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Eleni Theodosiou Kateřina Purchartová Haralambos Stamatis Fragiskos Kolisis Vladimír Křen 《Phytochemistry Reviews》2014,13(1):1-18
Over the past years, great advances have been made on the development of novel delivery systems for bioactive natural compounds, in parallel to their structural modification via chemical, chemo-enzymatic and enzymatic methodologies. These approaches give rise to novel formulations and derivatives that often display advantages over the parental molecule, such as enhanced bioavailability and pharmacological activity, due to improved dissolution and stability. Silymarin components suffer from poor solubility in water and lipid media and their resorption in the intestine is rather limited. Moreover, silybin undergoes intensive Phase II metabolism and is rapidly excreted in bile and urine, leading to low therapeutic efficacy. This work aims to present the current status of available silymarin formulations, and to highlight successful efforts for the biotransformation of its constituent flavonolignans towards the synthesis of novel derivatives. Herein, various pharmaceutical formulations that aim at the bioavailability improvement of these fascinating phytochemicals, i.e., liposomes, phytosomes, self-microemulsifying drug delivery systems, solid dispersions systems, dripping pills, nanosuspensions, floating tablets, and micronization, are reviewed. Silybin (semi)synthetic derivatives prepared by chemical or enzymatic methods, such as fatty acid conjugates, silybin bishemisuccinate, silybin glycosides, silybin sulfates, silybinic acid, and 2,3-dehydrosilybin, are also discussed in detail. Additionally, this work attempts to direct the attention towards the pharmacological implications of optically pure silybin A and silybin B and their biotransformation reactions, both Phase I and II, in relation to bioavailability. 相似文献
133.
Mumtsidu E Makhov AM Roessle M Bathke A Tucker PA 《Journal of structural biology》2007,160(2):157-167
Bluetongue virus (BTV) non-structural protein 2 (NS2) belongs to a class of highly conserved proteins found in members of the orbivirus genus of the reoviridae. NS2 forms large multimeric complexes, localizes to cytoplasmic inclusion bodies in the infected cells and binds non-sequence specifically single-stranded RNA (ssRNA). Due to its ability to bind ssRNA, it has been suggested that the protein is involved in the selection and condensation of the BTV ssRNA segments prior to genome encapsidation. We have previously determined the crystal structure of the 177 amino acid N-terminal domain, sufficient for ssRNA binding ability of NS2, to 2.4A resolution. The C-terminal domain, as determined at low resolution using small-angle X-ray scattering, is an elongated dimer. This domain expressed in insect cells is phosphorylated at S249 and S259. Electron microscopy of the full-length protein shows a variety of species with the largest having a ring-like appearance. Based on the electron micrographs, the crystal structure of the N-terminal domain and the structure of the C-terminal domain reported here, we propose a model for a decamer of the full-length protein. This decamer changes conformation upon binding of a non-hydrolysable ATP analogue. 相似文献
134.
Eleni N. Tsakiri Gerasimos P. Sykiotis Issidora S. Papassideri Evangelos Terpos Meletios A. Dimopoulos Vassilis G. Gorgoulis Dirk Bohmann Ioannis P. Trougakos 《Aging cell》2013,12(5):802-813
The ubiquitin–proteasome system is central to the regulation of cellular proteostasis. Nevertheless, the impact of in vivo proteasome dysfunction on the proteostasis networks and the aging processes remains poorly understood. We found that RNAi‐mediated knockdown of 20S proteasome subunits in Drosophila melanogaster resulted in larval lethality. We therefore studied the molecular effects of proteasome dysfunction in adult flies by developing a model of dose‐dependent pharmacological proteasome inhibition. Impaired proteasome function promoted several ‘old‐age’ phenotypes and markedly reduced flies' lifespan. In young somatic tissues and in gonads of all ages, loss of proteasome activity induced higher expression levels and assembly rates of proteasome subunits. Proteasome dysfunction was signaled to the proteostasis network by reactive oxygen species that originated from malfunctioning mitochondria and triggered an Nrf2‐dependent upregulation of the proteasome subunits. RNAi‐mediated Nrf2 knockdown reduced proteasome activities, flies' resistance to stress, as well as longevity. Conversely, inducible activation of Nrf2 in transgenic flies upregulated basal proteasome expression and activity independently of age and conferred resistance to proteotoxic stress. Interestingly, prolonged Nrf2 overexpression reduced longevity, indicating that excessive activation of the proteostasis pathways can be detrimental. Our in vivo studies add new knowledge on the proteotoxic stress‐related regulation of the proteostasis networks in higher metazoans. Proteasome dysfunction triggers the activation of an Nrf2‐dependent tissue‐ and age‐specific regulatory circuit aiming to adjust the cellular proteasome activity according to temporal and/or spatial proteolytic demands. Prolonged deregulation of this proteostasis circuit accelerates aging. 相似文献
135.
Michael E. Johnson J. Matthew Mahoney Jaclyn Taroni Jennifer L. Sargent Eleni Marmarelis Ming-Ru Wu John Varga Monique E. Hinchcliff Michael L. Whitfield 《PloS one》2015,10(1)
Genome-wide expression profiling in systemic sclerosis (SSc) has identified four ‘intrinsic’ subsets of disease (fibroproliferative, inflammatory, limited, and normal-like), each of which shows deregulation of distinct signaling pathways; however, the full set of pathways contributing to this differential gene expression has not been fully elucidated. Here we examine experimentally derived gene expression signatures in dermal fibroblasts for thirteen different signaling pathways implicated in SSc pathogenesis. These data show distinct and overlapping sets of genes induced by each pathway, allowing for a better understanding of the molecular relationship between profibrotic and immune signaling networks. Pathway-specific gene signatures were analyzed across a compendium of microarray datasets consisting of skin biopsies from three independent cohorts representing 80 SSc patients, 4 morphea, and 26 controls. IFNα signaling showed a strong association with early disease, while TGFβ signaling spanned the fibroproliferative and inflammatory subsets, was associated with worse MRSS, and was higher in lesional than non-lesional skin. The fibroproliferative subset was most strongly associated with PDGF signaling, while the inflammatory subset demonstrated strong activation of innate immune pathways including TLR signaling upstream of NF-κB. The limited and normal-like subsets did not show associations with fibrotic and inflammatory mediators such as TGFβ and TNFα. The normal-like subset showed high expression of genes associated with lipid signaling, which was absent in the inflammatory and limited subsets. Together, these data suggest a model by which IFNα is involved in early disease pathology, and disease severity is associated with active TGFβ signaling. 相似文献
136.
Andreas F?rster Sara Planamente Eleni Manoli Nadine S. Lossi Paul S. Freemont Alain Filloux 《The Journal of biological chemistry》2014,289(47):33032-33043
The type VI secretion system (T6SS) is a bacterial nanomachine for the transport of effector molecules into prokaryotic and eukaryotic cells. It involves the assembly of a tubular structure composed of TssB and TssC that is similar to the tail sheath of bacteriophages. The sheath contracts to provide the energy needed for effector delivery. The AAA+ ATPase ClpV disassembles the contracted sheath, which resets the systems for reassembly of an extended sheath that is ready to fire again. This mechanism is crucial for T6SS function. In Vibrio cholerae, ClpV binds the N terminus of TssC within a hydrophobic groove. In this study, we resolved the crystal structure of the N-terminal domain of Pseudomonas aeruginosa ClpV1 and observed structural alterations in the hydrophobic groove. The modification in the ClpV1 groove is matched by a change in the N terminus of TssC, suggesting the existence of distinct T6SS classes. An accessory T6SS component, TagJ/HsiE, exists predominantly in one of the classes. Using bacterial two-hybrid approaches, we showed that the P. aeruginosa homolog HsiE1 interacts strongly with ClpV1. We then resolved the crystal structure of HsiE1 in complex with the N terminus of HsiB1, a TssB homolog and component of the contractile sheath. Phylogenetic analysis confirmed that these differences distinguish T6SS classes that resulted from a functional co-evolution between TssB, TssC, TagJ/HsiE, and ClpV. The interaction of TagJ/HsiE with the sheath as well as with ClpV suggests an alternative mode of disassembly in which HsiE recruits the ATPase to the sheath. 相似文献
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140.
Mado Kotsiri Maria Protopapa Gesthimani-Myrto Roumelioti Athena Economou-Amilli Eleni K. Efthimiadou 《Biofouling》2018,34(5):492-506
To achieve their reproductive potential, barnacles combine tactile exploration of surface structural properties and integration of cellular signals originating from their antennular sensory setae within a developmentally defined, temporally narrow window of settlement opportunity. Behavioural assays with cyprids coupled with biometric analysis of scanning electron microscopy-acquired images in the presence of specific chemical compounds were used to investigate how settlement on a substratum is altered in response to the presence of these compounds. Impeding tactile exploration was shown which altered cellular signalling and/or induced malformation of anatomical features of the antennular sensory setae, which disrupted the settlement behaviour of the model barnacle species Amphibalanus amphitrite. It is concluded that surface exploration by the cyprids relies on mechanical and nociception-related and calcium-mediated signals while a protein kinase C signalling cascade controls the timely metamorphosis of the cyprids to sessile juveniles. 相似文献