in inner BRB (iBRB) formation and maintenance, and representative animal models of eye diseases with retinal vascular leakage. Studies on Wnt/β-catenin signaling are highlighted, which is critical for retinal and brain vascular angiogenesis and barriergenesis. Moreover, multiple in vivo and in vitro methods for the detection and analysis of vascular leakage are described, along with their advantages and limitations. These pre-clinical animal models and methods for assessing iBRB provide valuable experimental tools in delineating the molecular mechanisms of retinal vascular diseases and evaluating therapeutic drugs.

Published
2023
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5. Oxidative Stress and Antioxidants in Age-Related Macular Degeneration

Author

Neetu Kushwah, Kiran Bora, Meenakshi Maurya, Madeline C. Pavlovich, and Jing Chen

Subjects
antioxidant, age-related macular degeneration, choroidal neovascularization, oxidative stress, reactive oxygen species, retinal pigment epithelium, Therapeutics. Pharmacology, RM1-950
Abstract

Oxidative stress plays a crucial role in aging-related eye diseases, including age-related macular degeneration (AMD), cataracts, and glaucoma. With age, antioxidant reparative capacity decreases, and excess levels of reactive oxygen species produce oxidative damage in many ocular cell types underling age-related pathologies. In AMD, loss of central vision in the elderly is caused primarily by retinal pigment epithelium (RPE) dysfunction and degeneration and/or choroidal neovascularization that trigger malfunction and loss of photo-sensing photoreceptor cells. Along with various genetic and environmental factors that contribute to AMD, aging and age-related oxidative damage have critical involvement in AMD pathogenesis. To this end, dietary intake of antioxidants is a proven way to scavenge free radicals and to prevent or slow AMD progression. This review focuses on AMD and highlights the pathogenic role of oxidative stress in AMD from both clinical and experimental studies. The beneficial roles of antioxidants and dietary micronutrients in AMD are also summarized.

Published
2023
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6. Ectopic Rod Photoreceptor Development in Mice with Genetic Deficiency of WNT2B

Author

Alexandra K. Blomfield, Meenakshi Maurya, Kiran Bora, Madeline C. Pavlovich, Felix Yemanyi, Shuo Huang, Zhongjie Fu, Amy E. O’Connell, and Jing Chen

Subjects
Wnt signaling, WNT2B, photoreceptor, retina, development, Cytology, QH573-671
Abstract

Wnt/β-catenin signaling is essential for embryonic eye development in both the anterior eye and retina. WNT2B, a ligand and activator of the Wnt/β-catenin pathway, assists in the development of the lens and peripheral regions of the eye. In humans WNT2B mutations are associated with coloboma and WNT2B may also assist in retinal progenitor cell differentiation in chicken, yet the potential role of WNT2B in retinal neuronal development is understudied. This study explored the effects of WNT2B on retinal neuronal and vascular formation using systemic Wnt2b knockout (KO) mice generated by crossing Wnt2bflox/flox (fl/fl) mice with CMV-cre mice. Wnt2b KO eyes exhibited relatively normal anterior segments and retinal vasculature. Ectopic formation of rod photoreceptor cells in the subretinal space was observed in Wnt2b KO mice as early as one week postnatally and persisted through nine-month-old mice. Other retinal neuronal layers showed normal organization in both thickness and lamination, without detectable signs of retinal thinning. The presence of abnormal photoreceptor genesis was also observed in heterozygous Wnt2b mice, and occasionally in wild type mice with decreased Wnt2b expression levels. Expression of Wnt2b was found to be enriched in the retinal pigment epithelium compared with whole retina. Together these findings suggest that WNT2B is potentially involved in rod photoreceptor genesis during eye development; however, potential influence by a yet unknown genetic factor is also possible.

Published
2023
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7. Photobiomodulation effects of pulsed-NIR laser (810 nm) and LED (808 ± 3 nm) with identical treatment regimen on burn wound healing: A quantitative label-free global proteomic approach

Author

Gaurav K. Keshri, Gaurav Kumar, Manish Sharma, Kiran Bora, Bhuvnesh Kumar, and Asheesh Gupta

Subjects
Burn, Dermal, Laser, Label-free proteomics, LED, Photobiomodulation, Chemistry, QD1-999
Abstract

Photobiomodulation (PBM) has evolved as a rapidly growing therapeutic biophysical non-invasive approach for the acceleration of tissue repair, mitigation of pain, inflammation and restoration of cellular functions. This study compares the PBM effect of pulsed-mode (10 Hz) of NIR laser (810 nm) and LED (808 ± 3 nm) with identical treatment regimen (average power 70 mW; average irradiance 40 mW/cm2; total fluence 24 J/cm2, duty cycle 50%; pulse duration 50 msec; peak irradiance 80 mW/cm2; 10 min exposure once daily for 7 days) on full-thickness, third-degree burn wound in rat using comprehensive analysis of quantitative label-free global proteomics, followed by validation of the proteomics data by various biophysical, biochemical, molecular, histological and immunohistochemical (IHC) assays. The proteomic analysis clearly revealed the common biological processes indicated by modulation of similar biological pathways (known for tissue repair process) associated with neuronal (4), metabolic (10), vascular (3), inflammation (4) and cell signaling (12) in both laser and LED treated groups. Validation of proteomic analysis using various healing markers demonstrated attenuated inflammatory response like decreased TNF-α, IL-1β, IL-6, COX-2 levels (ELISA), enhanced cellular proliferation (PCNA, TGF-β2), collagen, ECM accumulation (biochemical, H&E, Masson's trichrome staining, IHC assays), wound contraction and cytoprotection (TUNEL assay) in both laser and LED-treated groups as compared to the control. Collectively, the proteomics data revealed previously know molecules along with novel identified molecules post-PBM treatment, which broaden the understanding of tissue repair mechanisms. This study profoundly signifies that both laser and LED in 810 nm wavelength range at pulsed-mode (10 Hz) are equally effective for PBM-mediated potential treatment to accelerate burn wound healing.

Published
2021
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12. Amino acid transporter SLC38A5 regulates developmental and pathological retinal angiogenesis

Author

Zhongxiao Wang, Felix Yemanyi, Alexandra K Blomfield, Kiran Bora, Shuo Huang, Chi-Hsiu Liu, William R Britton, Steve S Cho, Yohei Tomita, Zhongjie Fu, Jian-xing Ma, Wen-hong Li, and Jing Chen

Subjects
Vascular Endothelial Growth Factor A, Mice, Amino Acid Transport Systems, Neutral, General Immunology and Microbiology, Neovascularization, Pathologic, Amino Acid Transport Systems, General Neuroscience, Glutamine, Humans, Animals, Endothelial Cells, General Medicine, General Biochemistry, Genetics and Molecular Biology
Abstract

Amino acid (AA) metabolism in vascular endothelium is important for sprouting angiogenesis. SLC38A5 (solute carrier family 38 member 5), an AA transporter, shuttles neutral AAs across cell membrane, including glutamine, which may serve as metabolic fuel for proliferating endothelial cells (ECs) to promote angiogenesis. Here, we found that Slc38a5 is highly enriched in normal retinal vascular endothelium, and more specifically, in pathological sprouting neovessels. Slc38a5 is suppressed in retinal blood vessels from Lrp5−/− and Ndpy/− mice, both genetic models of defective retinal vascular development with Wnt signaling mutations. Additionally, Slc38a5 transcription is regulated by Wnt/β-catenin signaling. Genetic deficiency of Slc38a5 in mice substantially delays retinal vascular development and suppresses pathological neovascularization in oxygen-induced retinopathy modeling ischemic proliferative retinopathies. Inhibition of SLC38A5 in human retinal vascular ECs impairs EC proliferation and angiogenic function, suppresses glutamine uptake, and dampens vascular endothelial growth factor receptor 2. Together these findings suggest that SLC38A5 is a new metabolic regulator of retinal angiogenesis by controlling AA nutrient uptake and homeostasis in ECs.

Published
2021

13. Dose-dependent study of effects of 532-nm continuous wave laser on rat skin: A mechanistic insight

Author

Ajay Rathi, Satya Prakash, Kiran Bora, and Bhuvnesh Kumar

Subjects
Male, Materials science, Port wine, Cell Survival, Dose dependence, General Physics and Astronomy, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, law.invention, 010309 optics, Rats, Sprague-Dawley, law, Heat shock protein, 0103 physical sciences, Tissue damage, Animals, General Materials Science, Irradiation, Skin, Cell Death, Calpain, Lasers, 010401 analytical chemistry, General Engineering, Dose-Response Relationship, Radiation, General Chemistry, Cw laser, Laser, 0104 chemical sciences, Rats, Up-Regulation, Oxidative Stress, Biophysics, Continuous wave, Reactive Oxygen Species, Biomarkers, DNA Damage
Abstract

Visible lasers emitting in the green spectral region are being routinely employed in various medical and defense fields namely treatment of pigmented lesions, tattoo inks, port wine stains, dazzling the target or mob dispersal. Despite their increasing applications, lasers also tend to pose occupational hazards to operators, ancillary personnel, individuals undergoing laser therapies. This study was aimed at investigating the effects of different doses of 532-nm continuous wave laser on rat skin. The present study demonstrated that higher fluences of 532-nm continuous wave (CW) laser induces significant tissue damage through induction of tumor necrosis factor-α, cyclooxygenase-2, tumor protein (p53), PARP 1, caspase3 which in turn leads to tissue damage and cell death. Furthermore, level of heat shock proteins, pAkt were found up-regulated as a cope up response to laser-induced stress. On the basis of the findings, irradiation with 532-nm CW laser up to 2.5 J/cm2 was found within the safe exposure limits. Thus, it is probably the first attempt to demonstrate the tissue damage induced by 532-nm CW laser on skin, which may help in choosing safe laser dose for certain skin-based applications and evolving methods to ameliorate laser-inflicted injuries.

Published
2018

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