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1.
Claudia A. Nold-Petry Marcel F. Nold Jason W. Nielsen Alex Bustamante Jarod A. Zepp Kathleen A. Storm Jae-Woo Hong Soo-Hyun Kim Charles A. Dinarello 《The Journal of biological chemistry》2009,284(38):25900-25911
Since interleukin (IL)-18 is a proinflammatory cytokine, mice lacking IL-18 or its ligand-binding receptor (IL-18R) should exhibit decreased cytokine and chemokine production. Indeed, production of IL-1α, IL-6, and MIP-1α was reduced in IL-18 knock-out (ko) mouse embryonic fibroblast (MEF)-like cells. Unexpectedly, we observed a paradoxical 10-fold increase in IL-1β-induced IL-6 production in MEF cells from mice deficient in the IL-18R α-chain (IL-18Rα) compared with wild type MEF. Similar increases were observed for IL-1α, MIP-1α, and prostaglandin E2. Likewise, coincubation with a specific IL-18Rα-blocking antibody augmented IL-1β-induced cytokines in wild type and IL-18 ko MEF. Stable lines of IL-18Rα-depleted human A549 cells were generated using shRNA, resulting in an increase of IL-1β-induced IL-1α, IL-6, and IL-8 compared to scrambled small hairpin RNA. In addition, we silenced IL-18Rα with small interfering RNA in primary human blood cells and observed up to 4-fold increases in the secretion of lipopolysaccharide- and IL-12/IL-18-induced IL-1β, IL-6, interferon-γ, and CD40L. Mechanistically, despite increases in Stat1 and IL-6, induction of SOCS1 and -3 (suppressor of cytokine signaling 1 and 3) was markedly reduced in the absence of IL-18Rα. Consistent with these observations, activation of the p38α/β and ERK1/2 MAPKs and of protein kinase B/Akt increased in IL-18Rα ko MEF, whereas the negative feedback kinase MSK2 was more active in IL-18 ko cells. These data reveal a role for SOCS1 and -3 in the seemingly paradoxical hyperresponsive state in cells deficient in IL-18Rα, supporting the concept that IL-18Rα participates in both pro- and anti-inflammatory responses and that an endogenous ligand engages IL-18Rα to deliver an inhibitory signal.Often shown to function as a proinflammatory cytokine, structurally related to IL-1β,3 and requiring caspase-1 for processing of its inactive precursor into an active cytokine (1–3), IL-18 is a unique member of the IL-1 family. For example, IL-18 and IL-18 receptor α-chain (IL-18Rα) knock-out (ko) mice unexpectedly overeat and spontaneously become obese, developing insulin resistance and atherosclerosis (4, 5). This phenotype does not occur in mice deficient in other members of the IL-1 family. In the absence of IL-12 and similar co-stimulatory cytokines, IL-18 can act as a typical Th2 cytokine in murine models (6, 7). The affinity of the naturally occurring IL-18-binding protein (IL-18BP) for IL-18 is higher than that of IL-18 for its cognate receptor; thus, low levels of this naturally occurring antagonist effectively neutralize the activity of IL-18 (8–11). In some studies, IL-18 opposes the proinflammatory properties of IL-1β (12). In dextran sodium sulfate-induced colitis, neutralizing antibodies to IL-18 or IL-18BP ameliorate the disease (13, 14), whereas in other studies, mice deficient in IL-18Rα exhibit worsening of the disease (15).IL-18 Induces Several Proinflammatory Cytokines, Such as IL-1β and TNFα, as well as chemokines, nitric oxide, and vascular adhesion molecules (reviewed in Ref. 16). Using mice deficient in IL-18 or neutralization of IL-18, the cytokine appears to play an important role in models of rheumatoid arthritis (17), lupus-like autoimmune disease (18), metastatic melanoma (19), graft versus host disease (20), and myocardial suppression (21, 22). Unlike IL-1, IL-18 also induces Fas ligand and has been proposed as a key mediator of macrophage activation syndrome (23).We have previously reported that whereas deficiency in IL-18 attenuated inflammatory responses to various exogenous stimuli, these responses paradoxically were exaggerated in IL-18Rα ko mice (24). In addition to rejecting insulin-producing islet allografts, splenocytes and peritoneal macrophages from IL-18Rα ko mice produced significantly greater amounts of several proinflammatory cytokines upon stimulation with concanavalin A, TLR2 agonist heat-killed Staphylococcus epidermidis, or anti-CD3 antibodies (24).In the present study, we set out to investigate the fundamental differences in cytokine production between IL-18 ko and IL-18Rα ko mice using mouse embryonic fibroblasts (MEF), which are highly responsive to IL-1 and TNFα stimulation. We also studied the role of IL-18Rα in human cells. IL-18Rα was silenced in human A549 epithelial cells using small hairpin RNA (shRNA) to the IL-18R (shIL-18R) as well as in freshly obtained human peripheral blood mononuclear cells (PBMC). Furthermore, using inhibitors as well as kinase activation studies, real time PCR, and Western blotting, we shed light on the IL-18Rα ko-mediated differences in expression and activation of signaling mediators, such as the suppressors of cytokine signaling (SOCS), MAPKs, protein kinase B/Akt, NF-κB, MSK2/RSKβ, and p70 S6 kinase. The mechanisms underlying the disinhibition of inflammatory responses in IL-18Rα-deficient cells appear to be due to a yet unidentified anti-inflammatory ligand of the IL-18 receptor. 相似文献
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Jason D. Hoffert Chung-Lin Chou Mark A. Knepper 《The Journal of biological chemistry》2009,284(22):14683-14687
Vasopressin controls renal water excretion largely through actions to
regulate the water channel aquaporin-2 in collecting duct principal cells. Our
knowledge of the mechanisms involved has increased markedly in recent years
with the advent of methods for large-scale systems-level profiling such as
protein mass spectrometry, yeast two-hybrid analysis, and oligonucleotide
microarrays. Here we review this progress.Regulation of water excretion by the kidney is one of the most visible
aspects of everyday physiology. An outdoor tennis game on a hot summer day can
result in substantial water losses by sweating, and the kidneys respond by
reducing water excretion. In contrast, excessive intake of water, a frequent
occurrence in everyday life, results in excretion of copious amounts of clear
urine. These responses serve to exact tight control on the tonicity of body
fluids, maintaining serum osmolality in the range of 290–294 mosmol/kg
of H2O through the regulated return of water from the pro-urine in
the renal collecting ducts to the bloodstream.The importance of this process is highlighted when the regulation fails.
For example, polyuria (rapid uncontrolled excretion of water) is a sometimes
devastating consequence of lithium therapy for bipolar disorder. On the other
side of the coin are water balance disorders that result from excessive renal
water retention causing systemic hypo-osmolality or hyponatremia. Hyponatremia
due to excessive water retention can be seen with severe congestive heart
failure, hepatic cirrhosis, and the syndrome of inappropriate
antidiuresis.The chief regulator of water excretion is the peptide hormone
AVP,2 whereas the
chief molecular target for regulation is the water channel AQP2. In this
minireview, we describe new progress in the understanding of the molecular
mechanisms involved in regulation of AQP2 by AVP in collecting duct cells,
with emphasis on new information derived from “systems-level”
approaches involving large-scale profiling and screening techniques such as
oligonucleotide arrays, protein mass spectrometry, and yeast two-hybrid
analysis. Most of the progress with these techniques is in the identification
of individual molecules involved in AVP signaling and binding interactions
with AQP2. Additional related issues are addressed in several recent reviews
(1–4). 相似文献
4.
Laura Monturiol-Gross Marietta Flores-Díaz Maria Jose Pineda-Padilla Ana Cristina Castro-Castro Alberto Alape-Giron 《PloS one》2014,9(1)
Clostridium perfringens phospholipase C (CpPLC), also called α-toxin, is the most toxic extracellular enzyme produced by this bacteria and is essential for virulence in gas gangrene. At lytic concentrations, CpPLC causes membrane disruption, whereas at sublytic concentrations this toxin causes oxidative stress and activates the MEK/ERK pathway, which contributes to its cytotoxic and myotoxic effects. In the present work, the role of PKC, ERK 1/2 and NFκB signalling pathways in ROS generation induced by CpPLC and their contribution to CpPLC-induced cytotoxicity was evaluated. The results demonstrate that CpPLC induces ROS production through PKC, MEK/ERK and NFκB pathways, the latter being activated by the MEK/ERK signalling cascade. Inhibition of either of these signalling pathways prevents CpPLC''s cytotoxic effect. In addition, it was demonstrated that NFκB inhibition leads to a significant reduction in the myotoxicity induced by intramuscular injection of CpPLC in mice. Understanding the role of these signalling pathways could lead towards developing rational therapeutic strategies aimed to reduce cell death during a clostridialmyonecrosis. 相似文献
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Epidemiological evidence suggests that obesity is associated with inflammation of the respiratory tract and the pathogenesis of asthma. The purpose of this study was to examine the role of phospholipase D1 (PLD1) in leptin-induced expression of the proinflammatory cytokine, tumor necrosis factor (TNF)-α, and to suggest a molecular link between obesity and respiratory tract inflammation. We investigated whether leptin, a typical adipocytokine, plays a role in the expression of TNF-α through increased PLD1 activity in Raw 264.7. Leptin enhanced the activity of PLD1 through activation of PLCγ and Src, while PLD1 siRNA decreased the leptin-induced expression and production of TNF-α. Leptin-induced PLD activation was also inhibited by a PLCγ inhibitor (PAO) and Src kinase inhibitor (PP2), indicating that PLCγ and Src kinase are upstream activators of PLD1. Down-regulation of PLD1 also completely blocked activation of p70S6K, an activator of JNK. Leptin-induced expression of TNF-α was also prevented by inhibition of p70S6K and JNK. Taken together, these results indicate that PLD1 acts as an important regulator of leptin-induced expression of TNF-α by participating in the PLCγ/Src/PLD1/PA/p70S6K/JNK pathway. 相似文献
8.
Jihee Kim Seungkirl Ahn Keshava Rajagopal Robert J. Lefkowitz 《The Journal of biological chemistry》2009,284(18):11953-11962
Recent studies in receptor-transfected cell lines have demonstrated that
extracellular signal-regulated kinase (ERK) activation by angiotensin type 1A
receptor and other G protein-coupled receptors can be mediated by both G
protein-dependent and β-arrestin-dependent mechanisms. However, few
studies have explored these mechanisms in primary cultured cells expressing
endogenous levels of receptors. Accordingly, here we utilized the
β-arrestin biased agonist for the angiotensin type 1A receptor,
SII-angiotensin (SII), and RNA interference techniques to investigate
angiotensin II (ANG)-activated β-arrestin-mediated mitogenic signaling
pathways in rat vascular smooth muscle cells. Both ANG and SII induced DNA
synthesis via the ERK activation cascade. Even though SII cannot induce
calcium influx (G protein activation) after receptor stimulation, it does
cause ERK activation, although less robustly than ANG. Activation by both
ligands is diminished by depletion of β-arrestin2 by small interfering
RNA, although the effect is more complete with SII. ERK activation at early
time points but not later time points is strongly inhibited by those protein
kinase C inhibitors that can block protein kinase Cζ. Moreover, ANG- and
SII-mediated ERK activation require transactivation of the epidermal growth
factor receptor via metalloprotease 2/9 and Src kinase. β-Arrestin2
facilitates ANG and SII stimulation of Src-mediated phosphorylation of Tyr-845
on the EGFR, a known site for Src phosphorylation. These studies delineate a
convergent mechanism by which G protein-dependent and
β-arrestin-dependent pathways can independently mediate ERK-dependent
transactivation of the EGFR in vascular smooth muscle cells thus controlling
cellular proliferative responses.G protein-coupled receptors, also known as seven transmembrane
(7TM)2 receptors,
control virtually all known physiological processes in mammals
(1). The various functions of
these receptors are mediated and modulated by three families of proteins,
which share the property that they interact virtually universally with the
receptors in a strictly stimulus-dependent way
(1). These three families of
proteins are the heterotrimeric G proteins, the G protein-coupled receptor
kinases (GRKs), and the β-arrestins. Activation of the receptors
stimulates classical G protein-dependent signaling, often involving regulation
of levels of second messengers such as cAMP and diacyglycerol. However, as has
been known for many years, interaction of activated receptors with GRKs
leading to their phosphorylation, and subsequent interaction with
β-arrestins leads to desensitization of G protein signaling.In recent years, however, it has become increasingly clear that the
β-arrestin-GRK system is in fact bifunctional
(2). Thus, even as it
desensitizes G protein signaling by the receptors, it also serves as a signal
transduction system in its own right, activating a growing list of signaling
pathways. These positive signaling functions are often mediated by the ability
of β-arrestin to serve as an adaptor or scaffold molecule, bringing
elements of diverse signaling pathways into proximity with one another and the
receptors and thereby facilitating their activation. This new paradigm for
understanding the previously unrecognized signaling properties of the
β-arrestin-GRK system has been explored in a wide variety of transfected
cultured cell systems.However, to date, relatively little investigation of these novel signaling
pathways has been carried out in primary cell culture systems expressing
endogenous levels of 7TM receptors. In seeking such a system in which to
characterize and compare β-arrestin and G protein-mediated signaling
pathways from a typical 7TM receptor, our attention was drawn to cultured rat
vascular smooth muscle cells (VSMCs). Several features of rat VSMCs suggest
this to be a relevant system for these purposes. Rat VSMCs express a variety
of physiologically important 7TM receptors including the angiotensin II type
1A receptor (AT1R) (3). This
receptor has been the focus of extensive study in transfected cell systems
with respect to its β-arrestin-mediated signaling to a variety of
pathways, most particularly extracellular signal-regulated kinase (ERK).
Moreover, the AT1R mediates the physiologically important effects of
angiotensin II (ANG) on vascular tone as well as on proliferation and
chemotaxis (4,
5). Pathophysiologically, ANG
stimulation of this receptor has been implicated in VSMC proliferation and
chemotaxis, which are thought to play an important role in such important
disease processes as atherosclerosis and restenosis after angioplasty
(6,
7). Moreover, a ligand has been
characterized
[Sar1,Ile4,Ile8](SII)-angiotensin (SII), a
triply mutated angiotensin octapeptide that, in transfected cell systems, acts
as a specific agonist for β-arrestin-mediated signaling, although not
activating G protein-mediated signaling
(8).Accordingly, in the studies described here, we set out to investigate the
characteristics of activation of ERK in rat VSMCs that might be mediated
through G protein as well as β-arrestin signaling. The results not only
demonstrate the importance of β-arrestin-mediated signaling in
ERK-mediated proliferative responses of these cells, but also shed new light
on the molecular mechanisms and interrelationships between the β-arrestin
and classical G protein-mediated activation of these pathways. 相似文献
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11.
Milena Sokolowska Li-Yuan Chen Michael Eberlein Asuncion Martinez-Anton Yueqin Liu Sara Alsaaty Hai-Yan Qi Carolea Logun Maureen Horton James H. Shelhamer 《The Journal of biological chemistry》2014,289(7):4470-4488
Hyaluronan (HA) is the major glycosaminoglycan in the extracellular matrix. During inflammation, there is an increased breakdown of HA, resulting in the accumulation of low molecular weight (LMW) HA and activation of monocytes and macrophages. Eicosanoids, derived from the cytosolic phospholipase A2 group IVA (cPLA2α) activation, are potent lipid mediators also attributed to acute and chronic inflammation. The aim of this study was to determine the effect of LMW HA on cPLA2α activation, arachidonic acid (AA) release, and subsequent eicosanoid production and to examine the receptors and downstream mechanisms involved in these processes in monocytes and differently polarized macrophages. LMW HA was a potent stimulant of AA release in a time- and dose-dependent manner, induced cPLA2α, ERK1/2, p38, and JNK phosphorylation, as well as activated COX2 expression and prostaglandin (PG) E2 production in primary human monocytes, murine RAW 264.7, and wild-type bone marrow-derived macrophages. Specific cPLA2α inhibitor blocked HA-induced AA release and PGE2 production in all of these cells. Using CD44, TLR4, TLR2, MYD88, RHAMM or STAB2 siRNA-transfected macrophages and monocytes, we found that AA release, cPLA2α, ERK1/2, p38, and JNK phosphorylation, COX2 expression, and PGE2 production were activated by LMW HA through a TLR4/MYD88 pathway. Likewise, PGE2 production and COX2 expression were blocked in Tlr4−/− and Myd88−/− mice, but not in Cd44−/− mice, after LMW HA stimulation. Moreover, we demonstrated that LMW HA activated the M1 macrophage phenotype with the unique cPLA2α/COX2high and COX1/ALOX15/ALOX5/LTA4Hlow gene and PGE2/PGD2/15-HETEhigh and LXA4low eicosanoid profile. These findings reveal a novel link between HA-mediated inflammation and lipid metabolism. 相似文献
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Lisa Placanica Leonid Tarassishin Guangli Yang Erica Peethumnongsin Seong-Hun Kim Hui Zheng Sangram S. Sisodia Yue-Ming Li 《The Journal of biological chemistry》2009,284(5):2967-2977
γ-Secretase is known to play a pivotal role in the pathogenesis of
Alzheimer disease through production of amyloidogenic Aβ42 peptides.
Early onset familial Alzheimer disease mutations in presenilin (PS), the
catalytic core of γ-secretase, invariably increase the
Aβ42:Aβ40 ratio. However, the mechanism by which these mutations
affect γ-secretase complex formation and cleavage specificity is poorly
understood. We show that our in vitro assay system recapitulates the
effect of PS1 mutations on the Aβ42:Aβ40 ratio observed in cell and
animal models. We have developed a series of small molecule affinity probes
that allow us to characterize active γ-secretase complexes. Furthermore
we reveal that the equilibrium of PS1- and PS2-containing active complexes is
dynamic and altered by overexpression of Pen2 or PS1 mutants and that
formation of PS2 complexes is positively correlated with increased
Aβ42:Aβ40 ratios. These data suggest that perturbations to
γ-secretase complex equilibrium can have a profound effect on enzyme
activity and that increased PS2 complexes along with mutated PS1 complexes
contribute to an increased Aβ42:Aβ40 ratio.β-Amyloid
(Aβ)5 peptides
are believed to play a causative role in Alzheimer disease (AD). Aβ
peptides are generated from the processing of the amyloid precursor protein
(APP) by two proteases, β-secretase and γ-secretase. Although
γ-secretase generates heterogenous Aβ peptides ranging from 37 to
46 amino acids in length, significant work has focused mainly on the Aβ40
and Aβ42 peptides that are the major constituents of amyloid plaques.
γ-Secretase is a multisubunit membrane aspartyl protease comprised of at
least four known subunits: presenilin (PS), nicastrin (Nct), anterior
pharynx-defective (Aph), and presenilin enhancer 2 (Pen2). Presenilin is
thought to contain the catalytic core of the complex
(1–4),
whereas Aph and Nct play critical roles in the assembly, trafficking, and
stability of γ-secretase as well as substrate recognition
(5,
6). Lastly Pen2 facilitates the
endoproteolysis of PS into its N-terminal (NTF) and C-terminal (CTF) fragments
thereby yielding a catalytically competent enzyme
(5,
7–10).
All four proteins (PS, Nct, Aph1, and Pen2) are obligatory for
γ-secretase activity in cell and animal models
(11,
12). There are two homologs of
PS, PS1 and PS2, and three isoforms of Aph1, Aph1aS, Aph1aL, and Aph1b. At
least six active γ-secretase complexes have been reported (two
presenilins × three Aph1s)
(13,
14). The sum of apparent
molecular masses of the four proteins (PS1-NTF/CTF ≈ 53 kDa, Nct ≈ 120
kDa, Aph1 ≈ 30 kDa, and Pen2 ≈ 10kDa) is ∼200 kDa. However, active
γ-secretase complexes of varying sizes, ranging from 250 to 2000 kDa,
have been reported
(15–19).
Recently a study suggested that the γ-secretase complex contains only
one of each subunit (20).
Collectively these studies suggest that a four-protein complex around
200–250 kDa may be the minimal functional γ-secretase unit with
additional cofactors and/or varying stoichiometry of subunits existing in the
high molecular weight γ-secretase complexes. CD147 and TMP21 have been
found to be associated with the γ-secretase complex
(21,
22); however, their role in
the regulation of γ-secretase has been controversial
(23,
24).Mutations of PS1 or PS2 are associated with familial early onset AD (FAD),
although it is debatable whether these familial PS mutations act as
“gain or loss of function” alterations in regard to
γ-secretase activity
(25–27).
Regardless the overall outcome of these mutations is an increased ratio of
Aβ42:Aβ40. Clearly these mutations differentially affect
γ-secretase activity for the production of Aβ40 and Aβ42.
Despite intensive studies of Aβ peptides and γ-secretase, the
molecular mechanism controlling the specificity of γ-secretase activity
for Aβ40 and Aβ42 production has not been resolved. It has been
found that PS1 mutations affect the formation of γ-secretase complexes
(28). However, the precise
mechanism by which individual subunits alter the dynamics of γ-secretase
complex formation and activity is largely unresolved. A better mechanistic
understanding of γ-secretase activity associated with FAD mutations has
been hindered by the lack of suitable assays and probes that are necessary to
recapitulate the effect of these mutations seen in cell models and to
characterize the active γ-secretase complex.In our present studies, we have determined the overall effect of Pen2 and
PS1 expression on the dynamics of PS1- and PS2-containing complexes and their
association with γ-secretase activity. Using newly developed
biotinylated small molecular probes and activity assays, we revealed that
expression of Pen2 or PS1 FAD mutants markedly shifts the equilibrium of
PS1-containing active complexes to that of PS2-containing complexes and
results in an overall increase in the Aβ42:Aβ40 ratio in both stable
cell lines and animal models. Our studies indicate that perturbations to the
equilibrium of active γ-secretase complexes by an individual subunit can
greatly affect the activity of the enzyme. Moreover they serve as further
evidence that there are multiple and distinct γ-secretase complexes that
can exist within the same cells and that their equilibrium is dynamic.
Additionally the affinity probes developed here will facilitate further study
of the expression and composition of endogenous active γ-secretase from
a variety of model systems. 相似文献
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15.
Ravendra Garg Corinne Barat Michel Ouellet Robert Lodge Michel J. Tremblay 《PLoS neglected tropical diseases》2009,3(5)
Background
Visceral leishmaniasis has emerged as an important opportunistic disease among patients infected with HIV-1. Both HIV-1 and the protozoan parasite Leishmania can productively infect cells of the macrophage-dendritic cell lineage.Methodology/Principal Findings
Here we demonstrate that Leishmania infantum amastigotes increase HIV-1 production when human primary dendritic cells (DCs) are cocultured together with autologous CD4+ T cells. Interestingly, the promastigote form of the parasite does not modulate virus replication. Moreover, we report that amastigotes promote virus replication in both cell types. Our results indicate that this process is due to secretion of parasite-induced soluble factors by DCs. Luminex micro-beads array system analyses indicate that Leishmania infantum amastigotes induce a higher secretion of several cytokines (i.e. IL-1α, IL-2, IL-6, IL-10 and TNF-α) and chemokines (i.e. MIP-1α, MIP-1β and RANTES) in these cells. Studies conducted with pentoxifylline and neutralizing antibodies revealed that the Leishmania-dependent augmentation in HIV-1 replication is due to a higher secretion of IL-6 and TNF-α.Conclusions/Significance
Altogether these findings suggest that the presence of Leishmania within DC/T-cell conjugates leads to an enhancement of virus production and demonstrate that HIV-1 and Leishmania can establish complex interactions in such a cellular microenvironment. 相似文献16.
17.
Nicole C. Grieder Emmanuel Caussinus David S. Parker Kenneth Cadigan Markus Affolter Stefan Luschnig 《PloS one》2008,3(9)
Background
There is increasing evidence that tissue-specific modifications of basic cellular functions play an important role in development and disease. To identify the functions of COPI coatomer-mediated membrane trafficking in Drosophila development, we were aiming to create loss-of-function mutations in the γCOP gene, which encodes a subunit of the COPI coatomer complex.Principal Findings
We found that γCOP is essential for the viability of the Drosophila embryo. In the absence of zygotic γCOP activity, embryos die late in embryogenesis and display pronounced defects in morphogenesis of the embryonic epidermis and of tracheal tubes. The coordinated cell rearrangements and cell shape changes during tracheal tube morphogenesis critically depend on apical secretion of certain proteins. Investigation of tracheal morphogenesis in γCOP loss-of-function mutants revealed that several key proteins required for tracheal morphogenesis are not properly secreted into the apical lumen. As a consequence, γCOP mutants show defects in cell rearrangements during branch elongation, in tube dilation, as well as in tube fusion. We present genetic evidence that a specific subset of the tracheal defects in γCOP mutants is due to the reduced secretion of the Zona Pellucida protein Piopio. Thus, we identified a critical target protein of COPI-dependent secretion in epithelial tube morphogenesis.Conclusions/Significance
These studies highlight the role of COPI coatomer-mediated vesicle trafficking in both general and tissue-specific secretion in a multicellular organism. Although COPI coatomer is generally required for protein secretion, we show that the phenotypic effect of γCOP mutations is surprisingly specific. Importantly, we attribute a distinct aspect of the γCOP phenotype to the effect on a specific key target protein. 相似文献18.
Dehui Xu Dingxing Liu Biqing Wang Chen Chen Zeyu Chen Dong Li Yanjie Yang Hailan Chen Michael G. Kong 《PloS one》2015,10(6)
Reactive oxygen and nitrogen species produced by cold atmospheric plasma (CAP) are considered to be the most important species for biomedical applications, including cancer treatment. However, it is not known which species exert the greatest biological effects, and the nature of their interactions with tumor cells remains ill-defined. These questions were addressed in the present study by exposing human mesenchymal stromal and LP-1 cells to reactive oxygen and nitrogen species produced by CAP and evaluating cell viability. Superoxide anion (O2
−) and hydrogen peroxide (H2O2) were the two major species present in plasma, but their respective concentrations were not sufficient to cause cell death when used in isolation; however, in the presence of iron, both species enhanced the cell death-inducing effects of plasma. We propose that iron containing proteins in cells catalyze O2
− and H2O2 into the highly reactive OH radical that can induce cell death. The results demonstrate how reactive species are transferred to liquid and converted into the OH radical to mediate cytotoxicity and provide mechanistic insight into the molecular mechanisms underlying tumor cell death by plasma treatment. 相似文献
19.
Cell death can be divided into the anti-inflammatory process of apoptosis and the
pro-inflammatory process of necrosis. Necrosis, as apoptosis, is a regulated form of cell
death, and Poly-(ADP-Ribose) Polymerase-1 (PARP-1) and Receptor-Interacting Protein (RIP)
1/3 are major mediators. We previously showed that absence or inhibition of PARP-1
protects mice from nephritis, however only the male mice. We therefore hypothesized that
there is an inherent difference in the cell death program between the sexes. We show here
that in an immune-mediated nephritis model, female mice show increased apoptosis compared
to male mice. Treatment of the male mice with estrogens induced apoptosis to levels
similar to that in female mice and inhibited necrosis. Although PARP-1 was activated in
both male and female mice, PARP-1 inhibition reduced necrosis only in the male mice. We
also show that deletion of RIP-3 did not have a sex bias. We demonstrate here that male
and female mice are prone to different types of cell death. Our data also suggest that
estrogens and PARP-1 are two of the mediators of the sex-bias in cell death. We therefore
propose that targeting cell death based on sex will lead to tailored and better treatments
for each gender. 相似文献
20.
Jingfei Cai Su Guo Jon W. Lomasney Mary F. Roberts 《The Journal of biological chemistry》2013,288(52):37277-37288
Recombinant EF-hand domain of phospholipase C δ1 has a moderate affinity for anionic phospholipids in the absence of Ca2+ that is driven by interactions of cationic and hydrophobic residues in the first EF-hand sequence. This region of PLC δ1 is missing in the crystal structure. The relative orientation of recombinant EF with respect to the bilayer, established with NMR methods, shows that the N-terminal helix of EF-1 is close to the membrane interface. Specific mutations of EF-1 residues in full-length PLC δ1 reduce enzyme activity but not because of disturbing partitioning of the protein onto vesicles. The reduction in enzymatic activity coupled with vesicle binding studies are consistent with a role for this domain in aiding substrate binding in the active site once the protein is transiently anchored at its target membrane. 相似文献