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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)
IGF-I
regulates bone acquisition and maintenance, even though the cellular targets and signaling pathways responsible for its action in human bone cells are poorly understood. Whether abnormalities in
IGF-I
action and signaling occur in human osteoblasts under conditions of net bone loss has not been determined. Herein we carried out a comparative analysis of
IGF-I
signaling in primary cultures of human osteoblasts from osteoporotic and control donors. In comparison with control cells, osteoporotic osteoblasts showed increased tyrosine phosphorylation of the IGF-I receptor in the basal state and blunted stimulation of receptor phosphorylation by
IGF-I
. Augmentation of basal IGF-I receptor phosphorylation was associated with coordinate increases in basal tyrosine phosphorylation of insulin receptor substrate (IRS)-2 and activation of Erk, which were also minimally responsive to
IGF-I
stimulation. By contrast, phosphorylation levels of IRS-1, Akt, and
glycogen synthase kinase
-3 were similar in the basal state in control and osteoporotic osteoblasts and showed marked increases after
IGF-I
stimulation in both cell populations, even though these responses were significantly lower in the osteoporotic osteoblasts. The
IGF-I
signaling abnormalities in osteoporotic osteoblasts were associated with reduced DNA synthesis both under basal conditions and after stimulation with
IGF-I
. Interestingly, treatment of the osteoporotic osteoblasts with the MAPK kinase inhibitor PD098059 reduced the elevated levels of Erk phosphorylation and increased basal DNA synthesis. Collectively, our data show that altered osteoblast proliferation in human osteoporosis may result from dysregulation of IGF-I receptor signaling, including constitutive activation of the IRS-2/Erk signaling pathway, which becomes unresponsive to
IGF-I
, and defective induction of the IRS-1/Akt signaling pathway.
...
PMID:Abnormalities of insulin-like growth factor-I signaling and impaired cell proliferation in osteoblasts from subjects with osteoporosis. 1807 94
Although numerous studies have shown that both androgenic and estrogenic steroids increase rate and efficiency of muscle growth in steers, there is little consensus as to their mechanism of action. A combined estradiol 17beta (E2)/trenbolone acetate (TBA) implant causes a significant increase in muscle
IGF-I
mRNA and both E2 and TBA stimulate a significant increase in
IGF-I
mRNA level in bovine satellite cell (BSC) cultures in media containing 10% fetal bovine serum (FBS). Consequently, increased
IGF-I
expression may play a role in anabolic-steroid-enhanced muscle growth. However, even though treatment of cultured BSC with E2 or TBA in media containing 1% IGFBP-3-free swine serum (SS) results in increased proliferation there is no effect on
IGF-I
mRNA expression, suggesting that increased
IGF-I
expression may not be responsible for anabolic-steroid-enhanced BSC proliferation. To further examine the role of estrogen, androgen and
IGF-I
receptors and their respective ligands in E2- and TBA-stimulated BSC proliferation, we assessed the effects of specific inhibitors on E2- or TBA-stimulated proliferation of BSC. Both ICI 182 780 (an estrogen receptor blocker) and flutamide (an inhibitor of androgen receptor) suppressed (p<0.05) E2- and TBA-stimulated BSC proliferation, respectively. JB1 (a competitive inhibitor of
IGF-I
binding to type I IGF receptor) reduced (p<0.05) both E2- and TBA-stimulated proliferation in BSC cultures. Both the
Raf-1
/MAPK kinase (MEK)1/2/ERK1/2, and the phosphatidylinositol 3-kinase (PI3K)/Akt pathways play significant roles in the actions of
IGF-I
on proliferation and differentiation of myogenic cells. PD98059, an inhibitor of the MAPK pathway, and wortmannin, an inhibitor of the PI3K pathway, both suppressed (p<0.05) E2- and TBA-stimulated proliferation of cultured BSC. Our data suggest that
IGF-I
plays a role in E2- and TBA-stimulated proliferation of cultured BSC even in the absence of increased
IGF-I
expression.
...
PMID:Roles of IGF-I and the estrogen, androgen and IGF-I receptors in estradiol-17beta- and trenbolone acetate-stimulated proliferation of cultured bovine satellite cells. 1840 76
Insulin-like growth factor (IGF)-II is a required intermediate for prolactin-induced up-regulation of cyclin D1 and proliferation in normal murine mammary epithelial cells in vivo and in vitro. However, we have recently shown that prolactin can rapidly induce cyclin D1 protein expression and subsequent proliferation in the MCF-7 human breast cancer cell line, suggesting that prolactin actions can be independent of IGFs in breast disease. Here, we investigate the relationship between these factors and show that prolactin up-regulated transcript levels of both
IGF-I
and IGF-II, but only after increases in cyclin D1 protein were observed. Moreover, prolactin increased cyclin D1 in the presence of the IGF-I receptor neutralizing antibody alphaIR3. However, on cotreatment,
IGF-I
and prolactin elicited cooperative phosphorylation of extracellular signal-regulated kinases 1 and 2 and protein kinase B/AKT, but not signal transducer and activator of transcription 5. This interaction extended to increased activation of activating protein-1 enhancer elements, phosphorylation of
glycogen synthase kinase
3beta, induction of cyclin D1, and ultimately, increased cell number. It also increased invasive behavior, which correlated with elevated matrix metalloproteinase-2 transcript levels. Interestingly, prolactin augmented phosphorylation at Tyr(1135) and Tyr(1136) of IGF-I receptor on cotreatment with
IGF-I
, although prolactin alone had no effect. Together, these data indicate that strong cooperative cross talk between prolactin and
IGF-I
augments biological processes associated with neoplastic progression, with implications for therapeutic strategies.
...
PMID:Prolactin does not require insulin-like growth factor intermediates but synergizes with insulin-like growth factor I in human breast cancer cells. 1840 42
The effect of various hormones on regucalcin mRNA expression in osteoblastic MC3T3-E1 cells in vitro was investigated. Cells with subconfluency were cultured for 24 or 48 h in a medium containing either vehicle or various hormones without fetal bovine serum. Regucalcin mRNA expression was significantly increased after culture with parathyroid hormone (synthetic human PTH; 10(-7) M), insulin-like growth factor-I (
IGF-I
; 10(-8) M), or 17beta-estradiol (10(-10) or 10(-9) M) for 48 h. Culture with 1,25-dihydroxyvitamin D3 (10(-7) M) for 48 h caused a significant decrease in regucalcin mRNA expression. Regucalcin mRNA expression was significantly decreased after culture with tumor necrosis factor-alpha (1 or 10 ng/ml of medium) for 24 or 48 h. The effect of PTH or
IGF-I
in increasing regucalcin mRNA expression was not seen in the presence of staurosporine (10(-8) M), an inhibitor of protein kinase C, or PD98059 (10(-7) M), an inhibitor of mitosis-activated
protein kinase
(MAP kinase), respectively, suggesting that regucalcin mRNA expression is enhanced through intracellular signaling factors. This study demonstrated that regucalcin mRNA expression in osteoblastic MC3T3-E1 cells is regulated by various hormones.
...
PMID:Hormonal regulation of regucalcin mRNA expression in osteoblastic MC3T3-E1 cells. 1850 71
Functions of signaling mediators Grb10 or Gab1 have been described in mitogenesis but remained disconnected. Here, we report the peptide hormone-dependent direct association between Grb10 and Gab1 and their functional connection in mitogenic signaling via MAP kinase using cultured fibroblasts as a model. In response to PDGF-,
IGF-I
, or insulin increased levels of Grb10 potentiated cell proliferation or survival whereas dominant-negative, domain-specific Grb10 peptide mimetics attenuated cell proliferation. This response was sensitive to p44/42 MAPK inhibitor but not to p38 MAPK inhibitor. In response to
IGF-I
or insulin
Raf-1
, MEK 1/2, and p44/42 MAPK were regulated by Grb10 but not Ras or p38 MAPK. In response to PDGF MEK 1/2, p44/42 MAPK and p38 MAPK were regulated by Grb10 but not Ras or
Raf-1
. Peptide hormone-dependent co-immunoprecipitation of Grb10 and Gab1 was demonstrated and specifically blocked by a Grb10 SH2 domain peptide mimetic. This domain was sufficient for direct, peptide hormone-dependent association with Gab1 via the Crk binding region. In response to PDGF,
IGF-I
, or insulin, in a direct comparison, elevated levels of mouse Grb10 delta, or human Grb10 beta or zeta equally potentiated fibroblast proliferation. Proliferation was severely reduced by Gab1 gene disruption whereas an elevated Gab1 gene dose proportionally stimulated Grb10-potentiated cell proliferation. In conclusion, Gab1 and Grb10 function as direct binding partners in the regulation of the mitogenic MAP kinase signal. In cultured fibroblasts, elevated levels of human Grb10 beta, zeta or mouse Grb10 delta comparably potentiate mitogenesis in response to PDGF,
IGF-I
, or insulin.
...
PMID:Mitogenic roles of Gab1 and Grb10 as direct cellular partners in the regulation of MAP kinase signaling. 1898 78
Our previous studies found that insulin-like growth factor-I receptor (IGF1R) signaling blockade caused cardiac hypertrophy, and that apoptosis is required for upregulating the IGF-II and the IGF-II/ mannose 6-phosphate receptor (IGF2R) gene. However, the role of IGF-II in the regulation of cell apoptosis through IGF2R is little known. In this study, we hypothesized that IGF-II may induce cell apoptosis through IGF2R but is dependent on IGF1R activity. Western blots and TUNEL assay revealed that in the presence of IGF1R, exogenous IGF-II acts, like
IGF-I
, would increase phospho-Akt through IGF1R, but does not affect the caspase 3 activation and apoptotic induction in H9c2 cardiomyoblast cells. Conversely, AG1024, an inhibitor of IGF1R activity, causes cell apoptosis, and the treatment with IGF-II further enhances this process, implying that it occurs through IGF2R. Moreover, immunoprecipitation assay revealed that treatment with IGF-II could enhance the interaction of IGF2R with Galphai and Galphaq but reduce its binding with Galphas, resulting in the reduction of phospho-
PKA
and the activation of PLC-beta. Taken together, these data provide new insight into the dual role of IGF-II in the control of IGF1R dependent cell apoptosis and involved activation of IGF2R signaling. Improving IGF1R activity and suppressing IGF2R may be a good strategy to prevent the progression of heart disease with cardiomyocyte apoptosis.
...
PMID:Enhancement of AG1024-induced H9c2 cardiomyoblast cell apoptosis via the interaction of IGF2R with Galpha proteins and its downstream PKA and PLC-beta modulators by IGF-II. 1976 51
Medulloblastoma is the most frequent type of childhood brain tumour. The insulin-like growth factor I receptor (IGF-IR) plays a significant neuroprotective role in medulloblastoma survival through regulation of the downstream effectors of the phosphoinositide-3-kinase-
protein kinase
-B (PI3K-PKB/c-Akt) pathway. One such target is Forkhead box O1 (FOXO1; FKHR), which is part of the FOXO family of Forkhead transcription factors. Phosphorylation by Akt results in cytoplasmic sequestration of FOXO1 thus inhibiting the expression of genes controlling cell death, cell proliferation, differentiation, cellular metabolism and oxidative stress. Here we show that serum starvation of medulloblastoma cells is accompanied by nuclear translocation of FOXO1.
IGF-I
stimulation of serum-starved cells resulted in rapid phosphorylation of Akt and FOXO1, and was associated with a significant increase in cell viability. In contrast, expression of a constitutively active form of FOXO1 that cannot be phosphorylated led to a significant reduction in medulloblastoma cell viability, even in the presence of growth factors provided by fetal bovine serum (FBS). These data suggest that the transcription factor FOXO1 may be a critical effector of medulloblastoma growth suppression.
...
PMID:Impaired medulloblastoma cell survival following activation of the FOXO1 transcription factor. 1978 58
Epstein-Barr virus (EBV)-encoded small RNAs (EBERs) are polyA-, non-coding RNAs that are expressed abundantly in all forms of cells latently infected with EBV. EBERs (EBER1 and EBER2) contribute to the clonal proliferation of EBV-negative Burkitt's lymphoma (BL) cells in soft agar, tumorigenicity in SCID mice, up-regulation of the bcl-2 oncoprotein, resistance to apoptosis, and maintenance of malignant phenotypes in BL cells. EBERs induce the expression of interleukin (IL)-10 in BL cells, insulin-like growth factor 1 (
IGF-I
) in gastric and nasopharyngeal carcinoma cells, IL-9 in T cells, and IL-6 in lymphoblastoid cell lines. Additionally, each of these cytokines acts as an autocrine growth factor. In BL cells, EBERs bind the double-stranded RNA-activated
protein kinase
PKR, inhibit its phosphorylation, and thereby prevent IFN-alpha-mediated apoptosis. In epithelial cells, EBERs confer resistance to Fas-mediated apoptosis by blocking PKR activity. EBERs form complexes with PKR, ribosomal protein L22, lupus erythematosis-associated antigen (La), and retinoic acid-inducible gene I (RIG-I). In BL cells, EBERs activate RIG-I signaling and induce the expression of type-I IFNs and interferon stimulated genes (ISGs) through the activation of RIG-I substrates, nuclear factor-kappa B (NF-kappaB), and IFN regulatory factor 3 (IRF-3), and anti-inflamatory cytokine IL-10 through IRF-3 but not NF-kappaB signaling. EBERs also play critical roles in the growth transformation of B lymphocytes. Although EBER1 and EBER2 exhibit similarities in their primary (54%) and secondary structures, recent findings have shown that recombinant EBVs carrying only the EBER2 gene play a greater role in the growth transformation of B lymphocytes than EBVs carrying only the EBER1 gene. Thus, EBERs play multiple roles in various cell types, and we present a model that highlights the functions of EBERs in EBV-mediated oncogenesis in BL cells.
...
PMID:Modulation of innate immunity system by Epstein-Barr virus-encoded non-coding RNA and oncogenesis. 1988 12
A family of IGF-binding proteins (IGFBP) exerts biological actions both dependent on and independent of
IGF-I
. A major effector of the insulin/
IGF-I
signaling pathway, the
serine/threonine protein kinase
Akt, mediates cellular processes such as glucose uptake, protein synthesis, cell survival, and growth.
IGF-I
is required for normal organismal growth, and in the pancreatic beta-cell, the insulin/
IGF-I
signaling pathway is critical for normal and adaptive maintenance of beta-cell mass. Expression of myrAkt1, an activated form of Akt, in the endocrine pancreas drives beta-cell expansion through dramatic increases in both islet and beta-cell size and number. Herein we present a comparative expression profiling of myrAkt1 transgenic islets that demonstrates the increased abundance of transcripts encoding proteins associated with growth, suppression of apoptosis, RNA processing, and metabolism. Although IGFBP5 is identified as a gene induced by Akt1 activation in the beta-cell, Igfbp5 expression is not necessary for myrAkt1 to augment beta-cell size or mass in vivo. However, in the absence of Igfbp5, mice demonstrate an increase in size and mild glucose intolerance. This is accentuated during diet-induced obesity, when Igfbp5-deficient mice have increased adiposity compared with wild-type mice on the same diet. These studies reveal a novel role for Igfbp5 in the control of growth and metabolism.
...
PMID:Role of insulin-like growth factor-binding protein 5 (IGFBP5) in organismal and pancreatic beta-cell growth. 1989
Insulin/
IGF-I
signaling regulates the metabolism of most mammalian tissues including pancreatic islets. To dissect the mechanisms linking insulin signaling with mitochondrial function, we first identified a mitochondria-tethering complex in beta-cells that included glucokinase (GK), and the pro-apoptotic protein, BAD(S). Mitochondria isolated from beta-cells derived from beta-cell specific insulin receptor knockout (betaIRKO) mice exhibited reduced BAD(S), GK and
protein kinase A
in the complex, and attenuated function. Similar alterations were evident in islets from patients with type 2 diabetes. Decreased mitochondrial GK activity in betaIRKOs could be explained, in part, by reduced expression and altered phosphorylation of BAD(S). The elevated phosphorylation of p70S6K and JNK1 was likely due to compensatory increase in IGF-1 receptor expression. Re-expression of insulin receptors in betaIRKO cells partially restored the stoichiometry of the complex and mitochondrial function. These data indicate that insulin signaling regulates mitochondrial function and have implications for beta-cell dysfunction in type 2 diabetes.
...
PMID:Insulin signaling regulates mitochondrial function in pancreatic beta-cells. 1995 95
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