Teresa Borrás scite author profile

The lens structural protein -crystallin and the metabolic enzyme argininosuccinate lyase (ASL; Largininosuccinate argine-lyase, EC 4.3.2.1) have striking sequence similarity. We have demonstrated that duck & crystallin has enormously high ASL activity, while chicken 6crystallin has lower but significant activity. The lenses of these birds had much greater ASL activity than other tissues, suggesting that ASL is being expressed at unusually high levels as a structural component. In Southern blots ofhuman genomic DNA, chicken 61-crystallin cDNA hybridized only to the human ASL gene; moreover, the two chicken 8-crystallin genes accounted for all the sequences in the chicken genome able to cross-hybridize with a human ASL cDNA, with preferential hybridization to the 62 gene. Correlations of enzymatic activity and recent data on mRNA levels in the chicken lens suggest that ASL activity depends on expression of the 82-crystallin gene.The data indicate that the same gene, at least in ducks, encodes two different functions, an enzyme (ASL) and a structural protein (&crystallin), although in chickens specialization and separation of functions may have occurred.

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Tissue Differential Microarray Analysis of Dexamethasone Induction Reveals Potential Mechanisms of Steroid Glaucoma

Lo¹,

Rowlette²,

Caballero³

et al. 2003

Invest. Ophthalmol. Vis. Sci.

122

103

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Genes expressed in the human trabecular meshwork during pressure‐induced homeostatic response

Vittitow

Borrás

2004

Journal Cellular Physiology

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Physiological pressure inside the eye is maintained by a resistance mechanism provided by the trabecular meshwork tissue. In most cases, prolonged, elevated pressure leads to an eye pathology characterized by retinal ganglion cell (RGC) degeneration, optic nerve damage, and non-remedial blindness. We are investigating the regulation of trabecular meshwork genes in response to elevated pressure. Using perfused organ cultures from postmortem human donors, we have previously demonstrated the presence of a homeostatic mechanism at 2-4 days of pressure insult (Borrás et al. 2002, Invest Ophthalmol Vis Sci 43:33-40). Here, we sought to identify trabecular meshwork genes whose expression was altered during this homeostatic period. By macroarray hybridization, we compared the expression profiles of high-pressure (HP) and normal-pressure (NP) treated eyes from the same individual (n = 3 pairs). Our results identified 40 upregulated and 14 downregulated genes. The highest proportion of upregulated genes encoded proteins involved in signal transduction (32%). Among the potentially relevant genes, PIP 5K1C, VIP, tropomodulin, and MMP2 encoded mediators known to influence outflow resistance. Others encoded functions which are new for the trabecular meshwork, but which are intrinsic to unrelated tissues. These new mechanisms appear as they could be of benefit for trabecular meshwork function. Matrix Gla protein (MGP), perlecan, osteomodulin, and osteoblast-specific factor are essential in cartilage and bone physiology whereas spectrin and ICAM4 are specific for blood cells and crucial in maintaining their shape and adhesion. In addition, MGP transcripts were stimulated by extracellular calcium and downregulated by TGF-beta1. We propose that MGP might be an important player in the adaptive homeostatic mechanism by contributing to maintain a softer trabecular meshwork tissue and facilitate aqueous humor outflow.

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Altered secretion of a TIGR/MYOC mutant lacking the olfactomedin domain

Caballero

Rowlette

Borrás

2000

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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TIGR/MYOC, a novel 504 amino acids (aa) protein of unknown function, has recently been linked to glaucoma. The protein is both intra- and extracellular and most known mutations map to its C-terminus, an olfactomedin-like domain. To investigate the properties of a TIGR/MYOC peptide lacking this important domain, we constructed a replication-deficient adenovirus with the first 344 aa and over-expressed the truncated protein in primary human trabecular meshwork cells and perfused human anterior segment cultures. The truncated mutant contains the entire N-terminus plus 98 aa of the olfactomedin-like domain. We found that the delivered truncated mutant accumulates inside the cell, reduces secretion of endogenous TIGR/MYOC and induces an increase in outflow facility at 48 h post-infection. Based on these findings, we hypothesize that TIGR/MYOC might have a dual role in trabecular meshwork function. This dual role might be that of an intracellular modulator of vesicular transport as well as that of a secreted protein involved in extracellular matrix conformation. Both functions could have a direct effect in maintaining aqueous humor outflow facility.

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Self-complementary AAV Virus (scAAV) Safe and Long-term Gene Transfer in the Trabecular Meshwork of Living Rats and Monkeys

Buie

Rasmussen

et al. 2010

Invest. Ophthalmol. Vis. Sci.

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Inefficient Processing of an Olfactomedin-Deficient Myocilin Mutant: Potential Physiological Relevance to Glaucoma

Caballero

Borrás

2001

Biochemical and Biophysical Research Communications

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Matrix GLA Protein Function in Human Trabecular Meshwork Cells: Inhibition of BMP2-Induced Calcification Process

Wang

Wallin

Olmsted-Davis

et al. 2006

Invest. Ophthalmol. Vis. Sci.

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Gene expression in the trabecular meshwork and the influence of intraocular pressure

Borrás

2003

Progress in Retinal and Eye Research

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Teresa Borrás

Gene sharing by delta-crystallin and argininosuccinate lyase.

Tissue Differential Microarray Analysis of Dexamethasone Induction Reveals Potential Mechanisms of Steroid Glaucoma

Genes expressed in the human trabecular meshwork during pressure‐induced homeostatic response

Altered secretion of a TIGR/MYOC mutant lacking the olfactomedin domain

Self-complementary AAV Virus (scAAV) Safe and Long-term Gene Transfer in the Trabecular Meshwork of Living Rats and Monkeys

Inefficient Processing of an Olfactomedin-Deficient Myocilin Mutant: Potential Physiological Relevance to Glaucoma

Matrix GLA Protein Function in Human Trabecular Meshwork Cells: Inhibition of BMP2-Induced Calcification Process

Gene expression in the trabecular meshwork and the influence of intraocular pressure

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