Present State and Future Perspectives of Restoration Ecology—Introduction

Although the aim of and the need for ecological restoration, and restoration ecology as its scientific base, are obvious, the field is still struggling with defining its basics. This situation, reflected by the debate about alternative terms to replace “restoration,” the ambiguous self‐image as a movement, art, application, or science, and the lack of a unifying conceptual framework, results in an uncertainty about the future development of the field. In a 10‐year project, an interdisciplinary Research Training Group in Jena followed the regeneration of one degraded terrestrial and aquatic ecosystem, respectively, and suggested a conceptual model for regeneration and restoration that was derived from the shared features of the two systems. As part of the scientific discussion of this new approach, an international workshop “Present State and Future Perspectives of Restoration Ecology” was organized in Jena in November 2004. The following collection of 12 opinion papers and 1 concluding chapter reflect the discussions at the workshop and contributes to the “self‐finding” process of restoration ecology.     

Neurotransmitter Release Mechanisms in Sympathetic Neurons: Past,Present, and Future Perspectives

In 1969, Paton and Vizi (1) described the inhibitory actions of noradrenaline on acetylcholine release from the innervation of the guinea-pig ileum longitudinal muscle. They concluded that acetylcholine output by the nervous networks of the longitudinal strip is under the normal control of the sympathetic by a species of presynaptic inhibition mediated by receptors. This work was carried out in the Pharmacology Department at Oxford University. Clearly, a period in the Dreaming Spires of Oxford sufficiently inspired Sylvester to take up a life long career in scientific research. He has published more than 300 papers on a wide range of topics but clearly has a strong interest in neurotransmitter release mechanisms and recently, non-synaptic interactions between neurons. It seems fitting therefore to write a brief review on the continuing studies on neurotransmitter release mechanisms in sympathetic neurons in a volume honoring the now distinguished Professor Vizi.     

Yeast Phytases: Present Scenario and Future Perspectives

ABSTRACT

Phytases hydrolyze phytates to liberate soluble and thus readily utilizable inorganic phosphate. Although phytases are produced by various groups of microbes, yeasts being simple eukaryotes and mostly non-pathogenic with proven probiotic benefits can serve as ideal candidates for phytase research. The full potential of yeast phytases has not, however, been exploited. This review focuses attention on the present status of knowledge on the production, characterization, molecular characteristics, and cloning and over-expression of yeast phytases. Several potential applications of the yeast phytases in feeds and foods, and in the synthesis of lower myo-inositol phosphates are also discussed.     

Zein as a Pharmaceutical Excipient in Oral Solid Dosage Forms: State of the Art and Future Perspectives

Zein is the main storage protein of corn and it has several industrial applications. Mainly in the last 10–15 years, zein has emerged as a potential pharmaceutical excipient with unique features. Zein is a natural, biocompatible and biodegradable material produced from renewable sources. It is insoluble, yet due to its amphiphilic nature, it has self-assembling properties, which have been exploited for the formation of micromicroparticle and nanoparticle and films. Moreover, zein can hydrate so it has been used in swellable matrices for controlled drug release. Other pharmaceutical applications of zein in oral drug delivery include its incorporation in solid dispersions of poorly soluble drugs and in colonic drug delivery systems. This review describes the features of zein significant for its use as a pharmaceutical excipient for oral drug delivery, and it summaries the literature relevant to macroscopic zein-based oral dosage forms, i.e. tablets, capsules, beads and powders. Particular attention is paid to the most novel formulations and applications of zein. Moreover, gaps of knowledge as well as possible venues for future investigations on zein are highlighted.     

Motor Activity of Eyelids as a Functional State Indicator

The authors consider an insufficiently studied indicator, i.e., motor activity of eyelids, recorded with or without miniature contacts in infrared rays for the visual analyzer states eyes open / eyes closed. Eyelid movement characteristics are highly informative in diagnosing the functional state and evaluating operator activity quality under monotonous conditions. The authors discuss possible mechanisms of the influence of such functional states on the motor activity of eyelids.     

BMP4 Is a Peripherally-Derived Factor for Motor Neurons and Attenuates Glutamate-Induced Excitotoxicity In Vitro

Bone morphogenetic proteins (BMPs), members of the transforming growth factor-beta (TGF-β) superfamily, have been shown to play important roles in the nervous system, including neuronal survival and synaptogenesis. However, the physiological functions of BMP signaling in the mammalian neuromuscular system are not well understood. In this study, we found that proteins of the type II bone morphogenetic receptors (BMPRII) were detected at the neuromuscular junction (NMJ), and one of its ligands, BMP4, was expressed by Schwann cells and skeletal muscle fibers. In double-ligated nerves, BMP4 proteins accumulated at the proximal and distal portions of the axons, suggesting that Schwann cell- and muscle fiber-derived BMP4 proteins were anterogradely and retrogradely transported by motor neurons. Furthermore, BMP4 mRNA was down-regulated in nerves but up-regulated in skeletal muscles following nerve ligation. The motor neuron-muscle interactions were also demonstrated using differentiated C2C12 muscle cells and NG108-15 neurons in vitro. BMP4 mRNA and immunoreactivity were significantly up-regulated in differentiated C2C12 muscle cells when the motor neuron-derived factor, agrin, was present in the culture. Peripherally-derived BMP4, on the other hand, promotes embryonic motor neuron survival and protects NG108-15 neurons from glutamate-induced excitotoxicity. Together, these data suggest that BMP4 is a peripherally-derived factor that may regulate the survival of motor neurons.     

Highly Efficient Differentiation and Enrichment of Spinal Motor Neurons Derived from Human and Monkey Embryonic Stem Cells

Background

There are no cures or efficacious treatments for severe motor neuron diseases. It is extremely difficult to obtain naïve spinal motor neurons (sMNs) from human tissues for research due to both technical and ethical reasons. Human embryonic stem cells (hESCs) are alternative sources. Several methods for MN differentiation have been reported. However, efficient production of naïve sMNs and culture cost were not taken into consideration in most of the methods.

Methods/Principal Findings

We aimed to establish protocols for efficient production and enrichment of sMNs derived from pluripotent stem cells. Nestin+ neural stem cell (NSC) clusters were induced by Noggin or a small molecule inhibitor of BMP signaling. After dissociation of NSC clusters, neurospheres were formed in a floating culture containing FGF2. The number of NSCs in neurospheres could be expanded more than 30-fold via several passages. More than 33% of HB9+ sMN progenitor cells were observed after differentiation of dissociated neurospheres by all-trans retinoic acid (ATRA) and a Shh agonist for another week on monolayer culture. HB9+ sMN progenitor cells were enriched by gradient centrifugation up to 80% purity. These HB9+ cells differentiated into electrophysiologically functional cells and formed synapses with myotubes during a few weeks after ATRA/SAG treatment.

Conclusions and Significance

The series of procedures we established here, namely neural induction, NSC expansion, sMN differentiation and sMN purification, can provide large quantities of naïve sMNs derived from human and monkey pluripotent stem cells. Using small molecule reagents, reduction of culture cost could be achieved.     

直接心室辅助致动方法的现状与发展

直接心室辅助通过在心脏外侧柔性挤压心脏,帮助虚弱的心脏恢复功能。它能够避免人工器件与血液接触引发的血栓、血感染等问题,是人工心脏辅助器件研究与开发的重要领域之一。直接心室辅助的致动器,决定了器件的结构、形状、及其性能,是整个辅助器件关键中的关键,致动器上的任何突破有可能对直接心室辅助器件产生革命性影响。因此,本文从致动原理的角度,分析、探讨了直接心室辅助的致动方法及其存在问题,这对探索与开发满足要求的下一代直接心室辅助致动器有一定的帮助作用。     

Motor Subtype as a Predictor of Future Working Memory Performance in Idiopathic Parkinson's Disease

Parkinson’s disease is a progressive neurodegenerative disorder associated with reduced spatial and verbal working memory ability. There are two established motor subtypes of PD, tremor dominant (TD) and postural instability and gait difficulty (PIGD). This study used structural equation modelling to explore the longitudinal relationship between the two subtypes and working memory assessed at a 2-year follow-up. The study comprised 84 males and 30 females (N = 114), aged between 39 and 85 (M = 64.82, SD = 9.23) with confirmed PD. There was no significant relationship between motor subtype at Time 1 and working memory at Time 2. Postural symptom severity at Time 1 predicted Time 2 spatial working memory for the PIGD subtype (p = .011) but not the TD subtype. Tremor symptoms were not associated with Time 2 working memory in either subtype. Predictive significance of Time 1 postural symptoms only in the PIGD subtype suggests an interaction between symptom dominance (subtype) and symptom severity that future subtyping should consider. This study demonstrates a predictive relationship between postural difficulties and working memory performance assessed at a 2-year follow-up. Establishing physical symptoms as predictors of cognitive change could have significant clinical importance.     

Secondary Metabolites as Plant Traits: Current Assessment and Future Perspectives

Referee: Dr. Peter B. Kaufman, Dept. of Biology, University of Michigan, Ann Arbor, MI 48109-1048 Traditionally, secondary metabolites in plants have been investigated by phytochemists. Originally classified as waste products, these compounds more recently have been investigated extensively by ecologists and pharmacologists, and many complex biological functions have been discovered. Secondary metabolites occur nearly in all living organisms, within bacteria as well as in mammals, and are especially prominent in those organisms lacking an immune system. Functions of plant secondary metabolites comprise attractants, such as color pigments and scents, repellents such as antifeedants against insects and mammals, or toxins that affect growth and development of animal and microbial predators. Conversely, insects can employ plant-synthesized compounds to their own advantage, such as signals for feeding and oviposition and location of prey. Microbes also use secondary metabolites as carbon sources, and bacteria utilize them for quorum-sensing, an aspect recently discovered. Despite the diversity of recognized functions, the biochemical processes underlying these interactions are few. Primarily, they relate to the ability of these small molecules to bind to receptor regions of various proteins such as keys into locks. This review attempts a summary of current knowledge of secondary plant metabolism with focus on history of discovery, development of analytical techniques, theories of origin and function, signal pathways, biosynthesis, and assessment of biological activities. Outlined is current utilization by, and future perspectives in, different disciplines, such as chemosystematics, chemical ecology, and agricultural biotechnology. Examples illustrate the strong potential of research in secondary metabolism, particularly in comparison to more established disciplines such as developmental biology and physiology.     

A Small Molecule Screen in Stem-Cell-Derived Motor Neurons Identifies a Kinase Inhibitor as a Candidate Therapeutic for ALS

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Quantal Division and a Postmitotic State in Myoblast Differentiation

The reversible arrest of myoblast differentiation by ethidium bromide (EB) has been used to examine the nature of the transition from the proliferative state to terminal differentiation resulting in fusion into muscle fibers. If EB is introduced at the time that myoblasts are shifted to medium that induces fusion, all apparent cytodifferentiation is suspended. When such EB arrested myoblasts are released from EB inhibition they fuse without reentering the cell cycle. If EB arrested myoblasts are released into proliferation promoting medium rather than medium that induces fusion they neither fuse nor proliferate. In this case they remain quiescent in the proliferating medium for an extended period, however, if these myoblasts are subsequently shifted to medium that induces fusion, they fuse without reentering the cell cycle. Apparently the myoblasts have become postmitotic and competent to fuse into muscle fibers during their initial exposure to fusion inducing medium, even though cytodifferentiation has been blocked. Exposure of these postmitotic fusion competent myoblasts to proliferation promoting medium does not stimulate them to reenter the cell cycle but does prevent fusion into muscle fibers. These results are most consistent with a quantal division model of myoblast differentiation rather than a gradual transition from the proliferative state to a state in which fusion occurs.     

哺乳动物克隆的研究进展与应用前景

显微注射技术本身固有的缺点在很大程度上限制了转基因动物的研究及应用。近年来,体细胞基因打靶和体细胞克隆的最新研究进展表明,这两种技术相结合将成为制备大型转基因动物的有效途径。