Lucia Grumetto 1 and Antonio Del Prete 2 and Giovanni Ortosecco 1 and Antonella Borrelli 3 and Salvatore Del Prete 2 and Aldo Mancini 4
Academic Editor:Guy Kleinmann
1, Department of Pharmacy, University of Naples Federico II, 80131 Naples, Italy
2, Department of Neurosciences and Reproductive and Dentistry Sciences, University of Naples Federico II, 80131 Naples, Italy
3, Molecular Biology and Viral Oncology Unit, Department of Experimental Oncology, National Institute of Cancer, IRCCS Foundation, Naples, Italy
4, Leadhexa Inc., QB3-UCSF, San Francisco, CA, USA
Received 9 May 2016; Accepted 13 July 2016; 17 August 2016
This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
1. Background
The occurrence of cataracts is one of the leading causes of visual impairment in the elderly [1]. The disease can be classified as cortical, nuclear, and posterior subcapsular according to the location of the opacity within the lens [2]. The cataract is a complex disease with an etiology not completely understood [3] and related to some environmental components, including UV light, sun exposure, vitamin C deficiency [4], and some drugs. Indeed, glucocorticoids may cause steroid-induced posterior subcapsular cataracts (PSCs) being capable of inducing changes into the transcription of genes in lens epithelial cells [5]. Oxidative stress has long been recognized as an important mediator of pathophysiology in lens epithelial cells (LECs) and also plays an essential role in the pathogenesis of cataract [6]. There are a plethora of works aimed at demonstrating the importance of maintaining a proper intake of antioxidants and that indicate how genetic polymorphisms associated with genes for glutathione, a molecule reducing endogenous, may influence the development of cataracts [7]. Furthermore, some studies have been oriented to the investigation of biomarkers of oxidative stress of the cells of the lens such as higher levels of telomerase activity, and several substances were tested acting as scavengers against Reacting Oxygen Species (ROS) and lipid peroxidation, both mechanisms of cellular deterioration [8].
Recent studies have reported the association between ROS induced DNA damage of LECs and the development of cataract, indicating that oxygen free radical generators such as hydrogen peroxide can accelerate the biomolecular mechanisms that underlie the development of congenital cataract due to specific mutations [9]. The effects of topical administration of glucocorticoids on rabbit lenses are well described in animals [10]. The mechanism underlying steroid-induced damage could be due to a conformational change of lens crystallins which results in an unmasking of -SH groups with a consequent increased susceptibility to oxidation; the hypothesis could be that the protective effect exerted by some substances occurs by counteracting this oxidation.
In our previous work [11], we demonstrated the protective effect of rMnSOD against UV rays, powerful free radical generators, on the epithelium both of conjunctiva and cornea of rabbit eyes. In this case report, we reported a clinical experience based on compassionate use-safety report of the gel formulation containing the rMnSOD protein on a young patient with PSCs, caused by a long-term therapy with glucocorticoids, monitoring his clinical condition over time.
2. Case Presentation
2.1. Patient and Operative Details
An Italian 24-year-old man with an allergic conjunctivitis history was admitted to our department with PSCs diagnosis of both eyes through slit-lamp examination, caused by a glucocorticoid therapy lasting six months, one drop twice daily for both eyes. At the moment of our observation, the patient had visual acuity of 9/10 valued with a decimal system eye test card (Sbisà, Firenze) for both eyes. The patient has been treated with ketotifen 0.05% eye drops, one drop in both eyes three times a day, and ketotifen 0.05% ophthalmic gel, one drop in both eyes at evening, and bilastine 20 mg tablets per os one time in a day at the evening. He had undergone this therapy for 4 years. Furthermore, only for the last six months, he took eye drops consisting of chloramphenicol 0.5% and betamethasone 0.2%, one drop in both eyes two times a day. The patient showed an enhanced intraocular pressure (IOP), about 23-24 mmHg by a Nidek NT 2000 auto noncontact Tonometer.
In order to discontinue glucocorticoid therapy, the patient was treated with local specific immunotherapy; he was allergic to grass and olive tree; therefore, he was treated with a sublingual vaccine for systemic therapy and for topical therapy with eye drops containing allergens of grass and olive oil as reported in literature [12]; thus, in this way he was able to suspend glucocorticoid therapy. Figures 1(a) and 1(b) show the right and left eyes of the patient valued with the lift lamp at the moment of his admittance. In accordance with the Declaration of Helsinki (1964), it was possible to administer him for compassionate use. The ophthalmic gel preparation contained rMnSOD at a concentration of 12.5 μ g/mL, one drop three times a day for the right eye, while the left eye was treated with Bendazac-lysine g 0.5 eye drops, one drop three times in a day, for a period of five months. The experiment was conducted with the human subject's understanding and consent. The ophthalmic gel preparation with rMnSOD was obtained as described in the literature [11] at a concentration of 12.5 μ g/mL prepared as a single dosage form and in a sterile room under laminar flow hood. The developed formulations were primarily evaluated for clarity by visual observation against a black and white background in a well-lit cabinet, drug content by UV spectrophotometry at 280 nm (Shimadzu UV-visible spectrophotometer, Japan), and pH (Crison Instruments digital pH meter, Spain).
Figure 1: Lenz of right eye (a) and left eye (b) before the administration, respectively, of rMnSOD gel formulation in the right eye (c) and left eye (d) after the treatment with Bendazac-lysine g 0.5 eye drops.
(a) [figure omitted; refer to PDF]
(b) [figure omitted; refer to PDF]
(c) [figure omitted; refer to PDF]
(d) [figure omitted; refer to PDF]
3. Results and Discussion
The follow-up was carried out with Digital Photo Set Righton RS-1000, an inherited full-fledged zoom photo slit lamp with 6 megapixel high resolution digital images, to monitor the slightest symptoms to the use of the programmed flash illumination. Overall zoom ratio covering 7.5x to 32.3x, with a standard 12.5x eye piece magnification range from 7.5 pixels to 32.3 pixels, enables all details to be observed without vignetting. The optional 10 pixel eye piece was used for low magnification observation. With digital photography, a photo frame eye piece can be attached to the unit to show the available shooting area, while the image can be displayed on the computer monitor. After 5 months of therapy with the rMnSOD gel formulation, the visualacuity of right eye remained unchanged (Figure 1(c)) at 9/10, while the visual acuity of left eye (Figure 1(d)) got worse at 6/10. The patient did not show any toxicity during all the therapy. rMnSOD is a recombinant protein easily administrable in vitro and in vivo and it is very active against the free radicals. The protein is very stable in solution and is able to enter cells. On the contrary, the wild type MnSOD is not administrable in vitro or in vivo . The rMnSOD enters cells through the leader peptide, which is able to recognize the estrogen receptor on the cells [13, 14]. Many researches [11-15] have demonstrated the protective action against the oxidative damage for organs and tissues of animals. The protective effects of rMnSOD gel formulation have been reported in a recent study on rabbit eyes by us [11]. In this case report, we want to highlight that the rMnSOD protects from degenerative process of PSC, compared to the current therapy with bendaline, internationally allowed [15]. Our findings suggest that rMnSOD gel formulation might be used also to protect eyes in diseases, as PSC, from oxidative damages. The patient will continue to be followed up in our clinic.
4. Conclusion
According to the current knowledge about the therapeutic target role of the redox balance, this case report suggests an important action of the rMnSOD which, vehicled as an ophthalmic gel, would achieve a good therapeutic efficiency without side effects. As previously demonstrated in our ophthalmologic study on rabbit eye [11], the rMnSOD is able to reduce the oxidative stress, thus preventing the worsening of PSC disease. Based on the evidence of the protective effects of rMnSOD versus PSC disease, probably due to the capacity of rMnSOD of countering free radical species, our findings suggest that rMnSOD gel formulation could be considered as an associated additional treatment for PSC. Further study will be performed before taking action.
Abbreviations
IOP:
Intraocular pressure
LECs:
Lens epithelial cells
LOCSII or LOCSIII:
Lens Opacification Classification System
PSCs:
Posterior subcapsular cataracts
ROS:
Reacting Oxygen Species
rMnSOD:
Recombinant manganese superoxide dismutase
SOD:
Superoxide dismutase (SOD).
Acknowledgments
The authors are grateful to Lega Italiana di Napoli per la Lotta Contro i Tumori (LILT).
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Abstract
Background. We report a case of bilateral posterior subcapsular cataracts (PSCs) in a 24-year-old man with an allergic conjunctivitis history caused by a long-term therapy with glucocorticoids. Case Presentation. The patient showed a visual acuity of 9/10 for both eyes. He followed a therapy with ketotifen and bilastine for four years. During the last six months before our evaluation, he was treated with chloramphenicol and betamethasone, interrupted for onset of cataracts and increased intraocular pressure. We treated him with ophthalmic gel preparation containing a new recombinant form of manganese superoxide dismutase (rMnSOD) at a concentration of 12.5 μg/mL, only for the right eye, while left eye was treated with standard protocol of Bendazac-lysine g 0.5. Conclusion. This case report shows the protective effects of rMnSOD versus PSC disease, probably due to the capacity of rMnSOD of countering free radical species.
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer