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Extracellular Components (extracellular + component)

Distribution by Scientific Domains
Life Sciences71%

Selected Abstracts

Cross-talk involving extracellular sensors and extracellular alarmones gives early warning to unstressed Escherichia coli of impending lethal chemical stress and leads to induction of tolerance responses

JOURNAL OF APPLIED MICROBIOLOGY, Issue 5 2001
R.J. Rowbury
1. Summary, 678 2. Introduction 2.1. Chemical and biological stress agents affecting enterobacteria, 678 2.2. Sensing of chemical and biological stress stimuli, 678 2.3. Intracellular sensors detect intracellularly-produced chemical stressing agents, 679 2.4. Intracellular sensors and intracellular induction components could delay response induction by extracellular chemical or biological stress agents, 680 2.5. Extracellular sensors and EICs give early warning of stress, 681 2.6. Disadvantages of extracellular components being needed for stress response induction, 682 2.7. Extracellular sensors and EICs allow stressed cells to warn unstressed ones, 682 2.8. A second role for some extracellular stress sensors, 683 3. Responses switched on by extracellular sensors and EICs 3.1. Involvement of EICs and ESCs in acid tolerance induction at pH 5·0 and at other mildly acidic pH values, 683 3.2. Further evidence for the obligate involvement of extracellular sensors and EICs in acid tolerance induction at pH 5·0, 684 3.3. On the nature of the acid pH tolerance-inducing ESC and EIC, 686 3.4. The acid tolerance ECs and their relation to other extracellular response-inducing components, 686 3.5. Extracellular components are needed for other inducible acid tolerance responses, 687 3.6. Involvement of EICs and extracellular sensors in acid tolerance in E. coli O157, 687 3.7. EICs involved in acid tolerance induction are diffusible, 687 4. Acid sensitization at alkaline pH and the role of extracellular sensor and EIC(s), 688 5. Responses affecting tolerance to alkali 5.1. Alkali sensitization at acidic pH, 688 5.2. Induced alkali tolerance at pH 9·0 and role of extracellular components, 688 6. Inducible tolerance to alkylhydroperoxides, 689 7. Are extracellular sensors and extracellular induction components needed for all stress responses?, 689 8. Altered responsiveness of extracellular sensors depending on growth conditions, 691 9. Protection of living cells from chemical stress by dead cultures, 691 10. How can intracellular levels of stress be detected?, 692 11. Are Nikolaev's extracellular ,protectants' and similar components related to EICs?, 693 12. Conclusions, 693 13. References, 694 [source]

New insight into the molecular pathways of metallothionein-mediated neuroprotection and regeneration

JOURNAL OF NEUROCHEMISTRY, Issue 1 2008
R. S. Chung
Abstract There is a large body of evidence demonstrating that metallothioneins (MTs) expressed in astrocytes following CNS injury, exhibit both neuroprotective and neuroregenerative properties and are critical for recovery outcomes. As these proteins lack signal peptides, and have well characterized free radical scavenging and heavy metal binding properties, the neuroprotective functions of MTs have been attributed to these intracellular roles. However, there is an increasing realization that the neuroprotective functions of MTs may also involve an extracellular component. In this issue of Journal of Neurochemistry, Ambjørn et al. reveal considerable insight into this novel function of MTs. In this review, we examine the seminal work of Ambjørn et al. in the context of our current understanding of the role of MT in astrocyte-neuron interactions in the injured brain, and also discuss the significant therapeutic potential of their work. [source]

High mobility group box chromosomal protein 1: A novel proinflammatory mediator in synovitis

ARTHRITIS & RHEUMATISM, Issue 10 2002
R. Kokkola
Objective High mobility group box chromosomal protein 1 (HMGB-1) is a ubiquitous chromatin component expressed in nucleated mammalian cells. It has recently and unexpectedly been demonstrated that stimulated live mononuclear phagocytes secrete HMGB-1, which then acts as a potent factor that causes inflammation and protease activation. Macrophages play pivotal roles in the pathogenesis of arthritis. The aim of this study was to determine whether synovial macrophage expression of HMGB-1 is altered in human and experimental synovitis. Methods Intraarticular tissue specimens were obtained from healthy Lewis rats, Lewis rats with Mycobacterium tuberculosis,induced adjuvant arthritis, and from patients with rheumatoid arthritis (RA). Specimens were immunohistochemically stained for cellular HMGB-1. Extracellular HMGB-1 levels were assessed in synovial fluid samples from RA patients by Western blotting. Results Immunostaining of specimens from normal rats showed that HMGB-1 was primarily confined to the nucleus of synoviocytes and chondrocytes, with occasional cytoplasmic staining and no extracellular matrix deposition. In contrast, inflammatory synovial tissue from rats with experimental arthritis as well as from humans with RA showed a distinctly different HMGB-1 staining pattern. Nuclear HMGB-1 expression was accompanied by a cytoplasmic staining in many mononuclear cells, with a macrophage-like appearance and an extracellular matrix deposition. Analysis of synovial fluid samples from RA patients further confirmed the extracellular presence of HMGB-1; 14 of 15 samples had HMGB-1 concentrations of 1.8,10.4 ,g/ml. Conclusion The proinflammatory mediator HMGB-1 was abundantly expressed as a nuclear, cytoplasmic, and extracellular component in synovial tissues from RA patients and from rats with experimental arthritis. These findings suggest a pathogenetic role for HMGB-1 in synovitis and indicate a new potential therapeutic target molecule. [source]

Accelerated neuritogenesis and maturation of primary spinal motor neurons in response to nanofibers

DEVELOPMENTAL NEUROBIOLOGY, Issue 8 2010
Caitlyn C. Gertz
Abstract Neuritogenesis, neuronal polarity formation, and maturation of axons and dendrites are strongly influenced by both biochemical and topographical extracellular components. The aim of this study was to elucidate the effects of polylactic acid electrospun fiber topography on primary motor neuron development, because regeneration of motor axons is extremely limited in the central nervous system and could potentially benefit from the implementation of a synthetic scaffold to encourage regrowth. In this analysis, we found that both aligned and randomly oriented submicron fibers significantly accelerated the processes of neuritogenesis and polarity formation of individual cultured motor neurons compared to flat polymer films and glass controls, likely due to restricted lamellipodia formation observed on fibers. In contrast, dendritic maturation and soma spreading were inhibited on fiber substrates after 2 days in vitro. This study is the first to examine the effects of electrospun fiber topography on motor neuron neuritogenesis and polarity formation. Aligned nanofibers were shown to affect the directionality and timing of motor neuron development, providing further evidence for the effective use of electrospun scaffolds in neural regeneration applications. © 2010 Wiley Periodicals, Inc. Develop Neurobiol 70: 589,603, 2010 [source]

Cross-talk involving extracellular sensors and extracellular alarmones gives early warning to unstressed Escherichia coli of impending lethal chemical stress and leads to induction of tolerance responses

JOURNAL OF APPLIED MICROBIOLOGY, Issue 5 2001
R.J. Rowbury
1. Summary, 678 2. Introduction 2.1. Chemical and biological stress agents affecting enterobacteria, 678 2.2. Sensing of chemical and biological stress stimuli, 678 2.3. Intracellular sensors detect intracellularly-produced chemical stressing agents, 679 2.4. Intracellular sensors and intracellular induction components could delay response induction by extracellular chemical or biological stress agents, 680 2.5. Extracellular sensors and EICs give early warning of stress, 681 2.6. Disadvantages of extracellular components being needed for stress response induction, 682 2.7. Extracellular sensors and EICs allow stressed cells to warn unstressed ones, 682 2.8. A second role for some extracellular stress sensors, 683 3. Responses switched on by extracellular sensors and EICs 3.1. Involvement of EICs and ESCs in acid tolerance induction at pH 5·0 and at other mildly acidic pH values, 683 3.2. Further evidence for the obligate involvement of extracellular sensors and EICs in acid tolerance induction at pH 5·0, 684 3.3. On the nature of the acid pH tolerance-inducing ESC and EIC, 686 3.4. The acid tolerance ECs and their relation to other extracellular response-inducing components, 686 3.5. Extracellular components are needed for other inducible acid tolerance responses, 687 3.6. Involvement of EICs and extracellular sensors in acid tolerance in E. coli O157, 687 3.7. EICs involved in acid tolerance induction are diffusible, 687 4. Acid sensitization at alkaline pH and the role of extracellular sensor and EIC(s), 688 5. Responses affecting tolerance to alkali 5.1. Alkali sensitization at acidic pH, 688 5.2. Induced alkali tolerance at pH 9·0 and role of extracellular components, 688 6. Inducible tolerance to alkylhydroperoxides, 689 7. Are extracellular sensors and extracellular induction components needed for all stress responses?, 689 8. Altered responsiveness of extracellular sensors depending on growth conditions, 691 9. Protection of living cells from chemical stress by dead cultures, 691 10. How can intracellular levels of stress be detected?, 692 11. Are Nikolaev's extracellular ,protectants' and similar components related to EICs?, 693 12. Conclusions, 693 13. References, 694 [source]

Vaccination trials of sea bass, Dicentrarchus labrax (L.), against Photobacterium damsela subsp. piscicida, using novel vaccine mixtures

JOURNAL OF FISH DISEASES, Issue 2 2003
V Bakopoulos
Abstract Bacterial cells of the marine fish pathogen Photobacterium damsela subsp. piscicida were grown in novel culture media. A mixture of whole cells and extracellular components was inactivated and used in bath, intraperitoneal (i.p.) and oral vaccination of sea bass, Dicentrarchus labrax, employing two sizes of fish. A commercial vaccine was used for comparative purposes. Control and immunized fish were either bath or intraperitoneally challenged 6 and 12 weeks post-vaccination. Small fish had significantly higher relative percentage survival with the novel vaccine mixture both at 6 and 12 weeks post-vaccination by bath, in comparison with the commercial vaccine. No protection was afforded at 6 or 12 weeks post-immunization by either vaccine after challenge via i.p. injection. Sea bass (1.5,2 g) intraperitoneally vaccinated with various adjuvanted vaccine mixtures were not protected against pasteurellosis. In contrast, larger sea bass (20 g) benefited from vaccination with the novel vaccine mixtures. Intraperitoneal challenge with the pathogen resulted in protection in both fish groups vaccinated with novel vaccine mixtures, whereas control fish suffered high mortalities (>80%). Orally vaccinated fish were immersion challenged with the pathogen. At 6 and 12 weeks post-vaccination the control fish had a high mortality and the fish vaccinated with the novel vaccine mixture achieved good protection. [source]

Localization of the membrane-anchored MMP-regulator RECK at the neuromuscular junctions

JOURNAL OF NEUROCHEMISTRY, Issue 2 2008
Satoshi Kawashima
Abstract Nerve apposition on nicotinic acetylcholine receptor clusters and invagination of the post-synaptic membrane (i.e. secondary fold formation) occur by embryonic day 18.5 at the neuromuscular junctions (NMJs) in mouse skeletal muscles. Finding the molecules expressed at the NMJ at this stage of development may help elucidating how the strong linkage between a nerve terminal and a muscle fiber is established. Immunohistochemical analyses indicated that the membrane-anchored matrix metalloproteinase regulator RECK was enriched at the NMJ in adult skeletal muscles. Confocal and electron microscopy revealed the localization of RECK immunoreactivity in secondary folds and subsynaptic intracellular compartments in muscles. Time course studies indicated that RECK immunoreactivity becomes associated with the NMJ in the diaphragm at around embryonic day 18.5 and thereafter. These findings, together with known properties of RECK, support the hypothesis that RECK participates in NMJ formation and/or maintenance, possibly by protecting extracellular components, such as synaptic basal laminae, from proteolytic degradation. [source]