糖皮质激素对小梁网的作用研究进展

应用糖皮质激素可引起眼压升高，它与原发性开角型青光眼关系密切。糖皮质激素对小梁网的作用可作为一个良好模型用于研究青光眼的发病机制。糖皮质激素对小梁网的作用是多方面的，它包括细胞外基质、细胞膜、细胞骨架及细胞核的多重变化。糖皮质激素受体的分子机制的新发现有助于从受体角度了解青光眼的发病机制。     

Heredity in primary open-angle glaucoma

The past years have seen considerable progress in the characterization of hereditary factors in primary open-angle glaucoma. Epidemiologic studies strengthened our knowledge of the hereditary factors in this multifactorial disease. Several loci in the human genome have been described, which segregate with different glaucoma phenotypes. Mutations of the MYOC/TIGR (myocilin/trabecular meshwork inducible glucocorticoid response) gene on chromosome 1q account for most, but probably not all, cases of glaucoma linked to chromosome 1q, and other additional pathologic factors may be implicated. The properties of the normal myocilin protein point to a crucial role in the regulation of intraocular pressure. However, in spite of the knowledge obtained so far, routinely performed genetic screening of patients at risk for primary open-angle glaucoma is not yet clinically useful.     

Corticosteroid-induced glaucoma: a review of the literature

The intraocular pressure rise that can complicate the use of topical or systemic corticosteroid has been recognised for 50 years. More recently, following isolation of the myocilin gene (previously known as the trabecular meshwork inducible glucocorticoid response or TIGR gene), there has been renewed interest in this steroid-responsive phenomenon. Furthermore, the currently fashionable use of injectable intraocular steroids in the management of clinically significant subretinal fluid and macular oedema has resulted in an increased incidence. Animal studies, cell biology, molecular biology, and an improved knowledge of genetics have provided a better understanding of the mechanisms behind the response. The purpose of this review is to describe the risk factors for developing corticosteroid-induced glaucoma, to discuss the underlying mechanisms and genetics of the condition and to present management options.     

A review of genetic and structural understanding of the role of myocilin in primary open angle glaucoma

Primary open angle glaucoma (POAG) is the most common form of glaucoma and the second leading cause of blindness in the world. Discovery of the candidate gene MYOC (TIGR/MYOC) encoding the protein myocilin, believed to have a role in cytoskeletal function, might play a key role in understanding the pathogenesis of POAG. MYOC is expressed in many ocular tissues, including trabecular meshwork (TM), a specialised eye tissue essential in regulating intraocular pressure (IOP). Later it was shown to be the trabecular meshwork inducible-glucocorticoid response protein (TIGR). Mutations in MYOC have been identified as the cause of hereditary juvenile-onset open-angle glaucoma (JOAG). The unprocessed myocilin with signal peptide is a 55-kDa protein with 504 amino acids. Mature myocilin is known to form multimers. Wild type myocilin protein is normally secreted into the trabecular extracellular matrix (ECM) and there appears to interact with various ECM materials. It is believed that the deposition of high amounts of myocilin in trabecular ECM could affect aqueous outflow either by physical barrier and/or through cell-mediated process leading to elevation of IOP. The N-terminal region of the myocilin has sequence similarity to myosin (muscle protein) and the C-terminal of the protein has an olfactomedin-like domain. Structural and genetic studies of the MYOC gene and its protein product along with molecular modeling could lead to better understanding of the pathogenesis of POAG. This review highlights the current understanding of myocilin and the relevance of genetic and structural work.     

Recent developments in understanding the pathophysiology of elevated intraocular pressure

PURPOSE OF REVIEW: The state of the actin cytoskeleton and adhesions of trabecular meshwork cells are important determinants of fluid outflow through the trabecular meshwork. Dysregulation of these subcellular structures or cell loss itself, is expected to adversely affect aqueous humour dynamics and intraocular pressure. This article reviews recent research into the regulation of the cytoskeleton and cell adhesions within the trabecular meshwork. RECENT FINDINGS: Key cytoskeleton regulatory pathways in trabecular meshwork cells and their extracellular matrix significantly influence outflow facility. Integrins and matrix proteins play an important part in cell-matrix communication and mediate trabecular meshwork cytoskeletal changes. Increased cross-linking of the actin cytoskeleton may render the trabecular meshwork stiffer and more resistant to aqueous outflow. In-vitro studies show that transforming growth factor-beta induces actin stress fibres in trabecular meshwork cells, indicating that the cells become more contractile. Myocilin and the heparin II domain of fibronectin also influence the actin cytoskeleton. Mutated myocilin appears to affect trabecular meshwork cells differently from wild-type myocilin and can reduce cell survival. Reduced cell survival is also associated with primary open angle glaucoma, ageing, cellular senescence and oxidative insults. SUMMARY: These findings represent advances in understanding physiological and pathogenic mechanisms within the trabecular meshwork that are relevant to intraocular pressure regulation in health and glaucoma. They pave the way for future research on the pathogenesis of glaucoma and new targets for glaucoma therapy.     

小梁网细胞氧化应激在青光眼发病中的研究进展

青光眼是一种常见的不可逆性致盲眼病,病理性眼压升高为主要临床特征。眼压的形成与房水循环密切相关,房水动力学异常,会引起病理性眼压升高。小梁网是房水外流通道的主要组成部分,对维持正常眼压起到非常关键的作用。氧化应激是导致青光眼眼压升高的直接危险因素,表现为氧化与抗氧化作用的失衡。小梁网细胞氧化应激可能导致细胞外基质的沉积与退行性变,使细胞发生自噬和衰老,造成小梁网细胞功能障碍,最终导致房水外流阻力增大,引起病理性眼压升高。本文将针对小梁网细胞氧化应激与青光眼关系的研究进展进行综述,以期为进一步的临床研究提供依据,为探讨青光眼的发病机制、预防及治疗青光眼提供参考。     

激素性青光眼的研究进展

目的自激素性青光眼首次报道以来已有50多年,人们对于激素性青光眼的危险因素、发病机制和防治都有了进一步的了解。原发性开角型青光眼患者及其亲属,高度近视眼患者等对激素治疗引起的眼压增高较敏感。糖皮质激素主要是通过糖皮质激素受体发挥作用,使小梁网的细胞外基质沉积,增加房水流出阻力而导致眼压升高。进一步了解激素性青光眼的危险因素和发病机制可以有助于我们更好的预防和治疗激素性青光眼。     

氧化应激对小梁网的损伤

青光跟是一组以视网膜神经节细胞(RGCs)丢失和视野缺损为特征的神经退行性疾病,其病理机制尚不完全清楚,眼压升高被认为是青光眼发生和发展最主要的危险因素.小梁网及Schlemm管是房水引流系统的主要组成部分,其结构或功能异常可引起房水流出的受阻进而引起眼压升高.越来越多的证据表明,氧化损伤可能在人小梁网细胞凋亡、功能障碍及其他退行性改变过程中发挥作用.氧化损伤是体内氧化和抗氧化失衡,从而引起脂质过氧化反应、蛋白质变性、DNA损伤等一系列组织病理损伤的过程.既往研究发现青光眼患者房水中氧化应激标志物水平升高,且氧化应激可引起小梁网细胞DNA氧化损伤、细胞内线粒体氧化损伤和炎症反应.本文就氧化应激在小梁网功能损伤中发挥的作用及可能的机制进行综述.     

Distribution of glucocorticoid and mineralocorticoid receptors and 11beta-hydroxysteroid dehydrogenases in human and rat ocular tissues

PURPOSE: The administration of glucocorticoids as topical or systemic medications may lead to the development of ocular hypertension through the induction of morphologic and biochemical changes in the trabecular meshwork leading to a reduction in the facility of aqueous outflow. Glucocorticoids exert their physiological effects by binding to and activating glucocorticoid and mineralocorticoid receptors. The activity of glucocorticoids is critically regulated at a prereceptor level by the two isozymes of 11beta-hydroxysteroid dehydrogenase. The purpose of this study was to determine the distribution of glucocorticoid target receptors and the isozymes of 11beta-hydroxysteroid dehydrogenase (11 beta-HSD) that regulate the activity of glucocorticoids at a prereceptor level in human and rat ocular tissues. METHODS: Horizontal sections of normal adult human and rat eyes were cut and hybridized with 35S-labeled cRNA probes specific for the glucocorticoid receptor, mineralocorticoid receptor, and 11beta-HSD types 1 and 2 using in situ hybridization. Immunohistochemical analysis of glucocorticoid and mineralocorticoid receptors using monoclonal antibodies was carried out on rat eye tissue sections. Whole rat eyes were homogenized and the activity of 11beta-HSD types 1 and 2 in the eye assessed as the percentage conversion of tritiated corticosterone to tritiated 11-dehydrocortico-sterone when corticosterone was added to the homogenate. RESULTS: In the rat ocular tissues mRNAs encoding glucocorticoid receptor, mineralocorticoid receptor, and 11beta-HSD types 1 and 2 were detected in nonpigmented ciliary epithelium, trabecular meshwork, corneal epithelium and endothelium, and anterior lens epithelium. Immunohistochemistry confirmed the presence of glucocorticoid and mineralocorticoid receptors at these sites. Activity of both isozymes of 11beta-HSD was demonstrated in homogenized rat eyes (percentage conversion of tritiated corticosterone to 11-dehydrocorticosterone; mean +/- SD, 11beta-HSD 1 = 15% +/- 5.3%, 11beta-HSD 2 = 7.9% +/- 2.8%). In both human and rat eyes, expression of mRNAs encoding glucocorticoid receptor and 11beta-HSD type 1 was high in the trabecular meshwork and lens epithelium, whereas expression of mRNAs encoding the mineralocorticoid receptor and 11beta-HSD type 2 was high in nonpigmented ciliary epithelium and corneal epithelium and endothelium. CONCLUSIONS: Glucocorticoid target receptors and the enzymes regulating glucocorticoid activity at these receptors are present in mammalian ocular tissues, which regulate aqueous humor formation and outflow. Alteration in the number or affinity of receptors or in the activity of regulatory enzymes may alter the susceptibility of certain individuals to the effects of glucocorticoids on intraocular pressure.     

Myocilin misfolding and glaucoma: A 20-year update

Mutations in the gene MYOC account for approximately 5% of cases of primary open angle glaucoma (POAG). MYOC encodes for the protein myocilin, a multimeric secreted glycoprotein composed of N-terminal coiled-coil (CC) and leucine zipper (LZ) domains that are connected via a disordered linker to a 30 kDa olfactomedin (OLF) domain. More than 90% of glaucoma-causing mutations are localized to the OLF domain. While myocilin is expressed in numerous tissues, mutant myocilin is only associated with disease in the anterior segment of the eye, in the trabecular meshwork. The prevailing pathogenic mechanism involves a gain of toxic function whereby mutant myocilin aggregates intracellularly instead of being secreted, which causes cell stress and an early timeline for TM cell death, elevated intraocular pressure, and subsequent glaucoma-associated retinal degeneration. In this review, we focus on the work our lab has conducted over the past ∼15 years to enhance our molecular understanding of myocilin-associated glaucoma, which includes details of the molecular structure and the nature of the aggregates formed by mutant myocilin. We conclude by discussing open questions, such as predicting phenotype from genotype alone, the elusive native function of myocilin, and translational directions enabled by our work.     

色素性青光眼的发病机制

色素性青光眼是一类发病机制相对"单纯"的继发性开角型青光眼,眼压升高的主要原因在于大量色素颗粒沉积于小梁网并导致房水流出阻力增加.色素颗粒除了机械性堵塞小梁网间隙,还可导致吞噬色素颗粒超负荷的小梁细胞死亡、裂解,小梁柱暴露并相互融合,小梁网间隙变窄甚至消失.此外,葡萄膜巩膜途径房水动力学改变,复杂的分子遗传以及免疫机制...     

Glucocorticoid induction of the glaucoma gene MYOC in human and monkey trabecular meshwork cells and tissues.

PURPOSE. To examine the intracellular and extracellular expression of myocilin in the human and primate trabecular meshwork (TM) in the presence and absence of glucocorticoids. METHODS. Myocilin expression was examined in cultured human TM cells by Northern blot analysis and myocilin antibody-mediated immunoprecipitation. Myocilin expression was quantified using high-resolution two-dimensional polyacrylamide gel electrophoresis of radiolabeled proteins from human TM cells, TM tissue explants, and perfused human anterior segments cultured with and without dexamethasone (DEX) for 14 to 21 days, as well as TM tissue from pigtailed monkeys treated orally for 1 year with cortisone acetate. Immunofluorescence with anti-myocilin antibodies was used to localize cellular and extracellular expression of myocilin in cultured human TM cells. RESULTS. Glucocorticoid treatment caused a significant induction of myocilin mRNA, a tetrad of cell-associated proteins, and 8 to 20 secreted proteins (molecular mass [M(r)] 56 and 59 kDa and isoelectric point [pI] 5.2 and 5.3) in some, but not all the cultured human TM cells and explanted tissues. Western immunoblot analysis using anti-myocilin peptide antibodies identified these proteins as encoded by the MYOC gene. There was significant induction of the myocilin proteins in three perfusion-cultured human eyes, in which DEX-induced elevated intraocular pressure developed. Monkeys treated 1 year with cortisol acetate showed steroid glaucoma-like morphologic changes in the TM that correlated with the induction of myocilin in the TM. Immunofluorescence analysis of cultured TM cells localized myocilin intracellularly in discrete perinuclear and cytoplasmic vesicular deposits as well as extracellularly on the cell surface associated with the extracellular matrix. In several DEX-treated TM cell lines, there were significant levels of myocilin secreted into the media. Enzymatic deglycosylation of proteins in the TM media converted the higher molecular weight isoforms of myocilin (approximately 57 kDa) to the lower molecular weight isoforms ( approximately 55 kDa). CONCLUSIONS. Although the function of myocilin is unknown, induction of these TM proteins was found in eyes in which glucocorticoid-induced ocular hypertension developed. Therefore, myocilin may play an important pathogenic role in ocular hypertension in addition to its role in certain forms of POAG.     

Myocilin gene expression in the trabecular meshwork of rats in a steroid-induced ocular hypertension model

PURPOSE: To investigate the expression pattern of myocilin in the trabecular meshwork of normal and dexamethasone-induced ocular hypertensive rat eyes. MATERIALS AND METHODS: An ocular hypertension model was generated by application of topical dexamethasone to rat eyes 4 times daily for 1, 2, and 4 weeks. Age-matched untreated eyes served as controls. The intraocular pressure (IOP) was monitored by electronic Tono-pen under anesthesia. The protein and mRNA levels of myocilin in the trabecular meshwork and endothelial lining of Schlemm's canal were investigated by immunohistochemistry and in situ hybridization, respectively. For semiquantitative evaluation, areas with positive staining were analyzed by a computer-assisted image-processing system with NIH software. RESULTS: The IOP in rat eyes was elevated after 2 weeks of topical dexamethasone treatment. Despite the IOP elevation, the protein and mRNA levels of myocilin in the trabecular meshwork and around Schlemm's canal in the steroid-treated eyes were not different from those of controls. CONCLUSION: No discernible changes in myocilin expression in the chamber angle indicate that myocilin may not be directly linked to ocular hypertension, at least not in rat eyes after relatively short-term steroid application.     

Advanced juvenile open-angle glaucoma in an 8-year-old Haitian girl.

BACKGROUND: Glaucoma can afflict infants and children in several ways. Conditions such as inflammation or trauma can contribute to elevated intraocular pressure in secondary glaucoma, whereas congenital abnormalities of the trabecular meshwork development can result in infantile glaucoma. Lesser known, however, is juvenile open-angle glaucoma, which afflicts children and young adults in a manner similar to primary open-angle glaucoma, with no identifiable trabecular meshwork abnormalities or other secondary causes. CASE REPORT: An 8-year-old Haitian girl was referred for suspicion of a left optic neuropathy. Examination found markedly elevated intraocular pressure with open angles and advanced glaucomatous neuropathy in each eye without evidence of signs of infantile or secondary glaucoma. Medical therapy was instituted before surgical consultation. Clinical features of patients with juvenile open-angle glaucoma are presented along with a discussion of genetic expression and management of the condition. CONCLUSIONS: Juvenile open-angle glaucoma, although uncommon, can cause significant visual morbidity in children. In that children represent a unique and atypical glaucoma population with special therapeutic needs, all treatment options must be clearly understood.     

Expression of myocilin/TIGR in normal and glaucomatous primate optic nerves

Myocilin/TIGR was the first molecule discovered to be linked with primary open angle glaucoma (POAG), a blinding disease characterized by progressive loss of retinal ganglion cells. Mutations in myocilin/TIGR have been associated with age of disease onset and severity. The function of myocilin/TIGR and its role in glaucoma is unknown. Myocilin/TIGR has been studied in the trabecular meshwork to determine a role in regulation of intraocular pressure. The site of damage to the axons of the retinal ganglion cells is the optic nerve head (ONH). The myocilin/TIGR expression was examined in fetal through adult human optic nerve as well as in POAG. Myocilin/TIGR was expressed in the myelinated optic nerve of children and normal adults but not in the fetal optic nerve before myelination. Also examined was the expression in monkeys with experimental glaucoma. The results demonstrate that optic nerve head astrocytes constitutively express myocilin/TIGR in vivo in primates. Nevertheless, myocilin/TIGR is apparently reduced in glaucomatous ONH. The colocalization of myocilin/TIGR to the myelin suggests a role of myocilin/TIGR in the myelinated optic nerve.     

Myocilin in the trabecular meshwork of eyes with primary open-angle glaucoma

Background  

Mutations in myocilin, a 55–57 kDa secreted glycoprotein, are causative for some forms of primary open-angle glaucoma (POAG). In vitro studies indicate that myocilin can modulate the hydrodynamic outflow resistance in the trabecular meshwork (TM) and that elevated amounts of myocilin can obstruct the TM outflow system in POAG. In this study, we analyzed the localization of myocilin in the trabecular meshwork (TM) of eyes with primary open-angle glaucoma (POAG), and compared it with that of normal eyes.     

The effects of dexamethasone on fibronectin expression in cultured human trabecular meshwork cells.

Topical administration of glucocorticoids to the eye can lead to the development of ocular hypertension. This increase in intraocular pressure is caused by the heightened resistance to flow of aqueous humor from the eye, presumably at the trabecular meshwork (TM). This study reports the effects of dexamethasone (DEX) on the expression of the extracellular matrix protein fibronectin (FN) in cultured human TM cells (HTM). The expression of FN was evaluated in four HTM cell strains by epifluorescence microscopy and immunoblotting and autofluorography of electrophoretically separated cell proteins. There was a heterogeneous response of the four cell strains tested. Treatment of cell strain HTM4 with DEX (10(-7) mol/l) for 17 d caused an approximate doubling of cell-associated and secreted FN. This DEX-induced increase in FN expression was progressive after the first 7 d of treatment and was blocked partially with a glucocorticoid antagonist, cortexolone. By contrast, DEX treatment induced an intermediate 50-60% increase in FN expression in cell strains HTM10 and HTM2; in HTM6, FN was unchanged after exposure to the glucocorticoid. This model system may be useful to examine molecular changes associated with corticosteroid-induced ocular hypertension and evaluate glaucomatous changes in the TM because increased FN deposition occurs in the aqueous humor outflow pathway of patients with open-angle glaucoma.