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排序方式: 共有248条查询结果,搜索用时 31 毫秒
151.
Eva Milena Johanne Peters Anna Michenko J?rg Kupfer Wolfgang Kummer Silke Wiegand Volker Niemeier Nikolay Potekaev Andrey Lvov Uwe Gieler 《PloS one》2014,9(12)
Rationale
In mouse models for atopic dermatitis (AD) hypothalamus pituitary adrenal axis (HPA) dysfunction and neuropeptide-dependent neurogenic inflammation explain stress-aggravated flares to some extent. Lately, cholinergic signaling has emerged as a link between innate and adaptive immunity as well as stress responses in chronic inflammatory diseases. Here we aim to determine in humans the impact of acute stress on neuro-immune interaction as well as on the non-neuronal cholinergic system (NNCS).Methods
Skin biopsies were obtained from 22 individuals (AD patients and matched healthy control subjects) before and after the Trier social stress test (TSST). To assess neuro-immune interaction, nerve fiber (NF)-density, NF-mast cell contacts and mast cell activation were determined by immunohistomorphometry. To evaluate NNCS effects, expression of secreted mammal Ly-6/urokinase-type plasminogen activator receptor-related protein (SLURP) 1 and 2 (endogenous nicotinic acetylcholine receptor ligands) and their main corresponding receptors were assessed by quantitative RT-PCR.Results
With respect to neuro-immune interaction we found higher numbers of NGF+ dermal NF in lesional compared to non-lesional AD but lower numbers of Gap43+ growing NF at baseline. Mast cell-NF contacts correlated with SCORAD and itch in lesional skin. With respect to the NNCS, nicotinic acetylcholine receptor α7 (α7nAChR) mRNA was significantly lower in lesional AD skin at baseline. After TSST, PGP 9.5+ NF numbers dropped in lesional AD as did their contacts with mast cells. NGF+ NF now correlated with SCORAD and mast cell-NF contacts with itch in non-lesional skin. At the same time, SLURP-2 levels increased in lesional AD skin.Conclusions
In humans chronic inflammatory and highly acute psycho-emotional stress interact to modulate cutaneous neuro-immune communication and NNCS marker expression. These findings may have consequences for understanding and treatment of chronic inflammatory diseases in the future. 相似文献152.
153.
Zarghooni S Wunsch J Bodenbenner M Brüggmann D Grando SA Schwantes U Wess J Kummer W Lips KS 《Life sciences》2007,80(24-25):2308-2313
Acetylcholine (ACh) and its receptors play a crucial role in bladder physiology. Here, we investigated the presence of muscarinic receptor subtypes (MR) and nicotinic acetylcholine receptor (nAChR) alpha-subunits in the mouse urothelium by RT-PCR and immunohistochemistry. With RT-PCR, we detected mRNAs coding for all of the five different MR subtypes and for the nicotinic receptor subunits alpha2, alpha4, alpha5, alpha6, alpha7, alpha9 and alpha10, whereas the alpha3-subunit was not expressed. Using immunohistochemistry, we localised a panel of acetylcholine receptors in the different layers of the murine bladder urothelium, with predominant appearance in the basal plasma membrane of the basal cell layer and in the apical membrane of the umbrella cells. M2R and subunit alpha9 were observed exclusively in the umbrella cells, whereas the MR subtypes 3-5 and the nAChR subunits alpha4, alpha7 and alpha10 were also detected in the intermediate and basal cell layers. The subunit alpha5 was localised only in the basal cell layer. In conclusion, the murine urothelium expresses multiple cholinergic receptors, including several subtypes of both MR and nAChR, which are differentially distributed among the urothelial cell types. Since these receptors have different electrophysiological and pharmacological properties, and therefore are considered to be responsible for different cellular responses to ACh, this differential distribution is expected to confer cell type-specificity of cholinergic regulation in the bladder urothelium. 相似文献
154.
D Bellar A Hatchett LW Judge ME Breaux L Marcus 《Biology of sport / Institute of Sport》2015,32(4):315-320
CrossFit is becoming increasingly popular as a method to increase fitness and as a competitive sport in both the Unites States and Europe. However, little research on this mode of exercise has been performed to date. The purpose of the present investigation involving experienced CrossFit athletes and naïve healthy young men was to investigate the relationship of aerobic capacity and anaerobic power to performance in two representative CrossFit workouts: the first workout was 12 minutes in duration, and the second was based on the total time to complete the prescribed exercise. The participants were 32 healthy adult males, who were either naïve to CrossFit exercise or had competed in CrossFit competitions. Linear regression was undertaken to predict performance on the first workout (time) with age, group (naïve or CrossFit athlete), VO2max and anaerobic power, which were all significant predictors (p < 0.05) in the model. The second workout (repetitions), when examined similarly using regression, only resulted in CrossFit experience as a significant predictor (p < 0.05). The results of the study suggest that a history of participation in CrossFit competition is a key component of performance in CrossFit workouts which are representative of those performed in CrossFit, and that, in at least one these workouts, aerobic capacity and anaerobic power are associated with success. 相似文献
155.
Kummer MP Hermes M Delekarte A Hammerschmidt T Kumar S Terwel D Walter J Pape HC König S Roeber S Jessen F Klockgether T Korte M Heneka MT 《Neuron》2011,71(5):833-844
Part of the inflammatory response in Alzheimer's disease (AD) is the upregulation of the inducible nitric oxide synthase (NOS2) resulting in increased NO production. NO contributes to cell signaling by inducing posttranslational protein modifications. Under pathological conditions there is a shift from the signal transducing actions to the formation of protein tyrosine nitration by secondary products like peroxynitrite and nitrogen dioxide. We identified amyloid β (Aβ) as an NO target, which is nitrated at tyrosine 10 (3NTyr(10)-Aβ). Nitration of Aβ accelerated its aggregation and was detected in the core of Aβ plaques of APP/PS1 mice and AD brains. NOS2 deficiency or oral treatment with the NOS2 inhibitor L-NIL strongly decreased 3NTyr(10)-Aβ, overall Aβ deposition and cognitive dysfunction in APP/PS1 mice. Further, injection of 3NTyr(10)-Aβ into the brain of young APP/PS1 mice induced β-amyloidosis. This suggests a disease modifying role for NOS2 in AD and therefore represents a potential therapeutic target. 相似文献
156.
Markus P. Kummer Hiroko Maruyama Claudia Huelsmann Sandra Baches Sascha Weggen Edward H. Koo 《The Journal of biological chemistry》2009,284(4):2296-2306
The formation of insoluble cross β-sheet amyloid is pathologically
associated with disorders such as Alzheimer, Parkinson, and Huntington
diseases. One exception is the nonpathological amyloid derived from the
protein Pmel17 within melanosomes to generate melanin pigment. Here we show
that the formation of insoluble MαC intracellular fragments of Pmel17,
which are the direct precursors to Pmel17 amyloid, depends on a novel
juxtamembrane cleavage at amino acid position 583 between the furin-like
proprotein convertase cleavage site and the transmembrane domain. The
resulting Pmel17 C-terminal fragment is then processed by the
γ-secretase complex to release a short-lived intracellular domain
fragment. Thus, by analogy to the Notch receptor, we designate this cleavage
the S2 cleavage site, whereas γ-secretase mediates proteolysis at the
intramembrane S3 site. Substitutions or deletions at this S2 cleavage site,
the use of the metalloproteinase inhibitor TAPI-2, as well as small
interfering RNA-mediated knock-down of the metalloproteinases ADAM10 and 17
reduced the formation of insoluble Pmel17 fragments. These results demonstrate
that the release of the Pmel17 ectodomain, which is critical for melanin
amyloidogenesis, is initiated by S2 cleavage at a juxtamembrane position.Folding of proteins is a highly regulated process ensuring their correct
three-dimensional structure. Under pathological circumstances, a soluble
protein can be folded into highly stable cross β-sheet amyloid
structures, which are believed to play pathological roles in disorders such as
Alzheimer, Parkinson, and Huntington diseases. An exception to this general
concept is the physiological amyloid structure of the melanosomal matrix
formed by the protein Pmel17. Melanosomes are lysosome-related organelles that
contain pigment granules (melanin) in melanocytes and retinal epithelial cells
(reviewed in Ref. 1).
Melanogenesis is believed to proceed through several sequential maturation
steps, classified by melanosomes from stage I to stage IV. Maturation of stage
II melanosomes requires the formation of Pmel17 intralumenal fibers
(2,
3).Pmel17 (also called gp100, ME20, RPE1, or silver) is a type I transmembrane
glycoprotein of up to 668 amino acids in humans (reviewed in Ref.
4). The requirement of Pmel17
for the generation of functional melanin has been shown in a number of
different organisms, because, for example, certain point mutations in the
Pmel17/silver gene result in hypopigmentation phenotypes
(5–7).
The most characteristic domain within Pmel17 is a specific lumenal
proline/serine/threonine rich repeat domain (see
Fig. 1A), that is
imperfectly repeated 13 times in the Mα fragment. Importantly, deletion
of the rich repeat domain results in a complete loss of fibril formation,
pointing to the requirement of Pmel17, and especially the rich repeat domain,
in melanin formation (8).
Pmel17 exists in different isoforms generated by alternative splicing.
Pmel17-i2 is the most
abundant isoform, whereas the Pmel17-l isoform contains a 7-amino acid
insertion close to the transmembrane domain
(9,
10).Open in a separate windowFIGURE 1.Effect of the γ-secretase inhibitor DAPT on Pmel17 processing.
A, schematic diagram of Pmel17 and epitopes of antibodies. Pmel17
contains five potential N-glycosylation sites indicated by branched
structures. The long form of Pmel17, Pmel17-l, is characterized by a seven
amino acid insertion (VPGILLT) within the lumenal domain close to the
transmembrane domain (TM), which is absent in Pmel17-i. NVS marks a
potential N-glycosylation site near this insertion. The epitopes of
antibodies αPep13h and HMB45 are indicated. Cleavage by a furin-like PC
results in the formation of the Mα and the membrane-bound 26-kDa Mβ
fragment, which are connected via disulfide bonds. Release and further
processing of the Mα fragment into MαN and MαC fragments
results in the formation of fibrils and marks the transition of stage I to
stage II melanosomes (dashed line). B, human MNT-1 cells
were incubated with increasing amounts of DAPT for 18 h, and then the lysates
were separated by SDS-PAGE and analyzed by immunoblotting with αPep13h
antibody. DAPT treatment resulted in the accumulation of a C-terminal fragment
of Pmel17 (CTF), whereas Pmel17 P1 and Mβ fragment were unchanged.
C, probing the Triton-soluble fraction with HMB45 revealed increased
amounts of the highly glycosylated P2 form of Pmel17 after DAPT incubation.
D, detection of Pmel17 amyloidogenic fragments (MαC) in the
SDS-extracted insoluble pellet using antibody HMB45. E, murine B16-FO
cells treated with increasing concentrations of DAPT. Immunoblotting using
antibodyαPep13h revealed the formation of CTF of similar size as in
MNT-1 cells. F, time course analysis of Pmel17, Mβ, and
Pmel17-CTF after DAPT treatment. The cell lysates were immunoblotted using
αPep13h. Pmel17-CTF was detectable after 10 min of incubation with 1
μm DAPT. G, the size of the Pmel17-CTF was determined
using an unstained low molecular range peptide standard. The marker peptides
were detected by Ponceau S staining and Pmel17-CTF were detected by immunoblot
using αPep13h.Pmel17 traffics through the secretory pathway as a 100-kDa protein (called
P1). In the late Golgi compartment it undergoes further glycosylation,
resulting in a short lived 120-kDa protein (called P2). P2 is rapidly cleaved
within the post-Golgi by a furin-like proprotein convertase (PC) to generate
two fragments that remain tethered to each other by disulfide bonds: a
C-terminal polypeptide containing the transmembrane domain (Mβ) and a
large N-terminal ectodomain (Mα)
(2)
(Fig. 1A).
Consequently, inhibition of this furin-like activity not only prevents the
generation of Mα and Mβ fragments but also inhibits the formation
of melanosomal striation in HeLa cells
(3). These findings suggest
that Mα must first be dissociated from the Mβ for melanogenesis to
proceed. It is unclear how Mα is released from the membrane. Reduction
of disulfide bonds would release Mα from Mβ; alternatively,
proteolytic digestion of Mβ should also free Mα from the membrane
tether. It has been speculated that, given the presence of lysosomal
hydrolases in melanosomes and proteolytic maturation of Pmel17, proteolysis is
the more likely mechanism (4).
Recently, it was shown that recombinant Mα is able to form amyloid
structures in vitro in an unprecedented rapidity, and furthermore,
Pmel17 amyloid also accelerated melanin formation
(11). These findings
demonstrate that mammalian amyloid formed by Pmel17 is functional and
physiological.The insoluble pool of Pmel17 in cells consists mostly of truncated Mα
C-terminal fragments (MαC) of heterogeneous sizes, indicating that
further processing of Mα occurs after its release from the membrane
(8,
12). MαC fragments are
found in the insoluble fraction of melanocytes as well as in nonmelanotic
cells, the latter after overexpression of Pmel17
(8), and are reduced or absent
in amelanotic cells (8,
13,
14). Meanwhile, the C-terminal
fragment derived from the Mβ fragment and recognized by a C-terminal
specific epitope antibody is less stable, indicating rapid turnover
(2).The presenilin (PS) family of proteins consists of two homologous integral
transmembrane proteins, PS1 and PS2, which are part of the γ-secretase
complex. The latter consists of presenilin 1 or 2, nicastrin, APH-1, and PEN-2
(15) and catalyzes the
cleavage of the hydrophobic transmembrane domain of a burgeoning list of
proteins, also called regulated intramembrane cleavage. Other substrates for
the γ-secretase-mediated intramembrane cleavage include Notch, amyloid
precursor protein (APP), cadherin (E-cadherin), nectin-1, the low density
lipoprotein-related receptor, CD44, ErbB-4, the voltage-gated sodium channel
β2-subunit, and the Notch ligands Delta and Jagged. Importantly, in
Alzheimer disease, the presenilin-mediated γ-secretase cleavage of APP
releases the amyloid β-protein fragment, a peptide believed to play a key
role in Alzheimer disease pathogenesis. Interestingly, a recent report
described the absence of melanin pigment in presenilin-deficient animals, an
observation confirmed by the lack of melanin formation in cells treated with
γ-secretase inhibitors
(16). The mechanism
responsible for this finding is unclear, leading us to ask whether Pmel17
processing is a presenilin-dependent process and, if so, whether this cleavage
is involved in melanogenesis.In this study, we show the presence of an endoproteolytic activity that
cleaves the extracellular domain of Pmel17-i at a juxtamembrane position
between the known PC cleavage site and the transmembrane domain, which we term
the S2 cleavage site, by a TAPI-sensitive ADAM (a disintegrin
and metalloproteinase protein) protease. This
intracellular shedding of Pmel17 after S2 cleavage results in the liberation
of the Mα N-terminal ectodomain, the precursor to Pmel17 amyloid, which
is able to form insoluble Pmel17 aggregates. The C-terminal transmembrane
fragment generated by S2 cleavage is further processed by γ-secretase
(S3 cleavage) to release the Pmel17 intracellular domain, which is then
rapidly degraded. 相似文献
157.
Bo M Bavestrello G Kurek D Paasch S Brunner E Born R Galli R Stelling AL Sivkov VN Petrova OV Vyalikh D Kummer K Molodtsov SL Nowak D Nowak J Ehrlich H 《International journal of biological macromolecules》2012,51(1-2):129-137
Until now, there is a lack of knowledge about the presence of chitin in numerous representatives of corals (Cnidaria). However, investigations concerning the chitin-based skeletal organization in different coral taxa are significant from biochemical, structural, developmental, ecological and evolutionary points of view. In this paper, we present a thorough screening for the presence of chitin within the skeletal formations of a poorly investigated Mediterranean black coral, Parantipathes larix (Esper, 1792), as a typical representative of the Schizopathidae family. Using a wide array variety of techniques ((13)C solid state NMR, Fourier transform infrared (FTIR), Raman, NEXAFS, Morgan-Elson assay and Calcofluor White Staining), we unambiguously show for the first time that chitin is an important component within the skeletal stalks as well as pinnules of this coral. 相似文献
158.
Kummer NT Nowicki TS Azzi JP Reyes I Iacob C Xie S Swati I Darzynkiewicz Z Gotlinger KH Suslina N Schantz S Tiwari RK Geliebter J 《Journal of cellular biochemistry》2012,113(6):1998-2008
Arachidonate 5-lipoxygenase (ALOX5) expression and activity has been implicated in tumor pathogenesis, yet its role in papillary thyroid carcinoma (PTC) has not been characterized. ALOX5 protein and mRNA were upregulated in PTC compared to matched, normal thyroid tissue, and ALOX5 expression correlated with invasive tumor histopathology. Evidence suggests that PTC invasion is mediated through the induction of matrix metalloproteinases (MMPs) that can degrade and remodel the extracellular matrix (ECM). A correlation between MMP-9 and ALOX5 protein expression was established by immunohistochemical analysis of PTC and normal thyroid tissues using a tissue array. Transfection of ALOX5 into a PTC cell line (BCPAP) increased MMP-9 secretion and cell invasion across an ECM barrier. The ALOX5 product, 5(S)-hydroxyeicosatetraenoic acid also increased MMP-9 protein expression by BCPAP in a dose-dependent manner. Inhibitors of MMP-9 and ALOX5 reversed ALOX5-enhanced invasion. Here we describe a new role for ALOX5 as a mediator of invasion via MMP-9 induction; this ALOX5/MMP9 pathway represents a new avenue in the search for functional biomarkers and/or potential therapeutic targets for aggressive PTC. 相似文献
159.
The paradigm of endoplasmic reticulum (ER)-associated degradation (ERAD) holds that misfolded secretory and membrane proteins are translocated back to the cytosol and degraded by the proteasome in a coupled process. Analyzing the degradation of ER-localized amyloid β-peptide (Aβ), we found a divergence from this general model. Cell-free reconstitution of the export in biosynthetically loaded ER-derived brain microsomes showed that the export was mediated by the Sec61p complex and required a cytosolic factor but was independent of ATP. In contrast to the ERAD substrates known so far, the exported Aβ was degraded by both, a proteasome-dependent and a proteasome-independent pathway. RNA interference experiments in Aβ-transfected cells identified the protease of the proteasome-independent pathway as insulin-degrading enzyme (IDE). The IDE-mediated clearance mechanism for ER-localized Aβ represents an as yet unknown type of ERAD which is not entirely dependent on the proteasome. 相似文献
160.
Kummer U Olsen LF Dixon CJ Green AK Bornberg-Bauer E Baier G 《Biophysical journal》2000,79(3):1188-1195
We present a new model for calcium oscillations based on experiments in hepatocytes. The model considers feedback inhibition on the initial agonist receptor complex by calcium and activated phospholipase C, as well as receptor type-dependent self-enhanced behavior of the activated G(alpha) subunit. It is able to show simple periodic oscillations and periodic bursting, and it is the first model to display chaotic bursting in response to agonist stimulations. Moreover, our model offers a possible explanation for the differences in dynamic behavior observed in response to different agonists in hepatocytes. 相似文献