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941.
Stat3 links activated keratinocytes and immunocytes required for development of psoriasis in a novel transgenic mouse model 总被引:25,自引:0,他引:25
Sano S Chan KS Carbajal S Clifford J Peavey M Kiguchi K Itami S Nickoloff BJ DiGiovanni J 《Nature medicine》2005,11(1):43-49
Here we report that epidermal keratinocytes in psoriatic lesions are characterized by activated Stat3. Transgenic mice with keratinocytes expressing a constitutively active Stat3 (K5.Stat3C mice) develop a skin phenotype either spontaneously, or in response to wounding, that closely resembles psoriasis. Keratinocytes from K5.Stat3C mice show upregulation of several molecules linked to the pathogenesis of psoriasis. In addition, the development of psoriatic lesions in K5.Stat3C mice requires cooperation between Stat3 activation in keratinocytes and activated T cells. Finally, abrogation of Stat3 function by a decoy oligonucleotide inhibits the onset and reverses established psoriatic lesions in K5.Stat3C mice. Thus, targeting Stat3 may be potentially therapeutic in the treatment of psoriasis. 相似文献
942.
Smallpox vaccine-induced antibodies are necessary and sufficient for protection against monkeypox virus 总被引:1,自引:0,他引:1
Edghill-Smith Y Golding H Manischewitz J King LR Scott D Bray M Nalca A Hooper JW Whitehouse CA Schmitz JE Reimann KA Franchini G 《Nature medicine》2005,11(7):740-747
Vaccination with live vaccinia virus affords long-lasting protection against variola virus, the agent of smallpox. Its mode of protection in humans, however, has not been clearly defined. Here we report that vaccinia-specific B-cell responses are essential for protection of macaques from monkeypox virus, a variola virus ortholog. Antibody-mediated depletion of B cells, but not CD4+ or CD8+ T cells, abrogated vaccine-induced protection from a lethal intravenous challenge with monkeypox virus. In addition, passive transfer of human vaccinia-neutralizing antibodies protected nonimmunized macaques from severe disease. Thus, vaccines able to induce long-lasting protective antibody responses may constitute realistic alternatives to the currently available smallpox vaccine (Dryvax). 相似文献
943.
Distinctive and synergistic signaling of human adenosine A2a and dopamine D2L receptors in CHO cells
Adenosine A(2a) receptor (A(2a)R) colocalizes with dopamine D(2) receptor (D(2)R) in the basal ganglia and modulates D(2)R-mediated dopaminergic activities. A(2a)R and D(2)R couple to stimulatory and inhibitory G proteins, respectively. Their opposing roles in regulating neuronal activities, such as locomotion and alcohol consumption, are mediated by their opposite actions on adenylate cyclase, which often serves as "co-incidence detector" of various activators. On the other hand, the neural actions of A(2a)R and D(2)R are also, at least partially, independent of each other, as indicated by studies using D(2)R and A(2a)R knock-out mice. Here we co-expressed human A(2a)R and human D(2L)R in CHO cells and examined their signaling characteristics. Human A(2a)R desensitized rapidly upon agonist stimulation. A(2a)R activity (80%) was diminished after 2 hr of pretreatment with its agonist CGS21680. In contrast, human D(2L)R activity was sustained even after 2 hr and 18 hr pretreatment with its agonist quinpirole. Long-term (18 hr) stimulation of human D(2L)R also increased basal cAMP levels in CHO cells, whereas long-term (18 hr) activation of human A(2a)R did not affect basal cAMP levels. Furthermore, long-term (18 hr) activation of D(2L)R dramatically sensitized A(2a)R-induced stimulation of adenylate cyclase in a pertussis toxin-sensitive way. Forskolin-induced cAMP accumulation was significantly increased after short-term (2 hr) human D(2L)R stimulation and further elevated after long-term (18 hr) D(2L)R activation. However, neither short-term (2 hr) nor long-term (18 hr) stimulation of A(2a)R affected the inhibitory effects of D(2L)R on adenylate cyclase. Co-stimulation of A(2a)R and D(2L)R could not induce desensitization or sensitization of D(2L)R either. In summary, signaling through A(2a)R and D(2L)R is distinctive and synergistic, supporting their unique and yet integrative roles in regulating neuronal functions when both receptors are present. 相似文献
944.
Burkholderia are microorganisms that have a unique ability to adapt and survive in many different environments. They can also serve as biopesticides and be used for the biodegradation of organic compounds. Usually harmless while living in the soil, these bacteria are opportunistic pathogens of plants and immunocompromised patients, and occasionally infect healthy individuals. Some of the species in this genus can also be utilised as biological weapons. They all possess very large genomes and have two or more circular chromosomes. Their survival and persistence, not only in the environment but also in host cells, offers a remarkable example of bacterial adaptation. 相似文献
945.
Choe H Moore MJ Owens CM Wright PL Vasilieva N Li W Singh AP Shakri R Chitnis CE Farzan M 《Molecular microbiology》2005,55(5):1413-1422
Plasmodium vivax is one of four Plasmodium species that cause human malaria. P. vivax and a related simian malaria parasite, Plasmodium knowlesi, invade erythrocytes by binding the Duffy antigen/receptor for chemokines (DARC) through their respective Duffy binding proteins. Here we show that tyrosines 30 and 41 of DARC are modified by addition of sulphate groups, and that the sulphated tyrosine 41 is essential for association of the Duffy binding proteins of P. vivax (PvDBP) and P. knowlesi (PkDaBP) with DARC-expressing cells. These sulphated tyrosines also participate in the association of DARC with each of its four known chemokine ligands. Alteration of tyrosine 41 to phenylalanine interferes with MCP-1, RANTES and MGSA association with DARC, but not with that of IL8. In contrast, alteration of tyrosine 30 to phenylalanine interferes with the association of IL8 with DARC. A soluble sulphated amino-terminal domain of DARC, but not one modified to phenylalanine at residue 41, can be used to block the association of PvDBP and PkDaBP with red blood cells, with an IC50 of approximately 5 nM. These data are consistent with a role for tyrosine sulphation in the association of many or most chemokines with their receptors, and identify a key molecular determinant of erythrocyte invasion by P. vivax. 相似文献
946.
The role of host factors in regulating bacterial transposition has never been comprehensively addressed, despite the potential consequences of transposition. Here, we describe a screen for host factors that influence transposition of IS903, and the effect of these mutations on two additional transposons, Tn10 and Tn552. Over 20,000 independent insertion mutants were screened in two strains of Escherichia coli; from these we isolated over 100 mutants that altered IS903 transposition. These included mutations that increased or decreased the extent of transposition and also altered the timing of transposition during colony growth. The large number of gene products affecting transposition, and their diverse functions, indicate that the overall process of transposition is modulated at many different steps and by a range of processes. Previous work has suggested that transposition is triggered by cellular stress. We describe two independent mutations that are in a gene required for fermentative metabolism during anaerobic growth, and that cause transposition to occur earlier than normal during colony development. The ability to suppress this phenotype by the addition of fumarate therefore provides direct evidence that transposition occurs in response to nutritional stress. Other mutations that altered transposition disrupted genes normally associated with DNA metabolism, intermediary metabolism, transport, cellular redox, protein folding and proteolysis and together these define a network of host proteins that could potentially allow readout of the cell's environmental and nutritional status. In summary, this work identifies a collection of proteins that allow the host to modulate transposition in response to cell stress. 相似文献
947.
Classical conjugal DNA transfer of chromosomal DNA in bacteria requires the presence of a cis-acting site, oriT, in the chromosome. Acquisition of an oriT occurs if a conjugative plasmid integrates into the chromosome to form an Hfr donor strain, which can transfer extensive regions of chromosomal DNA. Because oriT sequences are unique, and because transfer occurs in a 5' to 3' direction, the frequency with which a particular gene is inherited by the recipient depends on the gene's location: those closest to the 3' side of oriT are transferred most efficiently. In addition, as the entire chromosome must be transferred to regenerate oriT, Hfr transconjugants never become donors. Here we describe novel aspects of a chromosomal DNA transfer system in Mycobacterium smegmatis. We demonstrate that there are multiple transfer initiations from a donor chromosome and, as a result, the inheritance of any gene is location-independent. Transfer is not contiguous; instead, multiple non-linked segments of DNA can be inherited in a recipient. However, we show that, with appropriate selection, segments of DNA at least 266 kb in length can be transferred. In further contrast to Hfr transfer, transconjugants can become donors, suggesting that the recipient chromosome contains multiple cis-acting sequences required for transfer, but lacks the trans-acting transfer functions. We exploit these observations to map a donor-determining locus in the M. smegmatis chromosome using genetic linkage analysis. Together, these studies further underline the unique nature of the M. smegmatis chromosomal transfer system. 相似文献
948.
Showing your ID: intrinsic disorder as an ID for recognition, regulation and cell signaling 总被引:22,自引:0,他引:22
Regulation, recognition and cell signaling involve the coordinated actions of many players. To achieve this coordination, each participant must have a valid identification (ID) that is easily recognized by the others. For proteins, these IDs are often within intrinsically disordered (also ID) regions. The functions of a set of well-characterized ID regions from a diversity of proteins are presented herein to support this view. These examples include both more recently described signaling proteins, such as p53, alpha-synuclein, HMGA, the Rieske protein, estrogen receptor alpha, chaperones, GCN4, Arf, Hdm2, FlgM, measles virus nucleoprotein, RNase E, glycogen synthase kinase 3beta, p21(Waf1/Cip1/Sdi1), caldesmon, calmodulin, BRCA1 and several other intriguing proteins, as well as historical prototypes for signaling, regulation, control and molecular recognition, such as the lac repressor, the voltage gated potassium channel, RNA polymerase and the S15 peptide associating with the RNA polymerase S-protein. The frequent occurrence and the common use of ID regions in important protein functions raise the possibility that the relationship between amino acid sequence, disordered ensemble and function might be the dominant paradigm for the molecular recognition that serves as the basis for signaling and regulation by protein molecules. 相似文献
949.
Allosteric regulation of chaperonins 总被引:9,自引:0,他引:9
Chaperonins are molecular machines that facilitate protein folding by undergoing energy (ATP)-dependent movements that are coordinated in time and space by complex allosteric regulation. Recently, progress has been made in describing the various functional (allosteric) states of these machines, the pathways by which they interconvert, and the coupling between allosteric transitions and protein folding reactions. However, various mechanistic issues remain to be resolved. 相似文献
950.