Min-Lee Chang

High glucose activates ChREBP-mediated HIF-1α and VEGF expression in human RPE cells under normoxia

OBJECTIVE Because retina-damaging angiogenesis is controlled by vascular endothelial growth factor (VEGF) and people with higher glucose intakes are more susceptible to retinal complications that may be due to increased VEGF, it is crucial to elucidate relations between glucose exposure and VEGF expression. We aimed to determine if a carbohydrate response element binding protein (ChREBP) plays a role in the transcriptional up-regulation of hypoxia-inducible factor-1α (HIF-1α) and the downstream VEGF expression in retinal pigment epithelial (RPE) cells exposed to high glucose under normoxic conditions. METHODS ARPE19 cells were exposed to 5.6, 11, 17, 25 and 30 mM glucose for 48 h in serum-free culture media under normoxic (21 % O2) conditions. Protein and mRNA expression of indicated genes were determined by immunoblot analyses and real-time RT-PCR, respectively. An enzyme-linked immunosorbent assay (ELISA) was used to detect the concentrations of VEGF in the media. Immunofluorescence (IF) and chromatin immunoprecipitation (ChIP) for ChREBP were used to demonstrate nuclear translocation and HIF-1α gene promoter association, respectively. RESULTS Immunoblot analyses showed that HIF-1α levels were positively related to levels of glucose exposure between 5.6-25 mM in the RPE cells, indicating the induction and stabilization of HIF-1α by elevated glucose under normoxic conditions. Human lens epithelial cells and HeLa cells did not respond to high glucose, implying that this phenomenon is cell type-specific. Real-time RT-PCR for HIF-1α and VEGF and ELISA for VEGF indicated that high glucose is associated with elevated production of HIF-1α-induced VEGF, an established inducer of neovascularization, in the RPE cells. IF analyses showed that, although ChREBP was expressed under both low (5.6 mM) and high (25 mM) glucose conditions, it appeared more in the nuclear region than in the cytosol of the RPE cells after the high glucose treatment. ChIP analyses suggested a HIF-1α gene promoter association with ChREBP under the high glucose condition. These results imply that RPE cells use cytosolic ChREBP as a glucose sensor to up-regulate HIF-1α expression. CONCLUSION These results suggest a high glucose-induced, ChREBP-mediated, and normoxic HIF-1α activation that may be partially responsible for neovascularization in both diabetic and age-related retinopathy.

Altered ubiquitin causes perturbed calcium homeostasis, hyperactivation of calpain, dysregulated differentiation, and cataract

Significance Eye lens opacification or cataract is the most prevalent age-related disease, blinding 18 million people. Cataractogenesis involves accumulation and precipitation of damaged proteins from the normally clear lens. The ubiquitin proteolytic system is the main cytoplasmic degradative pathway that is charged with selectively removing damaged proteins. Ubiquitin has seven lysines. Although lysine 6 is involved in less than 3% of ubiquitin conjugates and we find few changes in lens proteins when lysine 6 is unavailable, we observed that mutating ubiquitin lysine 6 alters cell coupling, resulting in Ca2+ elevation, hyperactivation of calpain, and associated cleavage of substrates, culminating in developmental defects and a cataractous lens. The data show previously unidentified connections between ubiquitin proteasome systems (UPSs) and calpain-based degradative systems and illuminate roles for ubiquitin lysine 6 in development. Although the ocular lens shares many features with other tissues, it is unique in that it retains its cells throughout life, making it ideal for studies of differentiation/development. Precipitation of proteins results in lens opacification, or cataract, the major blinding disease. Lysines on ubiquitin (Ub) determine fates of Ub-protein substrates. Information regarding ubiquitin proteasome systems (UPSs), specifically of K6 in ubiquitin, is undeveloped. We expressed in the lens a mutant Ub containing a K6W substitution (K6W-Ub). Protein profiles of lenses that express wild-type ubiquitin (WT-Ub) or K6W-Ub differ by only ∼2%. Despite these quantitatively minor differences, in K6W-Ub lenses and multiple model systems we observed a fourfold Ca2+ elevation and hyperactivation of calpain in the core of the lens, as well as calpain-associated fragmentation of critical lens proteins including Filensin, Fodrin, Vimentin, β-Crystallin, Caprin family member 2, and tudor domain containing 7. Truncations can be cataractogenic. Additionally, we observed accumulation of gap junction Connexin43, and diminished Connexin46 levels in vivo and in vitro. These findings suggest that mutation of Ub K6 alters UPS function, perturbs gap junction function, resulting in Ca2+ elevation, hyperactivation of calpain, and associated cleavage of substrates, culminating in developmental defects and a cataractous lens. The data show previously unidentified connections between UPS and calpain-based degradative systems and advance our understanding of roles for Ub K6 in eye development. They also inform about new approaches to delay cataract and other protein precipitation diseases.

Disassembly of the lens fiber cell nucleus to create a clear lens: The p27 descent.

The eye lens is unique among tissues: it is transparent, does not form tumors, and the majority of its cells degrade their organelles, including their cell nuclei. A mystery for over a century, there has been considerable recent progress in elucidating mechanisms of lens fiber cell denucleation (LFCD). In contrast to the disassembly and reassembly of the cell nucleus during mitosis, LFCD is a unidirectional process that culminates in destruction of the fiber cell nucleus. Whereas p27Kip1, the cyclin-dependent kinase inhibitor, is upregulated during formation of LFC in the outermost cortex, in the inner cortex, in the nascent organelle free zone, p27Kip1 is degraded, markedly activating cyclin-dependent kinase 1 (Cdk1). This process results in phosphorylation of nuclear Lamins, dissociation of the nuclear membrane, and entry of lysosomes that liberate DNaseIIβ (DLAD) to cleave chromatin. Multiple cellular pathways, including the ubiquitin proteasome system and the unfolded protein response, converge on post-translational regulation of p27Kip1. Mutations that impair these pathways are associated with congenital cataracts and loss of LFCD. These findings highlight new regulatory nodes in the lens and suggest that we are close to understanding this fascinating terminal differentiation process. Such knowledge may offer a new means to confront proliferative diseases including cancer.

Visualization of Dietary Patterns and Their Associations With Age-Related Macular Degeneration

Purpose We aimed to visualize the relationship of predominant dietary patterns and their associations with AMD. Methods A total of 8103 eyes from 4088 participants in the baseline Age-Related Eye Disease Study (AREDS) were classified into three groups: control (n = 2739), early AMD (n = 4599), and advanced AMD (n = 765). Using principle component analysis, two major dietary patterns and eight minor dietary patterns were characterized. Applying logistic regression in our analysis, we related dietary patterns to the prevalence of AMD. Qualitative comparative analysis by operating Boolean algebra and drawing Venn diagrams was used to visualize our findings. Results In general, the eight minor patterns were subsets or extensions of either one of the two major dietary patterns (Oriental and Western patterns) and consisted of fewer characteristic foods than the two major dietary patterns. Unlike the two major patterns, which were more strongly associated with both early and advanced AMD, none of the eight minors were associated with early AMD and only four minor patterns, including the Steak pattern (odds ratio comparing the highest to lowest quintile of the pattern score = 1.73 [95% confidence interval: 1.24 to 2.41; Ptrend = 0.02]), the Breakfast pattern (0.60 [0.44 to 0.82]; Ptrend = 0.004]), the Caribbean pattern (0.64 [0.47 to 0.89; Ptrend = 0.009]), and the Peanut pattern (0.64 [0.46 to 0.89; Ptrend = 0.03]), were significantly associated with advanced AMD. Our data also suggested several potential beneficial (peanuts, pizza, coffee, and tea) and harmful (salad dressing) foods for AMD. Conclusions Our data indicate that a diet of various healthy foods may be optimal for reducing AMD risk. The effects of some specific foods in the context of overall diet warrant further study.

Associations between Periodontal Microbiota and Death Rates

It is conceived that specific combinations of periodontal bacteria are associated with risk for the various forms of periodontitis. We hypothesized that such specificity is also related to human cause-specific death rates. We tested this hypothesis in a representative sample of the US population followed for a mean duration of 11 years and found that two specific patterns of 21 serum antibodies against periodontal bacteria were significantly associated with increased all-cause and/or diabetes-related mortalities. These data suggested that specific combinations of periodontal bacteria, even without inducing clinically significant periodontitis, may have a significant impact on human cause-specific death rates. Our findings implied that increased disease and mortality risk could be transmittable via the transfer of oral microbiota, and that developing personalized strategies and maintaining healthy oral microbiota beyond protection against periodontitis would be important to manage the risk.