Effects of aging in vitro on intracellular proteolysis in cultured rabbit lens epithelial cells in the presence and absence of serum

Summary Alterations in proteolytic capabilities have been associated with abnormalities in the aged eye lens, but in vivo tests of this hypothesis have been difficult to pursue. To simulate aging, we cultured cells from an 8-yr-old rabbit to early (population-doubling level 20 to 30) and late (population-doubling level > 125) passage. Long-lived (t_1/2>10 h) and short-lived (t_1/2<10 h) intracellular proteins were labeled with [³H]leucine, and the ability of the cells to mount a proteolytic response to the stress of serum withdrawal was determined. For early passage cells, the average t_1/2 of long-lived proteins in the presence and absence of serum was 62 and 39 h, respectively. For late-passage cells, the average t_1/2 of long-lived proteins in the presence and absence of serum was 58 and 43 h, respectively. The net increase in intracellular proteolysis in the absence of serum was 59 and 35% for early and late-passage cells, respectively. Thus, in vitro-aged rabbit lens epithelial cells mount only 60% the proteolytic response to serum removal shown in “younger” cells. The enhanced ability of early passage cells to respond to serum removal seems to involve lower homeostatic levels of proteolysis in the presence of serum and greater enhancement of proteolysis in the absence of serum. Less than 2% of the protein is in the pool of short-lived proteins. Rates of proteolysis of short-lived proteins in the presence and absence of serum were indistinguishable. With respect to basal proteolytic rates in the presence of serum and ability to mount a proteolytic response upon serum withdrawal, these rabbit lens epithelial cells are similar to bovine lens epithelial cells and fibroblasts. This work was supported in part by contract 53-3K06-5-10 U.S. Department of Agriculture, Washington, DC, Massachusetts Lions Eye Research FUnd, Inc., the Daniel and Florence Guggenheim Foundation, and a grant EY00362 from the National Eye Institute, Bethesda, MD.     

The role of melatonin as an antioxidant in human lens epithelial cells

Abstract

Oxidative stress plays a significant role in pathophysiology of cataracts and also known to affect the phosphatidylinositol-3-kinase/ protein kinase B (PI3K/Akt) signaling pathway. This well-documented pathway is involved in protecting against apoptosis-inducing insults, including oxidative stress. Melatonin (N-acetyl-5-methoxy-tryptamine), the major secretory product of the pineal gland, was identified as a powerful free radical scavenger and a broad-spectrum antioxidant that defends against various oxidative stress-associated diseases. This study was conducted to determine whether melatonin could prevent hydrogen peroxide (H₂O₂)-induced oxidative stress in human lens epithelial cells (HLECs) and to elucidate the molecular pathways involved in this protection. HLECs were subjected to various concentrations of H₂O₂ in the presence or absence of melatonin at different concentrations. Cell viability was monitored by a 3-(4, 5-dimethylthiazol-2yl)-2, 5-diphenyl-tetrazoliumbromide (MTT) assay, and the apoptosis rate and intracellular reactive oxygen species (ROS) levels were measured by flow cytometry using annexin V-FITC and propidium iodide (PI) staining. The expression levels of HO-1, Nrf-2, CAT, and MDA were measured using Western blot analysis. Akt activation was also evaluated by Western blot analysis. The data from our study showed that cells pretreated with melatonin can reduce H₂O₂-induced intracellular ROS generation and thus protect HLECs from cell apoptosis. Furthermore, we found that melatonin is a potent activator of Akt in HLECs. Our findings suggest that in addition to functioning as a direct free radical scavenger, melatonin can elicit cellular signaling pathways that are protective against oxidative stress-induced cataracts.     

Pyrrolidine dithiocarbamate restores gastric damages and suppressive autophagy induced by hydrogen peroxide

Abstract

It is well known that gastric barrier is very important for protecting host from various insults. Simultaneously, autophagy serving as a prominent cytoprotective and survival pathway under oxidative stress conditions is being increasingly recognized. Thus, this study was conducted for investigating the effect of pyrrolidine dithiocarbamate (PDTC) on gastric barrier function and autophagy under oxidative stress induced by intragastric administration of hydrogen peroxide (H₂O₂). The gastric tight junction proteins [zonula occludens-1 (ZO1), occludin, and claudin1], autophagic proteins [microtubule-associated protein light chain 3I(LC3I), LC3II, and beclin1], and nuclear factor kappa B (NF-κB) signaling pathway (p65 and IκB kinase α/β) were determined by Western blot. The results showed that H₂O₂ exposure disturbed gastric barrier function with decreased expression of ZO1, occludin, and claudin1, and reduced gastric autophagy with decreased conversion of LC3I into LC3II in mice. However, treatment with PDTC restored these adverse effects evidenced by increased expression of ZO1 and claudin1 and increased conversion of LC3I into LC3II. Meanwhile, H₂O₂ exposure decreased normal human gastric epithelial mucosa cell line (GES-1) viability in a concentration-dependent way. However, after being exposed to H₂O₂, GES-1 exhibited autophagic response which was inconsistent with our in vivo results in mice, while PDTC failed to decrease autophagy in GES-1 induced by H₂O₂. Simultaneously, the beneficial effect of PDTC on gastric damage and autophagy in mice might be independent of inhibition of NF-κB. In conclusion, PDTC treatment restores gastric damages and reduced autophagy induced by H₂O₂. Therefore, PDTC may serve as a potential adjuvant therapy for gastric damages.     

Nonchromatin nuclear proteins of mammalian lens epithelial cells

The nuclear matrix (NM) proteins of six tissue cultured lens epithelial cell lines and one embryonic rabbit epidermal cell line were analyzed to determine possible tissue and species specificity of these proteins. The NM proteins were isolated by the modified Penman technique. The tissue cultured cells were pulsed with [³⁵S] methionine and nuclear matrix proteins were fractionated by two-dimensional (2-D) gel electrophoresis. The 2-D gels were dried and autoradiographed. The relative abundance of spot patterns of nuclear matrix proteins of different cells were compared. The data from these experiments revealed that all the examined cell lines have distinct spot patterns, however, all of NM profile showed a spot pattern in the 45 kDa region with acidic pH. Some of these spots cross-reacted with anti-vimentin antibodies, whereas a prominent protein spot in this region did not cross react with either vimentin or actin antibodies. The observed variations in the NM protein patterns of lens epithelial cells may reflect tissue and species specificity and also a role in the regulatory properties of these nuclear proteins in the eye tissue development. J. Cell. Biochem. 64:644–650. © 1997 Wiley-Liss, Inc.     

Rat lens epithelial cells in vitro

Summary Serially subcultured rat lens epithelial cells grow in different stages, which can be classified according to morphology, chromosome numbers and population kinetics. A lensspecific γ-crystallin appears in the diploid stage, when elongated cell types are observed. One of the β-crystallin bands (pH 5.7) disappears during aging in higher passage numbers of the diploid stage B. A weak band in the β-crystallin region (pH 6.4), which is present in all stages, becomes very intensive in aneuploid cells of stage D, which exhibit a fibroblast-like morphology. The work was supported by Deutsche Forschungsgemeinschaft, Grant Ri 285/3.     

Salidroside protects retinal endothelial cells against hydrogen peroxide-induced injury via modulating oxidative status and apoptosis

Oxidative stress can cause injury in retinal endothelial cells. Salidroside is a strong antioxidative and cytoprotective supplement in Chinese traditional medicine. In this study, we investigated the effects of salidroside on H₂O₂-induced primary retinal endothelial cells injury. Salidroside decreased H₂O₂-induced cell death, and efficiently suppressed cellular ROS production, malondialdehyde generation, and cell apoptosis induced by H₂O₂ treatment. Salidroside induced the intracellular mRNA expression, protein expression, and enzymatic activities of catalase and Mn-SOD and increased the ratio of Bcl2/Bax. Our results demonstrated that salidroside protected retinal endothelial cells against oxidative injury through increasing the Bcl2/Bax signaling pathway and activation of endogenous antioxidant enzymes. This finding presents salidroside as an attractive agent with potential to attenuate retinopathic diseases.     

Intracellular protein degradation in cultured bovine lens epithelial cells

Summary Although several proteases have been identified in homogenates of cultured epithelial cells of the eye lens and in lens tissues, there is little information regarding intracellular protein degradation in intact lens cells in vitro. Cultured lens cells may be useful in the study of intracellular protein degradation in the lens, a tissue with a wide range of protein half-lives. This is of interest because alterations in protein turnover in the lens have been implicated in cataract formation. This study examines intracellular protein degradation in cultured bovine lens epithelial cells (BLEC). Cell cultures were incubated with radiolabeled leucine to label intracellular proteins. Protein degradation was measured by monitoring the release of trichloroacetic-acid-soluble radioactivity into the culture medium. The average half-life of long-lived proteins (half-life >50 h) was typically about 57 h in serum-supplemented medium. Average rates of degradation of long-lived proteins increased by up to 73% when fetal bovine serum was withdrawn from the culture medium. Serum had no effect on the degradation of short-lived proteins (half-life <10 h). Degradation of long-lived proteins in the presence and absence of serum was further studied in cultured BLEC from population doubling level (PDL) 2 to 43. Average half-life of proteins in serum-supplemented medium was 52 to 58 h and did not vary significantly as a function of PDL. Degradation rates in serum-free medium increased approximately twofold up to PDL 7, but returned by PDL 25 to original levels, which were maintained through PDL 43. This work was supported in part by grants from U. S. Department of Agriculture contract 53-3K06-5-10, Massachusetts Lions Eye Research Fund, Inc., and the Daniel and Florence Guggenheim Foundation. D. A. E. is a recipient of a National Eye Institute postdoctoral fellowship.     

Lamins of ocular lens epithelial cells

Experiments were performed to characterize a prominent nuclear matrix (NM) protein isolated from tissue cultured mouse lens epithelial cells. This NM protein was separated by SDS-PAGE and the stained gel band was analyzed by mass spectroscopy. Blast analysis of the amino acid sequence derived by mass spectroscopy revealed the presence of Lamin C in the NM of the mouse lens epithelial cells. We also examined nuclear proteins of adult and fetal human lenses. Data collected from these experiments showed the presence of Lamin C in both adult and fetal lens cells. However fetal lens cells only show Lamin C dimers, whereas adult human lens contained dimers, monomers and degraded Lamin C. Early and late passaged tissue cultured mouse lens epithelial cells also contained Lamin C in the nucleus with a preponderance of the dimer in the early passaged cells. The biological significance of the presence of dimers in human fetal lens cells and early passaged mouse lens cells is not known. However, it could suggest an enhanced docking capability of Lamin C dimers for other physiologically important nuclear proteins.     

Hydrogen peroxide-induced neurotoxicity in cultured cortical cells grown in serum-free and serum-containing media

To compare different culture conditions for neuroprotection assays in cultured cortic neurons, we evaluated cell viability after H₂O₂ exposure in cells cultured with standard N2 and with the enriched B-27 developed by GIBCO, both serum-free supplements. The following additives/associations were compared: N2 (+N2), B-27 (+B-27), 10% FBS (+FBS), 1% FBS in combination with N2 (FBS/N2) or N2 supplement preceded by an 1 hour precoating with 10% FBS (N2 + precoated). Our data demonstrated that B-27 is as efficient as 10% FBS to support neuronal growth for more than a week. As shown by phase-contrast optics cells grown in N2 started degenerating within 24-48 hours although measurable absorbance was seen with MTT. The precoating procedure failed to modify substantially cell viability as compared with N2 alone. Dose-response curves for H₂O₂ to induce neuronal apoptosis were almost identical for B-27 and serum supplemented samples. Catalase (100 U/ml) or vitamin E (200 M) prevented cell death in both culture conditions. Our results indicate that DMEM/B-27 provides a serum-free cell culture environment that allows neurons to grow with optimal cell viability, comparable to that obtained with serum. We conclude that this culture condition reveals as a useful tool to test the efficacy of neuroprotectants when a serum free medium is required.     

Rat lens epithelial cells in vitro

Summary Lens epithelial cells from rats aged 5 days were grown in long-term cultures. These cells age, differentiate and transform spontaneously. Morphological observations indicate five different stages (A-E). The epithelial character is lost after the first two passages. Elongated cells appearing afterwards are considered as cells that have started differentiation to fiberlike cells. Big flattened cells are considered as senescent cells that have lost their proliferative capacity. Data from population kinetics also reflect these five stages. Chromosome analysis shows that three of the five stages are no longer diploid. Two alternative modes of spontaneous transformation are possible. The proliferative capacity of rat lens epithelial cells is higher than that of rat embryonic fibroblast systems. The investigations were supported by the Deutsche Forschungsgemeinschaft (Biology of Aging, Grants Ri 285/2 and Ri 285/3).     

Hydrogen peroxide-induced apoptosis in pc12 cells and the protective effect of puerarin

In this study, the effect of puerarin on hydrogen peroxide-induced apoptosis in PC12 cells was studied. Exposure of cells to 0.5mM H(2)O(2)may cause significant viability loss and apoptotic rate increase. When c-Myc, Bcl-2 and Bax expression and caspase-3 activity were measured, using Ac-DEVD-AMC as a substrate, the changes in these apoptosis regulatory and effector proteins suggested that the elevation of c-Myc, decrease in Bcl-2:Bax protein ratio, and caspase-3 activation all play a key role in apoptosis. When cells were treated with puerarin prior to 0.5 mM H(2)O(2)treatment, a reduction in viability loss and apoptotic rate was seen. In addition, c-Myc expression decreased and Bcl-2:Bax ratio increased. Puerarin also reduced the H(2)O(2)-induced elevation of caspase-3 activation. These results suggest that puerarin can protect neurons against oxidative stress. It can block apoptosis in its early stages via the regulation of anti- and pro-apoptotic proteins, as well as by the attenuation of caspase-3 activation in H(2)O(2)-induced PC12 cells.     

纤维连接蛋白上调兔支气管上皮细胞过氧化氢酶表达

为从基因转录水平阐明纤维连接蛋白(fibronectin,Fn)与整合素(integrins)结合反应对支气管上皮细胞(bronchial epithelialCells,BECs)的抗氧化保护机制,本文在先前的工作基础上用臭氧(ozone,O_3)攻击原代培养的免BEC,RT-PCR扩增过氧化氢酶(catalase,CAT)的cDNA,PCR产物经琼脂糖凝胶电泳后用凝胶成像系统进行灰度分析,反映CAT mRNA的原始表达丰度,观察Fn处理的影响及蛋白酪氨酸激酶抑制剂genistein和钙调素抑制剂W_7的作用。同时,将电泳展开的PCR产物电转移至尼龙膜上,用CAT特异性寡核苷酸探针杂交,证实PCR扩增产物为特异性目的基因的转录产物。结果证实:Fn(10μg/ml)处理可提高CAT表达(P<0.01),蛋白酪氨酸激酶抑制剂genistein可阻断Fn对CAT mRNA表达的增强效应(P<0.01);钙调素抑制剂W_7对Fn处理后CAT mRNA表达增强也有抑制作用。提示:Fn可提高BEC细胞内CAT编码基因的转录水平,其上游信号途径与整合素介导的酪氨酸磷酸化或Ca~(2+)-钙调素通路有关。