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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
RVGLVRGEKARKGK (peptide 14) from residues 2410-2423 of the human insulin-like growth factor II receptor (IGF-IIR) directly activates adenylylcyclase-inhibitory guanine nucleotide-binding proteins (Gi proteins) whereas RGEKARKGK (peptide 9) has no stimulatory action. However, peptide 9 inhibited the actions of peptide 14 on both GDP release from and guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) binding to Gi-2 in an aqueous system. Peptide 9 also inhibited peptide 14-induced Gi-1 activation with a similar profile. The peptide 9 action was competitive for peptide 14 action and determined by the first arginine residue and the C-terminal RKGK. In reconstituted IGF-IIR-Gi-2 vesicles, peptide 9 blocked the G protein stimulation by
IGF-II
with a potency similar to that observed in the action of peptide 9 on peptide 14; and peptide 9-induced inhibition was also observed in IGF-IIR-Gi-1 vesicles. In
pertussis
toxin-treated K562 cell membranes supplemented with Gi-2, peptide 9 inhibited
IGF-II
-induced reduction in
pertussis
toxin-catalyzed ADP-ribosylation of Gi-2 with an IC50 of 30 microM. This inhibitory effect of peptide 9 was competitive for the concentration of these IGF-IIR-positive/IGF-I receptor-negative cell membranes. Therefore, peptide 9 inhibits the Gi-activating function of IGF-IIR possibly by interacting with the putative peptide 14 recognition site of Gi proteins. The significance of this sequence is discussed.
...
PMID:Guanine nucleotide-binding protein interacting but unstimulating sequence located in insulin-like growth factor II receptor. Its autoinhibitory characteristics and structural determinants. 164 3
In BALB/c 3T3 cells pretreated with platelet-derived growth factor (PDGF) and epidermal growth factor (EGF) (primed-competent cells), insulin-like growth factors I and II (IGF-I and
IGF-II
) bind to their own receptors (IGF-IR and IGF-IIR) and stimulate calcium influx and DNA synthesis by a mechanism involving a 40-kDa
pertussis
toxin substrate. In contrast, these IGFs do not act on unprimed quiescent cells. In this study, the 40-kDa
pertussis
toxin substrate was identified as Gi-2 alpha using anti-G protein antibodies. We analyzed the quality of signal transduction from
IGF-II
to Gi-2 alpha. There was no difference in the amount of Gi-2 alpha between quiescent and primed-competent cells, and both of these cells had similar Kd values and numbers of
IGF-II
-binding sites. Whereas
IGF-II
did not alter
pertussis
toxin-catalyzed ADP-ribosylation of Gi-2 alpha in quiescent cells,
IGF-II
reduced the
pertussis
toxin substrate activity by 35-50% via the IGF-IIR in primed-competent cells. The action of
IGF-II
lasted for up to 3 h when
IGF-II
was present in the medium, and it disappeared when
IGF-II
was removed. These results suggest that the signaling pathway triggered by
IGF-II
is uncoupled between the IGF-IIR and Gi-2 alpha in quiescent cells and that PDGF and EGF restore the IGF-IIR-Gi-2 coupling. This study also indicates that low concentrations of IGF-I reduce the
pertussis
toxin substrate activity of Gi-2 alpha in primed-competent cells in a time course slower than that of
IGF-II
, but not at all in quiescent cells. However, both of these cells had similar Kd values and numbers of IGF-I binding sites. Therefore, the IGF-I signaling pathway may also be uncoupled between the IGF-IR and Gi-2 alpha in quiescent cells and restored by PDGF and EGF. In BALB/c 3T3 cells transfected with temperature-sensitive Kirsten sarcoma virus bearing the v-Ki-ras gene (ts cells), a 40-kDa
pertussis
toxin substrate was also identified as Gi-2 alpha. In nonpermissive ts cells,
IGF-II
was without effect on the
pertussis
toxin substrate activity of Gi-2 alpha or on calcium influx.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Regulation of transmembrane signal transduction of insulin-like growth factor II by competence type growth factors or viral ras p21. 198 36
Tumor metastasis requires highly motile cells that can respond to appropriate stimuli. A2058 human melanoma cells were shown previously to secrete a highly potent autocrine motility factor (AMF) that stimulates chemokinetic movement. We have shown that the insulin polypeptides (IPs; insulin-like growth factors I and II [IGF-I, -II] and insulin) stimulated A2058 cell chemotaxis and chemokinesis. We now report that the IPs and AMF stimulate locomotion in other human malignant cell lines. Insulin (100 nM) induced motility of up to 50% of the magnitude of the AMF response in human carcinoma lines MDA-231 (breast), T24 (bladder), and OVCAR3 (ovarian). The tumorigenic and metastatic 5R Haras-transfected rat embryo fibroblast cell line responded to insulin with both chemotaxis and chemokinesis and was 100% of that seen for AMF. The ED50 for IGF-I in the carcinoma cell lines was in the order of I nM, but the magnitude of the responses at this concentration was 40% of the AMF-stimulated response, with the exception of the A2058 cells, which were maximally stimulated at I nM.
IGF-II
induced maximal motility of 75 to 130% of the AMF-stimulated response in the carcinoma lines with ED50 of less than or equal to 10 nM.
IGF-II
-stimulated motility in the carcinoma lines was predominantly chemotactic by modified checkerboard analysis. Cell pretreatment with
pertussis
toxin inhibited 90-100% of AMF-induced motility, whereas migration to the IPs was not
pertussis
toxinsusceptible. In growth studies, IGF-I induced mitogenesis up to 140% of basal media control growth. In general, maximal growth stimulation was seen at 100 nM IGF-I, and optimal migration was seen at 10 nM IGF-I. The IGFs are secreted by normal stroma in a number of organs that are common sites for primary and metastatic disease. Therefore, we suggest that IPs may be important homing and mitogenic signals for tumor cells in the process of invasion and metastasis and that the differential motility stimulation and respective mechanisms of action by these physiologically important agents may underlie the diversity of the metastatic process.
...
PMID:Heterogeneity of the motility responses in malignant tumor cells: a biological basis for the diversity and homing of metastatic cells. 211 98
In mouse Balb/c3T3 fibroblasts, insulin-like growth factor (IGF)-II activates a calcium-permeable cation channel through a cell surface IGF-II receptor (Kojima, I., Nishimoto, I., Iiri, T., Ogata, E., and Rosenfeld, R. G. (1988) Biochem. Biophys. Res. Commun. 154, 9-19; Matsunaga, H., Nishimoto, I., Kojima, I., Yamashita, N., Kurokawa, K., and Ogata, E. (1988) Am. J. Physiol. 255, C442-C446). In the action of
IGF-II
, a
pertussis
toxin (or islet-activating protein; IAP)-sensitive GTP-binding protein (G protein) is inferred to be involved (Nishimoto, I., Hata, Y., Ogata, E., and Kojima, I. (1987) J. Biol. Chem. 262, 12120-12126). In the present study, we examined the direct coupling of the IGF-II receptor with G proteins. In broken Balb/c3T3 cell membranes, 10 nM
IGF-II
rapidly attenuated the IAP-catalyzed ADP-ribosylation of a 40-kDa protein in a manner requiring magnesium ion. The
IGF-II
-mediated attenuation in the IAP substrate activity was 80% recovered after washing off
IGF-II
and inhibited by coexisting guanosine 5'-O-(2-thiodiphosphate), while either aluminum fluoride solution (10 mM NaF plus 100 microM AlCl3) or 100 microM guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) reproduced the action of
IGF-II
. When purified IAP substrate G proteins (Gi1, Gi2, G0) were incubated with
IGF-II
in the presence of membranes from IAP-treated Balb/c3T3 cells, the attenuation in the IAP substrate activity was evident in Gi2, but not in Gi1 or G0. On the other hand, 10 nM insulin had no effect on the modification of the 40-kDa IAP substrate in Balb/c3T3 cell membranes, whereas 10 nM IGF-I elicited a slow onset of the IAP sensitivity attenuation from the 40-kDa protein. However, the specific involvement of the IGF-II receptor in the modification of the IAP substrate induced by low concentrations of
IGF-II
was suggested by the observations that (i) IGF-I receptor-lacking cell membranes were effective for the Gi2 modification by
IGF-II
, (ii) the ability of membranes to mediate the action of
IGF-II
was markedly attenuated in IGF-II receptor-lacking cell membranes, and (iii) agonistic anti-IGF-II receptor antibody mimicked the action of
IGF-II
on the 40-kDa protein in Balb/c3T3 cell membranes in a dose-dependent manner similar to that observed in the antibody-induced blocking of membrane
IGF-II
binding.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Possible direct linkage of insulin-like growth factor-II receptor with guanine nucleotide-binding proteins. 254 80
Insulin-like growth factors I and II (IGF-I and II) and insulin are chemotactic agents for the human melanoma cell line A2058. As shown in this report, the motility receptor mediating this response is the heterodimeric type I IGF receptor. These three factors are able to compete with 125I-labeled IGF-I for binding to the cell surface with IC50 values equal to approximately 2 (IGF-I), approximately 150 (
IGF-II
), and approximately 300 nM (insulin). Cross-linking of 125I-IGF-I to the cell surface with disuccinimidyl suberate followed by analysis with sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography reveals a 130-kDa protein (reduced) consistent with the alpha component of a type I receptor and a 38-kDa protein which does not bind insulin, and thus could be another IGF-I cell surface binding protein. The anti-IGF-I receptor monoclonal antibody (alpha IR-3) also competes with labeled IGF-I in binding experiments. In contrast, a control monoclonal antibody, matched to alpha IR-3 with respect to IgG subclass, has no significant effect on IGF-I binding. While alpha IR-3 inhibits the motility induced by IGF-I,
IGF-II
, and insulin,
pertussis
toxin (0.01-1.0 micrograms/ml) has no significant effect on the motility induced by the insulin-like growth factors or insulin on this cell line. Therefore, the type I IGF receptor appears to mediate a highly potent
pertussis
toxin-insensitive motility response to IGF-I,
IGF-II
, and insulin. In contrast, motility induced by the autocrine motility factor, a cytokine produced by the A2058 cells, is not affected by alpha IR-3 but is extremely sensitive to
pertussis
toxin. When mixtures of autocrine motility factor and IGF-I are employed to induce chemotaxis, the resulting motility is greater than that induced by either agent alone. These data indicate that motility in this melanoma cell line can be initiated through multiple receptors that stimulate the cells by separate transduction pathways. This capability to respond to multiple stimuli could enhance the metastatic potential.
...
PMID:The type I insulin-like growth factor receptor is a motility receptor in human melanoma cells. 255 32
Polymorphonuclear neutrophils (PMNs) were isolated from human blood, and PMN phagocytosis was assessed by measuring the chemiluminescence (CL) response in the presence of ZAP (opsonized zymosin particles containing luminol). The administration of 6.5 nM of insulin-like growth factor I (IGF-I), des(1-3)-IGF-I,
IGF-II
or insulin to PMNs for 20 min resulted in significant increases of the CL response for all test preparations. Des(1-3)-IGF-I, a truncated IGF-I with low affinity binding to IGF binding proteins (IGFBPs), was the most potent CL stimulator. The CL production evoked by 6.5 nM of des(1-3)-IGF-I was inhibited significantly by both 0.25 and 1.0 nM of EGTA (Ca2+ chelator), or 10 microM nifedipine (Ca2+ channel inhibitor),
pertussis
toxin (0.05 and 1.0 micrograms/ml) or cholera toxin (5 micrograms/ml). These results suggest that IGF-I and its homologues are potent stimulators of phagocytosis and that this action is modulated by IGFBP, and may require extracellular Ca2+ and/or IGF-I receptor G-protein coupling.
...
PMID:Insulin-like growth factors enhance phagocytosis by human neutrophils in vitro. 813 15
There is controversy as to whether or not a
pertussis
toxin sensitive G-protein is involved in the signaling pathway of insulin-like growth factor-I. We have used normal rat kidney epithelial (NRKE) cells to ask whether or not a
pertussis
toxin sensitive G-protein was involved in IGF-I stimulated DNA synthesis. NRKE cells express both IGF and
IGF-II
/M6P receptors and respond to IGF-I with increased thymidine incorporation into DNA. Under many circumstances incubation of cells/cell membranes with GTP analogues will inhibit binding of ligands that are linked to a G-protein-receptor pathway. However, when NRKE membrane preparations were incubated with 125I-IGF-I or 125I-
IGF-II
in the presence or absence of GTP gamma S, ATP and GTP, binding of the radioligands was not affected by the GTP-analogue. IGF-I and factors from serum of hypophysectomized rats (HRS) stimulated [3H]thymidine incorporation into DNA of NRKE cells. Under serum-free conditions in the presence of EGF (2 ng/ml) and PDGF (1 ng/ml)
pertussis
toxin over a wide range of doses had no effect upon IGF-I stimulated [3H]thymidine incorporation into DNA of NRKE cells. In addition, PT at a dose of 100 ng/ml had no effect on IGF-I(0.2-50 ng/ml) stimulated DNA synthesis of NRKE cells. However, PT at doses of 5, 50, 500, 5000 and 50,000 ng/ml was capable to ADP-ribosylate a 40 kDa protein in NRKE cell plasma membrane preparations corresponding to known PT-sensitive G-proteins. We conclude, that (1) PT-sensitive G-proteins and both IGF-I and
IGF-II
/M6P receptors are present in NRKE cell plasma membrane preparations, and most importantly, that (2) PT-sensitive G-proteins are not involved in the mitogenic signaling pathway of IGF-I in NRKE cells.
...
PMID:Pertussis toxin sensitive G-proteins are not involved in the mitogenic signaling pathway of insulin-like growth factor-I in normal rat kidney epithelial (NRKE) cells. 879 68
We have investigated the effect of
IGF-II
on glucose-induced insulin release in the pancreatic beta-cell. Introduction of
IGF-II
during perifusion of the cells with 20 mM glucose abolished glucose-induced insulin release. Concomitant addition of
IGF-II
with 20 mM glucose caused a complete inhibition of insulin release. In addition,
IGF-II
inhibited Ca(2+)-induced insulin release from electropermeabilized pancreatic beta-cells.
IGF-II
had no effect on K(+)-or tolbutamide-induced insulin release. However,
IGF-II
could suppress K(+)-stimulated insulin release when cells were pretreated with the protein phosphatase inhibitor okadaic acid. The inhibitory effect of
IGF-II
on insulin release was not associated with significant changes in membrane potential, activity of the voltage-gated L-type Ca(2+)-channel or cytoplasmic free Ca2+ concentration. Pretreatment of the cells with
pertussis
toxin or the phorbol ester TPA abolished the inhibitory action of
IGF-II
on insulin release. Hence, the molecular mechanism whereby activation of the
IGF-II
/M6P receptor by
IGF-II
inhibits glucose-stimulated insulin exocytosis in the pancreatic beta-cell involves
pertussis
toxin-sensitive G proteins and is dependent on PKC activity.
...
PMID:Insulin-like growth factor II inhibits glucose-induced insulin exocytosis. 947 90
We compared the effects of insulin-like growth factor I (IGF-I) and II (
IGF-II
) on DNA synthesis and proliferation and investigated various signal transduction mechanisms involved in insulin-like growth factor-induced mitogenesis in primary cultures of adult rat hepatocytes. IGF-I stimulated hepatocyte DNA synthesis and proliferation with an EC50 of 75 ng/ml within 4 h of culture. These effects were sensitive to the IGF-I concentration and cell density. Hepatocyte proliferation induced by IGF-I was potentiated by metaproterenol (10(-6) M) as well as by 8-bromo-cAMP, phorbol 12-myristate 13-acetate (PMA; 10(-8) M) and was inhibited by U-73122 (1-(-[[17beta-3-methoxyestra-1,3,5(10)-triene-17-yl]amino]hexyl]-+ ++1Hpyrrol-2,5-dione)), genistein, wortmannin, PD98059 (2'-amino-3'-methoxyflavone) and rapamycin. The IGF-I effect was independent of
pertussis
toxin (100 ng/ml).
IGF-II
also dose dependently stimulated hepatocyte DNA synthesis and proliferation with an EC50 of 0.75 ng/ml within 4 h of culture. However, these effects were not dependent on the initial plating density. The stimulatory effects of
IGF-II
were potentiated by UK-14304 (5-bromo-6-[2-imidazolin-2-ylamino]-quinoxaline) (10(-5) M) and inhibited by phenylephrine, PMA, metaproterenol, 8-bromo-cAMP, PD98059, rapamycin, and
pertussis
toxin. The
IGF-II
effects were not affected by genistein, U-73122, and wortmannin. These results suggest that IGF-I and
IGF-II
rapidly stimulate the DNA synthesis and proliferation of adult rat hepatocytes by separate mechanisms.
...
PMID:Effects of insulin-like growth factor I and II on DNA synthesis and proliferation in primary cultures of adult rat hepatocytes. 975 29
Endothelial differentiation gene-encoded G protein-coupled receptors (Edg Rs) Edg-1, Edg-3, and Edg-5 bind sphingosine 1-phosphate (S1P), and Edg-2 and Edg-4 Rs bind lysophosphatidic acid (LPA). LPA and S1P initiate ras- and rho-dependent signaling of cellular growth. Cultured lines of human breast cancer cells (BCCs) express Edg-3 > Edg-4 > Edg-5 > or = Edg-2, without detectable Edg-1, by both assessment of mRNA and Western blots with rabbit and monoclonal mouse anti-Edg R antibodies. BCC proliferation was stimulated significantly by 10(-9) M to 10(-6) M LPA and S1P. Luciferase constructs containing the serum response element (SRE) of growth-related gene promoters reported mean activation of BCCs by LPA and S1P of up to 85-fold. LPA and S1P stimulated BCC secretion of type II insulin-like growth factor (
IGF-II
) by 2-7-fold, to levels at which exogenous
IGF-II
stimulated increased proliferation and SRE activation of BCCs. All BCC responses to LPA and S1P were suppressed similarly by
pertussis
toxin, mitogen-activated protein kinase kinase inhibitors, and C3 exoenzyme inactivation of rho, suggesting mediation by Edg Rs. Monoclonal anti-
IGF-II
and anti-IGFR1 antibodies suppressed proliferation and SRE reports of BCCs to LPA and S1P by means of up to 65%. Edg Rs thus transduce LPA and S1P enhancement of BCC growth, both directly through SRE and indirectly by enhancing the contribution of
IGF-II
.
...
PMID:Dual mechanisms for lysophospholipid induction of proliferation of human breast carcinoma cells. 1049 33
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