Your search keyword '"Seiler, MJ"' showing total 136 results

1. Pathology of high current density stimulation in the retina

Author

Colodetti, L, Weiland, JD, Colodetti, S, Ray, A, Seiler, MJ, Hinton, DR, and Humayun, MS

Subjects

retinal prosthesis, electrical stimulation, retina, retinal degeneration, Medical Biochemistry and Metabolomics, Neurosciences, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

The goal of this study was to examine the characteristics of electrically induced retinal damage. A retinal prosthesis must be both effective and safe, but most research related to electrical stimulation of the retina has involved measures of efficacy (for example, stimulus threshold), while relatively little research has investigated the safety of electrical stimulation. In this study, a single platinum microelectrode was inserted into the vitreous cavity of normally-sighted adult Long Evans pigmented rats. In one group of animals, no contact was made between the electrode and the retina and current pulses of 0.05 (n = 3) and 0.2 (n = 6) μC/phase were applied. In a second group, visible contact (slight dimpling of the retina) was made between the electrode and the retina and current pulses of 0.09 (n = 4) μC/phase were applied. In both cases, stimulus pulses (biphasic, cathodic first, 1 ms/phase) were applied for 1 h at 100 Hz. Also, control experiments were run with no electrical stimulation with retina contact (n = 4) and with no retinal contact (n = 3). After stimulation, the animal was survived for 2 weeks with ocular photography and electroretinography (ERG) to document changes. During the follow-up period, retinal changes were observed only when the electrode contacted the retina, with or without electrical stimulation. No difference was noted in ERG amplitude or latency comparing the test eye to the stimulated eye. Histological analysis was performed after sacrifice at 2 weeks. A semi-quantitative method for grading 18 features of retina/RPE/choroidal appearance was established and integer grades applied to both test and control eyes. Using this method and comparing the most severely affected area (highest grade), significant differences ( p < 0.05) were noted between experiments with retinal contact and without retinal contact in all features except inner nuclear layer thickness. No difference was noted within a group based on the intensity of electrical stimulus applied. The size of the affected area was significantly larger with both retinal contact and electrical stimulation compared to withretinal contact alone. We conclude that mechanical pressure alone and mechanical pressure with excessive electrical stimulation causes damageto the retina but that electrical stimulation coupled with mechanical pressure increases the area of the damage.

Published

2023

2. Transplantation of intact sheets of fetal neural retina with its RPE in retinitis pigmentosa patients.

Author

Radtke, ND, Seiler, MJ, Aramant, RB, Petry, HM, and Pidwell, DJ

Subjects

retinal degeneration, retinal transplantation, safety trial, Clinical Sciences, Opthalmology and Optometry, Public Health and Health Services, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

Purpose: To show the safety of transplanting sheets of fetal retina together with its RPE to patients with retinitis pigmentosa.Methods: Sheets of fetal neural retina and RPE together were transplanted into the subretinal space near the fovea unilaterally into the eyes of five patients with retinitis pigmentosa that had only light perception in both eyes. The patients were followed for six months. The main outcome measures were tissue typing of both donors and recipients, fluorescein angiography, multifocal electroretinogram (mfERG) testing, and clinical examination. No immunosuppressive medications were given. Results: No evidence of rejection was observed. Out to six months there was no evidence of tissue disintegration, retinal edema, or scarring. There was no change in vision, both by Snellen acuity and with mfERGs. Growth of the transplant was noted in two of five patients at six months versus two weeks. All patients typed were HLA mismatched with donor tissue. Conclusions: This study indicates that fetal retina can be transplanted together with its RPE and survive for at least 6 months without rejection. However, no improvement in vision was observed, possibly due to the severe retinal degeneration of the patients.

Published

2023

3. Pathology of high current density stimulation in the retina

Author

Colodetti, L, Weiland, JD, Colodetti, S, Ray, A, Seiler, MJ, Hinton, DR, and Humayun, MS

Subjects

retinal prosthesis, electrical stimulation, retina, retinal degeneration, Medical Biochemistry and Metabolomics, Neurosciences, Opthalmology and Optometry, Ophthalmology & Optometry

Abstract

The goal of this study was to examine the characteristics of electrically induced retinal damage. A retinal prosthesis must be both effective and safe, but most research related to electrical stimulation of the retina has involved measures of efficacy (for example, stimulus threshold), while relatively little research has investigated the safety of electrical stimulation. In this study, a single platinum microelectrode was inserted into the vitreous cavity of normally-sighted adult Long Evans pigmented rats. In one group of animals, no contact was made between the electrode and the retina and current pulses of 0.05 (n = 3) and 0.2 (n = 6) μC/phase were applied. In a second group, visible contact (slight dimpling of the retina) was made between the electrode and the retina and current pulses of 0.09 (n = 4) μC/phase were applied. In both cases, stimulus pulses (biphasic, cathodic first, 1 ms/phase) were applied for 1 h at 100 Hz. Also, control experiments were run with no electrical stimulation with retina contact (n = 4) and with no retinal contact (n = 3). After stimulation, the animal was survived for 2 weeks with ocular photography and electroretinography (ERG) to document changes. During the follow-up period, retinal changes were observed only when the electrode contacted the retina, with or without electrical stimulation. No difference was noted in ERG amplitude or latency comparing the test eye to the stimulated eye. Histological analysis was performed after sacrifice at 2 weeks. A semi-quantitative method for grading 18 features of retina/RPE/choroidal appearance was established and integer grades applied to both test and control eyes. Using this method and comparing the most severely affected area (highest grade), significant differences ( p < 0.05) were noted between experiments with retinal contact and without retinal contact in all features except inner nuclear layer thickness. No difference was noted within a group based on the intensity of electrical stimulus applied. The size of the affected area was significantly larger with both retinal contact and electrical stimulation compared to withretinal contact alone. We conclude that mechanical pressure alone and mechanical pressure with excessive electrical stimulation causes damageto the retina but that electrical stimulation coupled with mechanical pressure increases the area of the damage.

Published

2021

4. Transplantation of intact sheets of fetal neural retina with its RPE in retinitis pigmentosa patients.

Author

Radtke, ND, Seiler, MJ, Aramant, RB, Petry, HM, and Pidwell, DJ

Subjects

retinal degeneration, retinal transplantation, safety trial, Ophthalmology & Optometry, Clinical Sciences, Opthalmology and Optometry, Public Health and Health Services

Abstract

Purpose: To show the safety of transplanting sheets of fetal retina together with its RPE to patients with retinitis pigmentosa.Methods: Sheets of fetal neural retina and RPE together were transplanted into the subretinal space near the fovea unilaterally into the eyes of five patients with retinitis pigmentosa that had only light perception in both eyes. The patients were followed for six months. The main outcome measures were tissue typing of both donors and recipients, fluorescein angiography, multifocal electroretinogram (mfERG) testing, and clinical examination. No immunosuppressive medications were given. Results: No evidence of rejection was observed. Out to six months there was no evidence of tissue disintegration, retinal edema, or scarring. There was no change in vision, both by Snellen acuity and with mfERGs. Growth of the transplant was noted in two of five patients at six months versus two weeks. All patients typed were HLA mismatched with donor tissue. Conclusions: This study indicates that fetal retina can be transplanted together with its RPE and survive for at least 6 months without rejection. However, no improvement in vision was observed, possibly due to the severe retinal degeneration of the patients.

Published

2021

5. Tissue engineering strategies for retina regeneration

Author

Rajendran Nair, DS, Seiler, MJ, Patel, KH, Thomas, V, Camarillo, JCM, Humayun, MS, and Thomas, BB

Subjects

retinal degenerative diseases, age-related macular degeneration, biomaterials, stem cells, retinal pigment epithelium, tissue engineering

Abstract

The retina is a complex and fragile photosensitive part of the central nervous system which is prone to degenerative diseases leading to permanent vision loss. No proven treatment strategies exist to treat or reverse the degenerative conditions. Recent investigations demonstrate that cell transplantation therapies to replace the dysfunctional retinal pigment epithelial (RPE) cells and or the degenerating photoreceptors (PRs) are viable options to restore vision. Pluripotent stem cells, retinal progenitor cells, and somatic stem cells are the main cell sources used for cell transplantation therapies. The success of retinal transplantation based on cell suspension injection is hindered by limited cell survival and lack of cellular integration. Recent advances in material science helped to develop strategies to grow cells as intact monolayers or as sheets on biomaterial scaffolds for transplantation into the eyes. Such implants are found to be more promising than the bolus injection approach. Tissue engineering techniques are specifically designed to construct biodegradable or non-degradable polymer scaffolds to grow cells as a monolayer and construct implantable grafts. The engineered cell construct along with the extracellular matrix formed, can hold the cells in place to enable easy survival, better integration, and improved visual function. This article reviews the advances in the use of scaffolds for transplantation studies in animal models and their application in current clinical trials.

Published

2021

6. A new immunodeficient pigmented retinal degenerate rat strain to study transplantation of human cells without immunosuppression

Author

Seiler, MJ, Aramant, RB, Jones, MK, Ferguson, DL, Bryda, EC, and Keirstead, HS

Subjects

Human embryonic stem cells, Human neural progenitor cells, Immunodeficiency, Photoreceptor degeneration, Rat strain, Retinal transplantation, Xenografts

Abstract

Purpose The goal of this study was to develop an immunodeficient rat model of retinal degeneration (RD nude rats) that will not reject transplanted human cells. Methods SD-Tg(S334ter)3Lav females homozygous for a mutated mouse rhodopsin transgene were mated with NTac:NIH-Whn (NIH nude) males homozygous for the Foxn1rnu allele. Through selective breeding, a new stock, SD-Foxn1 Tg(S334ter)3Lav (RD nude) was generated such that all animals were homozygous for the Foxn1rnu allele and either homo- or hemizygous for the S334ter transgene. PCR-based assays for both the Foxn1rnu mutation and the S334ter transgene were developed for accurate genotyping. Immunodeficiency was tested by transplanting sheets of hESC-derived neural progenitor cells to the subretinal space of RD nude rats, and, as a control, NIH nude rats. Rats were killed between 8 and 184 days after surgery, and eye sections were analyzed for human, neuronal, and glial markers. Results After transplantation to RD nude and to NIH nude rats, hESC-derived neural progenitor cells differentiated to neuronal and glial cells, and migrated extensively from the transplant sheets throughout the host retina. Migration was more extensive in RD nude than in NIH nude rats. Already 8 days after transplantation, donor neuronal processes were found in the host inner plexiform layer. In addition, host glial cells extended processes into the transplants. The host retina showed the same photoreceptor degeneration pattern as in the immunocompetent SD-Tg(S334ter)3Lav rats. Recipients survived well after surgery. Conclusions This new rat model is useful for testing the effect of human cell transplantation on the restoration of vision without interference of immunosuppression. © 2014 Springer-Verlag Berlin Heidelberg.

Published

2014

7. Computational molecular phenotyping of retinal sheet transplants to rats with retinal degeneration

Author

Seiler, MJ, Jones, BW, Aramant, RB, Yang, PB, Keirstead, HS, and Marc, RE

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Transplantation, Neurosciences, Eye Disease and Disorders of Vision, 2.1 Biological and endogenous factors, Aetiology, Eye, Neurological, Animals, Computational Biology, Female, Graft Survival, Humans, Male, Neural Stem Cells, Phenotype, Rats, Rats, Transgenic, Retina, Retinal Degeneration, CRALBP, electron microscopy, GABA, molecular phenotyping, retinal transplantation, synaptic circuitry, Psychology, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology, Cognitive and computational psychology

Abstract

Retinal progenitor sheet transplants have been shown to extend neuronal processes into a degenerating host retina and to restore visual responses in the brain. The aim of this study was to identify cells involved in transplant signals to retinal degenerate hosts using computational molecular phenotyping (CMP). S334ter line 3 rats received fetal retinal sheet transplants at the age of 24-40 days. Donor tissues were incubated with slow-releasing microspheres containing brain-derived neurotrophic factor or glial cell-derived neurotrophic factor. Up to 265 days after surgery, eyes of selected rats were vibratome-sectioned through the transplant area (some slices stained for donor marker human placental alkaline phosphatase), dehydrated and embedded in Eponate, sectioned into serial ultrathin datasets and probed for rhodopsin, cone opsin, CRALBP (cellular retinaldehyde binding protein), l-glutamate, l-glutamine, glutathione, glycine, taurine, γ-aminobutyric acid (GABA) and DAPI (4',6-diamidino-2-phenylindole). In large transplant areas, photoreceptor outer segments in contact with host retinal pigment epithelium revealed rod and cone opsin immunoreactivity whereas no such staining was found in the degenerate host retina. Transplant photoreceptor layers contained high taurine levels. Glutamate levels in the transplants were higher than in the host retina whereas GABA levels were similar. The transplant inner nuclear layer showed some loss of neurons, but amacrine cells and horizontal cells were not reduced. In many areas, glial hypertrophy between the host and transplant was absent and host and transplant neuropil appeared to intermingle. CMP data indicate that horizontal cells and both glycinergic and GABAergic amacrine cells are involved in a novel circuit between transplant and host, generating alternative signal pathways between transplant and degenerating host retina.

Published

2012

8. Retinal degeneration in two lines of transgenic S334ter rats

Author

Martinez-Navarrete, G, Seiler, MJ, Aramant, RB, Fernandez-Sanchez, L, Pinilla, I, and Cuenca, N

Subjects

Neurosciences, Eye Disease and Disorders of Vision, Amacrine Cells, Animals, Apoptosis, Calbindins, Disease Models, Animal, Female, Fluorescent Antibody Technique, Indirect, In Situ Nick-End Labeling, Male, Parvalbumins, Photoreceptor Cells, Vertebrate, Presynaptic Terminals, Protein Kinase C, Rats, Rats, Long-Evans, Rats, Sprague-Dawley, Rats, Transgenic, Recoverin, Retinal Bipolar Cells, Retinal Degeneration, Retinal Horizontal Cells, S100 Calcium Binding Protein G, Transducin, retinal degeneration, rodent, remodeling, apoptosis, protein kinase C, calbindin, recoverin, parvalbumin, transducin, Medical Biochemistry and Metabolomics, Opthalmology and Optometry, Ophthalmology & Optometry

Abstract

Aim of this study was to examine synaptic connectivity changes in the retina and the location and rate of apoptosis in transgenic S334ter line-3 and line-5 rats with photoreceptor degeneration. Heterozygous S334ter-line-3 and line-5 at P11-13, P30, P60, P90 and several control non-dystrophic rats (Long Evans and Sprague-Dawley) at P60, were studied anatomically by immunohistochemistry for various cell and synaptic markers, and by PNA and TUNEL label.- S334ter line-3 exhibited the fastest rate of degeneration with an early loss of photoreceptors, with 1-2 layers remaining at P30, and only cones left at P60. Line-5 had 4-5 layers left at P30, and very few rods left at P60-90. In both lines, horizontal cell processes (including dendrites and axon) were diminished at P11-13, showing gaps in the outer plexiform layer (OPL) at P60, and at P90, almost no terminal tips could be seen. Bipolar cells showed a retraction of their dendrites forming clusters along the OPL. Synaptic terminals of A-II amacrine cells in the IPL lost most of their parvalbumin-immunoreactivity. The apoptosis rate was different in both lines. Line-3 rats showed many photoreceptors affected at P11, occupying the innermost part of the outer nuclear layer. Line-5 showed a lower number of apoptotic cells within the same location at P13. In summary, the S334ter line-3 rat has a faster progression of degeneration than line-5. The horizontal and bipolar terminals are already affected at P11-P13 in both models. Apoptosis is related to the mutated rhodopsin transgene; the first photoreceptor cells affected are those close to the OPL.

Published

2011

9. Visual restoration and transplant connectivity in degenerate rats implanted with retinal progenitor sheets

Author

Seiler, MJ, Aramant, RB, Thomas, BB, Peng, Q, Sadda, SR, and Keirstead, HS

Subjects

Organ Transplantation, Neurodegenerative, Stem Cell Research, Eye Disease and Disorders of Vision, Regenerative Medicine, Transplantation, Neurosciences, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Eye, Neurological, Alkaline Phosphatase, Animals, Animals, Genetically Modified, Electrophysiology, GPI-Linked Proteins, Humans, Isoenzymes, Rats, Regeneration, Retina, Retinal Degeneration, Stem Cell Transplantation, Stem Cells, Superior Colliculi, Synapses, Vision, Ocular, Visual Pathways, electron microscopy, human placental alkaline phosphatase, retinal degeneration, retinal progenitor cells, retinal transplantation, superior colliculus, Psychology, Cognitive Sciences, Neurology & Neurosurgery

Abstract

The aim of this study was to determine whether retinal progenitor layer transplants form synaptic connections with the host and restore vision. Donor retinal sheets, isolated from embryonic day 19 rat fetuses expressing human placental alkaline phosphatase (hPAP), were transplanted to the subretinal space of 18 S334ter-3 rats with fast retinal degeneration at the age of 0.8-1.3 months. Recipients were killed at the age of 1.6-11.8 months. Frozen sections were analysed by confocal immunohistochemistry for the donor cell label hPAP and synaptic markers. Vibratome slices were stained for hPAP, and processed for electron microscopy. Visual responses were recorded by electrophysiology from the superior colliculus (SC) in 12 rats at the age of 5.3-11.8 months. All recorded transplanted rats had restored or preserved visual responses in the SC corresponding to the transplant location in the retina, with thresholds between -2.8 and -3.4 log cd/m(2). No such responses were found in age-matched S334ter-3 rats without transplants, or in those with sham surgery. Donor cells and processes were identified in the host by light and electron microscopy. Transplant processes penetrated the inner host retina in spite of occasional glial barriers between transplant and host. Labeled neuronal processes were found in the host inner plexiform layer, and formed apparent synapses with unlabeled cells, presumably of host origin. In conclusion, synaptic connections between graft and host cells, together with visual responses from corresponding locations in the brain, support the hypothesis that functional connections develop following transplantation of retinal layers into rodent models of retinal degeneration.

Published

2010

10. Retinal transplants: Hope to preserve and restore vision

Author

Seiler, MJ, Aramant, RB, and Keirstead, H

Subjects

Optoelectronics & Photonics

Published

2008

11. Restoration of visual responses following transplantation of intact retinal sheets in rd mice

Author

Arai, S, Thomas, BB, Seiler, MJ, Aramant, RB, Qiu, G, Mui, C, de Juan, E, and Sadda, SR

Subjects

Neurosciences, Transplantation, Eye Disease and Disorders of Vision, Eye, Animals, Calcium-Binding Proteins, Coloring Agents, Evoked Potentials, Visual, Eye Proteins, Fetal Tissue Transplantation, Immunohistochemistry, Lipoproteins, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Inbred Strains, Photic Stimulation, Photoreceptor Cells, Recoverin, Retina, Retinal Cone Photoreceptor Cells, Retinitis Pigmentosa, Rhodopsin, Visual Perception, retinal transplantation, retinal degeneration, electrophysiology, rescue, Medical Biochemistry and Metabolomics, Opthalmology and Optometry, Ophthalmology & Optometry

Abstract

PurposeTo correlate the functional outcomes with histologic findings following transplantation of fetal retinal sheets in rd mice, and to investigate the mechanisms of visual function restoration.MethodsTwenty-one postnatal day 31-38 rd/rd (C3H/HeJ) mice were transplanted in one eye with retinal sheets (1.0 x 0.4 mm) obtained from embryonic day (E) 17 enhanced-green-fluorescent protein (eGFP) mice. Five mice underwent sham surgery without insertion of tissue. Four to five weeks after transplantation, visual responses to a light flash were recorded across the superior colliculus (SC) in seven eyes of seven transplanted mice that had clear corneas and lenses, and in all five sham surgery mice. Following the SC recording, the eyes were enucleated and processed for immunohistochemistry and examined using confocal microscopy.ResultsIn three out of the seven eyes (43%), positive responses were recorded in the SC in an area topographically corresponding to the placement of the transplant in the host retina. No responses were recorded in the untreated eyes of 5-week-old and 9-week-old rd/rd mice, and in the 9-week-old sham surgery mice. In contrast, visual responses were recorded over the entire SC in normal eyes. The response onset latencies of the 3 transplanted mice with responses were similar to those of normal control mice. The organization of the graft did not appear to correlate as expected with the electrophysiology results, as eyes with well-organized, laminated grafts showed no response whereas the three light-responsive eyes had rosetted or disorganized grafts. All three light-responsive eyes demonstrated much higher levels of recoverin immunoreactivity in the host retina overlying the graft compared with untreated age-matched rd/rd mice.ConclusionRestoration of the SC visual response does not appear to depend on a well-organized transplant in the rd mouse. Increased recoverin-staining in the host retina in light-responsive animals suggested that host cone rescue was the likely mechanism of vision restoration in this transplant model.

Published

2004

12. Alternative culture conditions for isolation and expansion of retinal progenitor cells.

Author

Qiu, G, Seiler, MJ, Arai, S, Aramant, RB, and Sadda, SR

Subjects

Retina, Stem Cells, Animals, Rats, Rats, Long-Evans, Culture Media, Serum-Free, Microscopy, Fluorescence, Fluorescent Antibody Technique, Indirect, Cell Culture Techniques, Cell Separation, Cell Division, Cell Differentiation, Cell Survival, Biomarkers, Long-Evans, Culture Media, Serum-Free, Microscopy, Fluorescence, Fluorescent Antibody Technique, Indirect, Ophthalmology & Optometry

Abstract

PurposeTo investigate different in vitro model systems for retinal progenitor cell (RPC) isolation and expansion.MethodsRPCs were isolated from embryonic day (E) 17 Long Evans rat retinas. Three different culture media: (1) modified serum free defined media (2) serum-containing media and (3) embryonic stem cell (ES)-conditioned media were used for RPC isolation and long term expansion. Expression of various cellular markers and cell morphologies were compared among the three culture systems at different passages by immunostaining and confocal microscopy.ResultsAll three culture systems could maintain RPCs as nestin-positive cells (78-87%) after long-term in vitro expansion. However, RPCs appeared to proliferate faster in the serum-free culture system. The ES-conditioned media provided the best RPC survival. Cells appeared smaller at early passages compared with later passages. This morphology change occurred at P9-P10 in the serum-free medium, and at P5-P6 in the other two culture systems.ConclusionsThe serum-free medium may be superior for preventing RPC differentiation during expansion.

Published

2004

13. Retinal transplants restore visually evoked responses in rats with photoreceptor degeneration.

Author

Woch, G, Aramant, RB, Seiler, MJ, Sagdullaev, BT, and McCall, MA

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurodegenerative, Neurosciences, Transplantation, Eye Disease and Disorders of Vision, Eye, Neurological, Animals, Arrestin, Evoked Potentials, Visual, Fetal Tissue Transplantation, Immunoenzyme Techniques, Pigment Epithelium of Eye, Rats, Rats, Long-Evans, Rats, Mutant Strains, Retina, Retinal Degeneration, Superior Colliculi, Biological Sciences, Medical and Health Sciences, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeTo assess whether transplantation of intact sheets of fetal retina with retinal pigment epithelium (RPE) into a retina with photoreceptor degeneration restores visually evoked responses.MethodsSheets of fetal retina with RPE were transplanted into the subretinal space of Royal College of Surgeons (RCS) rats at 37 to 69 days of age. Sixty-three days to 10 months after transplantation, multiunit visual responses were recorded in the superior colliculus (SC) of transplanted rats, age-matched untransplanted rats, and rats with sham surgery.ResultsIn 19 of 29 RCS rats with transplants, visually evoked responses were recorded from and restricted to a small area of the SC that corresponds topographically to the portion of the retina in which the transplant was placed. Outside of this area, no visual responses were evoked. Visually evoked responses were never recorded in age-matched, nontransplanted RCS rats. Visually evoked responses were recorded in 6 of 13 RCS rats with sham surgery, but these responses were significantly different from responses in rats with transplants.ConclusionsThese results demonstrate that this transplantation technique restores visually evoked responses in the brain. Although the underlying mechanism is unknown, we propose that the central visual response results from increased synaptic efficacy within the host retina. If it can be established that functional connections between the transplant and the host retina produce the effect, then it would indicate that the technique could be explored as a therapeutic strategy in some diseases of retinal degeneration.

Published

2001

14. Selective photoreceptor damage in albino rats using continuous blue light

Author

Seiler, MJ, Liu, Olivia L, Cooper, Nigel GF, Callahan, Tricia L, Petry, Heywood M, and Aramant, Robert B

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurosciences, Neurodegenerative, Eye Disease and Disorders of Vision, Eye, Animals, Apoptosis, Electroretinography, Female, Graft Survival, In Situ Nick-End Labeling, Light, Photoreceptor Cells, Vertebrate, Pigment Epithelium of Eye, Radiation Injuries, Experimental, Rats, Rats, Sprague-Dawley, Retinal Degeneration, Time Factors, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeTo develop a retinal degeneration model with selective photoreceptor loss and RPE sparing, to be used as recipient for evaluating retinal transplants.MethodsAlbino rats were exposed to blue light, continuously, for 1-7 days (24-168 h) in a specially designed cage. Eyes were histologically analyzed at periods between 2 h and 8 months after the light exposure. Electroretinograms (ERGs) were recorded from some rats at 12-216 days after exposure. Using behavioral methods, visual thresholds of some rats were determined before exposure and re-measured between 18 and 52 days following exposure.ResultsApoptotic nuclei appeared exclusively in the photoreceptor layer after 1-5 days exposure to blue light. Light microscopy revealed that 2-4 days of light exposure reduced the outer nuclear layer (normally eight to ten rows) to 1 row of cells in the central retina and to two to three rows in the periphery, both in the superior and the inferior retina. Average ERG a- and b-wave amplitudes of light-damaged rats were both reduced by about 98%. Visual performance in the behavioral test was substantially impaired.ConclusionsContinuous exposure of albino rats to moderate blue light for 2-5 days selectively eliminates most of the photoreceptors while leaving the RPE initially intact.

Published

2000

15. Photoreceptor function of retinal transplants implicated by light-dark shift of S-antigen and rod transducin

Author

Seiler, MJ, Aramant, RB, and Ball, SL

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Eye Disease and Disorders of Vision, Neurosciences, Transplantation, Eye, Adaptation, Ocular, Animals, Arrestin, Dark Adaptation, Female, Immunohistochemistry, Photoreceptor Cells, Rats, Rats, Sprague-Dawley, Retina, Rhodopsin, Transducin, Vision, Ocular, retinal transplantation, photoreceptor, rat, light damage, immunohistochemistry, transduction, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology, Ophthalmology and optometry

Abstract

The aim was to demonstrate functional properties of transplanted histologically normal photoreceptors. Subretinal intact-sheet transplants of fetal E17-E20 rat retinas to light-damaged albino rat eyes were fixed in light or dark, 2 to 42 weeks after transplantation, and stained immunohistochemically for certain phototransduction proteins. In light adapted transplants, transducin was predominantly found in inner segments of parallel-organized photoreceptors. Transducin shifted to the outer segments with dark-adaptation. S-antigen distribution was opposite to transducin. Rhodopsin distribution did not change. The shift of signal transduction proteins correlated to the light conditions indicates that normal phototransduction processes were established in photoreceptors of transplanted retinal sheets.

Published

1999

16. Can subretinal microphotodiodes successfully replace degenerated photoreceptors?

Author

Zrenner, E, Stett, A, Weiss, S, Aramant, RB, Guenther, E, Kohler, K, Miliczek, K-D, Seiler, MJ, and Haemmerle, H

Subjects

Eye Disease and Disorders of Vision, Rehabilitation, Neurosciences, Bioengineering, Assistive Technology, Eye, Animals, Biocompatible Materials, Blindness, Electronics, Medical, Electroretinography, In Vitro Techniques, Light, Miniaturization, Prostheses and Implants, Rats, Retina, Retinal Degeneration, Semiconductors, Time Factors, visual prosthesis, subretinal implant, subretinal microphotodiodes, photoreceptor replacement, retinal degeneration, Medical and Health Sciences, Psychology and Cognitive Sciences, Experimental Psychology

Abstract

The idea of implanting microphotodiode arrays as visual prostheses has aroused controversy on its feasibility from the moment it appeared in print. We now present results which basically support the concept of replacing damaged photoreceptors with subretinally implanted stimulation devices. Network activity in degenerated rat retinae could be modulated through local electrical stimulation in vitro. We also investigated the long term stability and biocompatibility of the subretinal implants and their impact on retinal physiology in rats. Ganzfeld electroretinograms and histology showed no significant side effect of subretinal implants on retinal function or the architecture of the inner retina.

Published

1999

17. Successful cotransplantation of intact sheets of fetal retina with retinal pigment epithelium.

Author

Aramant, RB, Seiler, MJ, and Ball, SL

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Human Fetal Tissue, Eye Disease and Disorders of Vision, Transplantation, Macular Degeneration, Neurosciences, Neurodegenerative, Eye, Animals, Arrestin, Cell Survival, Cell Transplantation, Extracellular Matrix, Fetal Tissue Transplantation, Graft Survival, Immunohistochemistry, Photoreceptor Cells, Vertebrate, Pigment Epithelium of Eye, Rats, Rats, Long-Evans, Rats, Mutant Strains, Retina, Retinal Degeneration, Rhodopsin, Transducin, retinal transplantation, retinal degeneration, RCS rat, Biological Sciences, Medical and Health Sciences, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeMany retinal diseases, such as macular degeneration, affect both retinal pigment epithelium (RPE) and photoreceptors. Therefore, retinal repair may require transplantation of both tissues together as a cograft.MethodsAs recipients of retina-RPE cografts, 7- to 10-week-old albino Royal College of Surgeons rats that lose their photoreceptors because of a pigment epithelium defect were used. Freshly harvested intact sheets of RPE with neural retina from pigmented normal rat fetuses were gel embedded for protection and transplanted into the subretinal space.ResultsAfter 6 to 7 weeks, with the support of the cografted RPE sheet, transplanted photoreceptors developed fully in organized parallel layers in the subretinal space. Immunohistochemistry for rhodopsin, rod alpha-transducin, and S-antigen and peanut agglutinin labeling for cone interphotoreceptor matrix domains suggested that the photoreceptors in the graft were capable of normal function.ConclusionsFreshly harvested intact sheets of fetal RPE and retina, transplanted together into the subretinal space, can develop a normal morphology. Such transplants have the potential to benefit retinal diseases with dysfunctional RPE and photoreceptors.

Published

1999

18. Intact sheets of fetal retina transplanted to restore damaged rat retinas.

Author

Seiler, MJ and Aramant, RB

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Eye Disease and Disorders of Vision, Transplantation, Neurosciences, Eye, Animals, Bromodeoxyuridine, DNA Replication, Female, Fetal Tissue Transplantation, Immunoenzyme Techniques, Light, Photoreceptor Cells, Pregnancy, Radiation Injuries, Experimental, Rats, Rats, Sprague-Dawley, Retina, Retinal Degeneration, Rhodopsin, retinal degeneration, retinal transplantation, fetal sheets, Biological Sciences, Medical and Health Sciences, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeThe aim of this study was to establish a model for morphologic retinal reconstruction after destruction of photoreceptors.MethodsRat embryos were prelabeled by injection of bromodeoxyuridine (BrdU) into timed pregnant rats on 2 to 6 consecutive days. Pieces of fetal retinas (embryonic day [E] 17 to E22) were embedded in growth factor-reduced matrigel for protection and stored in medium on ice. With the use of a custom-mnade implantation tool, trimmed embedded pieces were placed into the subretinal space of albino rats whose photoreceptors had been damaged by continuous exposure to blue light for 3 to 4 days.ResultsDonor cells were unequivocally identified by the BrdU label. Approximately 25% of transplants in the subretinal space developed parallel layers, with photoreceptor outer segments facing the host pigment epithelium. Transplants developed rosettes if host pigment epithelium had been damaged, if trauma to the donor tissue occurred during preparation or transplantation, and if the donor tissue was misplaced into the choroid or into the epiretinal space on top of the host retina. If the surgery was performed more than 4 weeks after the light damage, continued degeneration of the host retina caused secondary pigment epithelium damage, and transplants did not develop parallel layers of photoreceptor outer segments.ConclusionsAfter transplantation to the subretinal space of a degenerated retina, gel-protected fetal retina can develop parallel layers and photoreceptor outer segments in contact with host pigment epithelium. Transplants can develop good fusion with the inner retina of a photoreceptor-deficient recipient.

Published

1998

19. Transplantation of intact sheets of fetal neural retina with its RPE in retinitis pigmentosa patients.

Author

Radtke, ND, Radtke, ND, Seiler, MJ, Aramant, RB, Petry, HM, Pidwell, DJ, Radtke, ND, Radtke, ND, Seiler, MJ, Aramant, RB, Petry, HM, and Pidwell, DJ

Abstract

Purpose: To show the safety of transplanting sheets of fetal retina together with its RPE to patients with retinitis pigmentosa. Methods: Sheets of fetal neural retina and RPE together were transplanted into the subretinal space near the fovea unilaterally into the eyes of five patients with retinitis pigmentosa that had only light perception in both eyes. The patients were followed for six months. The main outcome measures were tissue typing of both donors and recipients, fluorescein angiography, multifocal electroretinogram (mfERG) testing, and clinical examination. No immunosuppressive medications were given. Results: No evidence of rejection was observed. Out to six months there was no evidence of tissue disintegration, retinal edema, or scarring. There was no change in vision, both by Snellen acuity and with mfERGs. Growth of the transplant was noted in two of five patients at six months versus two weeks. All patients typed were HLA mismatched with donor tissue. Conclusions: This study indicates that fetal retina can be transplanted together with its RPE and survive for at least 6 months without rejection. However, no improvement in vision was observed, possibly due to the severe retinal degeneration of the patients.

Published

2022

20. Retinal transplants restore visual responses in rats with photoreceptor degeneration

Author

Woch, G, Aramant, RB, Seiler, MJ, Sagdullaev, BT, and McCall, MA

Subjects

genetic structures, sense organs, eye diseases

Abstract

PURPOSE. To assess whether transplantation of intact sheets of fetal retina with retinal pigment epithelium (RPE) into a retina with photoreceptor degeneration restores visually evoked responses. METHODS. Sheets of fetal retina with RPE were transplanted into the subretinal space of Royal College of Surgeons (RCS) rats at 37 to 69 days of age. Sixty-three days to 10 months after transplantation, multiunit visual responses were recorded in the superior colliculus (SC) of transplanted rats, age-matched untransplanted rats, and rats with sham surgery. RESULTS. In 19 of 29 RCS rats with transplants, visually evoked responses were recorded from and restricted to a small area of the SC that corresponds topographically to the portion of the retina in which the transplant was placed. Outside of this area, no visual responses were evoked. Visually evoked responses were never recorded in age-matched, nontransplanted RCS rats. Visually evoked responses were recorded in 6 of 13 RCS rats with sham surgery, but these responses were significantly different from responses in rats with transplants. CONCLUSIONS. These results demonstrate that this transplantation technique restores visually evoked responses in the brain. Although the underlying mechanism is unknown, we propose that the central visual response results from increased synaptic efficacy within the host retina. If it can be established that functional connections between the transplant and the host retina produce the effect, then it would indicate that the technique could be explored as a therapeutic strategy in some diseases of retinal degeneration.

Published

2016

21. Intact sheets of fetal retina transplanted to restore damaged rat retinas

Author

Seiler, MJ and Aramant, RB

Subjects

DNA Replication, Rhodopsin, Light, genetic structures, Retinal Degeneration, fetal sheets, Biological Sciences, retinal transplantation, Ophthalmology & Optometry, Medical and Health Sciences, Retina, eye diseases, Rats, Immunoenzyme Techniques, Experimental, Bromodeoxyuridine, Fetal Tissue Transplantation, Pregnancy, Animals, Female, Photoreceptor Cells, Sprague-Dawley, sense organs, Radiation Injuries, retinal degeneration, retinal transplantation, fetal sheets

Abstract

PURPOSE. The aim of this study was to establish a model for morphologic retinal reconstruction after destruction of photoreceptors. METHODS. Rat embryos were prelabeled by injection of bromodeoxyuridine (BrdU) into timed pregnant rats on 2 to 6 consecutive days. Pieces of fetal retinas (embryonic day [E] 17 to E22) were embedded in growth factor-reduced matrigel for protection and stored in medium on ice. With the use of a custom-made implantation tool, trimmed embedded pieces were placed into the subretinal space of albino rats whose photoreceptors had been damaged by continuous exposure to blue light for 3 to 4 days. RESULTS. Donor cells were unequivocally identified by the BrdU label. Approximately 25% of transplants in the subretinal space developed parallel layers, with photoreceptor outer segments facing the host pigment epithelium. Transplants developed rosettes if host pigment epithelium had been damaged, if trauma to the donor tissue occurred during preparation or transplantation, and if the donor tissue was misplaced into the choroid or into the epiretinal space on top of the host retina. If the surgery was performed more than 4 weeks after the light damage, continued degeneration of the host retina caused secondary pigment epithelium damage, and transplants did not develop parallel layers of photoreceptor outer segments. CONCLUSIONS. After transplantation to the subretinal space of a degenerated retina, gel-protected fetal retina can develop parallel layers and photoreceptor outer segments in contact with host pigment epithelium. Transplants can develop good fusion with the inner retina of a photoreceptordeficient recipient.

Published

2016

22. Selective photoreceptor damage in albino rats using continuous blue light. A protocol useful for retinal degeneration and transplantation research.

Author

Seiler, MJ, Seiler, MJ, Liu, OL, Cooper, NG, Callahan, TL, Petry, HM, Aramant, RB, Seiler, MJ, Seiler, MJ, Liu, OL, Cooper, NG, Callahan, TL, Petry, HM, and Aramant, RB

Abstract

PurposeTo develop a retinal degeneration model with selective photoreceptor loss and RPE sparing, to be used as recipient for evaluating retinal transplants.MethodsAlbino rats were exposed to blue light, continuously, for 1-7 days (24-168 h) in a specially designed cage. Eyes were histologically analyzed at periods between 2 h and 8 months after the light exposure. Electroretinograms (ERGs) were recorded from some rats at 12-216 days after exposure. Using behavioral methods, visual thresholds of some rats were determined before exposure and re-measured between 18 and 52 days following exposure.ResultsApoptotic nuclei appeared exclusively in the photoreceptor layer after 1-5 days exposure to blue light. Light microscopy revealed that 2-4 days of light exposure reduced the outer nuclear layer (normally eight to ten rows) to 1 row of cells in the central retina and to two to three rows in the periphery, both in the superior and the inferior retina. Average ERG a- and b-wave amplitudes of light-damaged rats were both reduced by about 98%. Visual performance in the behavioral test was substantially impaired.ConclusionsContinuous exposure of albino rats to moderate blue light for 2-5 days selectively eliminates most of the photoreceptors while leaving the RPE initially intact.

Published

2000

23. Retinal transplants restore visual responses: trans-synaptic tracing from visually responsive sites labels transplant neurons

Author

Seiler, MJ, Thomas, BB, Chen, Z, Wu, R, Sadda, SR, and Aramant, RB

Subjects

Neurons, Superior Colliculi, Neurology & Neurosurgery, Staining and Labeling, Herpesvirus 1, Vision, Neurosciences, Genetically Modified, eye diseases, Retina, Rats, Fetal Tissue Transplantation, Ocular, Synapses, Visual Perception, Animals, Humans, Psychology, Visual Pathways, Cognitive Sciences, Biomarkers, Suid

Abstract

This study aimed to test the hypothesis that visual responses in the superior colliculus (SC) originate from synaptic connections between fetal retinal transplants and degenerating host retinas. Sheets of embryonic day 19 rat retina expressing human placental alkaline phosphatase were transplanted to the subretinal space of 3- to 4-week-old S334ter-line-3 rats with fast retinal degeneration. Several months later, visual responses were recorded from the SC. Attenuated pseudorabies virus that is specifically transferred between neurons at synapses (strains PRV-152, expressing green fluorescent protein (GFP) or BaBlu, expressing Escherichia coli β- galactosidase) was injected into the visually responsive site of the SC. After survival times of 1-2 days, the virus was detected in the retina by immunohistochemistry in combination with different retinal cell markers, such as protein kinase C, recoverin, calcium- calmodulin-dependent protein kinase II and glutamine synthetase. Transplanted rats had a mean response threshold of -3.1 log cd/m2in a small area of the SC corresponding to the location of the graft in the retina. By 30 h after injection into this SC area, the virus traced back to host ganglion cells overlying the transplant and in close proximity to the transplant. By 2 days after injection, extensive virus label was found in the host retina and many cells in the transplant were also labeled. Virus-labeled cells in the transplant were double labeled for neuronal and glial cell markers. This study provides anatomical evidence that synaptic connections between fetal retinal transplants and host retinas contribute to the visual responses in the SC. © Federation of European Neuroscience Societies and Blackwell Publishing Ltd.

Published

2008

24. Expression of ZnT and ZIP zinc transporters in the human RPE and their regulation by neurotrophic factors

Author

Leung, KW, Liu, M, Xu, X, Seiler, MJ, Barnstable, CJ, and Tombran-Tink, J

Subjects

Adult, Male, Indirect, Cells, 1.1 Normal biological development and functioning, Messenger, Fluorescent Antibody Technique, Gestational Age, Quinolones, Ophthalmology & Optometry, Medical and Health Sciences, Fluorescence, Tosyl Compounds, Dose-Response Relationship, Necrosis, In Situ Nick-End Labeling, Humans, Nerve Growth Factors, Pigment Epithelium of Eye, Cation Transport Proteins, Eye Disease and Disorders of Vision, Oligonucleotide Array Sequence Analysis, Nutrition, Microscopy, Cultured, Blotting, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Neurosciences, Biological Sciences, eye diseases, Zinc, Zinc Compounds, RNA, sense organs, Drug, Carrier Proteins, Western

Abstract

PurposeZinc is an essential cofactor for normal cell function. Altered expression and function of zinc transporters may contribute to the pathogenesis of neurodegenerative disorders including macular degeneration. The expression and regulation of zinc transporters in the RPE and the toxicity of zinc to these cells were examined.MethodsZinc transporters were identified in a human RPE cell line, ARPE19, using a 28K human array, and their expression was confirmed by PCR, immunocytochemistry, and Western blot analysis in primary human RPE cultures and ARPE19. Zinc toxicity to ARPE19 was determined using monotetrazolium, propidium iodide, and TUNEL assays, and Zn(2+) uptake was visualized with Zinquin ethyl ester. The effect of various growth factors on zinc transporter expression also was examined.ResultsTranscripts for 20 of 23 zinc transporters are expressed in fetal human RPE, 16 of 23 in adult human RPE, and 21 of 23 in ARPE19. Zn transporter proteins were also detected in ARPE19. ZnT5 expression was not observed, whereas ZnT6, ZIP1, and ZIP13 were the most abundantly expressed in all RPE samples. The addition of low concentrations of Zn(2+) to cultures resulted in a dose-dependent increase in intracellular Zn(2+) content in ARPE19, and >30 nM Zn(2+) induced necrosis with an LC(50) of 117.4 nM. Brain-derived neurotrophic factor, ciliary neurotrophic factor, glial-derived neurotrophic factor (GDNF), and pigment epithelial-derived neurotrophic factor (PEDF) increased ZIP2 expression, GDNF and PEDF increased ZnT2 expression, and PEDF increased ZnT3 and ZnT8 expression. These neurotrophic factors also promoted Zn(2+) uptake in the RPE.ConclusionsThe array of zinc transporters expressed by the RPE may play a key role in zinc homeostasis in the retina and in ocular health and diseases.

Published

2008

25. Pathology of high current density stimulation in the retina

Author

Colodetti, L, Weiland, JD, Colodetti, S, Ray, A, Seiler, MJ, Hinton, DR, and Humayun, MS

Subjects

retina, genetic structures, Opthalmology and Optometry, retinal prosthesis, retinal degeneration, Neurosciences, sense organs, Medical Biochemistry and Metabolomics, electrical stimulation, Ophthalmology & Optometry, eye diseases

Abstract

The goal of this study was to examine the characteristics of electrically induced retinal damage. A retinal prosthesis must be both effective and safe, but most research related to electrical stimulation of the retina has involved measures of efficacy (for example, stimulus threshold), while relatively little research has investigated the safety of electrical stimulation. In this study, a single platinum microelectrode was inserted into the vitreous cavity of normally-sighted adult Long Evans pigmented rats. In one group of animals, no contact was made between the electrode and the retina and current pulses of 0.05 (n = 3) and 0.2 (n = 6) μC/phase were applied. In a second group, visible contact (slight dimpling of the retina) was made between the electrode and the retina and current pulses of 0.09 (n = 4) μC/phase were applied. In both cases, stimulus pulses (biphasic, cathodic first, 1 ms/phase) were applied for 1 h at 100 Hz. Also, control experiments were run with no electrical stimulation with retina contact (n = 4) and with no retinal contact (n = 3). After stimulation, the animal was survived for 2 weeks with ocular photography and electroretinography (ERG) to document changes. During the follow-up period, retinal changes were observed only when the electrode contacted the retina, with or without electrical stimulation. No difference was noted in ERG amplitude or latency comparing the test eye to the stimulated eye. Histological analysis was performed after sacrifice at 2 weeks. A semi-quantitative method for grading 18 features of retina/RPE/choroidal appearance was established and integer grades applied to both test and control eyes. Using this method and comparing the most severely affected area (highest grade), significant differences ( p < 0.05) were noted between experiments with retinal contact and without retinal contact in all features except inner nuclear layer thickness. No difference was noted within a group based on the intensity of electrical stimulus applied. The size of the affected area was significantly larger with both retinal contact and electrical stimulation compared to with retinal contact alone. We conclude that mechanical pressure alone and mechanical pressure with excessive electrical stimulation causes damage to the retina but that electrical stimulation coupled with mechanical pressure increases the area of the damage.

Published

2007

26. Retinal transplants evaluated by optical coherence tomography in photoreceptor degenerate rats

Author

Thomas, BB, Arai, S, Ikai, Y, Qiu, G, Chen, Z, Aramant, RB, Sadda, SR, and Seiler, MJ

Subjects

Neurology & Neurosurgery, genetic structures, Retinal Degeneration, Neurosciences, Genetically Modified, Prognosis, eye diseases, Retina, Rats, surgical procedures, operative, Treatment Outcome, Optical Coherence, Animals, Psychology, Photoreceptor Cells, Cognitive Sciences, sense organs, Tomography, Retinoscopy

Abstract

Optical coherence tomography (OCT), a non-invasive method, was used for qualitative assessment of fetal retinal sheet transplants by non-invasive imaging. Rhodopsin-mutant S334ter-line-3 rats with fast retinal degeneration (28-37-day old) were transplanted with fetal retinal sheets from embryonic day (E) 18-19 pigmented normal rats. Retinal thickness measurements from transplanted (n = 51), no surgery control (n = 8), and normal pigmented rat eyes (n = 6) were obtained using a Zeiss stratus OCT-3 scanning instrument. Frozen retinal sections were stained with hematoxylin/eosin. S334ter-line-3 rats showed significant reduction in OCT retinal thickness (p < 0.001) compared to normal pigmented rats at the age of 21 days. In 62% of the transplanted rats, OCT scanning revealed the presence of a subretinal graft, which was confirmed by subsequent histology. Retinal thickness in the transplant area was significantly increased compared to the area outside the transplant and to non-transplanted eyes (p < 0.001). While most of the transplants with single-band OCT images (87%) had rosetted transplants, a considerable proportion of transplants having a multi-band OCT image were found to have well-laminated areas in the graft after histological evaluation. Following retinal transplantation in rodents, OCT imaging data correlated mostly with transplant morphology. OCT is a useful technique for in vivo screening and evaluation of retinal transplants. This technique determines surgical outcomes at a much earlier stage. © 2005 Elsevier B.V. All rights reserved.

Published

2006

27. Optokinetic test to evaluate visual acuity of each eye independently

Author

Thomas, BB, Seiler, MJ, Sadda, SR, Coffey, PJ, and Aramant, RB

Subjects

Optokinetic, genetic structures, Eye Movements, Visual Acuity, Genetically Modified, Eye, optokinetic response, Functional Laterality, Nystagmus, Animals, Psychology, Eye Disease and Disorders of Vision, visual behavior, Behavior, Neurology & Neurosurgery, Animal, Vision Tests, Retinal Degeneration, Age Factors, Neurosciences, Long-Evans, eye diseases, Rats, head-tracking, Cognitive Sciences, sense organs, Sensory Deprivation, Head

Abstract

A previously described optokinetic testing apparatus [Nat. Neurosci. 5 (2002) 53] was modified to measure vision in each eye separately for evaluation of monocular treatments. This apparatus consists also of a striped rotating drum. Ca. 170°of the drum are illuminated from outside and ca. 190°of the drum move behind a stationary black wall. The rat sits unrestrained in the drum center in a tube so that one eye is unexposed to the rotating stripes. Normal pigmented and retinal degenerate transgenic S334ter-3 rats were tested with the original and the modified apparatus. The usefulness of this method was tested in retinal degenerate rats with retinal transplants in one eye. In retinal degenerate animals, the amount of time (seconds) spent for head-tracking tended to be higher with the original method, possibly due to simultaneous stimulation of both eyes. In rats with retinal transplants, visual responses were significantly preserved in transplanted eyes at late stages of retinal degeneration. In conclusion, contributions from the fellow eye to the optokinetic tracking response can be limited by this testing modification, which is useful for evaluation of treatment effects to one eye. © 2004 Elsevier B.V. All rights reserved.

Published

2004

28. Preliminary report: indications of improved visual function following retinal sheet transplantation to retinitis pigmentosa patients

Author

Radtke, ND, Aramant, RB, Seiler, MJ, and Petry, HM

Subjects

retinal transplantation, retinal degenerationm human, genetic structures, sense organs, eye diseases

Abstract

PURPOSE: To report indications of new visual function after retinal transplantation in two blind patients with retinitis pigmentosa. METHODS: Intact sheets of fetal retina (15 and 17 weeks gestational age) were transplanted subretinally (between the neurosensory retina and the retinal pigment epithelium) near the fovea in the left eye of a 23-year-old white man (Patient A) and in the left eye of a 72-year-old white woman (Patient B), both with autosomal-recessive retinitis pigmentosa. RESULTS: Postoperatively, at 6 and 5 months, respectively, both patients reported new visual sensation in the visual field corresponding to the transplant. In both patients, the visual sensation continued to be present after transplantation, at 12 and 8 months, respectively. In Patient A, a transient multifocal electroretinography (mfERG) response was observed in the transplant area 4 months postoperatively but was not detectable in Patient A at 6.0 and 9.5 months post–retinal transplantation. In Patient B, no positive mfERG responses were seen up to 5 months postoperatively. No rejection (presenting as cystoid macular edema, macular pucker, and extensive intraretinal edema with disrupted retinal pigment epithelium) to the transplanted tissue was seen up to 13 months in Patient A and 9 months in Patient B by fluorescein angiography. CONCLUSION: Transplantation of intact sheets of fetal human retina in two patients with retinitis pigmentosa was not associated with evidence of transplant rejection. Subjective improvement and an indication of objective improvement 4 months postoperatively were seen in Patient A, and subjective improvement only was seen in Patient B.

Published

1999

29. Survival and Functional Integration of Human Embryonic Stem Cell-Derived Retinal Organoids After Shipping and Transplantation into Retinal Degeneration Rats.

Author

Lin B, Singh RK, Seiler MJ, and Nasonkin IO

Subjects

Animals, Humans, Rats, Cell Differentiation, Stem Cell Transplantation methods, Cell Survival, Tomography, Optical Coherence, Human Embryonic Stem Cells cytology, Human Embryonic Stem Cells transplantation, Retinal Degeneration therapy, Retinal Degeneration pathology, Organoids cytology, Organoids transplantation, Retina cytology, Retina pathology

Abstract

Because derivation of retinal organoids (ROs) and transplantation are frequently split between geographically distant locations, we developed a special shipping device and protocol capable of the organoids' delivery to any location. Human embryonic stem cell (hESC)-derived ROs were differentiated from the hESC line H1 (WA01), shipped overnight to another location, and then transplanted into the subretinal space of blind immunodeficient retinal degeneration (RD) rats. Development of transplants was monitored by spectral-domain optical coherence tomography. Visual function was accessed by optokinetic tests and superior colliculus (SC) electrophysiology. Cryostat sections through transplants were stained with hematoxylin and eosin; or processed for immunohistochemistry to label human donor cells, retinal cell types, and synaptic markers. After transplantation, ROs integrated into the host RD retina, formed functional photoreceptors, and improved vision in rats with advanced RD. The survival and vision improvement are comparable with our previous results of hESC-ROs without a long-distance delivery. Furthermore, for the first time in the stem cell transplantation field, we demonstrated that the response heatmap on the SC showed a similar shape to the location of the transplant in the host retina, which suggested the point-to-point projection of the transplant from the retina to SC. In conclusion, our results showed that using our special device and protocol, the hESC-derived ROs can be shipped over long distance and are capable of survival and visual improvement after transplantation into the RD rats. Our data provide a proof-of-concept for stem cell replacement as a therapy for RD patients.

Published

2024

30. The Prospects for Retinal Organoids in Treatment of Retinal Diseases.

Author

Xue Y, Lin B, Chen JT, Tang WC, Browne AW, and Seiler MJ

Subjects

Humans, Reactive Oxygen Species, Reproducibility of Results, Retina, Organoids, Retinal Degeneration therapy

Abstract

Retinal degeneration (RD) is a significant cause of incurable blindness worldwide. Photoreceptors and retinal pigmented epithelium are irreversibly damaged in advanced RD. Functional replacement of photoreceptors and/or retinal pigmented epithelium cells is a promising approach to restoring vision. This paper reviews the current status and explores future prospects of the transplantation therapy provided by pluripotent stem cell-derived retinal organoids (ROs). This review summarizes the status of rodent RD disease models and discusses RO culture and analytical tools to evaluate RO quality and function. Finally, we review and discuss the studies in which RO-derived cells or sheets were transplanted. In conclusion, methods to derive ROs from pluripotent stem cells have significantly improved and become more efficient in recent years. Meanwhile, more novel technologies are applied to characterize and validate RO quality. However, opportunity remains to optimize tissue differentiation protocols and achieve better RO reproducibility. In order to screen high-quality ROs for downstream applications, approaches such as noninvasive and label-free imaging and electrophysiological functional testing are promising and worth further investigation. Lastly, transplanted RO-derived tissues have allowed improvements in visual function in several RD models, showing promises for clinical applications in the future., Competing Interests: The authors have no conflicts of interest to declare., (Copyright © 2022 Asia-Pacific Academy of Ophthalmology. Published by Wolters Kluwer Health, Inc. on behalf of the Asia-Pacific Academy of Ophthalmology.)

Published

2022

31. Reducing Strategic Forbearance under the CARES Act: an Experimental Approach Utilizing Recourse Attestation.

Author

Anderson JT, Harrison DM, and Seiler MJ

Abstract

The Coronavirus Aid, Relief, and Economic Security (CARES) Act was passed in response to both the global pandemic's immediate negative and expected long-lasting impacts on the economy. Under the Act, mortgage borrowers are allowed to cease making payments if their income was negatively impacted by Covid-19. Importantly, borrowers were not required to demonstrate proof of impaction, either currently or retrospectively. Exploring the economic implications of this policy, this study uses an experimental design to first identify strategic forbearance incidence, and then to quantify where the forborne mortgage payment dollars were spent. Our results suggest strategic mortgage forbearance can be significantly reduced, saving taxpayers billions of dollars in potential losses, simply by requiring a 1-page attestation with lender recourse for borrowers wishing to engage in COVID-19 related mortgage payment cessation programs. Additionally, we demonstrate the use of these forborne mortgage payments range from enhancing the financial safety net for distressed borrowers by increasing precautionary savings, to buying necessities, to equity investing and debt consolidation., (© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2021.)

Published

2022

32. How Much Are Borrowers Willing to Pay to Remove Uncertainty Surrounding Mortgage Defaults?

Author

Anderson JT, Gibson S, Luchtenberg KF, and Seiler MJ

Abstract

Using a large, non-student sample, we assess and differentiate between borrowers' Risk Aversion and Ambiguity Aversion levels and their willingness to pay to resolve a mortgage default settlement negotiation. Ambiguity Aversion is found to be negatively associated with willingness to pay for borrowers with high financial literacy in both the gain and loss domains, whereas personality traits matter more for borrowers with low financial literacy. This finding is important to policymakers in that they should adopt differential resolution strategies for defaulting borrowers based on these intervening variables., (© The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature 2021.)

Published

2022

33. Retinal Organoids Long-Term Functional Characterization Using Two-Photon Fluorescence Lifetime and Hyperspectral Microscopy.

Author

Xue Y, Browne AW, Tang WC, Delgado J, McLelland BT, Nistor G, Chen JT, Chew K, Lee N, Keirstead HS, and Seiler MJ

Abstract

Pluripotent stem cell-derived organoid technologies have opened avenues to preclinical basic science research, drug discovery, and transplantation therapy in organ systems. Stem cell-derived organoids follow a time course similar to species-specific organ gestation in vivo . However, heterogeneous tissue yields, and subjective tissue selection reduce the repeatability of organoid-based scientific experiments and clinical studies. To improve the quality control of organoids, we introduced a live imaging technique based on two-photon microscopy to non-invasively monitor and characterize retinal organoids' (RtOgs') long-term development. Fluorescence lifetime imaging microscopy (FLIM) was used to monitor the metabolic trajectory, and hyperspectral imaging was applied to characterize structural and molecular changes. We further validated the live imaging experimental results with endpoint biological tests, including quantitative polymerase chain reaction (qPCR), single-cell RNA sequencing, and immunohistochemistry. With FLIM results, we analyzed the free/bound nicotinamide adenine dinucleotide (f/b NADH) ratio of the imaged regions and found that there was a metabolic shift from glycolysis to oxidative phosphorylation. This shift occurred between the second and third months of differentiation. The total metabolic activity shifted slightly back toward glycolysis between the third and fourth months and stayed relatively stable between the fourth and sixth months. Consistency in organoid development among cell lines and production lots was examined. Molecular analysis showed that retinal progenitor genes were expressed in all groups between days 51 and 159. Photoreceptor gene expression emerged around the second month of differentiation, which corresponded to the shift in the f/b NADH ratio. RtOgs between 3 and 6 months of differentiation exhibited photoreceptor gene expression levels that were between the native human fetal and adult retina gene expression levels. The occurrence of cone opsin expression (OPN1 SW and OPN1 LW) indicated the maturation of photoreceptors in the fourth month of differentiation, which was consistent with the stabilized level of f/b NADH ratio starting from 4 months. Endpoint single-cell RNA and immunohistology data showed that the cellular compositions and lamination of RtOgs at different developmental stages followed those in vivo ., Competing Interests: MS has a patent from Ocular Transplantation LLC; BM is employed by AIVITA Biomedical; GN is employed by AIVITA Biomedical; HK is CEO and board member of AIVITA Biomedical. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Xue, Browne, Tang, Delgado, McLelland, Nistor, Chen, Chew, Lee, Keirstead and Seiler.)

Published

2021

34. Co-grafts of Human Embryonic Stem Cell Derived Retina Organoids and Retinal Pigment Epithelium for Retinal Reconstruction in Immunodeficient Retinal Degenerate Royal College of Surgeons Rats.

Author

Thomas BB, Lin B, Martinez-Camarillo JC, Zhu D, McLelland BT, Nistor G, Keirstead HS, Humayun MS, and Seiler MJ

Abstract

End-stage age-related macular degeneration (AMD) and retinitis pigmentosa (RP) are two major retinal degenerative (RD) conditions that result in irreversible vision loss. Permanent eye damage can also occur in battlefields or due to accidents. This suggests there is an unmet need for developing effective strategies for treating permanent retinal damages. In previous studies, co-grafted sheets of fetal retina with its retinal pigment epithelium (RPE) have demonstrated vision improvement in rat retinal disease models and in patients, but this has not yet been attempted with stem-cell derived tissue. Here we demonstrate a cellular therapy for irreversible retinal eye injuries using a "total retina patch" consisting of retinal photoreceptor progenitor sheets and healthy RPE cells on an artificial Bruch's membrane (BM). For this, retina organoids (ROs) (cultured in suspension) and polarized RPE sheets (cultured on an ultrathin parylene substrate) were made into a co-graft using bio-adhesives [gelatin, growth factor-reduced matrigel, and medium viscosity (MVG) alginate]. In vivo transplantation experiments were conducted in immunodeficient Royal College of Surgeons (RCS) rats at advanced stages of retinal degeneration. Structural reconstruction of the severely damaged retina was observed based on histological assessments and optical coherence tomography (OCT) imaging. Visual functional assessments were conducted by optokinetic behavioral testing and superior colliculus electrophysiology. Long-term survival of the co-graft in the rat subretinal space and improvement in visual function were observed. Immunohistochemistry showed that co-grafts grew, generated new photoreceptors and developed neuronal processes that were integrated into the host retina. This novel approach can be considered as a new therapy for complete replacement of a degenerated retina., Competing Interests: GN and HK are employed by AIVITA Biomedical Inc. HK is a board member and the CEO of AIVITA Biomedical Inc. MH is an investor, a consultant, and a board member of Regenerative Patch Technologies (RPT), and also holds an RPT patent. MS is a co-inventor on patents of Ocular Transplantation LLC. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Thomas, Lin, Martinez-Camarillo, Zhu, McLelland, Nistor, Keirstead, Humayun and Seiler.)

Published

2021

35. Deep Learning-Assisted Multiphoton Microscopy to Reduce Light Exposure and Expedite Imaging in Tissues With High and Low Light Sensitivity.

Author

McAleer S, Fast A, Xue Y, Seiler MJ, Tang WC, Balu M, Baldi P, and Browne AW

Subjects

Humans, Magnetic Resonance Imaging, Microscopy, Photophobia, Deep Learning, Image Processing, Computer-Assisted

Abstract

Purpose: Two-photon excitation fluorescence (2PEF) reveals information about tissue function. Concerns for phototoxicity demand lower light exposure during imaging. Reducing excitation light reduces the quality of the image by limiting fluorescence emission. We applied deep learning (DL) super-resolution techniques to images acquired from low light exposure to yield high-resolution images of retinal and skin tissues., Methods: We analyzed two methods: a method based on U-Net and a patch-based regression method using paired images of skin (550) and retina (1200), each with low- and high-resolution paired images. The retina dataset was acquired at low and high laser powers from retinal organoids, and the skin dataset was obtained from averaging 7 to 15 frames or 70 frames. Mean squared error (MSE) and the structural similarity index measure (SSIM) were outcome measures for DL algorithm performance., Results: For the skin dataset, the patches method achieved a lower MSE (3.768) compared with U-Net (4.032) and a high SSIM (0.824) compared with U-Net (0.783). For the retinal dataset, the patches method achieved an average MSE of 27,611 compared with 146,855 for the U-Net method and an average SSIM of 0.636 compared with 0.607 for the U-Net method. The patches method was slower (303 seconds) than the U-Net method (<1 second)., Conclusions: DL can reduce excitation light exposure in 2PEF imaging while preserving image quality metrics., Translational Relevance: DL methods will aid in translating 2PEF imaging from benchtop systems to in vivo imaging of light-sensitive tissues such as the retina.

Published

2021

36. Retinal organoids on-a-chip: a micro-millifluidic bioreactor for long-term organoid maintenance.

Author

Xue Y, Seiler MJ, Tang WC, Wang JY, Delgado J, McLelland BT, Nistor G, Keirstead HS, and Browne AW

Subjects

Bioreactors, Cell Differentiation, Retina, Lab-On-A-Chip Devices, Organoids

Abstract

Retinal degeneration is a leading cause of vision impairment and blindness worldwide and medical care for advanced disease does not exist. Stem cell-derived retinal organoids (RtOgs) became an emerging tool for tissue replacement therapy. However, existing RtOg production methods are highly heterogeneous. Controlled and predictable methodology and tools are needed to standardize RtOg production and maintenance. In this study, we designed a shear stress-free micro-millifluidic bioreactor for nearly labor-free retinal organoid maintenance. We used a stereolithography (SLA) 3D printer to fabricate a mold from which Polydimethylsiloxane (PDMS) was cast. We optimized the chip design using in silico simulations and in vitro evaluation to optimize mass transfer efficiency and concentration uniformity in each culture chamber. We successfully cultured RtOgs at three different differentiation stages (day 41, 88, and 128) on an optimized bioreactor chip for more than 1 month. We used different quantitative and qualitative techniques to fully characterize the RtOgs produced by static dish culture and bioreactor culture methods. By analyzing the results from phase contrast microscopy, single-cell RNA sequencing (scRNA seq), quantitative polymerase chain reaction (qPCR), immunohistology, and electron microscopy, we found that bioreactor-cultured RtOgs developed cell types and morphology comparable to static cultured ones and exhibited similar retinal genes expression levels. We also evaluated the metabolic activity of RtOgs in both groups using fluorescence lifetime imaging (FLIM), and found that the outer surface region of bioreactor cultured RtOgs had a comparable free/bound NADH ratio and overall lower long lifetime species (LLS) ratio than static cultured RtOgs during imaging. To summarize, we validated an automated micro-millifluidic device with significantly reduced shear stress to produce RtOgs of comparable quality to those maintained in conventional static culture.

Published

2021

37. Tissue Engineering Strategies for Retina Regeneration.

Author

Nair DSR, Seiler MJ, Patel KH, Thomas V, Camarillo JCM, Humayun MS, and Thomas BB

Abstract

The retina is a complex and fragile photosensitive part of the central nervous system which is prone to degenerative diseases leading to permanent vision loss. No proven treatment strategies exist to treat or reverse the degenerative conditions. Recent investigations demonstrate that cell transplantation therapies to replace the dysfunctional retinal pigment epithelial (RPE) cells and or the degenerating photoreceptors (PRs) are viable options to restore vision. Pluripotent stem cells, retinal progenitor cells, and somatic stem cells are the main cell sources used for cell transplantation therapies. The success of retinal transplantation based on cell suspension injection is hindered by limited cell survival and lack of cellular integration. Recent advances in material science helped to develop strategies to grow cells as intact monolayers or as sheets on biomaterial scaffolds for transplantation into the eyes. Such implants are found to be more promising than the bolus injection approach. Tissue engineering techniques are specifically designed to construct biodegradable or non-degradable polymer scaffolds to grow cells as a monolayer and construct implantable grafts. The engineered cell construct along with the extracellular matrix formed, can hold the cells in place to enable easy survival, better integration, and improved visual function. This article reviews the advances in the use of scaffolds for transplantation studies in animal models and their application in current clinical trials., Competing Interests: Conflicts of Interest: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2021

38. Retina Organoid Transplants Develop Photoreceptors and Improve Visual Function in RCS Rats With RPE Dysfunction.

Author

Lin B, McLelland BT, Aramant RB, Thomas BB, Nistor G, Keirstead HS, and Seiler MJ

Subjects

Animals, Disease Models, Animal, Humans, Organoids metabolism, Organoids transplantation, Photoreceptor Cells pathology, Rats, Rats, Mutant Strains, Retinal Degeneration pathology, Retinal Degeneration physiopathology, Retinal Pigment Epithelium pathology, Tomography, Optical Coherence, Photoreceptor Cells metabolism, Retinal Degeneration metabolism, Retinal Pigment Epithelium physiopathology

Abstract

Purpose: To study if human embryonic stem cell-derived photoreceptors could survive and function without the support of retinal pigment epithelium (RPE) after transplantation into Royal College of Surgeons rats, a rat model of retinal degeneration caused by RPE dysfunction., Methods: CSC14 human embryonic stem cells were differentiated into primordial eye structures called retinal organoids. Retinal organoids were analyzed by quantitative PCR and immunofluorescence and compared with human fetal retina. Retinal organoid sheets (30-70 day of differentiation) were transplanted into immunodeficient RCS rats, aged 44 to 56 days. The development of transplant organoids in vivo in relation to the host was examined by optical coherence tomography. Visual function was assessed by optokinetic testing, electroretinogram, and superior colliculus electrophysiologic recording. Cryostat sections were analyzed for various retinal, synaptic, and donor markers., Results: Retinal organoids showed similar gene expression to human fetal retina transplanted rats demonstrated significant improvement in visual function compared with RCS nonsurgery and sham surgery controls by ERGs at 2 months after surgery (but not later), optokinetic testing (up to 6 months after surgery) and electrophysiologic superior colliculus recordings (6-8 months after surgery). The transplanted organoids survived more than 7 months; developed photoreceptors with inner and outer segments, and other retinal cells; and were well-integrated within the host., Conclusions: This study, to our knowledge, is the first to show that transplanted photoreceptors survive and function even with host's dysfunctional RPE. Our findings suggest that transplantation of organoid sheets from stem cells may be a promising approach/therapeutic for blinding diseases.

Published

2020

39. Detailed Visual Cortical Responses Generated by Retinal Sheet Transplants in Rats with Severe Retinal Degeneration.

Author

Foik AT, Lean GA, Scholl LR, McLelland BT, Mathur A, Aramant RB, Seiler MJ, and Lyon DC

Subjects

Animals, Female, Humans, Male, Photic Stimulation methods, Rats, Rats, Long-Evans, Rats, Transgenic, Retinal Degeneration pathology, Evoked Potentials, Visual physiology, Retina transplantation, Retinal Degeneration physiopathology, Retinal Degeneration therapy, Severity of Illness Index, Visual Cortex physiology

Abstract

To combat retinal degeneration, healthy fetal retinal sheets have been successfully transplanted into both rodent models and humans, with synaptic connectivity between transplant and degenerated host retina having been confirmed. In rodent studies, transplants have been shown to restore responses to flashes of light in a region of the superior colliculus corresponding to the location of the transplant in the host retina. To determine the quality and detail of visual information provided by the transplant, visual responsivity was studied here at the level of visual cortex where higher visual perception is processed. For our model, we used the transgenic Rho-S334ter line-3 rat (both sexes), which loses photoreceptors at an early age and is effectively blind at postnatal day 30. These rats received fetal retinal sheet transplants in one eye between 24 and 40 d of age. Three to 10 months following surgery, visually responsive neurons were found in regions of primary visual cortex matching the transplanted region of the retina that were as highly selective as normal rat to stimulus orientation, size, contrast, and spatial and temporal frequencies. Conversely, we found that selective response properties were largely absent in nontransplanted line-3 rats. Our data show that fetal retinal sheet transplants can result in remarkably normal visual function in visual cortex of rats with a degenerated host retina and represents a critical step toward developing an effective remedy for the visually impaired human population. SIGNIFICANCE STATEMENT Age-related macular degeneration and retinitis pigmentosa lead to profound vision loss in millions of people worldwide. Many patients lose both retinal pigment epithelium and photoreceptors. Hence, there is a great demand for the development of efficient techniques that allow for long-term vision restoration. In this study, we transplanted dissected fetal retinal sheets, which can differentiate into photoreceptors and integrate with the host retina of rats with severe retinal degeneration. Remarkably, we show that transplants generated visual responses in cortex similar in quality to normal rats. Furthermore, transplants preserved connectivity within visual cortex and the retinal relay from the lateral geniculate nucleus to visual cortex, supporting their potential application in curing vision loss associated with retinal degeneration., (Copyright © 2018 the authors 0270-6474/18/3810709-16$15.00/0.)

Published

2018

40. A new immunodeficient retinal dystrophic rat model for transplantation studies using human-derived cells.

Author

Thomas BB, Zhu D, Lin TC, Kim YC, Seiler MJ, Martinez-Camarillo JC, Lin B, Shad Y, Hinton DR, and Humayun MS

Subjects

Animals, Cell Survival, Electroretinography, Female, Genotyping Techniques, Graft Survival physiology, Human Embryonic Stem Cells physiology, Humans, Immunologic Deficiency Syndromes diagnosis, Immunologic Deficiency Syndromes physiopathology, Induced Pluripotent Stem Cells physiology, Male, Phenotype, Rats, Rats, Nude, Retina physiopathology, Retinal Dystrophies diagnosis, Retinal Dystrophies physiopathology, Retinal Pigment Epithelium physiology, Tomography, Optical Coherence, c-Mer Tyrosine Kinase genetics, Disease Models, Animal, Human Embryonic Stem Cells transplantation, Immunologic Deficiency Syndromes therapy, Induced Pluripotent Stem Cells transplantation, Retinal Dystrophies therapy, Retinal Pigment Epithelium transplantation

Abstract

Purpose: To create new immunodeficient Royal College of Surgeons (RCS) rats by introducing the defective MerTK gene into athymic nude rats., Methods: Female homozygous RCS (RCS-p+/RCS-p+) and male nude rats (Hsd:RH-Foxn1 mu , mutation in the foxn1 gene; no T cells) were crossed to produce heterozygous F1 progeny. Double homozygous F2 progeny obtained by crossing the F1 heterozygotes was identified phenotypically (hair loss) and genotypically (RCS-p+ gene determined by PCR). Retinal degenerative status was confirmed by optical coherence tomography (OCT) imaging, electroretinography (ERG), optokinetic (OKN) testing, superior colliculus (SC) electrophysiology, and by histology. The effect of xenografts was assessed by transplantation of human embryonic stem cell-derived retinal pigment epithelium (hESC-RPE) and human-induced pluripotent stem cell-derived RPE (iPS-RPE) into the eye. Morphological analysis was conducted based on hematoxylin and eosin (H&E) and immunostaining. Age-matched pigmented athymic nude rats were used as control., Results: Approximately 6% of the F2 pups (11/172) were homozygous for RCS-p+ gene and Foxn1 mu gene. Homozygous males crossed with heterozygous females resulted in 50% homozygous progeny for experimentation. OCT imaging demonstrated significant loss of retinal thickness in homozygous rats. H&E staining showed photoreceptor thickness reduced to 1-3 layers at 12 weeks of age. Progressive loss of visual function was evidenced by OKN testing, ERG, and SC electrophysiology. Transplantation experiments demonstrated survival of human-derived cells and absence of apparent immune rejection., Conclusions: This new rat animal model developed by crossing RCS rats and athymic nude rats is suitable for conducting retinal transplantation experiments involving xenografts.

Published

2018

41. Sheets of human retinal progenitor transplants improve vision in rats with severe retinal degeneration.

Author

Lin B, McLelland BT, Mathur A, Aramant RB, and Seiler MJ

Subjects

Animals, Biomarkers metabolism, Humans, Microglia metabolism, Neuroglia metabolism, Photoreceptor Cells pathology, Rats, Retinal Degeneration physiopathology, Superior Colliculi physiology, Tomography, Optical Coherence, Vision, Ocular physiology, Retina cytology, Retina embryology, Retina metabolism, Retinal Degeneration surgery, Stem Cell Transplantation methods

Abstract

Loss of photoreceptors and other retinal cells is a common endpoint in retinal degenerate (RD) diseases that cause blindness. Retinal transplantation is a potential therapy to replace damaged retinal cells and improve vision. In this study, we examined the development of human fetal retinal sheets with or without their retinal pigment epithelium (RPE) transplanted to immunodeficient retinal degenerate rho S334ter-3 rats. Sheets were dissected from fetal human eyes (11-15.7 weeks gestation) and then transplanted to the subretinal space of 24-31 d old RD nude rats. Every month post surgery, eyes were imaged by high-resolution spectral-domain optical coherence tomography (SD-OCT). SD-OCT showed that transplants were placed into the subretinal space and developed laminated areas or rosettes, with clear development of plexiform layers first seen in OCT at 3 months post surgery. Several months later, as could be expected by the much slower development of human cells compared to rat cells, transplant photoreceptors developed inner and later outer segments. Retinal sections were analyzed by immunohistochemistry for human and retinal markers and confirmed the formation of several retinal subtypes within the retinal layers. Transplant cells extended processes and a lot of the cells could also be seen migrating into the host retina. At 5.8-8.6 months post surgery, selected rats were exposed to light flashes and recorded for visual responses in superior colliculus, (visual center in midbrain). Four of seven rats with transplants showed responses to flashes of light in a limited area of superior colliculus. No response with the same dim light intensity was found in age-matched RD controls (non-surgery or sham surgery). In summary, our data showed that human fetal retinal sheets transplanted to the severely disturbed subretinal space of RD nude rats develop mature photoreceptors and other retinal cells, integrate with the host and induce vision improvement., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2018

42. Transplanted hESC-Derived Retina Organoid Sheets Differentiate, Integrate, and Improve Visual Function in Retinal Degenerate Rats.

Author

McLelland BT, Lin B, Mathur A, Aramant RB, Thomas BB, Nistor G, Keirstead HS, and Seiler MJ

Subjects

Animals, Biomarkers metabolism, Disease Models, Animal, Electrophysiology, Humans, Microscopy, Fluorescence, Nystagmus, Optokinetic physiology, Organoids metabolism, Rats, Rats, Nude, Real-Time Polymerase Chain Reaction, Retina metabolism, Retinal Degeneration diagnostic imaging, Retinal Degeneration physiopathology, Tomography, Optical Coherence, Cell Differentiation physiology, Human Embryonic Stem Cells cytology, Organoids cytology, Retina cytology, Retinal Degeneration therapy, Stem Cell Transplantation, Visual Acuity physiology

Abstract

Purpose: To investigate whether sheets of retina organoids derived from human embryonic stem cells (hESCs) can differentiate, integrate, and improve visual function in an immunodeficient rat model of severe retinal degeneration (RD)., Methods: 3D hESC-derived retina organoids were analyzed by quantitative PCR and immunofluorescence. Sheets dissected from retina organoids (30-65 days of differentiation) were transplanted into the subretinal space of immunodeficient rho S334ter-3 rats. Visual function was tested by optokinetic testing and electrophysiologic recording in the superior colliculus. Transplants were analyzed at 54 to 300 days postsurgery by immunohistochemistry for donor and retinal markers., Results: Retina organoids contained multiple retinal cell types, including progenitor populations capable of developing new cones and rods. After transplantation into an immunodeficient rat model of severe RD, the transplanted sheets differentiated, integrated, and produced functional photoreceptors and other retinal cells, according to the longer human developmental timetable. Maturation of the transplanted retinal cells created visual improvements that were measured by optokinetic testing and electrophysiologic recording in the superior colliculus. Immunohistochemistry analysis indicated that the donor cells were synaptically active. Extensive transplant projections could be seen within the host RD retina. Optical coherence tomography imaging monitored long-term transplant growth and survival up to 10 months postsurgery., Conclusions: These data demonstrate that the transplantation of sheets dissected from hESC-derived retina organoids is a potential therapeutic method for restoring vision in advanced stages of RD.

Published

2018

43. hESC-derived photoreceptors survive and integrate better in immunodeficient retina.

Author

Seiler MJ

Abstract

Competing Interests: Conflicts of Interest: The author has a proprietary interest in the implantation instrument and method to transplant retinal sheets (Ocular Transplantation LLC).

Published

2017

44. Vision Recovery and Connectivity by Fetal Retinal Sheet Transplantation in an Immunodeficient Retinal Degenerate Rat Model.

Author

Seiler MJ, Lin RE, McLelland BT, Mathur A, Lin B, Sigman J, De Guzman AT, Kitzes LM, Aramant RB, and Thomas BB

Subjects

Animals, Disease Models, Animal, Electrophysiology, Electroretinography, Female, Immunohistochemistry, Male, Rats, Rats, Long-Evans, Rats, Nude, Retina embryology, Retina physiopathology, Retinal Degeneration pathology, Retinal Degeneration physiopathology, Tissue Donors, Tomography, Optical Coherence, Fetal Tissue Transplantation methods, Recovery of Function, Retina transplantation, Retinal Degeneration surgery, Visual Acuity

Abstract

Purpose: To characterize a recently developed model, the retinal degenerate immunodeficient S334ter line-3 rat (SD-Foxn1 Tg(S334ter)3Lav) (RD nude rat), and to test whether transplanted rat fetal retinal sheets can elicit lost responses to light., Methods: National Institutes of Health nude rats (SD-Foxn1 Tg) with normal retina were compared to RD nude rats with and without transplant for morphology and visual function. Retinal sheets from transgenic rats expressing human placental alkaline phosphatase (hPAP) were transplanted into the subretinal space of RD nude rats between postnatal day (P) 26 and P38. Transplant morphology was examined in vivo using optical coherence tomography (OCT). Visual function was assessed by optokinetic (OKN) testing, electroretinogram (ERG), and superior colliculus (SC) electrophysiology. Cryostat sections were analyzed for various retinal/synaptic markers and for the expression of donor hPAP., Results: Optical coherence tomography scans showed the placement and laminar development of retinal sheet transplants in the subretinal space. Optokinetic testing demonstrated a deficit in visual acuity in RD nude rats that was improved after retinal sheet transplantation. No ERG responses were detected in the RD nude rats with or without transplantation. Superior colliculus responses were absent in age-matched control and sham surgery RD nude rats; however, robust light-evoked responses were observed in a specific location in the SC of transplanted RD nude rats. Responsive regions corresponded to the area of transplant placement in the eye. The quality of visual responses correlated with transplant organization and placement., Conclusions: The data suggest that retinal sheet transplants integrate into the host retina of RD nude rats and recover significant visual function.

Published

2017

45. Assessment of Safety and Functional Efficacy of Stem Cell-Based Therapeutic Approaches Using Retinal Degenerative Animal Models.

Author

Lin TC, Seiler MJ, Zhu D, Falabella P, Hinton DR, Clegg DO, Humayun MS, and Thomas BB

Abstract

Dysfunction and death of retinal pigment epithelium (RPE) and or photoreceptors can lead to irreversible vision loss. The eye represents an ideal microenvironment for stem cell-based therapy. It is considered an "immune privileged" site, and the number of cells needed for therapy is relatively low for the area of focused vision (macula). Further, surgical placement of stem cell-derived grafts (RPE, retinal progenitors, and photoreceptor precursors) into the vitreous cavity or subretinal space has been well established. For preclinical tests, assessments of stem cell-derived graft survival and functionality are conducted in animal models by various noninvasive approaches and imaging modalities. In vivo experiments conducted in animal models based on replacing photoreceptors and/or RPE cells have shown survival and functionality of the transplanted cells, rescue of the host retina, and improvement of visual function. Based on the positive results obtained from these animal experiments, human clinical trials are being initiated. Despite such progress in stem cell research, ethical, regulatory, safety, and technical difficulties still remain a challenge for the transformation of this technique into a standard clinical approach. In this review, the current status of preclinical safety and efficacy studies for retinal cell replacement therapies conducted in animal models will be discussed.

Published

2017

46. A new immunodeficient pigmented retinal degenerate rat strain to study transplantation of human cells without immunosuppression.

Author

Seiler MJ, Aramant RB, Jones MK, Ferguson DL, Bryda EC, and Keirstead HS

Subjects

Animals, Biomarkers metabolism, Cell Survival physiology, Eye Proteins metabolism, Female, Fluorescent Antibody Technique, Indirect, Forkhead Transcription Factors genetics, Genotyping Techniques, Humans, Immunologic Deficiency Syndromes genetics, Immunologic Deficiency Syndromes metabolism, Immunologic Deficiency Syndromes pathology, Immunosuppression Therapy, Male, Microscopy, Confocal, Rats, Rats, Nude, Rats, Sprague-Dawley, Rats, Transgenic, Retinal Degeneration genetics, Retinal Degeneration metabolism, Retinal Degeneration pathology, Stem Cell Transplantation, Disease Models, Animal, Embryonic Stem Cells transplantation, Heterografts, Immune Tolerance physiology, Immunologic Deficiency Syndromes therapy, Retinal Degeneration therapy

Abstract

Purpose: The goal of this study was to develop an immunodeficient rat model of retinal degeneration (RD nude rats) that will not reject transplanted human cells., Methods: SD-Tg(S334ter)3Lav females homozygous for a mutated mouse rhodopsin transgene were mated with NTac:NIH-Whn (NIH nude) males homozygous for the Foxn1 (rnu) allele. Through selective breeding, a new stock, SD-Foxn1 Tg(S334ter)3Lav (RD nude) was generated such that all animals were homozygous for the Foxn1 (rnu) allele and either homo- or hemizygous for the S334ter transgene. PCR-based assays for both the Foxn1 (rnu) mutation and the S334ter transgene were developed for accurate genotyping. Immunodeficiency was tested by transplanting sheets of hESC-derived neural progenitor cells to the subretinal space of RD nude rats, and, as a control, NIH nude rats. Rats were killed between 8 and 184 days after surgery, and eye sections were analyzed for human, neuronal, and glial markers., Results: After transplantation to RD nude and to NIH nude rats, hESC-derived neural progenitor cells differentiated to neuronal and glial cells, and migrated extensively from the transplant sheets throughout the host retina. Migration was more extensive in RD nude than in NIH nude rats. Already 8 days after transplantation, donor neuronal processes were found in the host inner plexiform layer. In addition, host glial cells extended processes into the transplants. The host retina showed the same photoreceptor degeneration pattern as in the immunocompetent SD-Tg(S334ter)3Lav rats. Recipients survived well after surgery., Conclusions: This new rat model is useful for testing the effect of human cell transplantation on the restoration of vision without interference of immunosuppression.

Published

2014

47. Cell replacement and visual restoration by retinal sheet transplants.

Author

Seiler MJ and Aramant RB

Subjects

Animals, Fetal Tissue Transplantation, Humans, Retina physiopathology, Retinal Degeneration physiopathology, Retinitis Pigmentosa physiopathology, Retina transplantation, Retinal Degeneration surgery, Retinitis Pigmentosa surgery, Stem Cell Transplantation methods, Vision, Ocular

Abstract

Retinal diseases such as age-related macular degeneration (ARMD) and retinitis pigmentosa (RP) affect millions of people. Replacing lost cells with new cells that connect with the still functional part of the host retina might repair a degenerating retina and restore eyesight to an unknown extent. A unique model, subretinal transplantation of freshly dissected sheets of fetal-derived retinal progenitor cells, combined with its retinal pigment epithelium (RPE), has demonstrated successful results in both animals and humans. Most other approaches are restricted to rescue endogenous retinal cells of the recipient in earlier disease stages by a 'nursing' role of the implanted cells and are not aimed at neural retinal cell replacement. Sheet transplants restore lost visual responses in several retinal degeneration models in the superior colliculus (SC) corresponding to the location of the transplant in the retina. They do not simply preserve visual performance - they increase visual responsiveness to light. Restoration of visual responses in the SC can be directly traced to neural cells in the transplant, demonstrating that synaptic connections between transplant and host contribute to the visual improvement. Transplant processes invade the inner plexiform layer of the host retina and form synapses with presumable host cells. In a Phase II trial of RP and ARMD patients, transplants of retina together with its RPE improved visual acuity. In summary, retinal progenitor sheet transplantation provides an excellent model to answer questions about how to repair and restore function of a degenerating retina. Supply of fetal donor tissue will always be limited but the model can set a standard and provide an informative base for optimal cell replacement therapies such as embryonic stem cell (ESC)-derived therapy., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

48. Equivalence of conventionally-derived and parthenote-derived human embryonic stem cells.

Author

Harness JV, Turovets NA, Seiler MJ, Nistor G, Altun G, Agapova LS, Ferguson D, Laurent LC, Loring JF, and Keirstead HS

Subjects

Cell Differentiation, Cell Proliferation, DNA Methylation, Extracellular Matrix Proteins genetics, Gene Expression, Humans, Neurons, Embryonic Stem Cells cytology, Neural Stem Cells cytology, Parthenogenesis

Abstract

Background: As human embryonic stem cell (hESC) lines can be derived via multiple means, it is important to determine particular characteristics of individual lines that may dictate the applications to which they are best suited. The objective of this work was to determine points of equivalence and differences between conventionally-derived hESC and parthenote-derived hESC lines (phESC) in the undifferentiated state and during neural differentiation., Methodology/principal Findings: hESC and phESC were exposed to the same expansion conditions and subsequent neural and retinal pigmented epithelium (RPE) differentiation protocols. Growth rates and gross morphology were recorded during expansion. RTPCR for developmentally relevant genes and global DNA methylation profiling were used to compare gene expression and epigenetic characteristics. Parthenote lines proliferated more slowly than conventional hESC lines and yielded lower quantities of less mature differentiated cells in a neural progenitor cell (NPC) differentiation protocol. However, the cell lines performed similarly in a RPE differentiation protocol. The DNA methylation analysis showed similar general profiles, but the two cell types differed in methylation of imprinted genes. There were no major differences in gene expression between the lines before differentiation, but when differentiated into NPCs, the two cell types differed in expression of extracellular matrix (ECM) genes., Conclusions/significance: These data show that hESC and phESC are similar in the undifferentiated state, and both cell types are capable of differentiation along neural lineages. The differences between the cell types, in proliferation and extent of differentiation, may be linked, in part, to the observed differences in ECM synthesis and methylation of imprinted genes.

Published

2011

49. Trophic factors GDNF and BDNF improve function of retinal sheet transplants.

Author

Yang PB, Seiler MJ, Aramant RB, Yan F, Mahoney MJ, Kitzes LM, and Keirstead HS

Subjects

Animals, Animals, Genetically Modified, Electrophysiology, Evoked Potentials, Visual physiology, Female, Male, Microspheres, Photic Stimulation, Rats, Retina cytology, Retinal Degeneration physiopathology, Stem Cells drug effects, Superior Colliculi physiology, Brain-Derived Neurotrophic Factor pharmacology, Fetal Tissue Transplantation, Glial Cell Line-Derived Neurotrophic Factor pharmacology, Retina physiology, Retina transplantation, Retinal Degeneration surgery

Abstract

The aim of this study was to compare glial-derived neurotrophic factor (GDNF) treatment with brain-derived neurotrophic factor (BDNF) treatment of retinal transplants on restoration of visual responses in the superior colliculus (SC) of the S334ter line 3 rat model of rapid retinal degeneration (RD). RD rats (age 4-6 weeks) received subretinal transplants of intact sheets of fetal retina expressing the marker human placental alkaline phosphatase (hPAP). Experimental groups included: (1) untreated retinal sheet transplants, (2) GDNF-treated transplants, (3) BDNF-treated transplants, (4) none surgical, age-matched RD rats, (5) sham surgery RD controls, (6) progenitor cortex transplant RD controls, and (7) normal pigmented rat controls. At 2-8 months after transplantation, multi-unit visual responses were recorded from the SC using a 40 ms full-field stimulus (-5.9 to +1 log cd/m(2)) after overnight dark-adaptation. Responses were analyzed for light thresholds, spike counts, response latencies, and location within the SC. Transplants were grouped into laminated or rosetted (more disorganized) transplants based on histological analysis. Visual stimulation of control RD rats evoked no responses. In RD rats with retinal transplants, a small area of the SC corresponding to the position of the transplant in the host retina, responded to light stimulation between -4.5 and -0.08 log cd/m(2), whereas the light threshold of normal rats was at or below -5 log cd/m(2) all over the SC. Overall, responses in the SC in rats with laminated transplants had lower response thresholds and were distributed over a wider area than rats with rosetted transplants. BDNF treatment improved responses (spike counts, light thresholds and responsive areas) of rats with laminated transplants whereas GDNF treatment improved responses from rats with both laminated and rosetted (more disorganized) transplants. In conclusion, treatment of retinal transplants with GDNF and BDNF improved the restoration of visual responses in RD rats; and GDNF appears to exert greater overall restoration than BDNF., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2010

50. Three-dimensional early retinal progenitor 3D tissue constructs derived from human embryonic stem cells.

Author

Nistor G, Seiler MJ, Yan F, Ferguson D, and Keirstead HS

Subjects

Animals, Cell Culture Techniques, Cell Line, Cell Proliferation, Extracellular Matrix, Humans, Immunohistochemistry, Mice, Neurons physiology, Tissue Scaffolds, Transcription Factors metabolism, Embryonic Stem Cells physiology, Retina physiology, Retinal Pigment Epithelium physiology, Tissue Engineering methods

Abstract

Purpose: To develop three-dimensional (3D) constructs of retinal pigment epithelium (RPE) and early retina progenitor cells from human embryonic stem cells (hESCs)., Methods: 3D tissue constructs were developed by culturing hESC-derived neural retinal progenitors in a matrix on top of hESC-derived RPE cells in a cell culture insert. An osmolarity gradient maintained the nutrition of the 3D cell constructs. Cross-sections through hESC-derived tissue constructs were characterized by immunohistochemistry for various transcription factors and cell markers., Results: hESC-derived tissue constructs expressed transcription factors characteristic of retinal development, such as pax6, Otx2, Chx10, retinal RAX; Brn3b (necessary for differentiation of retinal ganglion cells); and crx and nrl (role in photoreceptor development). Many cells expressed neuronal markers including nestin, beta-tubulin and microtubule-associated proteins., Conclusions: This study shows for the first time that 3D early retinal progenitor tissue constructs can be derived from hESCs., (Copyright 2010 Elsevier B.V. All rights reserved.)

Published

2010