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Query: UMLS:C0086543 (
cataract
)
29,165
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
3-Hydroxykynurenine (3OHKyn), the precursor of UV filters in human lens, is highly autooxidizable, generates H2O2, and binds to lens proteins, yielding a tanned/yellow product resembling senile nuclear cataractous materials. Thus, if 3OHkyn can be shown to be the causative agent in
cataract
, it may be possible to prevent the disease by lowering the level of 3OHKyn. To this end,
indoleamine 2,3-dioxygenase
, the first enzyme in UV filter synthesis, was studied using lens epithelial cell lines. The results indicated that the IDO expression is mediated by IFN-gamma. Immuno-suppressants which inhibit production of IFN-gamma may act as anti-
cataract
agents. Another way to lower the level of 3OHKyn is to use specific inhibitors for IDO. A recombinant human IDO was expressed to develop the inhibitors.
...
PMID:Regulation of indoleamine 2,3-dioxygenase, the first enzyme in UV filter biosynthesis in the human lens. Relevance for senile nuclear cataract. 1072 Oct 62
Tryptophan deficiency is known for long time to cause
cataract
in rats. However, up till now the underlying mechanism is still enigmatic. Histological studies showed an extended lens bow suggesting that the normal breakdown of nuclei in the lens fibres is arrested under these conditions. Using advanced ultrastructural techniques we aimed to clarify this aberrant final differentiation of lens fibres. Albino and pigmented rats were permanently or intermittently raised on a tryptophan deficient diet for 12 and 16 weeks, respectively. Rats of the same age raised on a normal diet served as controls. Lenses were treated for light and electron microscopy. For histology sections were stained for DNA and gamma-crystallins. In addition to routine transmission electron microscopy (TEM), ultrathin sections were subjected to electron tomography and energy dispersive X-ray microanalysis (EDX). Histology verified the extended lens bow for albino and pigmented rats and showed that in the intermittent period of normal diet the fibre nuclei are broken down as in controls. It was further shown that gamma-crystallins are co-localized with DNA in the nuclear domain. TEM revealed that during final differentiation nuclear chromatin becomes highly compacted in a chromosome-like manner and than rapidly evanesces in control rats. This compacted stage persists indefinitely in the tryptophan deficient rats. Electron tomography showed that during differentiation chromatin is first uncoiled to 30 nm solenoids, subsequently to highly compacted 10 nm beads-on-a-string fibrils and than is segregated from the nuclear proteins. EDX revealed that the late stage persisting nuclei consist of domains rich in DNA associated with histones and in domains with mainly proteins. This study corroborates previous findings on the final breakdown of nuclei of lens fibres. It further shows that the chromatin is ultimately uncoiled to beads-on-a-string fibrils and that as the last step chromatin is broken down at this unmasked stage. Except for this last step nuclear breakdown is identical in control and tryptophan deficient rats suggesting that it is not the availability of tryptophan for protein synthesis in general which causes the arrest. Two alternatives for this final arrest are discussed. A low tryptophan content, most pronounced in deeper cortical layers, may inhibit the late synthesis of the DNases and proteases necessary for chromatin breakdown. The radical scavenging by
indoleamine 2,3-dioxygenase
, which cleaves the pyrrole ring of tryptophan to form formylkynurenine using free oxygen radicals, is impaired by low levels of tryptophan. This decreased scavenging of oxygen radicals will expose the catalytic enzymes for chromatin breakdown, residing in the nucleus in an inactive form for quite a long period, to high levels of oxygen radicals and may affect the activity of these enzymes and therefore the execution of the chromatin breakdown.
...
PMID:Tryptophan deficiency arrests chromatin breakdown in secondary lens fibers of rats. 1510 46
Interferon-gamma (IFN-gamma) is known to cause apoptosis of lens epithelial cells and
cataract
formation, but the molecular mechanisms underlying these effects are unknown. IFN-gamma induces the expression of
indoleamine 2,3-dioxygenase
(
IDO
) and thereby enhances the production of kynurenines from l-tryptophan. The present study was designed to investigate the role of
IDO
and kynurenines in the IFN-gamma-mediated apoptosis of lens epithelial cells and to determine the signaling pathways involved. IFN-gamma stimulated the synthesis of
IDO
and activated the JAK-STAT1 signaling pathway in human lens epithelial cells (HLE-B3) in a dose-dependent manner. Meanwhile, fludarabine, an inhibitor of STAT1 activation, blocked IFN-gamma-mediated
IDO
expression. N-Formylkynurenine, kynurenine (Kyn) and 3-hydroxykynurenine (3OHKyn) were detected in cells, with 3OHKyn concentrations being higher than those of the other kynurenines. The intracellular production of kynurenines was completely blocked by 1-methyl-DL-tryptophan (MT), an inhibitor of
IDO
. Kyn- and 3OHKyn-modified proteins were detected in IFN-gamma-treated cells. The induction of
IDO
by IFN-gamma in HLE-B3 cells caused increases in intracellular ROS, cytosolic cytochrome c and caspase-3 activity, along with a decrease in protein-free thiol content. These changes were accompanied by apoptosis. At equimolar concentrations, 3OHKyn caused higher levels of apoptosis than the other kynurenines in HLE-B3 cells. MT and a kynurenine 3-hydroxylase inhibitor (Ro61-8048) effectively inhibited IFN-gamma-mediated apoptosis in HLE-B3 cells. Our results show that the induction of
IDO
by IFN-gamma is JAK-STAT1 pathway-dependent and that this induction causes 3OHKyn-mediated apoptosis in HLE-B3 cells. These data suggest that
IDO
-mediated kynurenine formation could play a role in
cataract
formation related to chronic inflammation.
...
PMID:Induction of indoleamine 2,3-dioxygenase by interferon-gamma in human lens epithelial cells: apoptosis through the formation of 3-hydroxykynurenine. 2043 58
Fibroblast growth factor-2 (FGF2)-mediated signaling plays an important role in fiber cell differentiation in eye lens. We had previously shown that kynurenine (KYN) produced from the overexpression of
indoleamine 2,3-dioxygenase
(
IDO
) causes defects in the differentiation of fiber cells, induces fiber cell apoptosis and
cataract
formation in the mouse lens, and leads to cell cycle arrest in cultured mouse lens epithelial cells (mLEC). In this study, we demonstrate that exogenous KYN reduces FGF2-mediated expression of alpha-, beta-, and gamma-crystallin and MIP26 in mLEC. We show that endogenously produced KYN in mLEC of
IDO
transgenic animals causes similar defects in FGF2-induced protein expression and that a competitive inhibitor of
IDO
prevents such defects. Our data also show that KYN inhibits FGF2-induced Akt and ERK1/2 phosphorylation in mLEC, which are required for crystallin and MIP26 expression in the lens. KYN does not inhibit FGF2 binding to cells but inhibit phosphorylation of FGFR1in mLEC. Together our data suggest that KYN might inhibit FGF2-mediated fiber cell differentiation by preventing expression of crystallins and MIP26. Our studies provide a novel mechanism by which KYN can exert deleterious effects in cells.
...
PMID:Kynurenine inhibits fibroblast growth factor 2-mediated expression of crystallins and MIP26 in lens epithelial cells. 2047 81
Advanced glycation end products (AGEs) contribute to lens protein pigmentation and cross-linking during aging and
cataract
formation. In vitro experiments have shown that ascorbate (ASC) oxidation products can form AGEs in proteins. However, the mechanisms of ASC oxidation and AGE formation in the human lens are poorly understood. Kynurenines are tryptophan oxidation products produced from the
indoleamine 2,3-dioxygenase
(
IDO
)-mediated kynurenine pathway and are present in the human lens. This study investigated the ability of UVA light-excited kynurenines to photooxidize ASC and to form AGEs in lens proteins. UVA light-excited kynurenines in both free and protein-bound forms rapidly oxidized ASC, and such oxidation occurred even in the absence of oxygen. High levels of GSH inhibited but did not completely block ASC oxidation. Upon UVA irradiation, pigmented proteins from human cataractous lenses also oxidized ASC. When exposed to UVA light (320-400 nm, 100 milliwatts/cm(2), 45 min to 2 h), young human lenses (20-36 years), which contain high levels of free kynurenines, lost a significant portion of their ASC content and accumulated AGEs. A similar formation of AGEs was observed in UVA-irradiated lenses from human
IDO
/human sodium-dependent vitamin C transporter-2 mice, which contain high levels of kynurenines and ASC. Our data suggest that kynurenine-mediated ASC oxidation followed by AGE formation may be an important mechanism for lens aging and the development of senile cataracts in humans.
...
PMID:UVA light-excited kynurenines oxidize ascorbate and modify lens proteins through the formation of advanced glycation end products: implications for human lens aging and cataract formation. 2479 34
