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Query: UNIPROT:P05412 (
c-Jun
)
11,453
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Changes in the components of the Jun N-terminal kinase (JNK) signalling pathway were investigated in human A549 lung carcinoma cells treated with sodium dichromate. Sodium dichromate (100 microM, 0-6h) failed to activate nuclear factor kappa B (NF-kappaB) as determined by a lack of nuclear translocation of p65 but resulted in Jun N-terminal kinase activation as assessed by phospho-Jun N-terminal kinase Western blotting in a dose-dependent (>25 microM) and time-dependent (>1h) manner. In addition,
c-Jun
, a downstream target of Jun N-terminal kinase signalling was also activated with a similar dose- and time-dependency at the level of both protein expression and degree of phosphorylation. In contrast, sodium dichromate treatment had no effect on levels of phospho-p38. Immunoprecipitation demonstrated that
apoptosis signal regulating kinase
-1 (ASK-1), an upstream activator of Jun N-terminal kinase was dissociated from its inhibitory partner thioredoxin (Trx) in response to sodium dichromate (100 microM, 4h) treatment. This treatment was also associated with a transient (2h) increase in cytosolic levels of thioredoxin but no nuclear translocation of thioredoxin was observed. In conclusion, sodium dichromate had a stimulatory effect on the Jun N-terminal kinase signalling pathway in A549 cells, resulting in activation of downstream effector molecules. We hypothesise that dissociation of
apoptosis signal regulating kinase
-1 from thioredoxin may be at least partially responsible for Jun N-terminal kinase activation.
...
PMID:Activation of c-Jun N-terminal kinase in A549 lung carcinoma cells by sodium dichromate: role of dissociation of apoptosis signal regulating kinase-1 from its physiological inhibitor thioredoxin. 1500 21
Cd induces oxidative stress and apoptosis in various cells by activating mitogen-activated protein kinases (MAPKs), but the precise signaling components of the MAPK cascade and their role in neuronal apoptosis are still unclear. Here, we report that Cd treatment of SH-SY5Y cells caused apoptosis through sequential phosphorylation of the
apoptosis signal regulating kinase
1, MAPK kinase 4, c-Jun N-terminal kinase (JNK), and
c-Jun
as determined by overexpression of dominant negative (DN) constructs of these genes or using a specific JNK inhibitor SP600125. Both Cd-induced JNK and
c-Jun
phosphorylation and apoptosis were inhibited dramatically by N-acetyl-L-cysteine, a free radical scavenger. In addition, caspase inhibitors, zDEVD and zVAD, reduced apoptosis but not JNK and
c-Jun
phosphorylation induced by Cd, while overexpression of DN JNK1 inhibited caspase-3 activity. Taken together, our data suggested that the JNK/
c-Jun
signaling cascade plays a crucial role in Cd-induced neuronal cell apoptosis and provides a molecular linkage between oxidative stress and neuronal apoptosis.
...
PMID:Identification of ASK1, MKK4, JNK, c-Jun, and caspase-3 as a signaling cascade involved in cadmium-induced neuronal cell apoptosis. 1567 Jul 87
We have previously observed that metabolic oxidative stress-induced death domain-associated protein (Daxx) trafficking is mediated by the
ASK1
-SEK1-JNK1-HIPK1 signal transduction pathway. The relocalized Daxx from the nucleus to the cytoplasm during glucose deprivation participates in a positive regulatory feedback loop by binding to apoptosis signal-regulating kinase (ASK) 1. In this study, we report that Akt1 is involved in a negative regulatory feedback loop during glucose deprivation. Akt1 interacts with
c-Jun
NH(2)-terminal kinase (JNK)-interacting protein (JIP) 1, and Akt1 catalytic activity is inhibited. The JNK2-mediated phosphorylation of JIP1 results in the dissociation of Akt1 from JIP1 and subsequently restores Akt1 enzyme activity. Concomitantly, Akt1 interacts with stress-activated protein kinase/extracellular signal-regulated kinase (SEK) 1 (also known as MKK4) and inhibits SEK1 activity. Knockdown of SEK1 leads to the inhibition of JNK activation, JIP1-JNK2 binding, and the dissociation of Akt1 from JIP1 during glucose deprivation. Knockdown of JIP1 also leads to the inhibition of JNK activation, whereas the knockdown of Akt1 promotes JNK activation during glucose deprivation. Altogether, our data demonstrate that Akt1 participates in a negative regulatory feedback loop by interacting with the JIP1 scaffold protein.
...
PMID:Dissociation of Akt1 from its negative regulator JIP1 is mediated through the ASK1-MEK-JNK signal transduction pathway during metabolic oxidative stress: a negative feedback loop. 1599 99
Exposure of mammalian cells to ultraviolet (UV) light or glucose deprivation activates
c-Jun
NH2-terminal protein kinase (JNK). However, the exact mechanism by which UV induces JNK activation is not yet understood completely. Previously, we have observed that glucose deprivation activates the
ASK1
-SEK1-JNK signal transduction pathway. In the present study, we reveal that UVC irradiation-induced JNK activation has a different signal transduction pathway from glucose deprivation. UVC irradiation increases the interaction between JIP3 and MEKK1, SEK1, while glucose deprivation increases the interaction between JIP3 and
ASK1
, SEK1, and JNK. UVC irradiation activates MEKK1 rather than
ASK1
. We also observed that MEKK1 interacted with Grb2 and Grb2-MEKK1 complex was recruited to epidermal growth factor receptor (EGFR) after UVC irradiation. Taken together, our data demonstrate that UVC-induced JNK activation adopts a different signaling cascade (EGFR-Grb2-MEKK1-SEK1-JNK) from glucose deprivation (
ASK1
-SEK1-JNK).
...
PMID:Differential activation of the JNK signal pathway by UV irradiation and glucose deprivation. 1702 35
Chronic stimulation of the beta-adrenergic neurohormonal axis contributes to the progression of heart failure and mortality in animal models and human patients. In cardiomyocytes, activation of the beta-adrenergic pathway has been shown to result in transiently increased expression of a cardiac small heat-shock protein Hsp20. The present study shows that cardiac overexpression (10-fold) of Hsp20 may protect the heart against beta-agonist-induced cardiac remodeling, associated with isoproterenol (50 mug/g per day) infusion for 14 days. Hsp20 attenuated the cardiac hypertrophic response, markedly reduced interstitial fibrosis, and decreased apoptosis. Contractility was also preserved in hearts with increased Hsp20 levels. These beneficial effects were associated with attenuation of the
ASK1
-JNK/p38 (apoptosis signal-regulating kinase 1/
c-Jun
NH(2)-terminal kinase/p38) signaling cascade triggered by isoproterenol, whereas there was no difference in either extracellular signal-related kinase 1/2 or Akt activation. Parallel in vitro experiments supported the inhibitory role of Hsp20 on enforced
ASK1
-JNK/p38 activation in both H9c2 cells and adult rat cardiomyocytes. Immunostaining studies also demonstrated that Hsp20 colocalizes with
ASK1
in cardiomyocytes. Taken together, our findings indicate that (1) beta-agonist-induced cardiac injury is associated with activation of the
ASK1
-JNK/p38 cascade; (2) increased expression of Hsp20 attenuates the induction of remodeling, dysfunction, and apoptosis in response to sustained beta-adrenergic stimulation; and (3) the beneficial effects of Hsp20 are at least partially attributable to inhibition of the
ASK1
-signaling cascade.
...
PMID:Small heat-shock protein Hsp20 attenuates beta-agonist-mediated cardiac remodeling through apoptosis signal-regulating kinase 1. 1706 91
The amyloid precursor protein (APP) is a type I transmembrane protein translocated to neuronal terminals, whose function is still unknown. The C-terminus of APP mediates its interaction with cellular adaptor and signaling proteins, some of which signal to the stress-activated protein kinase (SAPK) pathway. Here we show that
ASK1
, a MAPKKK that activates two SAPKs,
c-Jun
N-terminal-kinase (JNK) and p38, is present in a complex containing APP, phospho-MKK6, JIP1 and JNK1. In primary neurons deprived of growth factors, as well as in brains of (FAD)APP-transgenic mice,
ASK1
was upregulated in neuronal projections, where it interacted with APP. In non-transgenic brains,
ASK1
and APP associated mainly in the ER. Our results indicate that recruitment of
ASK1
to stress-signaling complexes assembled with APP may be triggered and enhanced by cellular stress. Thus,
ASK1
may be the apical MAPKKK in a signaling complex assembled with APP as a response to stress.
...
PMID:Interaction of ASK1 and the beta-amyloid precursor protein in a stress-signaling complex. 1771 30
Co-activation of GABA A and GABA B receptors results in neuroprotection during in vitro ischemia. However, it is unclear whether this mode of action is responsible for its neuroprotective effects in animal models of ischemia in vivo, and the precise mechanisms are also unknown. This study compared the neuroprotective efficacies of muscimol, a GABA A receptor agonist, and a GABA B receptor agonist baclofen in rat brain ischemia. The additive neuroprotection could be obtained in the hippocampal CA1 pyramidal cells prominently when muscimol and baclofen were co-applied. In particular, our study showed that co-activation of GABA A and GABA B receptors could strongly increase Akt activation and inhibit
ASK1
activation by phosphorylation of serine 83 of
ASK1
. PI-3K inhibitor LY294002 reversed the increasing Akt activation and
ASK1
(S83) phosphorylation. Moreover, MKK4/MKK7-JNK signaling activation was inhibited during ischemia/reperfusion (I/R) by co-treatment of muscimol with baclofen. JNK substrate, Bcl-2 and c-jun phosphorylation were also attenuated. Our results indicated that co-activation of GABA A receptor and GABA B receptor exerted neuroprotective effect via PI-3K/Akt pathway, which could inhibit the
ASK1
-
c-Jun
N-terminal protein kinase (JNK) cascade.
...
PMID:Additive neuroprotection of GABA A and GABA B receptor agonists in cerebral ischemic injury via PI-3K/Akt pathway inhibiting the ASK1-JNK cascade. 1841 Sep 48
TNFalpha exerts apoptosis throughout an intracellular transduction pathway that involves the kinase proteins TRAF-2 (integration point of apoptotic and survival signals),
ASK1
(pro-apoptotic protein), MEK-4 (p38 activator and metastasis suppressor gene), JNK (stress mitogen activated protein kinase) and the
transcription factor AP-1
. TNFalpha also exerts proliferation by p38 activation, or when TRAF-2 simultaneously induces the transcription factor NF-kappaB by NIK. NIK and p38 may also be activated by IL-1. P38 activated several transcription factors such as Elk-1, ATF-2 and NF-kappaB. NIK also may activate NF-kappaB. The aim of the present article was to evaluate the different components of this TNFalpha/IL-1 transduction pathway in human prostate carcinoma (PC) in comparison with normal human prostate. In prostate cancer, pro-apoptotic TNFalpha/AP-1 pathway is probably inactivated by different factors such as p21 (at
ASK-1
level) and bcl-2 (at JNK level), or diverted towards p38 or NIK activation. IL-1alpha enhances proliferation through IL-1RI that activates either NIK or p38 transduction pathway. P38 and NIK activate different transcription factors related with cell proliferation and survival such as ATF-2, Elk-1 or NF-kappaB. In order to search a possible target to cancer prostate treatment we proposed that inhibition of several proinflamatory cytokines such as IL-1 and TNFalpha might be a possible target for PC treatment, because decrease the activity of all transduction pathway members that activate transcription factors as NF-kappaB, Elk-1 or ATF-2.
...
PMID:TNF-alpha/IL-1/NF-kappaB transduction pathway in human cancer prostate. 1871 80
Huntington's disease (HD) is a neurodegenerative disorder resulting from the expansion of a glutamine repeat (polyQ) in the N-terminus of the huntingtin (htt) protein. Expression of polyQ-containing proteins has been previously shown to induce various cellular stress responses. Among these, activation of the c-Jun N-terminal kinase (JNK) cascade has been observed in cellular models of HD. However, the implication of the JNK pathway has not previously been evaluated in the striatum of HD animal models. Here we report that the JNK pathway participates in HD pathology in a rat model of the disease. Increased phosphorylation of the JNK target
c-Jun
was observed as early as 4 weeks and persisted for 13 weeks after lentiviral-mediated expression of htt171-82Q. In order to assess the importance of this pathway in HD pathology, JNK inhibitors including dominant-negative mutants of upstream kinases (
ASK1
(K709R), MEKK1(D1369A)), a
c-Jun
mutant (Delta169c-Jun) and the active domain of the scaffold protein JIP-1/IBI (IBI-JBD) were tested for their ability to mitigate the effect of htt171-82Q. The overexpression of MEKK1(D1369A) and JIP-1/IBI reduced the polyQ-related loss of DARPP-32 expression, while the other inhibitors had no effect. In all cases, the formation of EM48-positive htt inclusions and P-
c-Jun
immunoreactivity were unaltered. These results suggest that JNK activation is involved in HD and that blockade of this pathway may be of benefit in counteracting HD-related neurotoxicity.
...
PMID:Implication of the JNK pathway in a rat model of Huntington's disease. 1902 49
Genomic amplification of
c-Jun
and its upstream kinases have been implicated as a mechanism of progression from well-differentiated to dedifferentiated liposarcoma. To further define the role of
c-Jun
in liposarcoma progression, we performed immunohistochemistry for
c-Jun
and its activating kinase
ASK1
on a series of liposarcomas (n = 81). We correlated the results with fluorescence in situ hybridization to detect
c-Jun
amplification. We also derived new cell lines from dedifferentiated liposarcomas with
c-Jun
amplification.
c-Jun
protein is expressed in the majority of dedifferentiated liposarcomas (91%) and their well-differentiated components (59%), but only in the minority of pure well-differentiated liposarcomas (27%). When
c-Jun
is amplified in dedifferentiated liposarcoma, it is interspersed with amplified MDM2 on ring and giant marker chromosomes. MDM2 amplification is one of the earliest events in liposarcoma development, and these results suggest that
c-Jun
was amplified at a similar time in the evolution of the tumour. In addition, shRNA to
c-Jun
in
c-Jun
-amplified liposarcoma cells reduces cell number in vitro and inhibits tumour formation in vivo without an observable effect on the differentiation state of the liposarcoma cells. Thus,
c-Jun
amplification is oncogenic in liposarcomas but not always sufficient for inhibition of adipocytic differentiation.
...
PMID:c-Jun amplification and overexpression are oncogenic in liposarcoma but not always sufficient to inhibit the adipocytic differentiation programme. 1944 67
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