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排序方式: 共有373条查询结果,搜索用时 15 毫秒
101.
Simone Carotti Daniele Lettieri-Barbato Fiorella Piemonte Sergio Ruggiero Marco Rosina Francesca Zalfa Maria Zingariello Francesca Arciprete Francesco Valentini Maria Francesconi Jessica DAmico Antonio De Vincentis Andrea Baiocchini Giuseppe Perrone Raffaele Antonelli-Incalzi Sergio Morini Antonio Picardi Katia Aquilano Umberto Vespasiani-Gentilucci 《Cell death & disease》2021,12(12)
Recent studies demonstrated reduced blood lysosomal acid lipase (LAL) activity in patients with nonalcoholic fatty liver disease (NAFLD). We aimed to verify hepatic LAL protein content and activity in in vitro and in vivo models of fat overload and in NAFLD patients. LAL protein content and activity were firstly evaluated in Huh7 cells exposed to high-glucose/high-lipid (HGHL) medium and in the liver of C57BL/6 mice fed with high-fat diet (HFD) for 4 and 8 months. LAL protein was also evaluated by immunohistochemistry in liver biopsies from 87 NAFLD patients and 10 controls, and correlated with hepatic histology. Huh7 cells treated with HGHL medium showed a significant reduction of LAL activity, which was consistent with reduced LAL protein levels by western blotting using an antibody towards the N-term of the enzyme. Conversely, antibodies towards the C-term of the enzyme evidenced LAL accumulation, suggesting a post-translational modification that masks the LAL N-term epitope and affects enzymatic activity. Indeed, we found a high rate of ubiquitination and extra-lysosomal localization of LAL protein in cells treated with HGHL medium. Consistent with these findings, inhibition of proteasome triggered dysfunctional LAL accumulation and affected LAL activity. Accumulation of ubiquitinated/dysfunctional LAL was also found in the liver of HFD fed mice. In NAFLD patients, hepatic levels of non-ubiquitinated/functional LAL were lower than in controls and inversely correlated with disease activity and some of the hallmarks of reduced LAL. Fat overload leads to LAL ubiquitination and impairs its function, possibly reducing hepatic fat disposal and promoting NAFLD activity.Subject terms: Non-alcoholic fatty liver disease, Translational research 相似文献
102.
Chiara Gentili Silvia Cermelli Carlo Tacchetti Giulio Cossu Ranieri Cancedda Fiorella Descalzi Cancedda 《Experimental cell research》1998,242(2):410
We report that Ex-FABP, an extracellular protein belonging to the lipocalin family and involved in the extracellular transport of long-chain fatty acids, is expressed in the forming myotubes bothin vivoandin vitro.The presence of the protein and of the mRNA was observed in newly formed myotubes at early stages of chick embryo development by immunohistochemistry and byin situhybridization. At later stages of development myofibers still expressed both the mRNA and the protein. Ex-FABP expression was observed also in the developing myocardium and the muscular layer of large blood vessels. In agreement with these findings, an initial expression of the mRNA and protein secretion by cultured chicken myoblasts were observed only after the onset of myoblast fusion. Double-immunofluorescence staining of these cultured cells revealed that multinucleate myotubes were stained by antibodies directed against both the Ex-FABP and the sarcomeric myosin, whereas immature myotubes and single myoblasts were not. When added to cultured myoblasts, antibodies against the Ex-FABP induced a strong enhancement of the production of the same protein. In all experiments some cell sufferance and a transient impairment of myotube formation were also observed. The finding that the continuous removal of the Ex-FABP from the culture medium of myoblasts, due to the formation of immune complexes, resulted in an overproduction of the protein suggests a feedback (autocrine) control during myotube differentiation and maturation. We propose that the requirement for increased transport and metabolism of free fatty acid released from the membrane phospholipids and storage lipids, mediated by Ex-FABP, may be essential during differentiation of multinucleated myotubes or that an increased local demand of fatty acids and metabolites may act as a local hormone in tissues differentiating and undergoing morphogenesis. 相似文献
103.
Fiorella Malchiodi-Albedi Valentina Contrusciere Carla Raggi Katia Fecchi Gabriella Rainaldi Silvia Paradisi Andrea Matteucci Maria Teresa Santini Massimo Sargiacomo Claudio Frank Maria Cristina Gaudiano Marco Diociaiuti 《生物化学与生物物理学报:疾病的分子基础》2010,1802(4):406-415
A specific neuronal vulnerability to amyloid protein toxicity may account for brain susceptibility to protein misfolding diseases. To investigate this issue, we compared the effects induced by oligomers from salmon calcitonin (sCTOs), a neurotoxic amyloid protein, on cells of different histogenesis: mature and immature primary hippocampal neurons, primary astrocytes, MG63 osteoblasts and NIH-3T3 fibroblasts. In mature neurons, sCTOs increased apoptosis and induced neuritic and synaptic damages similar to those caused by amyloid β oligomers. Immature neurons and the other cell types showed no cytotoxicity. sCTOs caused cytosolic Ca2+ rise in mature, but not in immature neurons and the other cell types. Comparison of plasma membrane lipid composition showed that mature neurons had the highest content in lipid rafts, suggesting a key role for them in neuronal vulnerability to sCTOs. Consistently, depletion in gangliosides protected against sCTO toxicity. We hypothesize that the high content in lipid rafts makes mature neurons especially vulnerable to amyloid proteins, as compared to other cell types; this may help explain why the brain is a target organ for amyloid-related diseases. 相似文献
104.
Paola Gamba Michela Guglielmotto Gabriella Testa Debora Monteleone Chiara Zerbinati Simona Gargiulo Fiorella Biasi Luigi Iuliano Giorgio Giaccone Alessandro Mauro Giuseppe Poli Elena Tamagno Gabriella Leonarduzzi 《Aging cell》2014,13(3):561-572
An abnormal accumulation of cholesterol oxidation products in the brain of patients with Alzheimer's disease (AD) would further link an impaired cholesterol metabolism in the pathogenesis of the disease. The first evidence stemming from the content of oxysterols in autopsy samples from AD and normal brains points to an increase in both 27‐hydroxycholesterol (27‐OH) and 24‐hydroxycholesterol (24‐OH) in the frontal cortex of AD brains, with a trend that appears related to the disease severity. The challenge of differentiated SK‐N‐BE human neuroblastoma cells with patho‐physiologically relevant amounts of 27‐OH and 24‐OH showed that both oxysterols induce a net synthesis of Aβ1‐42 by up‐regulating expression levels of amyloid precursor protein and β‐secretase, as well as the β‐secretase activity. Interestingly, cell pretreatment with N‐acetyl‐cysteine (NAC) fully prevented the enhancement of β‐amyloidogenesis induced by the two oxysterols. The reported findings link an impaired cholesterol oxidative metabolism to an excessive β‐amyloidogenesis and point to NAC as an efficient inhibitor of oxysterols‐induced Aβ toxic peptide accumulation in the brain. 相似文献
105.
Pituitary adenylate cyclase-activating polypeptide modulates plasminogen activator expression in rat granulosa cell 总被引:1,自引:0,他引:1
Apa R Lanzone A Miceli F Vaccari S Macchione E Stefanini M Canipari R 《Biology of reproduction》2002,66(3):830-835
Pituitary adenylate cyclase-activating polypeptide (PACAP) is a bioactive peptide isolated from ovine hypothalamus. It has been demonstrated to be transiently expressed in preovulatory follicles and to positively affect several parameters correlated with the ovulatory process. The aim of the present study was to investigate whether PACAP influences the plasminogen/plasmin system in rat ovary. Plasminogen activators (PAs) are serine proteases, modulated by gonadotropins and several peptides in preovulatory follicles, that appear to be involved in ovulation. Granulosa cells obtained from immature eCG-treated rats were cultured for 24 h in the presence of increasing concentrations of PACAP and vasoactive intestinal peptide (VIP). A significant, dose-dependent increase in tissue-type PA (tPA) activity and decrease in urokinase-type (uPA) PA activity were observed in PACAP-treated cells. These effects were exerted at the mRNA level. The use of cycloheximide, a protein synthesis inhibitor, suggested that PACAP requires an intermediary protein to decrease uPA-mRNA, but not to induce tPA-mRNA. However, no significant modulation of PAs was observed in the presence of VIP. When granulosa cells were stimulated within the intact follicle (i.e., maintaining the three-dimensional structure and in the presence of the theca cell layers), both PACAP and VIP dose-dependently stimulated tPA. These data suggest that, in addition to the PACAP type I receptor present on granulosa cells, different subtypes of PACAP receptors are present in the different ovarian compartments. 相似文献
106.
107.
Steven A. Kannenberg Richard P. Fiorella William R. L. Anderegg Russell K. Monson James R. Ehleringer 《Plant, cell & environment》2021,44(1):143-155
The Craig–Gordon type (C–G) leaf water isotope enrichment models assume a homogeneous distribution of enriched water across the leaf surface, despite observations that Δ18O can become increasingly enriched from leaf base to tip. Datasets of this ‘progressive isotope enrichment’ are limited, precluding a comprehensive understanding of (a) the magnitude and variability of progressive isotope enrichment, and (b) how progressive enrichment impacts the accuracy of C–G leaf water model predictions. Here, we present observations of progressive enrichment in two conifer species that capture seasonal and diurnal variability in environmental conditions. We further examine which leaf water isotope models best capture the influence of progressive enrichment on bulk needle water Δ18O. Observed progressive enrichment was large and equal in magnitude across both species. The magnitude of this effect fluctuated seasonally in concert with vapour pressure deficit, but was static in the face of diurnal cycles in meteorological conditions. Despite large progressive enrichment, three variants of the C–G model reasonably successfully predicted bulk needle Δ18O. Our results thus suggest that the presence of progressive enrichment does not impact the predictive success of C–G models, and instead yields new insight regarding the physiological and anatomical mechanisms that cause progressive isotope enrichment. 相似文献
108.
Decrease of Acetylcholine Release from Cortical Slices in Aged Rats: Investigations into Its Reversal by Phosphatidylserine 总被引:2,自引:0,他引:2
Maria Giuliana Vannucchi Fiorella Casamenti Giancarlo Pepeu 《Journal of neurochemistry》1990,55(3):819-825
The release of total acetylcholine (ACh) and [3H]ACh was investigated in electrically stimulated cortical slices prepared from 4- and 18-month-old male Wistar rats. The slices were prelabeled with [3H]choline ([3H]Ch) and perfused with Krebs solution containing physostigmine. Total ACh was measured and the nature of the tritium efflux identified by HPLC. The total tritium content in the slices at the end of the incubation period was half as great in the old as in young rats. A linear relationship was found between stimulation frequencies (2, 5, and 10 Hz) and fractional [3H]ACh release in both young and old rats. In the latter the release was significantly smaller. At 10 Hz stimulation frequency the ratio between the two 2-min stimulation periods, S2/S1, was higher in the 18-month-old rats than in the young rats. Specific activity of the evoked ACh release was significantly smaller in S2 than in S1 in 4-month-old rats only. These findings indicate that the young synthetize ACh from endogenous unlabeled Ch more than older rats. In 18-month-old rats both the evoked total ACh and [3H]ACh release, expressed as picograms per minute, showed an approximately 50% decrease in both S1 and S2 stimulation periods, with no significant difference in specific activity. Phosphatidylserine (PtdSer) administration (15 mg/kg, i.p. daily) for 1 week to 18-month-old rats prevented the reduction in total evoked ACh release but not the reduction in evoked [3H]ACh release. The specific activity of ACh release was therefore significantly smaller than that of the young and untreated old rats.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
109.
Bregante M Yang Y Formentin E Carpaneto A Schroeder JI Gambale F Lo Schiavo F Costa A 《Plant molecular biology》2008,66(1-2):61-72
The Shaker potassium channels are tetrameric proteins formed by the assembly of four α-subunits. The oligomerization can occur
among both homo- and hetero-α-subunits. KDC1 is a carrot Shaker-like potassium channel expressed in the epidermis of plantlet
roots and the protoderm of somatic embryos. KDC1 was previously characterised electrophysiologically in CHO and Xenopus oocytes cells, but the experiments performed in these systems did not provide conclusive evidence that KDC1 forms a functional
homomeric channel in plant cells. In this report, we show that KDC1 localizes to the plasma membrane of root cells in transgenic
tobacco plants transformed with a KDC1∷GFP fusion construct. In tobacco mesophyll protoplasts, transiently transformed with KDC1∷GFP, KDC1 was present on the endomembrane and the protoplasts did not show any inward potassium current, as demonstrated by patch-clamp
experiments. The co-expression of KDC1∷GFP with the Arabidopsis
thaliana potassium channel AKT1 in tobacco mesophyll protoplasts has the effect of shifting KDC1 localization from endomembranes to
the plasma membrane. Patch-clamp experiments performed on tobacco mesophyll protoplasts expressing AKT1 alone or in combination
with KDC1∷GFP showed voltage-activated inward potassium currents with different properties. In particular, the addition of
Zn2+ to the bath solution induced a clear decrease of the potassium currents in protoplasts transformed with AKT1 alone, whereas a current potentiation (indicative of KDC1 presence) was observed in protoplasts co-transformed with AKT1 + KDC1∷GFP. Split-Ubiquitin assay experiments performed in yeast cells confirmed the interaction between AKT1 and KDC1. 相似文献
110.
J. L. Napoli M. H. E. M. Boerman X. Chai Y. Zhai P. D. Fiorella 《The Journal of steroid biochemistry and molecular biology》1995,53(1-6):497-502
Free retinoids suffer promiscuous metabolism in vitro. Diverse enzymes are expressed in several subcellular fractions that are capable of converting free retinol (retinol not sequestered with specific binding proteins) into retinal or retinoic acid. If this were to occur in vivo, regulating the temporal-spatial concentrations of functionally-active retinoids, such as RA (retinoic acid), would be enigmatic. In vivo, however, retinoids occur bound to high-affinity, high-specificity binding proteins, including cellular retinol-binding protein, type I (CRBP) and cellular retinoic acid-binding protein, type I (CRABP). These binding proteins, members of the superfamily of lipid binding proteins, are expressed in concentrations that exceed those of their ligands. Considerable data favor a model pathway of RA biosynthesis and metabolism consisting of enzymes that recognize CRBP (apo and holo) and holo-CRABP as substrates and/or affecters of activity. This would restrict retinoid access to enzymes that recognize the appropriate binding protein, imparting specificity to RA homeostasis; preventing, e.g. opportunistic RA synthesis by alcohol dehydrogenases with broad substrate tolerances. An NADP-dependent microsomal retinol dehydrogenase (RDH) catalyzes the first reaction in this pathway. RDH recognizes CRBP as substrate by the dual criteria of enzyme kinetics and chemical crosslinking. A cDNA of RDH has been cloned, expressed and characterized as a short-chain alchol dehydrogenase. Retinal generated in microsomes from holo-CRBP by RDH supports cytosolic RA synthesis by an NAD-dependent retinal dehydrogenase (RalDH). RalDH has been purified, characterized with respect to substrate specificity, and its cDNA has been cloned. CRABP is also important to modulating the steady-state concentrations of RA, through sequestering RA and facilitating its metabolism, because the complex CRABP/RA acts as a low Km substrate. 相似文献