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991.
Simona Anticoli Mario Arciello Adriano Mancinetti Massimo De Martinis Lia Ginaldi Luigi Iuliano Clara Balsano 《Journal of cellular physiology》2010,222(3):586-595
Enhanced oxidative stress is a common feature of liver diseases and contributes to chronic liver disease (CLD) progression by inducing fibrogenesis during liver regeneration. Peroxidation products of cholesterol metabolism, named oxysterols, are new and reliable markers of oxidative stress in vivo. Patients affected by CLDs present high plasma levels of oxysterols, raising the question of the origin and biological relevance of these compounds in the pathophysiology of chronic liver damage. The aim of this study was to examine the molecular basis of the biological effects of oxysterols on liver‐derived cells, HepG2 and Huh7. Cells were treated with different concentrations (10?9 to 10?5 M) of 7‐ketocholesterol used as a reference, and 5,6‐secosterol, a recently discovered oxysterol. FACS investigations, caspase‐3 activation, and Sytox Green immunofluorescent assay showed that pathological concentrations of oxysterols induced necrosis (30–50%) after 48 h of treatment. The two analyzed compounds displayed a similar, but not identical, behavior. In fact, 5,6‐secosterol, but not 7‐ketocholesterol, induced cell senescence. Notably, low concentrations of 5,6‐secosterol caused a sustained activation of ERK1/2, inducing cell proliferation, this unexpected behavior should be better characterized by further studies. Since enhanced oxidative stress is known to worsen liver chronic hepatitis and frequently results in overall decreased cellular survival, our data suggest the important and different role oxysterols may have in interfering with physiological liver tissue regeneration in injured human liver. Antioxidant treatment may provide a highly specific and effective mean to counteract the common consequences of oxidative stress on chronic hepatitis, such as fibrosis/cirrhosis and liver failure. J. Cell. Physiol. 222: 586–595, 2010. © 2009 Wiley‐Liss, Inc. 相似文献
992.
Mycorrhizae are widespread mutualistic symbioses crucial for the functioning of terrestrial ecosystems. Not all plants associate with mycorrhizae; most parasitic plants have been suggested to be nonmycorrhizal because they have developed alternative strategies to obtain nutrients. In endophytic parasitic plants, whose vegetative bodies grow completely inside their mycorrhizal host roots, the opportunity for establishing a tripartite association seems evident, but information on these systems is lacking. In studying natural associations among the endophytic holoparasite Cytinus hypocistis, their Cistaceae host species, and associated mycorrhizal fungi, we found that mycorrhizae were associated with the hosts and the parasites, reaching high frequencies of colonization. In parasitic and host root tissues, mycorrhizal fungi spread in the parenchymatic cells by intracellular growth and formed hyphal coils and vesicles, while the cambium and the vascular tissues were never colonized. This report is the first on a tripartite association of an endophytic parasitic plant, its host, and mycorrhizae in natural conditions, representing a novel trophic interaction not previously reported within the angiosperms. Additional studies on the interactions occurring among these three players are needed because they may be crucial to our understanding of how this mutualistic-antagonistic system is functioning and evolving. 相似文献
993.
994.
Manoel Marques Evangelista de Oliveira Rodrigo de Almeida-Paes Mauro de Medeiros Muniz Monica Bastos de Lima Barros Maria Clara Gutierrez Galhardo Rosely Maria Zancope-Oliveira 《Mycopathologia》2010,169(5):359-363
This report describes the first isolation of Sporothrix globosa from a Brazilian patient. A 77-year-old woman was examined for sporotrichosis infection. Histopathological examination of
skin biopsy revealed chronic granulomatous infiltrate with microabcess. Furthermore, S. schenckii-like yeasts were evident as demonstrated by PAS and Grocott stains. The fungus was identified based on colony morphology
on Sabouraud Dextrose Agar slants, Potato Dextrose Agar, and Corn Meal Agar, microscopic morphology on slides cultures, and
assimilation of different carbon sources. The species confirmation was made by molecular methodology. 相似文献
995.
Clara Frumerie Magaly Ducos-Galand Deshmukh N. Gopaul Didier Mazel 《Nucleic acids research》2010,38(2):559-569
Integrons are able to incorporate exogenous genes embedded in mobile cassettes, by a site-specific recombination mechanism. Gene cassettes are collected at the attI site, via an integrase mediated recombination between the cassette recombination site, attC, and the attI site. Interestingly, only three nucleotides are conserved between attC and attI. Here, we have determined the requirements of these in recombination, using the recombination machinery from the paradigmatic class 1 integron. We found that, strikingly, the only requirement is to have identical first nucleotide in the two partner sites, but not the nature of this nucleotide. Furthermore, we showed that the reaction is close to wild-type efficiency when one of the nucleotides in the second or third position is mutated in either the attC or the attI1 site, while identical mutations can have drastic effects when both sites are mutated, resulting in a dramatic decrease of recombination frequency compared to that of the wild-type sites. Finally, we tested the functional role of the amino acids predicted from structural data to interact with the cleavage site. We found that, if the recombination site triplets are tolerant to mutation, the amino acids interacting with them are extremely constrained. 相似文献
996.
James L. Gulley Philip M. Arlen Ravi A. Madan Kwong-Yok Tsang Mary P. Pazdur Lisa Skarupa Jacquin L. Jones Diane J. Poole Jack P. Higgins James W. Hodge Vittore Cereda Matteo Vergati Seth M. Steinberg Susan Halabi Elizabeth Jones Clara Chen Howard Parnes John J. Wright William L. Dahut Jeffrey Schlom 《Cancer immunology, immunotherapy : CII》2010,59(5):663-674
A concurrent multicenter, randomized Phase II trial employing a recombinant poxviral vaccine provided evidence of enhanced median overall survival (OS) (p = 0.0061) in patients with metastatic castrate-resistant prostate cancer (mCRPC). The study reported here employed the identical vaccine in mCRPC to investigate the influence of GM-CSF with vaccine, and the influence of immunologic and prognostic factors on median OS. Thirty-two patients were vaccinated once with recombinant vaccinia containing the transgenes for prostate-specific antigen (PSA) and three costimulatory molecules. Patients received boosters with recombinant fowlpox containing the same four transgenes. Twelve of 32 patients showed declines in serum PSA post-vaccination and 2/12 showed decreases in index lesions. Median OS was 26.6 months (predicted median OS by the Halabi nomogram was 17.4 months). Patients with greater PSA-specific T-cell responses showed a trend (p = 0.055) toward enhanced survival. There was no difference in T-cell responses or survival in cohorts of patients receiving GM-CSF versus no GM-CSF. Patients with a Halabi predicted survival of <18 months (median predicted 12.3 months) had an actual median OS of 14.6 months, while those with a Halabi predicted survival of ≥18 months (median predicted survival 20.9 months) will meet or exceed 37.3 months, with 12/15 patients living longer than predicted (p = 0.035). Treg suppressive function was shown to decrease following vaccine in patients surviving longer than predicted, and increase in patients surviving less than predicted. This hypothesis-generating study provides evidence that patients with more indolent mCRPC (Halabi predicted survival ≥18 months) may best benefit from vaccine therapy. 相似文献
997.
Anurag Dagar Clara Pons Puig Cristina Marti Ibanez Fiorenza Ziliotto Claudio Bonghi Carlos H. Crisosto Haya Friedman Susan Lurie Antonio Granell 《Tree Genetics & Genomes》2013,9(1):223-235
Gene expression at harvest was compared for two stone fruit cultivars, a peach and its near-isogenic nectarine mutant, using two microarray platforms, μPEACH1.0 and ChillPeach. Together, both platforms covered over 6,000 genes out of which 417 were differentially expressed between the fruits of the two cultivars at a p value of 0.05. A total of 47 genes in nectarine and 60 genes in peach were at least twofold higher relative to each other. Nectarine had much better storage characteristics than peach and could be stored for over 5 weeks at 5 °C without storage disorders. In an attempt to determine whether gene expression at harvest could give an indication of storage potential, the expression analysis of the two cultivars was compared to that of two genotypes with different sensitivities to chilling injury. Principal component analysis of gene expression results across four fruit types differing in chilling sensitivity resulted in 41 genes whose expression levels separated the fruits according to sensitivity to storage disorders, suggesting that the genes have a role in cold response adaptation. 相似文献
998.
Di Filippo C Falsetto A De Pascale V Tufariello E De Lucia D Rossi F D'Amico M Cennamo A 《Mediators of inflammation》2006,2006(4):13901
This study has evaluated whether systemic changes of plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1) parallel the adhesions development and whether they could be used as predictors of adhesion risk. This has been studied in an animal model of post-surgical peritoneal adhesion by monitoring for 10 days the plasma and tissue levels of t-PA and PAI-1. The results showed that both tissular and plasmatic levels of t-PA were decreased in concomitance with the development of peritoneal adhesions. In contrast, PAI-1 was found increased into the tissue and into the plasma samples of the rats taken at 5 and 10 days time points. Inflammatory mediators such as ICAM-1, VCAM-1, and IL-6 within the peritoneal lavage fluid also correlated with the adhesion formation process. In conclusion, post-surgical peritoneal adhesions provide alterations of local inflammatory components and local and systemic fibrinolytic components, possibly with PAI-1 quenching t-PA. This may have potential for the identification of high-risk patients. 相似文献
999.
Johann Schredelseker Anamika Dayal Thorsten Schwerte Clara Franzini-Armstrong Manfred Grabner 《The Journal of biological chemistry》2009,284(2):1242-1251
The paralyzed zebrafish strain relaxed carries a null mutation for
the skeletal muscle dihydropyridine receptor (DHPR) β1a
subunit. Lack of β1a results in (i) reduced membrane
expression of the pore forming DHPR α1S subunit, (ii)
elimination of α1S charge movement, and (iii) impediment of
arrangement of the DHPRs in groups of four (tetrads) opposing the ryanodine
receptor (RyR1), a structural prerequisite for skeletal muscle-type
excitation-contraction (EC) coupling. In this study we used relaxed
larvae and isolated myotubes as expression systems to discriminate specific
functions of β1a from rather general functions of β
isoforms. Zebrafish and mammalian β1a subunits quantitatively
restored α1S triad targeting and charge movement as well as
intracellular Ca2+ release, allowed arrangement of DHPRs in
tetrads, and most strikingly recovered a fully motile phenotype in
relaxed larvae. Interestingly, the cardiac/neuronal
β2a as the phylogenetically closest, and the ancestral
housefly βM as the most distant isoform to β1a
also completely recovered α1S triad expression and charge
movement. However, both revealed drastically impaired intracellular
Ca2+ transients and very limited tetrad formation compared with
β1a. Consequently, larval motility was either only partially
restored (β2a-injected larvae) or not restored at all
(βM). Thus, our results indicate that triad expression and
facilitation of 1,4-dihydropyridine receptor (DHPR) charge movement are common
features of all tested β subunits, whereas the efficient arrangement of
DHPRs in tetrads and thus intact DHPR-RyR1 coupling is only promoted by the
β1a isoform. Consequently, we postulate a model that presents
β1a as an allosteric modifier of α1S
conformation enabling skeletal muscle-type EC coupling.Excitation-contraction
(EC)3 coupling in
skeletal muscle is critically dependent on the close interaction of two
distinct Ca2+ channels. Membrane depolarizations of the myotube are
sensed by the voltage-dependent 1,4-dihydropyridine receptor (DHPR) in the
sarcolemma, leading to a rearrangement of charged amino acids (charge
movement) in the transmembrane segments S4 of the pore-forming DHPR
α1S subunit
(1,
2). This conformational change
induces via protein-protein interaction
(3,
4) the opening of the
sarcoplasmic type-1 ryanodine receptor (RyR1) without need of Ca2+
influx through the DHPR (5).
The release of Ca2+ from the sarcoplasmic reticulum via RyR1
consequently induces muscle contraction. The protein-protein interaction
mechanism between DHPR and RyR1 requires correct ultrastructural targeting of
both channels. In Ca2+ release units (triads and peripheral
couplings) of the skeletal muscle, groups of four DHPRs (tetrads) are coupled
to every other RyR1 and hence are geometrically arranged following the
RyR-specific orthogonal arrays
(6).The skeletal muscle DHPR is a heteromultimeric protein complex, composed of
the voltage-sensing and pore-forming α1S subunit and
auxiliary subunits β1a, α2δ-1, and
γ1 (7). While
gene knock-out of the DHPR γ1 subunit
(8,
9) and small interfering RNA
knockdown of the DHPR α2δ-1 subunit
(10-12)
have indicated that neither subunit is essential for coupling of the DHPR with
RyR1, the lack of the α1S or of the intracellular
β1a subunit is incompatible with EC coupling and accordingly
null model mice die perinatally due to asphyxia
(13,
14). β subunits of
voltage-gated Ca2+ channels were repeatedly shown to be responsible
for the facilitation of α1 membrane insertion and to be
potent modulators of α1 current kinetics and voltage
dependence (15,
16). Whether the loss of EC
coupling in β1-null mice was caused by decreased DHPR membrane
expression or by the lack of a putative specific contribution of the β
subunit to the skeletal muscle EC coupling apparatus
(17,
18) was not clearly resolved.
Recently, other β-functions were identified in skeletal muscle using the
β1-null mutant zebrafish relaxed
(19,
20). Like the
β1-knock-out mouse
(14) zebrafish
relaxed is characterized by complete paralysis of skeletal muscle
(21,
22). While
β1-knock-out mouse pups die immediately after birth due to
respiratory paralysis (14),
larvae of relaxed are able to survive for several days because of
oxygen and metabolite diffusion via the skin
(23). Using highly
differentiated myotubes that are easy to isolate from these larvae, the lack
of EC coupling could be described by quantitative immunocytochemistry as a
moderate ∼50% reduction of α1S membrane expression
although α1S charge movement was nearly absent, and, most
strikingly, as the complete lack of the arrangement of DHPRs in tetrads
(19). Thus, in skeletal muscle
the β subunit enables EC coupling by (i) enhancing α1S
membrane targeting, (ii) facilitating α1S charge movement,
and (iii) enabling the ultrastructural arrangement of DHPRs in tetrads.The question arises, which of these functions are specific for the skeletal
muscle β1a and which ones are rather general properties of
Ca2+ channel β subunits. Previous reconstitution studies made
in the β1-null mouse system
(24,
25) using different β
subunit constructs (26) did
not allow differentiation between β-induced enhancement of non-functional
α1S membrane expression and the facilitation of
α1S charge movement, due to the lack of information on
α1S triad expression levels. Furthermore, the β-induced
arrangement of DHPRs in tetrads was not detected as no ultrastructural
information was obtained.In the present study, we established zebrafish mutant relaxed as
an expression system to test different β subunits for their ability to
restore skeletal muscle EC coupling. Using isolated myotubes for in
vitro experiments (19,
27) and complete larvae for
in vivo expression studies
(28-31)
and freeze-fracture electron microscopy, a clear differentiation between the
major functional roles of β subunits was feasible in the zebrafish
system. The cloned zebrafish β1a and a mammalian (rabbit)
β1a were shown to completely restore all parameters of EC
coupling when expressed in relaxed myotubes and larvae. However, the
phylogenetically closest β subunit to β1a, the
cardiac/neuronal isoform β2a from rat, as well as the
ancestral βM isoform from the housefly (Musca
domestica), could recover functional α1S membrane
insertion, but led to very restricted tetrad formation when compared with
β1a, and thus to impaired DHPR-RyR1 coupling. This impairment
caused drastic changes in skeletal muscle function.The present study shows that the enhancement of functional
α1S membrane expression is a common function of all the
tested β subunits, from β1a to even the most distant
βM, whereas the effective formation of tetrads and thus proper
skeletal muscle EC coupling is an exclusive function of the skeletal muscle
β1a subunit. In context with previous studies, our results
suggest a model according to which β1a acts as an allosteric
modifier of α1S conformation. Only in the presence of
β1a, the α1S subunit is properly folded to
allow RyR1 anchoring and thus skeletal muscle-type EC coupling. 相似文献
1000.