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991.
A major pathology of methamphetamine abuse is loss of dopaminergic function due to destruction of dopaminergic terminals, especially in the striatum. This process is accompanied by gliosis by astrocytes and microglia. Here, we evaluated the function of endogenous nociceptin/orphanin FQ in these events using nociceptin receptor (NOP) knockout mice. Wild-type and knockout mice were injected systemically either saline vehicle or 5 mg/kg methamphetamine four times interspersed by 2 h intervals. Three days later, brains were immunohistochemically processed to visualize methamphetamine-induced loss of tyrosine hydroxylase (as a marker of damage to dopamine terminals), glial fibrillary acidic protein (GFAP, as a marker of astrocytes), and ionized calcium-binding adapter molecule 1 (lba-1, as a marker of microglia) in the striatum. Methamphetamine treatment induced an approximately 80% loss of tyrosine hydroxylase-immunoreactivity, and this effect was mildly attenuated in NOP receptor knockout mice. There was a large increase (approximately 15-fold) in GFAP-immunoreactivity in methamphetamine-treated wild-type mice, which was almost two times larger still in NOP receptor knockout mice. In contrast, Iba-1 immunostaining was only modestly increased (approximately 30%) by methamphetamine treatment, and there were no difference between genotypes. Finally, there were no genotype-dependent differences in hyperthermic responses to methamphetamine. These results indicate that endogenous nociceptin/orphanin FQ exacerbates the neurotoxic effects of methamphetamine on striatal dopamine neurons, and suggests this is due in part to an astrocyte-mediated event. 相似文献
992.
993.
Molecular design strategies in biomedical applications often involve creating modular “fusion” proteins, in which distinct domains within a single molecule can perform multiple functions. We have synthesized a new class of modular peptides that include a biologically active sequence derived from the growth factor BMP-2 and a series of hydroxyapatite-binding sequences inspired by the N-terminal α-helix of osteocalcin. These modular peptides can bind in a sequence-dependent manner to the surface of “bone-like” hydroxyapatite coatings, which are nucleated and grown on a biodegradable polymer surface via a biomimetic process. The BMP-2-derived sequence of the modular peptides is biologically active, as measured by its ability to promote osteogenic differentiation of human mesenchymal stem cells. Our study indicates that the modular peptides described here are multifunctional, and the characteristics of this approach suggest that it can potentially be applied to a range of biomaterials for regenerative medicine applications. 相似文献
994.
Ariane Briegel Davi R. Ortega Elitza I. Tocheva Kristin Wuichet Zhuo Li Songye Chen Axel Müller Cristina V. Iancu Gavin E. Murphy Megan J. Dobro Igor B. Zhulin Grant J. Jensen 《Proceedings of the National Academy of Sciences of the United States of America》2009,106(40):17181-17186
Chemoreceptors are key components of the high-performance signal transduction system that controls bacterial chemotaxis. Chemoreceptors are typically localized in a cluster at the cell pole, where interactions among the receptors in the cluster are thought to contribute to the high sensitivity, wide dynamic range, and precise adaptation of the signaling system. Previous structural and genomic studies have produced conflicting models, however, for the arrangement of the chemoreceptors in the clusters. Using whole-cell electron cryo-tomography, here we show that chemoreceptors of different classes and in many different species representing several major bacterial phyla are all arranged into a highly conserved, 12-nm hexagonal array consistent with the proposed “trimer of dimers” organization. The various observed lengths of the receptors confirm current models for the methylation, flexible bundle, signaling, and linker sub-domains in vivo. Our results suggest that the basic mechanism and function of receptor clustering is universal among bacterial species and was thus conserved during evolution. 相似文献
995.
Lucas H Sampaio Mariane MA Stefani Regiane M Oliveira Ana LM Sousa Greg C Ireton Steven G Reed Malcolm S Duthie 《BMC infectious diseases》2011,11(1):26
Background
Leprosy is a chronic infectious disease caused by Mycobacterium leprae that can manifest a wide variety of immunological and clinical outcomes ranging from potent humoral responses among borderline lepromatous (BL) and lepromatous (LL) patients to strong cellular responses among tuberculoid (TT) and borderline tuberculoid (BT) patients. Until recently, relatively little has been known about the immune responses to individual proteins of M. leprae recognized during leprosy. 相似文献996.
997.
Joshua A. Wood Sara J. Liliensiek Paul Russell Paul F. Nealey Christopher J. Murphy 《Materials》2010,3(3):1620-1639
Human vascular endothelial cells (VEC) line the vessels of the body and are critical for the maintenance of vessel integrity and trafficking of biochemical cues. They are fundamental structural elements and are central to the signaling environment. Alterations in the normal functioning of the VEC population are associated with a number of vascular disorders among which are some of the leading causes of death in both the United States and abroad. VECs attach to their underlying stromal elements through a specialization of the extracellular matrix, the basement membrane. The basement membrane provides signaling cues to the VEC through its chemical constituents, by serving as a reservoir for cytoactive factors and through its intrinsic biophysical properties. This specialized matrix is composed of a topographically rich 3D felt-like network of fibers and pores on the nano (1–100 nm) and submicron (100–1,000 nm) size scale. The basement membrane provides biophysical cues to the overlying VECs through its intrinsic topography as well as through its local compliance (relative stiffness). These biophysical cues modulate VEC adhesion, migration, proliferation, differentiation, and the cytoskeletal signaling network of the individual cells. This review focuses on the impact of biophysical cues on VEC behaviors and demonstrates the need for their consideration in future vascular studies and the design of improved prosthetics. 相似文献
998.
Hippocampal abnormalities have frequently been associated with major depressive disorder (MDD), however evidence of a functional hippocampal deficit has remained illusive. Here, functional magnetic resonance imaging (fMRI) is employed in conjunction with an associative memory paradigm to investigate functional irregularities of the hippocampus during the encoding process. The use of a focussed analytical approach and a behavioural task targeted to hippocampal function confirmed the hypothesis that the normal modulation of hippocampal activation by encoding strength is dysregulated in MDD. Further analysis demonstrated that this impairment of function was specific to the hippocampus. A double dissociation between groups in the hippocampus and intraparietal sulcus indicates that compensatory mechanisms may exist. These results show that MDD is associated with a dysregulation of hippocampal function that cannot be explained in terms of overall brain state or motivational stance and provides an important link between memory impairments and hippocampal changes in MDD. 相似文献
999.
1000.