MEK-ERK and heparin-susceptible signaling pathways are involved in cell-cycle entry of the wound edge retinal pigment epithelium cells in the adult newt

The onset mechanism of proliferation in mitotically quiescent retinal pigment epithelium (RPE) cells is still obscure in humans and newts, although it can be a clinical target for manipulating both retinal diseases and regeneration. To address this issue, we investigated factors or signaling pathways involved in the first cell-cycle entry of RPE cells upon retinal injury using a newt retina-less eye-cup culture system in which the cells around the wound edge of the RPE exclusively enter the cell cycle. We found that MEK-ERK signaling is necessary for their cell-cycle entry, and signaling pathways whose activities can be modulated by heparin, such as Wnt-, Shh-, and thrombin-mediated pathways, are capable of regulating the cell-cycle entry. Furthermore, we found that the cells inside the RPE have low proliferation competence even in the presence of serum, suggesting inversely that a loss of cell-to-cell contact would allow the cells to enter the cell cycle.     

Biodegradation of 2-Chlorophenol by Rhodopseudomonas palustris

A phototrophic bacterial culture that assimilates 2-chlorophenol (2-CP) was enriched from effluents of paper and wood industry. The isolated bacterium was identified as Rhodopseudomonas palustris based on its morphological characteristics, biochemical reactions, and fatty acid methyl ester gas chromatography (FAME-GC) analysis. The bacterium R. palustris being photoheterotrophic in nutrition was also able to switch between phototropic, aerobic, and anaerobic modes of metabolism, as evidenced by modulation of the bacterial photopigments. The switching of anaerobic to aerobic metabolism was evidenced by the presence of catechol, a product of aerobic oxidation of 2-CP in the spent medium and the disappearance of photopigment-specific absorbance in the organism. R. palustris degraded about 97% of the supplemented 2-CP from the culture medium in 40 days along with production of an exo-polysaccharide, which probably provides protection from substrate toxicity and enhances its bioavailability. Thin-layer chromatography (TLC) and gas chromoatography–mass spectrometry (GC-MS) analysis of the R. palustris spent medium extracts indicated the presence of phenol. The GC-MS data also indicated that phenol is metabolized through an ortho-cleavage pathway. Further analysis of the R. palustris cell-free extracts for enzymes showed the presence of a chlorophenol dehalogenase (CD) and a chlorophenol nicotinamide adenine dinucleotide phosphate (NADPH)-oxidoreductase (CNOR) with respective specific activities of 0.114 and 0.26 μmol/min/mg, suggesting an initial reductive dechlorination step during 2-CP catabolism. The study thus highlights the important roles of phototrophic bacteria in the decontamination of environmental pollutants from the polluted sites.     

Retinyl ester hydrolases and their roles in vitamin A homeostasis

In mammals, dietary vitamin A intake is essential for the maintenance of adequate retinoid (vitamin A and metabolites) supply of tissues and organs. Retinoids are taken up from animal or plant sources and subsequently stored in form of hydrophobic, biologically inactive retinyl esters (REs). Accessibility of these REs in the intestine, the circulation, and their mobilization from intracellular lipid droplets depends on the hydrolytic action of RE hydrolases (REHs). In particular, the mobilization of hepatic RE stores requires REHs to maintain steady plasma retinol levels thereby assuring constant vitamin A supply in times of food deprivation or inadequate vitamin A intake. In this review, we focus on the roles of extracellular and intracellular REHs in vitamin A metabolism. Furthermore, we will discuss the tissue-specific function of REHs and highlight major gaps in the understanding of RE catabolism. This article is part of a Special Issue entitled Retinoid and Lipid Metabolism.     

Drosophila mauve Mutants Reveal a Role of LYST Homologs Late in the Maturation of Phagosomes and Autophagosomes

Chediak–Higashi syndrome (CHS) is a lethal disease caused by mutations that inactivate the lysosomal trafficking regulator protein (LYST). Patients suffer from diverse symptoms including oculocutaneous albinism, recurrent infections, neutropenia and progressive neurodegeneration. These defects have been traced back to over‐sized lysosomes and lysosome‐related organelles (LROs) in different cell types. Here, we explore mutants in the Drosophila mauve gene as a new model system for CHS. The mauve gene (CG42863) encodes a large BEACH domain protein of 3535 amino acids similar to LYST. This reflects a functional homology between these proteins as mauve mutants also display enlarged LROs, such as pigment granules. This Drosophila model also replicates the enhanced susceptibility to infections and we show a defect in the cellular immune response. Early stages of phagocytosis proceed normally in mauve mutant hemocytes but, unlike in wild type, late phagosomes fuse and generate large vacuoles containing many bacteria. Autophagy is similarly affected in mauve fat bodies as starvation‐induced autophagosomes grow beyond their normal size. Together these data suggest a model in which Mauve functions to restrict homotypic fusion of different pre‐lysosomal organelles and LROs.     

RPE-secreted factors: influence differentiation in human retinal cell line in dose- and density-dependent manner

Retinal pigment epithelial (RPE) cells play an important role in normal functioning of retina and photoreceptors, and some retinal degenerations arise due to malfunctioning RPE. Retinal pigment epithelium transplantation is being explored as a strategy to rescue degenerating photoreceptors in diseases such as age-related macular degeneration (AMD) and retinitis pigmentosa (RP). Additionally, RPE-secreted factors could rescue degenerating photoreceptors by prolonging survival or by their ability to differentiate and give rise to photoreceptors by transdifferentiation. In this study, we have explored what role cell density could play in differentiation induced in a human retinal progenitor cell line, in response to RPE-secreted growth factors. Retinal progenitors plated at low (1 × 10⁴ cells/cm²), medium (2–4 × 10⁴ cells/cm²), and high (1 × 10⁵ cells/cm²) cell density were exposed to various dilutions of RPE-conditioned medium (secreted factors) under conditions of defined medium culture. Progenitor cell differentiation was monitored phenotypically (morphological, biochemical analysis, and immunophenotyping, and western blot analysis were performed). Our data show that differentiation in response to RPE-secreted factors is modulated by cell density and dilutions of conditioned medium. We conclude that before embarking on RPE transplantation as a modality for treatment of RP and AMD, one will have to determine the role that cell density and inhibitory and stimulatory neurotrophins secreted by RPE could play in the efficacy of survival of transplants. We report that RPE-conditioned medium enhances neuronal phenotype (photoreceptors, bipolars) at the lowest cell density in the absence of cell–cell contact. Eighty percent to 90% of progenitor cells differentiate into photoreceptors and bipolars at 50% concentration of conditioned medium, while exposure to 100% conditioned medium might increase multipolar neurons (ganglionic and amacrine phenotypes) to a small degree. However, no clear-cut pattern of differentiation in response to RPE-secreted factors is noted at higher cell densities.     

超声法提取虎杖色素及其稳定性的研究

用乙醇作为提取溶剂,以提取得率和色价为评价指标,通过单因素实验,探讨料液比、提取温度、超声功率、提取时间、乙醇体积分数对色素提取效果的影响;通过正交实验优化提取条件,并对提取的色素进行了稳定性考察。实验结果表明:虎杖色素的最佳提取工艺条件为乙醇体积分数80%,料液比1∶30,超声温度25℃,超声功率50 W,超声时间20 min,其中料液比为显著影响因素;虎杖色素对热、光、蔗糖、NaCl、维生素C(Vc)等因素的影响较稳定,而pH、H2O2、柠檬酸对虎杖色素稳定性影响较大。     

暗盘孢属YM421黑色素稳定性及其抗氧化活性

对暗盘菌Plectania sp.YM421菌株所产黑色素的稳定性及其抗氧化活性进行了研究。结果表明:该黑色素易溶于氢氧化钠溶液和二甲亚砜,微溶于蒸馏水,不溶于盐酸、无水乙醇、乙酸乙酯、氯仿、二甲苯、丙酮和乙醚;该黑色素在pH≥6时稳定,pH≤5时产生沉淀;对室光、日光、紫外光、亚硫酸钠、Na+和K+稳定;添加苯甲酸钠、柠檬酸钠、蔗糖、葡萄糖、乳糖、麦芽糖对黑色素有增色或护色作用;而双氧水、柠檬酸、VitC、Mg2+、Cu2+、Zn2+、Ca2+、Fe3+、Al3+降低其稳定性;该黑色素与VitC还原能力的EC50值(吸光度为0.5时的浓度)分别为169.6μg/mL和31.88μg/mL,对羟基清除作用的IC50值(清除率为50%时的浓度)分别为360.4μg/mL和183μg/mL。作为一种新型的天然色素,YM421黑色素有望应用于食品、化妆品以及医药等行业。     

He-Ne激光和增强UV-B辐射对小麦幼苗类囊体捕光色素的影响

采用5mW.mm-2He-Ne激光辐照、10.08kJ.m-2d-1UV-B辐射及二者组合对冬小麦幼苗进行处理。通过测定叶绿体捕光色素含量和色素蛋白组成的变化,进一步探讨He-Ne激光对增强UV-B辐射后小麦幼苗类囊体捕光色素损伤的修复效应。循环处理小麦幼苗4d,利用90%乙醇和80%丙酮分别提取各处理组小麦幼苗叶片中的叶绿素,通过纸层析和分光光度法检测捕光色素含量的变化,并探讨不同处理对叶绿素与蛋白质结合牢固性的影响。利用柱层析法测定色素蛋白的主要成分。研究表明:与对照组相比,增强UV-B辐照后小麦幼苗捕光色素总含量降低了17.76%,叶绿素和蛋白质结合牢固度显著降低,色素蛋白的组成也发生变化,D1和D2蛋白质条带消失;而一定剂量He-Ne激光辐照可使增强UV-B辐射后的叶绿体色素含量增加约10.64%,但仍低于ck组约8.12%,叶绿素和蛋白质结合牢固度也显著高于B组,色素蛋白的组成与对照组相似。因此,低剂量的He-Ne激光辐照对增强UV-B辐射后小麦幼苗类囊体捕光色素的损伤具有促进修复效应。