Microtubule motor transport in the delivery of melanosomes to the actin-rich apical domain of the retinal pigment epithelium.

Melanosomes are motile, light-absorbing organelles that are present in pigment cells of the skin and eye. It has been proposed that melanosome localization, in both skin melanocytes and the retinal pigment epithelium (RPE), involves melanosome capture from microtubule motors by an unconventional myosin, which dynamically tethers the melanosomes to actin filaments. Recent studies with melanocytes have questioned this cooperative capture model. Here, we test the model in RPE cells by imaging melanosomes associated with labeled actin filaments and microtubules, and by investigating the roles of different motor proteins. We found that a deficiency in cytoplasmic dynein phenocopies the lack of myosin-7a, in that melanosomes undergo fewer of the slow myosin-7a-dependent movements and are absent from the RPE apical domain. These results indicate that microtubule-based motility is required for the delivery of melanosomes to the actin-rich apical domain and support a capture mechanism that involves both microtubule and actin motors.

Correction to: Differentiation of RPE cells from integration-free iPS cells and their cell biological characterization.

The original article [1] contains an error in the legend of Fig 5 whereby the descriptions for panels 5d and 5e are incorrect; as such, the corrected legend can be viewed below with its respective figure images.

Rapid differentiation of the human RPE cell line, ARPE-19, induced by nicotinamide.

Human RPE cell lines, especially the ARPE-19 cell line, are widely-used in eye research, as well as general epithelial cell studies. In comparison with primary RPE cells, they offer relative convenience and consistency, but cultures derived from these lines are typically not well differentiated. We describe a simple, rapid method to establish cultures from ARPE-19 cells, with significantly improved epithelial cell morphology and cytoskeletal organization, and RPE-related functions. We identify the presence of nicotinamide, a member of the vitamin B family, as an essential factor in promoting the observed differentiation, indicating the importance of metabolism in RPE cell differentiation.

Differentiation of RPE cells from integration-free iPS cells and their cell biological characterization.

BACKGROUND: Dysfunction of the retinal pigment epithelium (RPE) is implicated in numerous forms of retinal degeneration. The readily accessible environment of the eye makes it particularly suitable for the transplantation of RPE cells, which can now be derived from autologous induced pluripotent stem cells (iPSCs), to treat retinal degeneration. For RPE transplantation to become feasible in the clinic, patient-specific somatic cells should be reprogrammed to iPSCs without the introduction of reprogramming genes into the genome of the host cell, and then subsequently differentiated into RPE cells that are well characterized for safety and functionality prior to transplantation. METHODS: We have reprogrammed human dermal fibroblasts to iPSCs using nonintegrating RNA, and differentiated the iPSCs toward an RPE fate (iPSC-RPE), under Good Manufacturing Practice (GMP)-compatible conditions. RESULTS: Using highly sensitive assays for cell polarity, structure, organelle trafficking, and function, we found that iPSC-RPE cells in culture exhibited key characteristics of native RPE. Importantly, we demonstrate for the first time with any stem cell-derived RPE cell that live cells are able to support dynamic organelle transport. This highly sensitive test is critical for RPE cells intended for transplantation, since defects in intracellular motility have been shown to promote RPE pathogenesis akin to that found in macular degeneration. To test their capabilities for in-vivo transplantation, we injected the iPSC-RPE cells into the subretinal space of a mouse model of retinal degeneration, and demonstrated that the transplanted cells are capable of rescuing lost RPE function. CONCLUSIONS: This report documents the successful generation, under GMP-compatible conditions, of human iPSC-RPE cells that possess specific characteristics of healthy RPE. The report adds to a growing literature on the utility of human iPSC-RPE cells for cell culture investigations on pathogenicity and for therapeutic transplantation, by corroborating findings of others, and providing important new information on essential RPE cell biological properties.

Three-dimensional organization of nascent rod outer segment disk membranes.

The vertebrate photoreceptor cell contains an elaborate cilium that includes a stack of phototransductive membrane disks. The disk membranes are continually renewed, but how new disks are formed remains poorly understood. Here we used electron microscope tomography to obtain 3D visualization of the nascent disks of rod photoreceptors in three mammalian species, to gain insight into the process of disk morphogenesis. We observed that nascent disks are invariably continuous with the ciliary plasma membrane, although, owing to partial enclosure, they can appear to be internal in 2D profiles. Tomographic analyses of the basal-most region of the outer segment show changes in shape of the ciliary plasma membrane indicating an invagination, which is likely a first step in disk formation. The invagination flattens to create the proximal surface of an evaginating lamella, as well as membrane protrusions that extend between adjacent lamellae, thereby initiating a disk rim. Immediately distal to this initiation site, lamellae of increasing diameter are evident, indicating growth outward from the cilium. In agreement with a previous model, our data indicate that mature disks are formed once lamellae reach full diameter, and the growth of a rim encloses the space between adjacent surfaces of two lamellae. This study provides 3D data of nascent and mature rod photoreceptor disk membranes at unprecedented z-axis depth and resolution, and provides a basis for addressing fundamental questions, ranging from protein sorting in the photoreceptor cilium to photoreceptor electrophysiology.

Heterogeneity of monosomy 3 in fine needle aspiration biopsy of choroidal melanoma.

PURPOSE: To report on the heterogeneity of monosomy 3 in a fine needle aspiration biopsy obtained transsclerally from choroidal melanoma for prognosis. METHODS: All clinical records for patients who had been diagnosed with choroidal melanoma and underwent iodine-125 plaque brachytherapy with intraoperative transscleral fine needle aspiration biopsy from January 2005 to August 20, 2011, and who had a positive result for monosomy 3 according to fluorescence in situ hybridization as reported by clinical cytogenetics testing were collected. Patient age and sex, total number of cells evaluated and number of cells positive for monosomy 3, tumor size, and metastatic outcome were recorded for each patient. RESULTS: A positive result for monosomy 3 was reported in 93 patients who underwent transscleral fine needle aspiration biopsy. Two patients were lost to follow-up immediately post-operatively, and the remaining 91 patients were included in this study. The mean number of cells evaluated in the biopsy was 273 (range 28 to 520). The mean percentage of cells positive for monosomy 3 was 62.9% (range 4.7%-100%). The mean tumor height was 5.91 mm (range 1.99 to 10.85 mm). Larger tumors were associated with a higher percentage of cells positive for monosomy 3. During the average follow-up interval of 28.9 months (range 3-76 months), choroidal melanoma metastasis developed in 18 (20%) patients. Patients whose tumors had 1%-33% of cells positive for monosomy 3 had a significantly lower risk of metastasis-related death compared to patients whose tumors harbored a higher percentage of monosomy 3 (p = 0.04). CONCLUSIONS: Cytogenetic heterogeneity of fluorescent in situ hybridization for monosomy 3 exists in a biopsy sample. Larger tumors were more likely to have a higher percentage of monosomy 3 positive cells in the sample. Furthermore, patients whose tumors had more than 33% of cells positive for monosomy 3 had a poorer prognosis than patients whose tumors had lower percentages of monosomy 3.

Antitumor effects of the investigational selective MEK inhibitor TAK733 against cutaneous and uveal melanoma cell lines.

BACKGROUND: TAK733 is a novel allosteric, non-ATP-binding, inhibitor of the BRAF substrates MEK-1/2. METHODS: The growth inhibitory effects of TAK733 were assessed in a panel of 27 cutaneous and five uveal melanoma cell lines genotyped for driver oncogenic mutations. Flow cytometry, Western blots and metabolic tracer uptake assays were used to characterize the changes induced by exposure to TAK733. RESULTS: Fourteen cutaneous melanoma cell lines with different driver mutations were sensitive to the antiproliferative effects of TAK733, with a higher proportion of BRAFV600E mutant cell lines being highly sensitive with IC50s below 1 nM. The five uveal melanoma cell lines had GNAQ or GNA11 mutations and were either moderately or highly sensitive to TAK733. The tested cell lines wild type for NRAS, BRAF, GNAQ and GNA11 driver mutations were moderately to highly resistant to TAK733. TAK733 led to a decrease in pERK and G1 arrest in most of these melanoma cell lines regardless of their origin, driver oncogenic mutations and in vitro sensitivity to TAK733. MEK inhibition resulted in increase in pMEK more prominently in NRASQ61L mutant and GNAQ mutant cell lines than in BRAFV600E mutant cell lines. Uptake of the metabolic tracers FDG and FLT was inhibited by TAK733 in a manner that closely paralleled the in vitro sensitivity assays. CONCLUSIONS: The MEK inhibitor TAK733 has antitumor properties in melanoma cell lines with different oncogenic mutations and these effects could be detectable by differential metabolic tracer uptake.

Multi-year follow-up of fine-needle aspiration biopsy in choroidal melanoma.

PURPOSE: To report the local and systemic follow-up of patients undergoing transscleral intraoperative fine-needle aspiration biopsy (FNAB) at the time of iodine-125 plaque brachytherapy for the treatment of choroidal melanoma. DESIGN: Retrospective, single-center, consecutive case cohort study. PARTICIPANTS: A total of 170 consecutive patients with choroidal melanoma. METHODS: All patients with choroidal melanoma treated with iodine-125 brachytherapy and intraoperative FNAB from January 2005 to January 2010 with at least 1 year of clinical follow-up were included. MAIN OUTCOME MEASURES: Outcomes examined were endophthalmitis, orbital dissemination, local treatment failure, rhegmatogenous retinal detachment, monosomy 3 status, and choroidal melanoma metastasis. RESULTS: A total of 170 consecutive patients with clinical diagnosis of choroidal melanoma, intraoperative FNAB, and post-brachytherapy follow-up of 1 to 6 years (mean, 2.7 ± 1.3 years) were included. For tumors with height of <3.0 mm, 3.0 to 5.0 mm, and >5.0 mm, sufficient biopsy material for fluorescence in situ hybridization (FISH) was obtained in 53%, 68%, and 91%, respectively. During the follow-up period, there was no case of postoperative endophthalmitis, orbital dissemination, or local treatment failure. Three patients developed rhegmatogenous retinal detachment. Fourteen patients developed clinical evidence of metastasis. Of the 14 patients, 8 had monosomy 3 of the primary tumor, 2 had disomy 3, 1 had trisomy 3, and 3 had insufficient material for FISH. The cumulative 5-year Kaplan-Meier metastatic rate was 13%. CONCLUSIONS: Transscleral FNAB at the time of iodine-125 plaque brachytherapy was not associated with endophthalmitis, orbital dissemination, or local treatment failure in this series, and post-brachytherapy retinal detachment occurred in 3 eyes. The cumulative Kaplan-Meier 5-year metastatic rate was not statistically different from the rate of 13% reported by the Collaborative Ocular Melanoma Study for tumors of the same size treated by brachytherapy without biopsy. Rhegmatogenous retinal detachment may occur in young patients secondary to posterior vitreous detachment induced by tumor response to radiation, unrelated to FNAB.

Characterization of three cell lines derived from fine needle biopsy of choroidal melanoma with metastatic outcome.

PURPOSE: To report three low-passage cell lines from primary choroidal melanoma with metastatic outcome, which were stable for cytogenetic patterns and expression profiles of the primary melanoma. METHODS: In patients with choroidal melanoma, transscleral fine needle aspiration biopsy (FNAB) was performed immediately before plaque placement for (125)iodine brachytherapy or immediately after enucleation. Cells were examined for cytopathology, evaluated by fluorescence in-situ hybridization (FISH) for the centromere of chromosome 3, analyzed by 250K whole genome Mapping Array and U133 plus 2.0 Expression Array, and placed in cell culture. At passage 3, the cell lines were analyzed by Mapping Array and Expression Array. RESULTS: Three cell lines were propagated from primary choroidal melanomas in three patients who subsequently developed metastasis. Two cell lines were stable for the entire chromosomal aberration pattern of the respective primary tumor. In the third, necrotic material from the biopsy prevented further analysis, yet resulted in a stable cell line. Each cell line had chromosome 3 loss, 6q loss, 8p loss, multiple 8q gain, and 16q loss. Additionally, two cell lines had chromosome 6p gain. Two cell lines had RNA expression profiles similar to the respective primary tumors; the third cell line had a similar RNA expression profile relative to the other two cell lines. CONCLUSIONS: FNAB of primary choroidal melanomas resulted in highly characterized, low-passage cell lines, which were stable for the cytogenetic patterns and expression profiles found in the primary tumor. These cell lines represent novel tools for the study of metastatic choroidal melanoma biology.

Clinical and cytogenetic characteristics of choroidal melanoma in Vietnamese Asians.

PURPOSE: To report the clinical and cytogenetic characteristics of choroidal melanoma in Vietnamese Asians. METHODS: In three Vietnamese Asians with choroidal melanoma, transscleral fine needle aspiration biopsy (FNAB) was performed immediately before iodine-125 brachytherapy. Biopsy was examined for cytopathology, fluorescence in situ hybridization (FISH) for the centromere of chromosome 3, and analyzed by 250K whole genome Mapping Array and U133 plus 2.0 Expression Array. RESULTS: Three Vietnamese Asian men (50, 59, and 30 years of age) with clinical diagnosis of choroidal melanoma and no evidence of metastasis had FNAB immediately before Iodine-125 brachytherapy. Cytopathology showed heavily pigmented cells suggestive of or consistent with melanoma. Mapping Array and Expression Array revealed cytogenetic aberrations and gene expression profiles characteristic of choroidal melanoma. One patient (Case 2) with chromosome 3 loss and chromosome 8q gain developed biopsy-proven liver metastasis three years after brachytherapy. One patient (Case 1) with chromosome 6p, 9q and 17q gain and a second patient (Case 3) with 6p, 8q and 9q gains and losses in 6q and 8p have had no evidence of metastasis three years after brachytherapy. CONCLUSIONS: In this series of Vietnamese Asians with heavily pigmented choroidal melanoma, the clinical characteristics, cytogenetic aberrations and gene expression profiles were similar to characteristics in other ethnic/racial groups and the cytogenetic aberration of chromosome 3 loss was associated with the development of liver metastasis.

Ocular response of choroidal melanoma with monosomy 3 versus disomy 3 after iodine-125 brachytherapy.

PURPOSE: To report the ocular response of choroidal melanoma with monosomy 3 vs. disomy 3 after (125)I brachytherapy. METHODS AND MATERIALS: We evaluated patients with ciliochoroidal melanoma managed with fine needle aspiration biopsy immediately before plaque application for (125)I brachytherapy between January 1, 2005 and December 31, 2008. Patients with (1) cytopathologic diagnosis of melanoma, (2) melanoma chromosome 3 status identified by fluorescence in situ hybridization, and (3) 6 or more months of follow-up after brachytherapy were sorted by monosomy 3 vs. disomy 3 and compared by Kruskal-Wallis test. RESULTS: Among 40 ciliochoroidal melanomas (40 patients), 15 had monosomy 3 and 25 had disomy 3. Monosomy 3 melanomas had a median greatest basal diameter of 12.00 mm and a median tumor thickness of 6.69 mm before brachytherapy; at a median of 1.75 years after brachytherapy, median thickness was 3.10 mm. Median percentage decrease in tumor thickness was 48.3%. Disomy 3 melanomas had a median greatest basal diameter of 10.00 mm and median tumor thickness of 3.19 mm before brachytherapy; at a median of 2.00 years after brachytherapy, median tumor thickness was 2.37 mm. The median percentage decrease in tumor thickness was 22.7%. Monosomy 3 melanomas were statistically greater in size than disomy 3 melanomas (p < 0.001) and showed a greater decrease in tumor thickness after brachytherapy (p = 0.006). CONCLUSION: In this study, ciliochoroidal melanomas with monosomy 3 were significantly greater in size than disomy 3 melanoma and showed a significantly greater decrease in thickness at a median of 1.75 years after brachytherapy. The greater decrease in monosomy 3 melanoma thickness after brachytherapy is consistent with other malignancies in which more aggressive pathology has been shown to be associated with a greater initial response to radiotherapy.

Genomic identification of significant targets in ciliochoroidal melanoma.

PURPOSE: To identify genomic targets for ciliochoroidal melanoma diagnosis, prognosis, and therapy. METHODS: Fifty-eight ciliochoroidal melanomas were analyzed by high-resolution, genome-wide, single nucleotide polymorphism (SNP) mapping arrays. The 58 SNP arrays were compared to 48 HapMap normals representing both sexes and assessed with a systematic statistical method, Genomic Identification of Significant Targets in Cancer (GISTIC), to identify significant ciliochoroidal chromosomal abnormalities including chromosome-arm-sized as well as focal events of amplification and deletion. The 58 SNP arrays were also analyzed to assess copy number. RESULTS: The 58 ciliochoroidal melanomas analyzed by GISTIC showed large regions of chromosome amplification on 6p and 8q in addition to focal amplification peaks on 1q31.3, 4p16.2, 9p23, and 9q33.1. The melanomas also showed large regions of deletion on 1p and all of 3, 6q, 8p, and 16q, as well as focal deletion peaks on 2p12, 2q14.3, 4q26, 5q21.1, 7q21.11, 8p21.3, 9p21.1, 13q21.31, 13q31.3, and 16q23.3. For each large region and focal peak, the statistical significance was computed, and known genes were specified. CONCLUSIONS: High-resolution analysis of ciliochoroidal melanoma cytogenetic aberration patterns supports the utility of systematic characterization of the cancer genome by corroborating known melanoma-related genomic aberrations and identifying additional melanoma-related genomic abnormalities that can be used to identify potential targets for diagnosis, prognosis and therapy.

Identification of candidate tumor oncogenes by integrative molecular analysis of choroidal melanoma fine-needle aspiration biopsy specimens.

OBJECTIVE: To report integrative molecular analysis of choroidal melanoma fine-needle aspiration biopsy specimens to identify candidate tumor oncogenes. METHODS: Thirty-one choroidal melanoma fine-needle aspiration biopsy specimens were analyzed using cytopathologic diagnosis of melanoma, fluorescence in situ hybridization for chromosome 3, cytogenetic characterization (GeneChip Human 250K NSPI Mapping Arrays; Affymetrix, Santa Clara, California), and gene expression profiles (GeneChip Human Genome U133 Plus 2.0 Arrays, Affymetrix). These analyses were performed by clustering of cytogenetic aberrations, sorting by chromosome 3 loss and chromosome 6p gain, and comparing gene expression profiles in chromosome 3 loss- and chromosome 6p-gain tumors to identify genes with differential expression based on cytogenetic characteristics. RESULTS: Of 31 choroidal melanoma biopsy specimens included in this study, 19 tumors had chromosome 3 loss, and 12 tumors without chromosome 3 loss had chromosome 6p gain. Comparative RNA analysis for these 2 groups revealed 49 genes with greater than 4-fold higher expression and 31 genes with greater than 4-fold lower expression in chromosome 3-loss tumors relative to chromosome 6p-gain tumors. CONCLUSIONS: Molecular analysis of choroidal melanoma fine-needle aspiration biopsy specimens demonstrated 2 cytogenetically distinct groups characterized by chromosome 3 loss or chromosome 6p gain. In chromosome 3-loss melanomas relative to chromosome 6p-gain melanomas, integrative RNA analysis revealed genes with higher expression and lower expression and identified several genes that have not been reported in previous studies. CLINICAL RELEVANCE: Genes differentially expressed between chromosome 3-loss and chromosome 6p-gain melanomas may provide new knowledge about the biologic nature of choroidal melanoma and may contribute to the development of targeted therapies.

Association of positive dual-modality positron emission tomography/computed tomography imaging of primary choroidal melanoma with chromosome 3 loss and tumor size.

PURPOSE: To evaluate the positive dual-modality positron emission tomography/computed tomography (PET/CT) of choroidal melanoma with chromosome 3 loss and tumor size. METHODS: Thirty-seven consecutive patients with choroidal melanoma with known chromosome 3 status who underwent whole-body PET/CT imaging were retrospectively reviewed. Cytology and chromosome 3 loss were identified by fine-needle aspiration biopsy. Fluorescent in situ hybridization and whole genome microarray by single-nucleotide polymorphism were used to evaluate the chromosome 3 status. Metabolic activity of primary choroidal melanoma by PET/CT imaging was evaluated. RESULTS: Thirteen of 37 (35%) primary choroidal melanomas had loss of chromosome 3; 7 of the 13 (54%) melanomas were positive for metabolic activity identified by PET/CT imaging. All 24 of 37 melanomas without chromosome 3 loss were inactive for metabolic activity. There was a statistically significant association between positive metabolic activity and chromosome 3 loss (P = 0.00017 Fisher exact test); positive PET/CT imaging was 54% sensitive and 100% specific for loss of chromosome 3. Seven of 37 (19%) choroidal melanomas with positive metabolic activity by PET/CT were statistically significantly larger in size than the 30 metabolically inactive melanomas (P < 0.001, Kruskal-Wallis test). CONCLUSION: Positive metabolic activity of choroidal melanoma identified by PET/CT imaging was statistically significantly associated with chromosome 3 loss and larger tumor size.

Reactions to and desire for prognostic testing in choroidal melanoma patients.

To determine if choroidal melanoma patients want cytogenetic prognostic information. Ninety-nine choroidal melanoma patients completed a questionnaire regarding their opinions about receiving prognostic information. The perceived usefulness of prognostic information was evaluated in patients who had undergone cytogenetic testing. Depressive symptoms, quality of life, and interest in supportive counseling during test receipt were assessed. Ninety-seven percent of respondents reported that they would have wanted prognostic information at the time of their treatment and 98% of respondents reported that supportive counseling should be offered when prognostic information is given. Patients who had received a more favorable prognostic result were more likely to endorse the usefulness of cytogenetic testing than were patients who had received a less favorable prognostic result. Psychological status did not vary significantly as a function of cytogenetic test result. Prognostic information was important to patients with choroidal melanoma, even in the absence of prophylactic measures which might improve prognosis.

Transscleral fine-needle aspiration biopsy of macular choroidal melanoma.

PURPOSE: To report transscleral 30-gauge fine-needle aspiration biopsy (FNAB) for cytology and cytogenetics in eyes with macular choroidal melanoma. DESIGN: Prospective, interventional case series. METHODS: Twenty-five patients (25 eyes) who underwent transscleral 30-gauge FNAB of macular choroidal melanoma immediately prior to iodine-125 plaque placement were included in this study, conducted at a tertiary care university hospital. The main outcome measures were FNAB feasibility, cytology, cytogenetic analysis for monosomy 3, and surgical complications. RESULTS: Transscleral 30-gauge FNAB of choroidal melanoma in the macula was performed in 24 of 25 (96%) eyes and was not feasible owing to insufficient exposure in one eye (4%). Biopsy was diagnostic of choroidal melanoma in 17 of 24 (71%) eyes. Fluorescent in situ hybridization (FISH) and/or GeneChip 500k NspI Mapping array (Affymetrix, Santa Clara, California, USA) analysis for monosomy 3 was completed in 16 of 24 (67%) revealing monosomy 3 in five eyes and disomy 3 in 11 eyes. Retinal perforation (four eyes) did not require treatment or result in retinal detachment; submacular hemorrhage (nine eyes) and vitreous hemorrhage (five eyes) cleared spontaneously within one month. CONCLUSION: Transscleral FNAB of macular choroidal melanoma is feasible in most eyes and frequently yields cytogenetic information relevant to prognosis.

High-density genome array is superior to fluorescence in-situ hybridization analysis of monosomy 3 in choroidal melanoma fine needle aspiration biopsy.

PURPOSE: Using fluorescence in situ hybridization (FISH) and high-density single nucleotide polymorphism (SNP) mapping genome array, we comparatively evaluated chromosome 3 status and other chromosomal aberrations within a series of choroidal melanomas biopsied by fine needle aspiration (FNAB). METHODS: Transscleral FNAB was performed in 59 patients (59 eyes) who had a clinical diagnosis of choroidal melanoma. Biopsies were processed for chromosome 3 status by centromeric interphase FISH, cytopathology, cell culture, and simultaneous genomic DNA and RNA mapping array analysis. RESULTS: FISH yielded chromosome 3 status in 38 of 59 (64%) eyes, while high-density SNP mapping array yielded chromosome 3 status in 43 of 59 (73%) eyes. Monosomy 3 was detected by FISH in 15 of 38 (39%) cases, and high-density SNP mapping array data confirmed the finding in 13 of the 15 cases. Furthermore, high-density SNP mapping array revealed five additional cases of significant chromosome 3 aberration not detected by FISH. High-density genomic mapping also provided detailed patterns of chromosomal gain and loss on chromosomes 1, 6, 8, and 9 which segregated into two groups characterized by either monosomy 3 or chromosome 6p gain. CONCLUSIONS: High-density SNP mapping array was better than FISH in detecting chromosome 3 aberrations and monosomy in our melanoma samples. More importantly, the mapping arrays detected additional patterns of chromosomal aberration, which suggest specific pathways for cytogenetic rearrangements in choroidal melanoma and may improve prognostic testing.

MFG-E8 in the retina and retinal pigment epithelium of rat and mouse.

PURPOSE: To study the distribution of milk fat globule epidermal growth factor E8 (MFG-E8) in the rodent eye and to investigate a potential role for this molecule in the phagocytosis of photoreceptor outer segments (POS) by the retinal pigment epithelium (RPE). METHODS: We have used immunohistochemistry, in situ hybridization, Northern and Western blotting to demonstrate the presence and distribution of MFG-E8 in the rat and mouse retina. siRNA technology was used to knock down MFG-E8 mRNA and to study the effect of such knockdown on the phagocytosis of POS by the RPE. RESULTS: We identified a novel long form of this protein (MFG-E8L) in rat tissues, which contains a 56 amino acid insert that is rich in proline and threonine. This is the first demonstration that MFG-E8L is present in a species other than the mouse. Immunohistochemistry and in situ hybridization demonstrate that MFG-E8 is present in the retina and RPE. Northern blotting and PCR show that the short form of MFG-E8 (MFG-E8S) is present in both the retina and RPE, but MFG-E8L is found only in the RPE. Our results do not demonstrate a role for MFG-E8 in POS phagocytosis by cultured RPE cells. CONCLUSIONS: In all tissues in which MFG-E8 has been localized, it has been shown to perform an important role in cell-cell binding, or in promoting phagocytosis. The localization of this glycoprotein in the retina and RPE, and particularly the specific localization of MFG-E8L in the RPE, suggests that this molecule may play an important, but as yet unknown role in retinal function.

Both protein S and Gas6 stimulate outer segment phagocytosis by cultured rat retinal pigment epithelial cells.

Survival of the retina requires the daily phagocytosis of photoreceptor outer segments (OS) by the overlying retinal pigment epithelium (RPE). OS phagocytosis by cultured RPE requires serum and we have recently shown that the vitamin K-dependent serum protein, Gas6, can completely replace serum in this process. Surprisingly, however, we show here that 4-month-old Gas6 knockout mice have normal appearing retinas, except for a reduced ratio of outer segment to inner segment length. We also show that removal of Gas6 from serum does not abrogate the ability of serum to support OS phagocytosis by rat RPE. Both of these findings suggest the presence of an additional serum ligand that is able to support OS phagocytosis by RPE cells. Protein S (PS) is a vitamin K-dependent serum protein with a high degree of structural similarity to Gas6, and a well characterized role in blood coagulation. We report here that recombinant rat PS is able to stimulate OS phagocytosis, and similar to Gas6, it does so through a Mer-dependent mechanism. This is the first demonstration of a common role for Gas6 and PS in any biological process. The existence of redundant ligands for Mer-dependent OS phagocytosis underscores the critical role of this process in the maintenance of retinal function.

Integrin alphavbeta5 is not required for the phagocytosis of photoreceptor outer segments by cultured retinal pigment epithelial cells.

The phagocytosis of photoreceptor outer segments (OS) by the retinal pigment epithelium (RPE) is a receptor mediated process. A key component of this process is the receptor tyrosine kinase, Mer. RPE cells from the RCS rat, which lacks a functional mer gene, and do not express Mer protein, are able to bind OS, but are unable to ingest them, suggesting that both a binding receptor and an ingestion receptor (Mer) are required for phagocytosis to occur. These rats become blind shortly after birth. To date the binding receptor has not been identified. Recent studies, using an SV40 transformed rat RPE cell line, RPE-J, or cultured human RPE cells, have suggested that the receptor for OS binding is the integrin alphavbeta5. However, the results presented here clearly show that this integrin plays at most a minor role in the phagocytosis of OS by primary cultures of rat RPE cells. OS phagocytosis by normal RPE cells is not affected by a function-blocking antibody to alphavbeta5 integrin, nor by the integrin-specific blocking peptide GRGDSP. Additionally, RPE-J cells do not express the Mer receptor protein, which has been shown to be obligatory for OS phagocytosis, or RPE65, a specific marker for RPE cells. We suggest that the RPE-J cell line is not a valid model with which to study the complex process of OS phagocytosis.