Intravitreal Injection of IGFBP-3 Restores Normal Insulin Signaling in Diabetic Rat Retina

Diabetes-induced changes in growth factor binding protein 3 (IGFBP-3) and tumor necrosis factor alpha (TNFα) have been linked to decreased insulin receptor signaling in diabetic retinopathy. Our previous studies in retinas of diabetic rats have shown that Compound 49b, a novel β-adrenergic receptor agonist, prevented diabetic changes by increasing IGFBP-3 and decreasing TNFα, thus restoring insulin signaling and protection against diabetic retinopathy. The current study was designed to determine whether boosted expression of IGFBP-3 NB (a non-IGF-1 binding form of IGFBP-3) alone is sufficient to mimic the full actions of Compound 49b in protecting against diabetic retinopathy, as well as testing whether IGFBP-3 NB is linked to a restoration of normal insulin signal transduction. Two months after initiation of streptozotocin-induced diabetes, rats received a single intravitreal injection of IGFBP-3 NB plasmid in the right eye. Four days after injection, electroretinogram (ERG) analyses were performed prior to sacrifice. Whole retinal lysates from control, diabetic, diabetic + control plasmid, and diabetic+ IGFBP-3 NB were analyzed for IGFBP-3, TNFα, suppressor of cytokine signaling 3 (SOCS3), and insulin receptor signaling partners using Western blotting or ELISA. Data show that a single intraocular injection of IGFBP-3 NB in diabetic animals significantly reduced TNFα levels, concomitant with reductions in IRS-1^Ser307, SOCS3, and pro-apoptotic markers, while restoring insulin receptor phosphorylation and increasing anti-apoptotic marker levels. These cellular changes were linked to restoration of retinal function. Our findings establish IGFBP-3 as a pivotal regulator of the insulin receptor/TNFα pathway and a potential therapeutic target for diabetic retinopathy.     

玻璃体腔注射对裸小鼠视网膜组织形态学的影响

目的观察单纯的玻璃体腔注射对裸小鼠视网膜组织形态学的影响,为建立简单的制作视神经损伤动物模型奠定实验基础。方法在全身麻醉配合眼部局部麻醉情况下,利用微量注射器往裸小鼠玻璃体腔内迅速注入10μL生理盐水,然后在不同的时间点取注射眼进行固定、切片和HE染色,观察视网膜特别是视神经节细胞的变化。结果正常对照组视网膜层次清晰,各层排列整齐而致密,视网膜神经节细胞呈单层排列,大小不一,染色质分布均匀。实验组于注射后第1天、第3天和第5天视网膜神经节细胞减少的情况不明显,十层结构仍相对清晰。但于第7天,视网膜神经节细胞出现细胞明显缺失的现象,第14天为最严重,第30天和第60天与第14天相比无明显差别。结论玻璃体腔注射过量的生理盐水能够损伤视网膜组织,造成神经节细胞减少,有可能成为一种简单的制作视神经损伤动物模型的方法。     

Defining the Catalytic Activity of Nanoceria in the P23H-1 Rat,a Photoreceptor Degeneration Model

Purpose

Inorganic catalytic nanoceria or cerium oxide nanoparticles (CeNPs) are bona fide antioxidants that possess regenerative radical scavenging activities in vitro. Previously, we demonstrated that CeNPs had neuroprotective and anti-angiogenic properties in rodent retinal degeneration and neovascularization models. However, the cellular mechanisms and duration of the catalytic activity of CeNPs in preventing photoreceptor cell loss are still unknown. In this study, we sought to answer these questions using the P23H-1 rat, an autosomal dominant retinitis pigmentosa (adRP) model.

Methods

A single dose of either saline or CeNPs was delivered intravitreally into the eyes of P23H-1 rats at 2–3 weeks of age. Retinal functions were examined at 3 to 7 weeks post injection. We quantified retinal proteins by Western blot analyses and counted the number of apoptotic (TUNEL+) profiles in the outer nuclear layer (ONL) of retinal sections. We measured free 8-isoprostanes to quantify lipid peroxidation in retinal tissues.

Results

We observed increased rod and cone cell functions up to three weeks post injection. Apoptotic cells were reduced by 46%, 56%, 21%, and 24% at 3, 7, 14, 21 days, respectively, after CeNPs injection compared to saline. Additionally, reduction of lipid peroxidation in the retinas of CeNPs-treated vs saline-treated animals was detected 14 days post injection.

Conclusions

We validated that CeNPs were effective in delaying loss of photoreceptor cell function in an adRP rat model. This represents the fourth rodent retinal disease model that shows delay in disease progression after a single application of CeNPs. We further demonstrated that CeNPs slowed the rate of photoreceptor cell death. We deduced that the catalytic activity of CeNPs in vivo in this rat model to be undiminished for at least 7 days and then declined over the next 14 days after CeNPs administration.     

Choline Acetyltransferase Depletion in the Rat Retina After Intraocular Injection of Neurotoxins

The effects of kainic acid (KA), quisqualic acid (QA), and ibotenic acid (IBO) on histology of the retina and on the retinal choline acetyltransferase (ChAT) activity were studied in the rat. KA produced the highest number of altered cells in the ganglion cell layer (GCL) and in the inner nuclear layer (INL), with an almost complete depletion of ChAT activity. QA was less effective than KA in terms of both the number of altered cells and in ChAT depletion. In contrast, retinas injected with IBO showed the mildest morphological lesions together with the highest reduction in the enzyme activity. These results indicate that IBO affects nearly all the cholinergic neurons in the rat retina, whereas other populations, sensitive to KA or QA, are spared. Because of this higher specificity toward the cholinergic subpopulation, IBO may be a useful tool when cholinergic cells need to be destroyed in the retina.     

Serotonin Levels in the Rabbit Retina Are Elevated Following Intraocular Injection of Forskolin

Analysis of the mammalian retina for serotonin immunoreactivity suggests an absence of the amine. However, following an intraocular injection of forskolin (1 microM) into a rabbit eye 1 h before analysis of the retina, serotonin immunoreactivity is associated with a subpopulation of amacrine cells. These cells correspond in size and position to the "indoleamine-accumulating cells" of the retina. Biochemical experiments show that forskolin treatment produces an increase in levels of endogenous serotonin and 5-hydroxytryptophan but has no effect on the uptake of serotonin or tryptophan or the metabolism of 5-hydroxytryptophan. These results suggest that the "indoleamine-accumulating cells" in the retina are "serotonergic cells" and that the level of amine is elevated sufficiently for localisation following forskolin treatment. It would appear that forskolin either directly or indirectly activates tryptophan hydroxylase.     

GABA Autoreceptors Are Not Coupled to Benzodiazepine Receptors in Rat Cerebral Cortex

Abstract: Depolarization-induced release of [³H] γ -aminobutyric acid ([³H]-GABA) from preloaded slices of rat cerebral cortex was inhibited by muscimol and THIP in a dose-dependent fashion. This inhibition of release was prevented by the GABA antagonists bicuculline and picrotoxin. These results confirm previous reports postulating the existence of GABA autoreceptors on GABAergic terminals. Since benzodiazapines are known to facilitate postsynaptic GABA actions, the effect of flunitrazepam on the inhibition of GABA release mediated through the autoreceptors has been examined. At a concentration of 1 μ m or 10 μ m , flunitrazepam had no effect on the IC₅₀ values for muscimol or THIP in inhibiting stimulated GABA release. It thus seems that GABA autoreceptors are not functionally coupled to benzodiazepine receptors in rat cerebral cortex.     

Identification of Strychnine Binding Sites in the Rat Retina

Abstract: [³H]Strychnine specifically binds to membrane fractions isolated from rat retinae. The binding is saturable, with an apparent dissociation constant, K _D, of 14.3 × 10⁻⁹ M and 205 fmol bound/mg protein. Specific binding is time-dependent and proportional to protein concentration. Glycine and taurine are equally potent inhibitors of [³H]strychnine binding ( K _i= 4 × 10⁻⁵ M); no other amino acids endogenously present in the retina inhibited [³H]strychnine binding.     

Cytochemical Alterations in the Rat Retina by LPS Administration

LPS-induced inflammation and changes in protein phosphorylation and the JAK-STAT pathway accompanying glial activation after LPS treatment, were followed by analyzing secreted proinflammatory cytokine levels. The administration of LPS caused tyrosine phosphorylation of STAT3 in retinae and induced glial fibrillary acidic protein. (GFAP) from the nerve fiber layer to the ganglion cell layer. Our results suggest that the LPS-induced activation of the JAK2/STAT3 signaling pathway may play a key role in the induction of astrogliosis. However, no significant increase in vimentin, OX-42 or inducible nitric oxide synthase (iNOS) expressions were observed after LPS administration. Sphingosine kinase catalyzes the conversion of sphingosine to sphingosine-1–phosphate (So-1-P), a sphingolipid metabolite that plays important roles in angiogenesis, inflammation, and cell growth. In the present study, it was found that sphingolipid metabolite levels were elevated in the serum and retinae of LPS-injected rats. To further investigate the chronic effect of increased So-1-P in the retina, So-1-P was infused intracerebroventricularly (i.c.v.) into rats using an osmotic minipump at 100 pmol/10 μl h^-1 for 7 days, and was found to increase retinal GFAP expression. These observations suggest that LPS induces the activation of retinal astrocytes via JAK2/STAT3 and that LPS affects So-1-P generation. Our findings also suggest that elevated So-1-P in the retina and/or in serum could induce cytochemical alterations in LPS treated or inflamed retinae.     

Polyamine Localization and Biosynthesis in Chemically Fractionated Rat Retina

For elucidation of polyamine localization and biosynthesis in various cell types of rat retina, the putrescine, spermidine, and spermine contents as well as the ornithine decarboxylase and S-adenosylmethionine decarboxylase activities have been measured in retinal cell layers obtained by the selective cytotoxic action of iodoacetate on photoreceptor cells and of monosodium glutamate on higher-order retinal neurons. A notable depletion only in spermine content was associated with loss of the visual cell layer. Total ornithine decarboxylase and S-adenosylmethionine decarboxylase activities per retina were significantly lower in all chemically fractionated tissue, but loss of the photoreceptor layer produced the greatest decrease. The specific activities of these enzymes did not show marked changes in rat retinas deprived of inner neurons. The data support the suggestions that polyamine synthesis, storage, and catabolism have different distributions in the retinal layers and that the spermine levels and the high value of the spermine/spermidine molar ratio might depend essentially on the proportion of rods to cones.     

Placenta Growth Factor in Eyes with Neovascular Glaucoma Is Decreased after Intravitreal Ranibizumab Injection

Purpose

To evaluate changes in the concentrations of placental growth factor (PlGF) and vascular endothelial growth factor-A (VEGF-A) in aqueous humor of patients with neovascular glaucoma (NVG) before and after an intravitreal injection of ranibizumab (IVR) and to determine the underlying correlation between the levels.

Methods

The prospective interventional comparative study involved 20 eyes of 20 patients with surgery-required advanced NVG and 20 control subjects from January 2013 to November 2013. The NVG eyes received the IVR treatment before glaucoma surgery. Aqueous humor was collected at the time of the IVR injection (pre- IVR) and at the time of antiglaucomatous surgery (post-IVR). Aqueous humor was also collected at the time of cataract surgery in normal control. Aqueous humor and plasma VEGF-A and PlGF levels were measured with an enzyme-linked immunosorbent assay methods, respectively.

Results

The mean aqueous humor PlGF and VEGF-A concentrations in the pre-IVR eyes were significantly higher than in those of the control subjects (p<0.001), whereas the plasma levels showed no significant difference. There was a statistically significant correlation between the aqueous humor PlGF and the VEGF-A concentration (r = 0.612, p = 0.003). The mean aqueous humor PlGF in the post-IVR eyes dramatically decreased from 1078.36 ± 755.83 to 177.64 ± 151.73 pg/mL (p<0.001). The VEGF-A level showed a similar trend from 3697.64 ± 2104.47 pg/mL to 183.54 ± 130.35 pg/mL (p<0.001).

Conclusions

Aqueous humor concentrations of VEGF-A and PlGF were significantly elevated in the eyes with NVG, and there was a positive correlation between the levels. After an IVR treatment, VEGF-A and PlGF were significantly decreased in NVG eyes.     

Cell Migration Velocities In the Crypts of the Small Intestine After Cytotoxic Insult Are Not Dependent On Mitotic Activity

Abstract. The role of mitotic activity in the normal process of intestinal epithelial cell migration was investigated. the movement of [³H]TdR-labelled cells in the crypt-villus column was used to study migration both in the crypts and on the villi. Radiation alone or in conjunction with other cytotoxic agents (hydroxyurea, cyclophosphamide and isopropyl-methane sulphonate) was used to eliminate cell division activity and to decrease crypt cellularity. This was done in order to determine the role of 'mitotic pressure' in driving cell migration.
It has been clearly demonstrated in this study that cell migration, both within the crypts and on the villi, can take place in the complete absence of mitotic activity and after a drastic decrease in crypt cellularity. These results add to the continually mounting evidence against the idea that the 'pressure' generated by mitoses within the crypt or indeed in other epithelial regions is responsible for propelling epithelial cells. the data also demonstrate that the migration mechanisms are resistant to cytotoxic exposure.     

Development and Regulation of Rhodopsin Kinase in Rat Pineal and Retina

Rhodopsin kinase, once thought to be a retinal enzyme, was recently found at high levels in the pineal gland. In the present study the developmental pattern and the regulation by environmental lighting of this enzyme in both tissues was studied in the rat. Enzyme activity was present in the neonatal pineal gland several days earlier than in the retina, and increased gradually up to 20 days of age and remained at that level thereafter; the retinal enzyme appeared to increase until day 60. Pineal and retinal rhodopsin kinase activities showed a 25% increase in in the middle of the dark and the beginning of the light period, respectively. Exposure to constant light caused a 50% decrease in rhodopsin kinase levels in both tissues. However, only pineal rhodopsin kinase activity declined followed bilateral superior cervical ganglionectomy. This indicates pineal rhodopsin kinase activity is similar to other pineal enzymes in that it is controlled by light acting through the sympathetic nervous system. In contrast, the light-induced decrease in retinal rhodopsin kinase may be due to the direct destructive effect of light on the retina. The finding of neural control of pineal rhodopsin kinase in the pineal gland of adult rats is consistent with a function of the enzyme in the neural regulation of pineal function.     

Effect of Light on the Metabolism of Lipids in the Rat Retina

The effect of light on the in vitro incorporation of a variety of radioactive precursors into glycerolipids was tested in isolated retinas of albino rats. There was an increase in the incorporation of [2-3H]myo-inositol, 32Pi, [2-3H]glycerol, and [methyl-3H]choline into retinal phospholipids in light compared to that in darkness. [2-3H]myo-Inositol was incorporated primarily into phosphatidylinositol. 32Pi was incorporated primarily into the phosphoinositides, although there were significant increases in the specific activities of all retinal phospholipids in light compared to those in darkness. Likewise, [2-3H]glycerol incorporation into all retinal phospholipids and diglycerides was greater in light than in the dark. There was no effect of light on the incorporation of [2-3H]ethanolamine into phosphatidylethanolamine or of [3-3H]serine into phosphatidylserine, although these phospholipids were labeled to a greater extent in light with [2-3H]glycerol. There was no effect of light on the incorporation of [3H]palmitic acid into diglycerides and phospholipids, with the exception of phosphatidylinositol. Light also had no effect on the uptake of [2-3H]glycerol, [2-3H]inositol, or [methyl-3H]choline into the retina. We conclude from these studies that light stimulates the phosphoinositide effect in the rat retina. Although some of the results are consistent with a stimulation of de novo synthesis of all lipid classes, our studies with [3H]palmitate, [2-3H]ethanolamine, and [3-3H]serine do not support this conclusion.(ABSTRACT TRUNCATED AT 250 WORDS)     

Identification and Characterization of Endothelin Receptor Subtype B in Rat Retina

Abstract: The presence of immunoreactive (IR) endothelin (ET)-1 and ET-1 receptors in rat retina has been studied by radioimmunoassay and receptor assay, respectively. The specific binding of ¹²⁵I-ET-1 to rat retinal particulate preparations was saturable. Apparent equilibrium conditions were established within 120–140 min. Scatchard analysis of binding data indicated a single class of high-affinity binding sites with a K _D of 35 ± 11 p M and a B_max of 168 ± 60 fmol/mg of protein. ¹²⁵I-ET-1 binding to retinal particulate preparations was not inhibited by 1 μ M concentrations of somatostatin, atrial natriuretic factor, brain natriuretic peptide, thyroid-stimulating hormone, growth hormone, or insulin. The three endothelin isoforms, ET-1,-2, and-3, had similar affinity for the receptor. Cross-linking of ¹²⁵I-ET-1 to retinal particulate preparations with disuccinimidyl suberate resulted in the labeling of two bands with apparent molecular masses of 52 and 34 kDa. We have established a highly sensitive and specific radioimmunoassay for ET-1. The concentration of IR-ET-1 in rat retina was 35 ± 10 fmol/g wet weight. The demonstration of specific high-affinity ETB receptors and the presence of IR-ET-1 suggest that the peptide may act as a neurotransmitter or neuro-modulator in the retina.     

The Hepatic Genes for Immunoproteasome Are Upregulated by Refeeding after Fasting in the Rat

Considering that animals maintain energy homeostasis in response to nutrient levels, experiments were done to elucidate the temporal effects of refeeding after fasting on gene expression profiles in the rat liver. Using DNA microarray technology, we first compared gene expression profiles in the livers of rats allowed to feed for 6 h after fasting for 18 h and those in 24-h fasting rats, and found that the expression levels of energy metabolism-related genes in the two groups were different. In addition, refeeding induced upregulation of the genes encoding immunoproteasome components. Finally, immunoblot analysis confirmed changes in protein levels, suggesting that refeeding after fasting enhanced immune function.     

Distinct Expression and Localization of Diacylglycerol Kinase Isozymes in Rat Retina

Recent studies have revealed that phosphoinositide (PI) signaling molecules are expressed in mammalian retinas, suggesting their importance in its signal transduction. We previously showed that diacylglycerol kinase (DGK) isozymes are expressed in distinct patterns in rat retina at the mRNA level. However, little is known about the nature and morphological aspects of DGKs in the retina. For this study, we performed immunohistochemical analyses to investigate in the retina the expression and localization of DGK isozymes at the protein level. Here, we show that both DGKβ and DGKι localize in the outer plexiform layer, within which photoreceptor cells make contact with bipolar and horizontal cells. These isozymes exhibit distinct subcellular localization patterns: DGKι localizes to the synaptic area of bipolar cells in a punctate manner, whereas DGKβ distributes diffusely in the subsynaptic and dendritic regions of bipolar and horizontal cells. However, punctate labeling for DGKϵ is evident in the outer limiting membrane. DGKζ and DGKα localize predominantly to the nucleus of ganglion cells. These findings show distinct expression and localization of DGK isozymes in the retina, suggesting a different role of each isozyme.     

Potassium-Stimulated Release of Radiolabelled Taurine and Glycine from the Isolated Rat Retina

Abstract: The release of preloaded [³H]glycine and [³H]taurine in response to a depolarising stimulus (12.5-50 m M KCl) has been studied in the superfused rat retina. High external potassium concentration immediately increased the spontaneous efflux of [3H]glycine, the effect of 50 m M K⁺ apparently being abolished by omitting calcium from the superfusing medium. In contrast, although high potassium concentrations increased the spontaneous emux of [³H]taurine from the superfused rat retina, this release was not evident until the depolarising stimulus was removed from the superfusing medium. The magnitude of this "late" release of [³H]taurine was dependent on external K⁺ concentrations, and appeared immediately after cessation of the stimulus irrespective of whether it was applied for 4, 8, or 12 min. Potassium (50 m M )-induced release of taurine appeared partially calcium-dependent, being significantly reduced (p < 0.01) but not abolished by replacing calcium with 1 mM EDTA in the superfusate. High-affinity uptake systems for both [³H]glycine and [³H]taurine were demonstrated in the rat retina in vitro ( K _m values, 1.67 μ M and 2.97 μ M ; V_max values, 19.3 and 23.1 nmol/g wet weight tissue/h, respectively). The results are discussed with respect to the possible neuro-transmitter roles of both amino acids in the rat retina.     

Global and Ocular Hypothermic Preconditioning Protect the Rat Retina from Ischemic Damage

Retinal ischemia could provoke blindness. At present, there is no effective treatment against retinal ischemic damage. Strong evidence supports that glutamate is implicated in retinal ischemic damage. We investigated whether a brief period of global or ocular hypothermia applied 24 h before ischemia (i.e. hypothermic preconditioning, HPC) protects the retina from ischemia/reperfusion damage, and the involvement of glutamate in the retinal protection induced by HPC. For this purpose, ischemia was induced by increasing intraocular pressure to 120 mm Hg for 40 min. One day before ischemia, animals were submitted to global or ocular hypothermia (33°C and 32°C for 20 min, respectively) and fourteen days after ischemia, animals were subjected to electroretinography and histological analysis. Global or ocular HPC afforded significant functional (electroretinographic) protection in eyes exposed to ischemia/reperfusion injury. A marked alteration of the retinal structure and a decrease in retinal ganglion cell number were observed in ischemic retinas, whereas global or ocular HPC significantly preserved retinal structure and ganglion cell count. Three days after ischemia, a significant decrease in retinal glutamate uptake and glutamine synthetase activity was observed, whereas ocular HPC prevented the effect of ischemia on these parameters. The intravitreal injection of supraphysiological levels of glutamate induced alterations in retinal function and histology which were significantly prevented by ocular HPC. These results support that global or ocular HPC significantly protected retinal function and histology from ischemia/reperfusion injury, probably through a glutamate-dependent mechanism.