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Enzyme
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Query: EC:2.7.11.1 (
protein kinase
)
81,284
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have examined the regulation of the hypothalamic secretagogue CRH by glucocorticoid and the
protein kinase
-A and -C second messenger pathways in cultured cells. We show that the human primary liver carcinoma NPLC expresses the endogenous CRH gene. Dexamethasone reduced CRH mRNA levels by more than 90%, with half-maximal suppression at 5 nM. Phorbol ester treatment to activate the
protein kinase
-C pathway increased CRH mRNA levels up to 30-fold, whereas forskolin treatment to activate the
protein kinase
-A pathway had no effect. In coincubation experiments, dexamethasone completely suppressed phorbol ester-induced CRH mRNA levels in NPLC cells, maintaining them at the levels seen in untreated cells. We contrasted this regulation with the effects of glucocorticoid on CRH mRNA induction by forskolin in R1, a mouse anterior pituitary cell line (AtT-20) stably transfected with the human CRH gene. Dexamethasone suppressed forskolin-induced CRH mRNA levels by 70% in R1 cells, but only to levels that were still 10-fold greater than those in untreated cells. These results suggest that CRH induction in vivo by ligands that act via
protein kinase
-A may be less effectively suppressed by glucocorticoid feedback than CRH induction by ligands that act via
protein kinase
-C. This differential effect of glucocorticoid on CRH mRNA regulation could help explain the abnormal CRH production observed in clinical disorders such as anorexia nervosa and
major depression
.
...
PMID:Effects of glucocorticoid on corticotropin-releasing hormone gene regulation by second messenger pathways in NPLC and AtT-20 cells. 154 37
Human fibroblasts from normal subjects and from patients with
major depression
are cultured and their beta-adrenoreceptor-cyclic AMP-
protein kinase A
(
PKA
) system characterized. The results indicate that the beta-adrenoreceptor-mediated activation of
PKA
in the 900 g supernatant fraction of human fibroblasts is mediated via beta-adrenoreceptors. The activation of
PKA
by isoproterenol is very rapid with maximal stimulation occurring at 5 seconds. The time course of
PKA
activation by isoproterenol in fibroblasts from patients with
major depression
is identical to that in fibroblasts from normal subjects but the magnitude of activation is significantly reduced in fibroblasts from patients with
major depression
. Dose-response curves on cyclic AMP mediated activation of
PKA
confirmed the previously reported reduction in activation of
PKA
in patients with
major depression
but demonstrated that this reduction occurs without a change in the EC50 values of cyclic AMP (approximately 20 nmol/L). The blunted beta-adrenoceptor-linked
PKA
responses in patients with
major depression
occur without a change in the expression of the
PKA
catalytic subunit C alpha. The studies suggest that the beta-adrenoceptor-coupled adenylate cyclase
PKA
system in human fibroblasts may represent a valid model to explore possible abnormalities in the fine tuning of the beta-adrenergic transduction cascade in patients with affective disorders.
...
PMID:Beta-adrenoceptor-linked protein kinase A (PKA) activity in human fibroblasts from normal subjects and from patients with major depression. 894 29
Abnormal beta(2)-adrenoceptor density and beta(2)-adrenoceptor-mediated cyclic adenosine monophosphate (cAMP) responses were inconsistently reported in
major depressive disorder
. Tricyclic antidepressants downregulate beta-adrenoceptor density and decrease coupling to G(s) protein. Abnormal beta-adrenoceptor coupling may exist in
major depressive disorder
and may relate to treatment response. We investigated beta(2)-adrenoceptor coupling to G(s) protein in 25 controls, 23
major depressive disorder
drug-free patients and 16
major depressive disorder
patients after chronic imipramine treatment using agonist displacement experiments. Pretreatment beta(2)-adrenoceptor coupling and density were normal in patients as a whole. Chronic imipramine induced beta(2)-adrenoceptor uncoupling. This effect was observed in treatment responders who had increased beta(2)-adrenoceptor density in the high-conformational state and supercoupling prior to treatment. Beta(2)-adrenoceptor density decreased after imipramine treatment. Treatment non-responders had seemingly normal pretreatment beta(2)-adrenoceptor function, which was not changed by imipramine. Differences in beta(2)-adrenoceptor regulation in
major depressive disorder
may underlie treatment response. The results indirectly implicate abnormal agonist-mediated beta(2)-adrenoceptor gene expression,
protein kinase A
, and protein kinase C in
major depressive disorder
.
...
PMID:Neutrophil beta(2)-adrenoceptor function in major depression: G(s) coupling, effects of imipramine and relationship to treatment outcome. 1061 63
Studies suggest alpha2A-adrenoceptors (alpha(2A)AR) dysregulation in
major depressive disorder
(
MDD
). Platelet alpha(2A)ARs exist in high- and low-conformational states that are regulated by Gi protein. Although alpha(2A)AR coupling to Gi protein plays an important role in signal transduction and is modulated by antidepressants, it has not been previously investigated. Alpha2AR density in the high- and low-conformational states, agonist affinity and coupling efficiency were investigated in 27 healthy control subjects, 23 drug-free
MDD
patients and 16 patients after imipramine treatment using [3H]yohimbine saturation and norepinephrine displacement of [3H]yohimbine binding experiments. Coupling measures were derived from NE-displacement experiments. Patients had significantly higher alpha(2A)AR density, particularly in the high-conformational state, than control subjects. Coupling indices were normal in patients. High pre-treatment agonist affinity to the receptor in the high-conformational state and normal coupling predicted positive treatment outcome. Decreased coupling to Gi predicted a negative treatment outcome. Imipramine induced uncoupling (-11%) and redistribution of receptor density in treatment responders only, but had no effect on alpha(2A)AR coupling or density in treatment non-responders. Increased alpha(2A)AR density may represent a trait marker in
MDD
. The results provide indirect evidence for abnormal
protein kinase A
(
PKA
) and protein kinase C (PKC) in
MDD
which may be pursued in future investigations.
...
PMID:Platelet alpha2A-adrenoceptor function in major depression: Gi coupling, effects of imipramine and relationship to treatment outcome. 1064 27
We have shown a reduction in beta adrenoceptor-linked,
cyclic AMP-dependent protein kinase
[
protein kinase A
(
PKA
)] activity in fibroblasts of patients with
major depression
with melancholic features relative to normal volunteers. We evaluated a group of 35 patients with
major depression
subtyped by DSM-IV criteria as melancholic, atypical, and those not meeting either subtype designation ('non-subtyped') and 21 normal volunteers to ascertain whether or not the
PKA
activity abnormality was specific to melancholia. The melancholics showed marked reduction in cyclic AMP-stimulated
PKA
activity relative to normal volunteers. Although the atypicals were statistically significantly lower, almost all fell into the range for the normals. The non-subtyped group fell between the atypicals and the melancholics. Basal activity was significantly lower in atypical and melancholic groups. The data suggest that reduced
PKA
activity is consistently found in melancholic
major depression
and may not be seen with other depressive subtypes.
...
PMID:Cyclic AMP-dependent protein kinase in subtypes of major depression and normal volunteers. 1128 88
Altered regulation of 5-HT1A receptors is implicated in mood disorders such as anxiety and
major depression
. To provide insight into its transcriptional regulation, we previously identified a novel DNA element [14 bp 5'-repressor element (FRE)] of the 5-HT1A receptor gene that mediates repression in neuronal and non-neuronal cells (Ou et al., 2000). We have now cloned a novel DNA binding protein [five' repressor element under dual repression binding protein-1 (Freud-1)] that binds to FRE to mediate repression of the 5-HT1A receptor or heterologous promoters. Freud-1 is evolutionarily conserved and contains two DM-14 basic repeats, a predicted helix-loop-helix DNA binding domain, and a protein kinase C conserved region 2 (C2)/calcium-dependent lipid binding (CalB) calcium/phospholipid binding domain. An intact CalB domain was required for Freud-1-mediated repression. In serotonergic raphe cells, overexpression of Freud-1 repressed the 5-HT1A promoter and decreased 5-HT1A receptor protein levels, whereas transfection of antisense to Freud-1 derepressed the 5-HT1A gene and increased 5-HT1A receptor protein expression. Calcium-dependent signaling blocked Freud-1-FRE binding and derepressed the 5-HT1A promoter. Treatment with inhibitors of calmodulin or CAM-dependent
protein kinase
reversed calcium-mediated inhibition of Freud-1. Freud-1 RNA and protein were present in raphe nuclei, hippocampus, cortex, and hypothalamus, and Freud-1 protein was colocalized with 5-HT1A receptors, suggesting its importance in regulating 5-HT1A receptors in vivo. Thus, Freud-1 represents a novel calcium-regulated repressor that negatively regulates basal 5-HT1A receptor expression in neurons and may play a role in the altered regulation of 5-HT1A receptors associated with anxiety or
major depression
.
...
PMID:Freud-1: A neuronal calcium-regulated repressor of the 5-HT1A receptor gene. 1291 78
Positron emission tomography studies in
major depression
show reduced serotonin (5-HT)1A receptor antagonist-binding potentials in many brain regions including occipital cortex. The functional meaning of this observation in terms of signal transduction is unknown. We used postmortem brain samples from depressed suicide victims to examine the downstream effectors of 5-HT1A receptor activation. The diagnosis was established by means of psychological autopsy using Diagnostic and Statistical Manual of Mental Disorders (DSM) III-R criteria. Measurements of [35S]GTPgammaS binding to Galphai/o in the occipital cortex of suicide victims and matched controls revealed a blunted response in suicide subjects and a decrease in the coupling of 5-HT1A receptor to adenylyl cyclase. No significant group differences were detected in the expression levels of Galphai/o, Galphaq/11 or Galphas proteins, or in the activity of
cAMP-dependent protein kinase A
. Studies of a parallel transduction pathway downstream from 5-HT1A receptor activation demonstrated a decrease in the activity of phosphatidylinositol 3-kinase and its downstream effector Akt, as well as an increase in PTEN (phosphatase and tensin homolog deleted on chromosome 10), the phosphatase that hydrolyzes phosphatidylinositol 3,4,5-triphosphate. Finally, the activation of extracellular signal-regulated kinases 1 and 2 was attenuated in suicide victims. These data suggest that the alterations in agonist-stimulated 5-HT1A receptor activation in depressed suicide victims are also manifest downstream from the associated G protein, affecting the activity of second messengers in two 5-HT1A receptor transduction pathways that may have implications for cell survival.
...
PMID:Attenuated 5-HT1A receptor signaling in brains of suicide victims: involvement of adenylyl cyclase, phosphatidylinositol 3-kinase, Akt and mitogen-activated protein kinase. 1296 65
Major depression
is frequently associated with hyperactivity of the hypothalamic-pituitary-adrenal (HPA) axis. Clinically effective therapy with antidepressant drugs normalizes the disturbed activity of HPA axis, in part, by decreasing corticotropin-releasing hormone (CRH) synthesis, but the mechanism of this action is poorly recognized. In order to find out whether antidepressants directly affect CRH gene promoter activity, we studied their effect on undifferentiated and differentiated Neuro-2A cells, and for comparison the effect of the selected antidepressants on AtT-20 cells was also determined. The cells were stably transfected with a human CRH promoter fragment (-663 to +124 bp) linked to the chloramphenicol acetyltransferase (CAT) reporter gene. The regulation of CRH gene promoter activity is similar in Neuro-2A cells, both intact and differentiated, and in AtT-20 cell line, and cAMP/
PKA
-dependent pathway plays an important role in the stimulation of CRH gene. It was found that imipramine, amitryptyline, desipramine, fluoxetine, and mianserin, present in the culture medium for 5 days, in a concentration-dependent manner inhibited basal hCRH gene promoter activity in undifferentiated Neuro-2A cells, while other drugs under study (citalopram, tianeptine, moclobemide, venlafaxine, reboxetine, mirtazapine, and milnacipram) were inactive. In the differentiated cells, all examined antidepressants, except moclobemide (no effect) and tianeptine (increase), inhibited hCRH gene transcription. Moreover, in differentiated cells, the drugs acted stronger and were effective at lower concentrations. Forskolin-induced CAT activity was attenuated by imipramine and fluoxetine and to a lesser degree by amitriptyline and desipramine in differentiated cells, whereas other drugs were inactive. Moreover, imipramine and fluoxetine, but not tianeptine, showed moderate inhibitory effect on CRH gene promoter activity also in AtT-20 cell line, commonly used in CRH gene regulation studies. These results indicate that neuron-like differentiated Neuro-2A cells are a better model than pituitary and intact neuroblastoma to investigate the mechanism of psychotropic drug action. Inhibition of CRH gene promoter activity by antidepressant drugs may be a molecular mechanism by which these drugs inhibit the activity of HPA axis.
...
PMID:Regulation of the human corticotropin-releasing-hormone gene promoter activity by antidepressant drugs in Neuro-2A and AtT-20 cells. 1473 30
The precise outgrowth and arborization of dendrites is crucial for their function as integrators of signals relayed from axons and, hence, the functioning of the brain. Proper dendritic differentiation is particularly resonant for Purkinje cells as the intrinsic activity of this cell-type is governed by functionally distinct regions of its dendritic tree. Activity-dependent mechanisms, driven by electrical signaling and trophic factors, account for the most active period of dendritogenesis. An as yet unexplored trophic modulator of Purkinje cell dendritic development is corticotropin-releasing factor (CRF) and family member, urocortin, both of which are localized in climbing fibers. Here, we use rat organotypic cerebellar slice cultures to investigate the roles of CRF and urocortin on Purkinje cell dendritic development. Intermittent exposure (12 h per day for 10 days in vitro) of CRF and urocortin induced significantly more dendritic outgrowth (45% and 70%, respectively) and elongation (25% and 15%, respectively) compared with untreated cells. Conversely, constant exposure to CRF and urocortin significantly inhibited dendritic outgrowth. The trophic effects of CRF and urocortin are mediated by the
protein kinase A
and mitogen-activating
protein kinase
pathways. The study shows unequivocally that CRF and urocortin are potent regulators of dendritic development. However, their stimulatory or inhibitory effects are dependent upon the degree of expression of these peptides. Furthermore, the effects of CRF and urocortin on neuronal differentiation and re-modeling may provide a cellular basis for pathologies such as
major depression
, which show perturbations in the expression of these stress peptides.
...
PMID:Corticotropin-releasing factor and urocortin differentially modulate rat Purkinje cell dendritic outgrowth and differentiation in vitro. 1507 49
Mood disorders, including
major depression
and bipolar disorder, remain a major unmet medical need as current antidepressant and mood stabilizing therapies require chronic treatment for efficacy and are not effective in all patients. Multiple deficits, including cell atrophy and loss, have been observed in limbic and cortical brain regions of patients with mood disorders and in stressed animals. It is thought that antidepressant and mood stabilizing medications restore these deficits by reestablishing proper patterns of gene expression and function. In support of this hypothesis, numerous changes in gene expression and activity have been observed in limbic and cortical brain regions of mood disorder patients, and thymoleptic therapies have been shown to reciprocally regulate many of these changes. These findings have implicated four main signaling pathways in the pathophysiology and/or treatment of mood disorders, namely the cyclic-AMP, phosphoinositol, mitogen-activated protein kinase, and
glycogen synthase kinase
signaling cascades. Below we review this literature, and discuss potential targets for novel antidepressant and mood stabilizing drug design that are highlighted by these findings.
...
PMID:Intracellular signaling pathways pave roads to recovery for mood disorders. 1785 35
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