Expression and distribution of thiol-regulating enzyme glutaredoxin 2 (GRX2) in porcine ocular tissues.

Glutaredoxin2 (Grx2) is a mitochondrial isozyme of the cytosolic glutaredoxin1 (thioltransferase or TTase). Both belong to the large oxidoreductase family and play an important role in maintaining thiol/disulfide redox homeostasis in the cells. Grx2 is recently found in the lens where its activities of disulfide reductase and peroxidase, similar to TTase, can protect the lens against oxidative stress. Since other eye tissues are also highly sensitive to oxidative stress, and TTase's distribution in the eye is known, we focused on this study by investigating the Grx2 distribution in the ocular tissues in comparison to the lens. Fresh porcine eyes were dissected into cornea, iris, ciliary body, the lens, vitreous humor, retina, and optic nerve. Each tissue (pooled from three eyes) was homogenized and processed for mitochondrial isolation. The mitochondrial fraction was analyzed for Grx2 protein using Western blotting with anti-Grx2 antibody, and Grx2 activity using the published procedure. The eye tissues were also measured for Grx2 mRNA expression by RT-PCR with GAPDH as the control. Grx2-rich mouse liver and purified recombinant mouse Grx2 were used as positive controls for the above analyses. It was found that Grx2 was present in all the tested ocular tissues, except vitreous humor. In comparison with the mouse liver, the protein levels of Grx2 in porcine ciliary body and the lens were 27-fold and 0.75-fold, respectively. Comparing to the lens, Grx2 protein was highest in the ciliary body (13.5-fold), followed by retina (9.2-fold), iris and optic nerve (2-fold), and cornea (1.2-fold). Enzyme activity assays showed that the retina had the highest Grx2 specific activity (3.9 mU/mg protein), followed by ciliary body (3.1 mU/mg), the lens (0.58 mU/mg), and optic nerve (0.32 mU/mg). Grx2 gene expression in these ocular tissues was further confirmed by RT-PCR analysis. Grx2 mRNA expression showed the highest in ciliary body, followed by retina, optic nerve, cornea, iris, and the lens. No Grx2 mRNA, protein or enzyme activity could be found in the vitreous humor. The results indicate that Grx2 level was higher in eye tissues rich in vasculature and mitochondria (i.e. ciliary body and retina), corroborating with the levels of mRNA expression and Grx2 activity. The rich presence of Grx2 in these tissues is also consistent with their known sensitivity to oxidative stress.

Nitric oxide regulation of Na, K-ATPase activity in ocular ciliary epithelium involves Src family kinase.

The nitric oxide (NO) donor sodium nitroprusside (SNP) is known to reduce aqueous humor (AH) secretion in the isolated porcine eye. Previously, SNP was found to inhibit Na,K-ATPase activity in nonpigmented ciliary epithelium (NPE), AH-secreting cells, through a cGMP/protein kinase G (PKG)-mediated pathway. Here we show Src family kinase (SFK) activation in the Na,K-ATPase activity response to SNP. Ouabain-sensitive (86) Rb uptake was reduced by >35% in cultured NPE cells exposed to SNP (100 µM) or exogenously added cGMP (8-Br-cGMP) (100 µM) and the SFK inhibitor PP2 (10 µM) prevented the response. Ouabain-sensitive ATP hydrolysis was reduced by ~40% in samples detected in material obtained from SNP- and 8-Br-cGMP-treated cells following homogenization, pointing to an intrinsic change of Na,K-ATPase activity. Tyrosine-10 phosphorylation of Na,K-ATPase α1 subunit was detected in SNP and L-arginine-treated cells and the response prevented by PP2. SNP elicited an increase in cell cGMP. Cells exposed to 8-Br-cGMP displayed SFK activation (phosphorylation) and inhibition of both ouabain-sensitive (86) Rb uptake and Na,K-ATPase activity that was prevented by PP2. SFK activation, which also occurred in SNP-treated cells, was suppressed by inhibitors of soluble guanylate cyclase (ODQ; 10 µM) and PKG (KT5823; 1 µM). SNP and 8-Br-cGMP also increased phosphorylation of ERK1/2 and p38 MAPK and the response prevented by PP2. However, U0126 did not prevent SNP or 8-Br-cGMP-induced inhibition of Na,K-ATPase activity. Taken together, the results suggest that NO activates guanylate cyclase to cause a rise in cGMP and subsequent PKG-dependent SFK activation. Inhibition of Na,K-ATPase activity depends on SFK activation.

Impact of combination use of 0.004% travoprost and 2% pilocarpine on matrix metalloproteinases synthesized by rabbit ciliary muscle: a pilot study.

OBJECTIVE: To explore the impact of combination use of prostaglandin analogue and cholinergic agonists on main matrix metalloproteinases (MMPs) synthesized by albino rabbit ciliary muscle. METHODS: Normal adult albino rabbits were divided into the control group, 2% pilocarpine group, 0.004% travoprost group and travoprost plus pilocarpine group. Two rabbits in the control group were executed after treated with normal saline for one day. Two rabbits were separately executed on the 7th, 14th and 24th day of the treatment in each drug treated group. In each subgroup ciliary muscle band of 4 eyes was taken and made into homogenate. The MMPs activities of 10 subgroups were assayed by zymography. Bands' intensity which represents the activity of MMPs was measured by the UltraViolet Illumination system. RESULTS: A bright band of MMP-1/2 was showed on each lane at the position corresponding to the molecular weight of 62 kD in the ciliary smooth muscles electrophoresis. When ion Zn and Ca was displaced by MMPs inhibitor EDTA, this bright band disappeared. Compared with the control group, MMP1/2 activity increased by 4.0%, 4.1% and 14.0% after 7, 14 and 24 days of pilocarpine treatment. Corresponding data was 23.2%, 61.7% and 111.5% in the travoprost group and 49.3%, 68.0% and 88.4% in the travoprost plus pilocarpine group. CONCLUSIONS: Pilocarpine has little effect on activity of MMP1/2. Travoprost can increase activity of MMP1/2 gradually. Activity of MMP1/2 is rapidly increased by pilocarpine combined with travoprost, but shows small change with the prolonged treatment.

Regulation of anterior chamber drainage by bicarbonate-sensitive soluble adenylyl cyclase in the ciliary body.

Glaucoma is a leading cause of blindness affecting as many as 2.2 million Americans. All current glaucoma treatment strategies aim to reduce intraocular pressure (IOP). IOP results from the resistance to drainage of aqueous humor (AH) produced by the ciliary body in a process requiring bicarbonate. Once secreted into the anterior chamber, AH drains from the eye via two pathways: uveoscleral and pressure-dependent or conventional outflow (C(t)). Modulation of "inflow" and "outflow" pathways is thought to occur via distinct, local mechanisms. Mice deficient in the bicarbonate channel bestrophin-2 (Best2), however, exhibit a lower IOP despite an increase in AH production. Best2 is expressed uniquely in nonpigmented ciliary epithelial (NPE) cells providing evidence for a bicarbonate-dependent communicative pathway linking inflow and outflow. Here, we show that bicarbonate-sensitive soluble adenylyl cyclase (sAC) is highly expressed in the ciliary body in NPE cells, but appears to be absent from drainage tissues. Pharmacologic inhibition of sAC in mice causes a significant increase in IOP due to a decrease in C(t) with no effect on inflow. In mice deficient in sAC IOP is elevated, and C(t) is decreased relative to wild-type mice. Pharmacologic inhibition of sAC did not alter IOP or C(t) in sAC-deficient mice. Based on these data we propose that the ciliary body can regulate C(t) and that sAC serves as a critical sensor of bicarbonate in the ciliary body regulating the secretion of substances into the AH that govern outflow facility independent of pressure.

Role of PKCepsilon in PGF2alpha-stimulated MMP-2 secretion from human ciliary muscle cells.

Studies were designed to examine the roles of individual protein kinase C (PKC) isoforms in the prostaglandin F(2alpha) (PGF(2alpha))-induced matrix metalloproteinase-2 (MMP-2) secretion from human ciliary muscle cells. Studies utilized primary cultures of human ciliary muscle cells. Individual PKC isoforms were detected by Western blotting, using PKC-isoform-specific antibodies. To evaluate MMP-2 secretion, cells were serum-starved overnight, treated with PGF(2alpha) (1 micromol/L) for 4 h and the media analyzed for MMP-2 by Western blotting. To assess ERK1/2 activation, cells were serum-starved overnight, treated with PGF(2alpha) (1 micromol/L) for 5 min and cell lysates analyzed for ERK1/2 phosphorylation by Western blot analysis. To evaluate the roles of individual PKC isoforms, cells were pretreated with PKC inhibitors or siRNAs prior to the addition of PGF(2alpha). In cultured human ciliary muscle cells, the PKC isoforms exhibiting the highest level of expression were PKCalpha, epsilon, iota and lambda. The delta and eta isoforms exhibited moderate levels of expression and beta, gamma, and phi were not detected. The administration of PGF(2alpha) (1 micromol/L) primarily induced the translocation of PKCepsilon from cytosol to the membrane fraction, as well as increased MMP-2 secretion and ERK1/2 phosphorylation. The secretion of MMP-2 was inhibited by pretreatment with the broad-range PKC inhibitor, chelerythrine chloride; however, this response was not blocked by Go-6976, an inhibitor of conventional PKC isoforms. The PGF(2alpha)-induced secretion of MMP-2 was also blocked by pretreatment with the PKCepsilon-selective peptide translocation inhibitor, EAVSLKPT, or the transfection of siRNA-targeting PKCepsilon. The activation of ERK1/2 was inhibited by chelerythrine and the PKCepsilon translocation inhibitor. Human ciliary muscle cells express the alpha, epsilon, iota and lambda PKC isoforms. Stimulation of FP receptors in these cells activates PKCepsilon, resulting in ERK1/2 activation and an eventual increase in MMP-2 secretion. These data support the idea that the activation of FP receptors in vivo modulate uveoscleral outflow through the PKCepsilon-dependent secretion of MMPs.

Prostaglandin induces the expression of matrix metalloproteinase-1 in ciliary melanocytes.

BACKGROUND: Latanoprost, a prostaglandin F2alpha analog, has been shown to be an effective intraocular pressure lowering agent which acts by inducing ciliary muscle cells to synthesise matrix metalloproteinases. However, the response of ciliary melanocytes to latanoprost has never been reported. This research has investigated the ability of latanoprost to induce matrix metalloproteinase-1 expression in human ciliary melanocytes, and thereby advance the understanding of the mechanism of PGF(2alpha) in decreasing intraocular pressure. METHODS: In vitro human ciliary melanocytes were treated for 48 hours with five different concentrations of latanoprost (100, 150, 200, 500, and 1000 nmol/L). Ciliary melanocytes treated with 0.01% ethanol (vehicle) were used as a control. The expression of matrix metalloproteinase-1 in ciliary melanocytes was determined by Western blotting and immunofluorescent staining. RESULTS: Western blotting showed that the expression of matrix metalloproteinase-1 in ciliary melanocytes was induced by latanoprost, and the level of expression was dependent on the concentration of latanoprost in the culture medium. Immunofluorescent staining showed that matrix metalloproteinase-1 was confined to the ciliary melanocyte cytoplasm. CONCLUSIONS: Latanoprost induced the expression of matrix metalloproteinase-1 in human ciliary melanocytes in a dose-dependent manner. Ciliary melanocytes, as well as ciliary muscle cells, may also play an important role in uveoscleral outflow modulation.

Inhibition by brimonidine of forskolin-induced nitric oxide synthase expression in human ciliary bodies in vitro.

PURPOSE: To investigate the mRNA and protein expression of nitric oxide synthase (NOS) in human ciliary bodies in vitro. The effect of the adenylcyclase activator forskolin and/or the alpha2-adrenergic agonist brimonidine (an ocular hypotensive agent that inhibits aqueous humor formation) on NOS mRNA or protein expression was also studied. METHODS: Frozen human ciliary bodies obtained from local eye bank were thawed and incubated with 0.1 mM forskolin for 24 h in the absence or in the presence of 100 muM brimonidine. The mRNA and protein expression of three NOS isoforms (neuronal NOS or nNOS, inducible NOS or iNOS, endothelial NOS or eNOS) were assessed by reverse transcription-polymerase chain reaction (RT-PCR) and Western blot analysis, respectively. RESULTS: mRNA and protein expression of three NOS isoforms were detected in human ciliary bodies. Forskolin significantly up-regulated the mRNA and protein expression of nNOS, but not that of iNOS or of eNOS. In the presence of brimonidine, the forskolin-induced up-regulation of nNOS mRNA or protein expression was significantly inhibited. CONCLUSIONS: In human ciliary body (where aqueous humor is produced), brimonidine inhibits the up-regulation of nNOS expression induced by forskolin.

Cholesterol-24S-hydroxylase (CYP46A1) is specifically expressed in neurons of the neural retina.

Increasing biological findings argue for the importance of cholesterol-24S-hydroxylase (CYP46A1) in cholesterol homeostasis in cerebral structures. Based on the similarity between the brain and the neural retina, the aim of the current study was to evaluate the expression of CYP46A1 in the mammalian retina. RT-PCR analysis of CYP46A1 in bovine samples revealed the highest expression in the neural retina. The retinal pigment epithelium expressed CYP46A1 gene at a low level while the ciliary body showed no expression. Immunohistochemical evaluation of the posterior pole of rat retina showed that the protein is specifically expressed in neurons, whereas cone-rods photoreceptors were negative for CYP46A1 staining. The metabolite produced by CYP46A1, 24S-hydroxycholesterol, was almost exclusively found in neural retina, the concentration therein being more than 10-fold higher than in the retinal pigment epithelium or the ciliary body. The results of the current study are consistent with our primary hypothesis: the neural retina specifically expresses cholesterol-24S-hydroxylase, a metabolizing enzyme responsible for the removal of cholesterol in neurons. Based on the link between cholesterol-24S-hydroxylase, 24S-hydroxycholesterol, and neurologic disorders, CYP46A1 may be a valuable gene candidate for retinal pathologies like age-related macular degeneration or glaucomas, and 24S-hydroxycholesterol may be involved in the onset of the degenerative processes in these diseases.

Analysis of expression of matrix metalloproteinases and tissue inhibitors of metalloproteinases in human ciliary body after latanoprost.

PURPOSE: To determine the effect of latanoprost on the expression of human matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) in the ciliary body. METHODS: Total RNA was isolated, and qualitative RT-PCR was performed to detect the mRNA of MMPs and TIMPs in human ciliary body tissue and explant cultures of ciliary body smooth muscle (CBSM) cells. CBSM cell cultures were treated with vehicle control or latanoprost acid for 24 hours. Quantitative RT-PCR of cell cultures from five different donors was performed to determine relative changes in expression. GAPDH served as an endogenous control. RESULTS: The mRNA of MMP-1, -2, -3, -11, -12, -14, -15, -16, -17, -19, and -24 as well as TIMP-1 to -4 were found in ciliary body tissue and CBSM cells. MMP-9 was present after latanoprost treatment. In control CBSM cells, the relative expression of MMP mRNA was MMP-2 and -14 > MMP-24 > MMP-1, -11, -15, -16, and -19 > MMP-3 and 17, > MMP-12. The relative expression of TIMP mRNA was TIMP-2 > TIMP-1 > TIMP-3 > TIMP-4. Latanoprost increased MMP-3 (in three of five cultures), MMP-17 (in four of five cultures), and TIMP-3 (in all five cultures); MMP-1, -2, -12, -14, -15, and -16 and TIMP-4 were downregulated. CONCLUSIONS: The transcription of the genes for MMP-3 and -17 is increased by latanoprost treatment. MMP-9 is present after latanoprost treatment and may also mediate ECM changes. TIMP-3 is upregulated and may compensate for the increase in MMPs. These coordinated changes could be expected to mediate the latanoprost-induced alteration of ECM in the ciliary body.

NO donors inhibit Na,K-ATPase activity by a protein kinase G-dependent mechanism in the nonpigmented ciliary epithelium of the porcine eye.

1. We developed a novel method to isolate nonpigmented epithelial (NPE) cells from porcine eyes in order to examine Na,K-ATPase responses to nitric oxide (NO) donors specifically in the epithelium. 2. Cells were treated with NO donors and other test compounds for 20 min prior to Na,K-ATPase activity measurement. 3. NO donors, sodium nitroprusside (SNP, 1 microM-1 mM), sodium azide (100 nM-1 microM) and S-nitroso-N-acetylpenicillamine (1 microM-1 mM) caused significant concentration-dependent inhibition of Na,K-ATPase activity. Detection of nitrite in the medium of L-arginine and SNP-treated NPE confirmed NO generation. 4. Concentration-dependent inhibition of Na,K-ATPase was also obtained by L-arginine (1-3 mM), a physiological precursor of NO and 8p-CPT-cGMP (1-100 microM), a cell permeable analog of cGMP. The L-arginine effect was abolished when the NO synthesizing enzyme, NO-synthase, was inhibited by L-NAME (100 microM). 5. The inhibitory effect of SNP or sodium azide on Na,K-ATPase activity was suppressed by soluble guanylate cyclase (sGC) inhibitors, ODQ (10 microM) or methylene blue (10 microM). 6. The inhibitory effect of 8p-CPT-cGMP on Na,K-ATPase was abolished by protein kinase G (PKG) inhibitors, H-8 (1 microM) and H-9 (20 microM), but not by the protein kinase A (PKA) inhibitor H-89 (100 nM). H-8 and H-9 partially suppressed the inhibitory effect of SNP on Na,K-ATPase. 7. Taken together the results indicate that Na,K-ATPase inhibition response to NO donors involves activation of sGC, generation of cGMP and activation of PKG. These findings suggest that Na,K-ATPase inhibition in NPE may contribute to the ability of NO donors to reduce aqueous humor secretion.

Molecular and biochemical analysis of ceruloplasmin expression in rabbit and rat ciliary body.

PURPOSE: To verify the capability of rabbit and rat ciliary body to synthesize and secrete ceruloplasmin. METHODS: Isolated ciliary body (CB) was cultured in the presence of [35S]-methionine, and the incubation medium was processed for immunoprecipitation. Total RNA from CB was processed for RT-PCR, and the amplification products were sequenced. Also, sections of CB were immunostained for the localization of ceruloplasmin. RESULTS: A labeled peptide, having a molecular weight of about 135 kDa, the expected size of ceruloplasmin, was immunopurified in the incubation media from both animal species. The RT-PCR and sequencing experiments detected the presence of ceruloplasmin mRNA in rat samples. Both layers of rabbit and rat ciliary epithelium (CE) exhibited ceruloplasmin reactivity after immunohistochemical processing. CONCLUSIONS: Taken altogether, these results indicate the CB, particularly its epithelium, as one of the possible sources of the ocular intrinsic ceruloplasmin.

Expression and prognostic value of putative cancer stem cell markers CD117 and CD15 in choroidal and ciliary body melanoma.

AIMS: The aim of the present study was to immunohistochemically investigate the expression and prognostic significance of putative cancer stem cell markers CD117 (c-kit), CD34, CD20 and CD15 in a cohort of patients with primary choroidal and ciliary body melanoma. METHODS: The immunohistochemical expression of these markers was evaluated using 3,3'-diaminobenzidine tetrahydrochloride (DAB) and 3-amino-9-ethylcarbazole (AEC) chromogens on paraffin-embedded tissue samples from 40 patients who underwent enucleation in the period from 1985 through 2000. Thirty-one patients had adequate tissue specimens for the analysis. RESULTS: CD117 overexpression was observed in 12 of the 31 samples (39%) when AEC chromogen was used and in 14 of 26 (54%) samples when DAB was used. CD15 positivity was seen in three out of 30 (10%) samples with AEC and in six out of 26 (23%) samples with DAB. CD20 and CD34 exhibited no positivity in the tested samples. During the average follow-up time of 8.7 years (range 0.5-22 years), 17 patients (55%) died due to metastatic disease. The Kaplan-Meier plots showed a significantly shorter overall and disease-free survival in CD117-positive patients when the AEC chromogen was used. CD15 expression was not associated with patients' survival. In multivariate analysis, patients expressing the CD117 AEC had 4.13 times higher risk of lethal outcome in comparison with CD117 AEC negative patients. CONCLUSIONS: Our retrospective cohort study has for the first time demonstrated a small proportion of CD15-positive uveal melanomas. CD117 AEC overexpression was associated with a worse outcome in patients with choroidal and ciliary body melanoma. Further studies should confirm the validity of these observations and their potential for targeted treatment modalities.

Content and formation of prostaglandins and distribution of prostaglandin-related enzyme activities in the rat ocular system.

The steady-state levels of prostaglandin D2, E2 and F2 alpha in the rat eye were 0.5, 0.1 and 1.0 ng/g, respectively, which increased differently among the prostaglandins after a 40-min incubation of the homogenate at 37 degrees C (to 23, 12 and 14 ng/g, respectively). When the eye was dissected into anterior uveal, scleral, and retinal complexes, prostaglandin D2 was formed in the highest degree in all the complexes, whereas prostaglandin E2 and F2 alpha formation was specific to given ocular regions. Three prostaglandin synthetase activities with similar Km values (20-40 microM) were found in the 10,000 X g supernatant of these tissues, i.e., GSH-independent and soluble D, GSH-dependent and membrane-bound E, and soluble F synthetase activities. These enzyme activities correlated well with the prostaglandin formation in each tissue. D synthetase activity being highest in all the tissues (11-25 nmol/min per g). Three types of prostaglandin-catabolizing enzyme activities were detected in the 100,000 X g supernatant of the tissues, i.e., type II 15-hydroxy dehydrogenase (Km = 10-30 microM), 9-keto (500 microM) and 11-keto reductase (2.5 mM). The activity of the dehydrogenase was low even in the retina, the tissue with the highest levels (0.51, 0.35 and 0.15 nmol/min per g for prostaglandin E2, F2 alpha and D2, respectively).

Immunohistochemical localization of aldose reductase. II. Rat eye and kidney.

Aldose reductase (AR) was purified from rat seminal vesicles. Specific antibodies to this enzyme were prepared in rabbits and were used in the unlabeled antibody-enzyme (PAP) technique to localize AR in a number of tissues known to be sites of diabetic lesions. AR was localized in the following structures in the eye: lens epithelial lining and cortical lenticular fibers; corneal endothelium; the inner, nonpigmented layer of ciliary body epithelium and its extension as the posterior surface of the iris; and neuroglial (Müller) cells in the retina. Retinal capillary endothelium did not contain immunoreactive AR. In the kidney, staining was intense in the inner medulla. Specific structures included thin limbs of the loop of Henle, collecting tubules deep in the inner medulla, and transitional epithelial cells lining the pelvic space: structures in the cortex including glomerular podocytes and distal convoluted tubules. Collecting tubules in the outer medulla and cortex, as well as proximal convoluted tubules and glomerular capillary endothelium did not contain immunoreactive AR.

Polarization of the Na+, K(+)-ATPase in epithelia derived from the neuroepithelium.

The neuroepithelium generates a fascinating group of epithelia. One of their intriguing properties is how they polarize the distribution of the Na+, K(+)-ATPase. Typically, this ion pump is concentrated in the basolateral membrane, but it is concentrated in the apical membranes of the retinal pigment epithelium and the epithelium of the choroid plexus. A comparison of their development with that of systemic epithelia yields insights into how cells polarize the distribution of this and other membrane proteins. The polarization of the Na+, K(+)-ATPase depends upon the interplay between different sorting signals and different types of polarity mechanisms. These include intracellular targeting signals that direct the delivery of newly synthesized proteins, and maintenance signals that stabilize proteins in the proper membrane domain. Conflicting signals appear to be arranged in a hierarchy that can be rearranged as cells respond to certain environmental stimuli. Part of this response is mediated by changes in the distribution and composition of the cortical cytoskeleton.

Acute effects of PGF2alpha on MMP-2 secretion from human ciliary muscle cells: a PKC- and ERK-dependent process.

PURPOSE: Studies were designed to evaluate the cellular mechanisms associated with prostaglandin (PG)F(2alpha)-induced matrix metalloproteinase (MMP)-2 secretion from human ciliary muscle (HCM) cells. METHODS: The secretion and activity of MMP-2 was determined by Western blot analysis and zymography, using conditioned medium and HCM cells. ERK1/2 activity was measured by in-gel kinase assay and Western blot analysis with anti-phospho-ERK1/2 antibodies. RESULTS: PGF(2alpha) increased the secretion of MMP-2 in a dose-dependent manner with an EC(50) of 2.7 x 10(-8) M. The addition of 1 muM PGF(2alpha) also increased MMP-2 secretion in a time-dependent manner with maximum secretion occurring at 4 hours after administration. At 4 hours, the maximum increase in MMP-2 secretion and activity were 112% +/- 32% and 88% +/- 18%, respectively. The secretory action of PGF(2alpha) was inhibited by pretreatment with a protein kinase C (PKC) inhibitor, chelerythrine chloride; the FP receptor antagonist, AL-8810; and the MEK inhibitor, PD-98059. The addition of PGF(2alpha) and latanoprost acid increased ERK1/2 activity by 117% +/- 12% and 75% +/- 9%, respectively. The PGF(2alpha)- and latanoprost-acid-induced ERK1/2 activation was blocked by the presence of PKC inhibitors and downregulation of PKC by prolonged incubation with a phorbol ester. CONCLUSIONS: These data provide evidence that FP receptor activation leads to an increase in the secretion and activation of MMP-2 through PKC- and ERK1/2-dependent pathways. FP-agonist-induced activation of ERK1/2 was blocked by PKC inhibitors, indicating that PKC activation is required for ERK1/2 activation and MMP-2 secretion from HCM cells. In the ciliary muscle, the functional responses to ERK1/2 activation include secretion of MMP-2, supporting the hypothesis that increases in uveoscleral outflow facility induced by PG administration involves the secretion and activation of MMP-2.

Expression of cell surface transmembrane carbonic anhydrase genes CA9 and CA12 in the human eye: overexpression of CA12 (CAXII) in glaucoma.

PURPOSE: Carbonic anhydrase enzymes (CAs) are universally involved in many fundamental physiological processes, including acid base regulation and fluid formation and movement. In glaucoma patients, CA inhibitors are very effective in lowering intraocular pressure by reducing the rate of aqueous humour secretion mediated by the CAs in the ciliary epithelium. In this work, we investigated the expression and tissue distribution of two recently discovered CA genes CA9 (CAIX) and CA12 (CAXII) in fetal, neonatal, and adult human eyes with and without glaucoma. METHODS: CAIX and CAXII expression in 16 normal and 10 glaucomatous eyes, and in cultured non-pigmented ciliary epithelial cells (NPE) from normal and glaucoma eye donors was assessed by immunostaining. In addition, northern blot hybridisation was performed to assess expression of CA4, CA9, and CA12 mRNA in cultured NPE cells from normal and glaucoma donors. RESULTS: CAXII was localised primarily to the NPE with its expression prominent during embryonic eye development but which decreased significantly in adults. CAIX expression in the NPE was very low. The epithelium of cornea and lens occasionally expressed both enzymes at low levels during development and in adult eye, and no expression was detected in the retina. The NPE from glaucoma eyes expressed higher levels of CAXII, but not CAIX, in comparison with normal eyes. This expression pattern was retained in cultured NPE cell lines. NPE cells from a glaucoma patient showed a five-fold increase in the CA12 mRNA level with no detectable expression of CA9 mRNA. Also, no expression of the CA4 gene encoding a GPI anchored plasma membrane protein was detected on these northern blots. CONCLUSIONS: Transmembrane CAIX and CAXII enzymes are expressed in the ciliary cells and, thus, may be involved in aqueous humour production. CA12 may be a targeted gene in glaucoma.

[Cellular characteristics of cultured non-pigmented ciliary epithelium from adult pigs].

PURPOSE: To compare the reactive proliferation of non-pigmented ciliary epithelial cells in patients with cyclitis, or after cyclophotocoagulation and cyclocryocoagulation, and the cultured non-pigmented ciliary epithelial cells from adult pigs. METHODS: Porcine ciliary epithelial cells were cultured and non-pigmented ciliary epithelial cells were isolated. Detection of DNA synthesis, morphological observation by a phase contrast microscope and a transmission electron microscope, and staining of senescence-associated beta-galactosidase were carried out. RESULTS: The cells proliferated without showing contact inhibition of growth or reconstitution of epithelial morphology. With a decrease of proliferative activity, the cultured cells expressed senescence-associated beta-galactosidase. Although DNA synthesis persisted for a long time, some cells in later culture periods showed morphologically abnormal nuclei or plural nuclei indicating dysfunction of cell division, or apoptotic features. CONCLUSION: The uncontrolled growth and loss of the epithelial nature of non-pigmented ciliary epithelial cells in vitro resembles the process of formation of cyclitic membrane and proliferation of ciliary epithelium after cyclophotocoagulation and cyclocryocoagulation in patients. Observatin of the behavior of cultured non-pigment epithelial cells could aid in understanding the mechanism of cyclitic membrane formation.

Gamma-glutamyl transpeptidase in the pigment cells of rhesus eyes.

We demonstrated that gamma-glutamyl transpeptidase, one of the enzymes of the gamma-glutamyl cycle, is present in the melanocytes of the eyes of rhesus macaques. Enzyme activity was detected in active melaninsynthesizing melanocytes of the iris stoma and in fetal and neonatal retinal pigment epithelium. It was not detected in adults retinal pigment epithelium or choroidal melanocytes, which are ontogenetically more advanced in development and have little melanogenic activity. Our data show that gamma-glutamyl transpeptidase activity correlates well with growth, early differentiation, and active melanogenesis, and support the hypothesis that in addition to tyrosinase, a second enzyme, such as gamma-glutamyl transpeptidase, takes part in the melanin and pheomelanin metabolic pathways.

Identification, expression and chromosome localization of a human gene encoding a novel protein with similarity to the pilB family of transcriptional factors (pilin) and to bacterial peptide methionine sulfoxide reductases.

Here we report the isolation, characterization and chromosome localization of a subtracted cDNA (CBS-1) isolated from the human ocular ciliary body which encodes a novel protein. As is deduced from the nucleotide sequence of the cDNA, CBS-1 contains an open reading frame consisting of 182 amino acids, with a molecular weight of 19.5kDa. CBS-1 shares significant nucleotide and amino acid sequence identities (residues 51 to 182) with a hypothetical 15.5kDa protein in the ANSA-GAP intergenic region (yeaA) of Escherichia coli, and the carboxyl terminal region of pilB, a transcription factor involved in the regulation of expression of pili, from Neisseria gonorrhoeae. Interestingly, CBS-1 also shares significant identity with the carboxyl terminus of the peptide-methionine sulfoxide reductase (MsrA), a repair enzyme, from Helicobacter pylori and Streptococcus pneumoniae. However, the amino terminal of CBS-1 (residues 23 to 43), which lacks homology to the amino terminal region of gonococcal pilB or pneumococcal MsrA, exhibits significant identity in a stretch of 20 amino acids, with glycine-rich proteins. By Northern blot, CBS-1, hybridized to a 0.6 to 0.7kb transcript in size, is expressed ubiquitously in many tissues, but most abundantly in the retina and ocular ciliary body, skeletal muscle and heart. An epitope-directed antibody to an amino acid sequence at the carboxyl terminus of CBS-1 recognized a main protein of 19.5kDa in ocular ciliary body extracts, and a 23kDa protein in total extracts from E. coli MC1061 cells, which expresses high levels of MsrA. The CBS-1 gene was mapped to human chromosome 10p12 between markers WI-8535 and WI-4724, and is tightly linked to the two STRP markers of D10S1789 and D10S550. We suggest that the CBS-1 gene encodes a mammalian transcription factor related to the bacterial pilB and certain bacterial MsrA homologues.