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1 alpha371beta were incapable of transducing a proliferative signal.
2 IL-12Rbeta2 alone is capable of delivering a proliferative signal.
3 ntinuously in the germ line to transduce the proliferative signal.
4 x of extracellular calcium and abrogates the proliferative signal.
5 t together with the APL does not result in a proliferative signal.
6  requires a beta chain for transduction of a proliferative signal.
7 ta1 receptor is involved in transmitting the proliferative signal.
8 s translation, allowing a tightly controlled proliferative signal.
9  with blocked apoptosis and the induction of proliferative signal.
10 idative stress and altered responsiveness to proliferative signals.
11 and possibly other activators in response to proliferative signals.
12  autocrine production of proinflammatory and proliferative signals.
13 critical intermediate in the transduction of proliferative signals.
14 to both TCR/CD28-mediated and IL-2R-mediated proliferative signals.
15 pon reentry of the cell cycle in response to proliferative signals.
16  active state, thereby relaying uncontrolled proliferative signals.
17 ncy disorder whose B cells oppose EBV-driven proliferative signals.
18 esis by inducing Erf and Etv3l to antagonize proliferative signals.
19 olyinosinic-polycytidylic acid-induced acute proliferative signals.
20 d during cell cycle arrest responses to anti-proliferative signals.
21 , aimed to deprive CLL cells of survival and proliferative signals.
22 etic modification of proteins in response to proliferative signals.
23 re of progenitor nuclei to neurogenic versus proliferative signals.
24 adherin engagement to transduce stretch into proliferative signals.
25 -1 (MKP-1), which attenuates ERK1/2-mediated proliferative signals.
26 ll adhesion to the extracellular matrix into proliferative signals.
27 ial cells from responding to hormone-induced proliferative signals.
28 ll survival in response to a wide variety of proliferative signals.
29 -term responses to chronic drug treatment or proliferative signals.
30 he JAK2 kinase alone might be sufficient for proliferative signaling.
31 inase activity and the box2 region initiated proliferative signaling.
32 G12/13-stimulated pathway implicated in cell proliferative signaling.
33 that receptor dimerization is sufficient for proliferative signaling.
34 HPTP1, PTP1C, and SHP1) have been defined in proliferative signaling.
35  growth and fueling their own growth via Fas proliferative signaling.
36 way leading us to broaden our exploration of proliferative signaling.
37 ivity is not required, for sPLA2-IIA-induced proliferative signaling.
38 ry structural determinants of IL-4R-mediated proliferative signaling.
39 t whether the PI3K pathway is sufficient for proliferative signaling, a tamoxifen-regulated form of P
40 pe from cell death pathways, evasion of anti-proliferative signals, a decreased reliance on exogenous
41 tive expression of MCT-1 results in a strong proliferative signal and is associated with deregulation
42 omised Stat5 activation also compromised the proliferative signal and revealed a quantitative correla
43 ey determinant of the magnitude of the IL-15 proliferative signal and that IL-15R occupancy functione
44  protease potentially deadly to the cell for proliferative signaling and demonstrate a functional con
45 ngs define EEA1 endosomes as major sites for proliferative signaling and establish that Galphas and G
46 lity of tyrosine-deficient IL-4Rs to mediate proliferative signaling and STAT phosphorylation was abs
47 R is critical for the transduction of normal proliferative signals and contributes to differentiative
48                  They are also refractory to proliferative signals and show a repressed canonical Wnt
49 ment and we also investigate the predominant proliferative signals and the on-going research addressi
50                Conversely, c-myc is a strong proliferative signal, and overexpression of Myc is frequ
51 ued to produce vimentin, exhibited vicarious proliferative signaling, and expressed less vascular end
52 chanism through which tumor cells evade anti-proliferative signals, and provides insight into how RB-
53 g and sustained relative to that produced by proliferative signals, and the growth inhibitory effects
54 bcl family genes and delivery of a competent proliferative signal are not sufficient to promote cell
55 scribes a novel mechanistic paradigm for how proliferative signals are counterbalanced in regeneratin
56 -myc is a major target that transduces Myb's proliferative signal, as shown by the ability of a c-Myc
57   FLT3 activation leads to antiapoptotic and proliferative signals, but little is known about the imp
58 that fumarate accumulation confers a chronic proliferative signal by disrupting cellular iron signali
59                                              Proliferative signaling by a receptor mutant with a weak
60                           Although increased proliferative signaling by a representative G-CSFR trunc
61                             TGF-beta opposes proliferative signaling by IL-2 through mechanisms that
62 t the sensitivity of cells to non-estrogenic proliferative signaling by increasing cellular levels of
63 that ectopically expressed SOCS-3 suppresses proliferative signaling by not only ER-HY343 but also c-
64  as a transcription factor, the mechanism of proliferative signaling by Shc is poorly defined.
65 y, surface gangliosides are known to enhance proliferative signaling by the epidermal growth factor (
66                                              Proliferative signaling by the IL-2R can occur through t
67 ls mediated by IRF-1, IFN-gamma may activate proliferative signals by phosphorylation of Stat1 and St
68  rapamycin (mTOR) pathway, causing sustained proliferative signals, can lead to exhaustion of HSC rep
69                                         This proliferative signalling cascade is upregulated in breas
70  manner by activating pro-apoptotic and anti-proliferative signaling cascades that results in strengt
71           Prior investigations document that proliferative signaling cascades, under some circumstanc
72 ian cells by intracellular and extracellular proliferative signals combined with blocked apoptosis.
73             Interruption of these homing and proliferative signals could have therapeutic potential f
74 ation of Ha-Ras, which is required for eIF4E proliferative signaling, did not suppress Myc-induced ap
75 vitro evidence that PKCdelta is required for proliferative signaling downstream of the ErbB2 receptor
76 tional programs in combination with abnormal proliferative signaling drive leukemic transformation.
77 related protein 1 (SFRP1) as a candidate pro-proliferative signal during prostatic development and ca
78 tivation of NFkappaB/Rel provides a critical proliferative signal early in the cellular transformatio
79 tion increases the stimulation of downstream proliferative signaling effectors MEK1/2 and p38-MAPK in
80 ce of cancer hallmarks, including sustaining proliferative signaling, evading growth suppression, res
81 ctivation through which tumour cells sustain proliferative signalling even under conditions of limite
82                     tPA triggered sequential proliferative signaling events involving Erk1/2, p90RSK,
83 ells (IEC), by regulating their responses to proliferative signals following intestinal injury.
84 growth response-1 (EGR-1) protein is an anti-proliferative signal for certain tumor cells and is requ
85 in part, to activation of IL-6 expression, a proliferative signal for cholangiocytes.
86  (FGF) signaling, originally identified as a proliferative signal for oligodendrocyte precursor cells
87    This study identifies Shh as an essential proliferative signal for the cerebellar ventricular germ
88                               Three distinct proliferative signals for multiple myeloma (MM) cell lin
89   Thus, Stat5 is a critical component of the proliferative signal from Tyr510 of the IL-2R and regula
90 n and determine the duration and strength of proliferative signaling from this compartment.
91     Our work identifies a mechanism by which proliferative signals from Cdk1 are removed in response
92 ting on JNK and p38, and thereby transducing proliferative signals from Galpha(q) to the nucleus inde
93 se studies indicated that anti-apoptotic and proliferative signals from IGF-1 bifurcate downstream of
94  by Tgfbeta2 in the developing eye to dampen proliferative signals from Pdgfrbeta, which effect ultim
95 esponder lymphocytes receiving the strongest proliferative signals from vaccines experienced the grea
96 involved not only in the transmission of the proliferative signal generated by ligand binding but als
97 athway plays a critical role in transmitting proliferative signals generated by cell surface receptor
98 he actin cytoskeleton in the transduction of proliferative signals has been established through the u
99 tion of both positive and "negative" or anti-proliferative signals has emerged as a common paradigm f
100 dies assessing the role of Stat5 in the IL-2 proliferative signal have produced contradictory, and th
101              These data demonstrate that (a) proliferative signaling (i.e., inhibition of cell cycle
102 antly, we demonstrate that leptin provides a proliferative signal in BAF-3 cells and increases the pr
103               We show that leptin provides a proliferative signal in hematopoietic cells.
104               By contrast, FGFR1 transmits a proliferative signal in various cell types in vivo.
105 ls, we attempted to determine if the altered proliferative signaling in a tumor cell might effect the
106 type cyclins are essential components of Shh proliferative signaling in CGNPs.
107  resulted in the inhibition of G-CSF-induced proliferative signaling in DT40GR cells.
108 nhibitory activity of the p38 pathway in Ras proliferative signaling in experimental NIH 3T3 cells.
109 onin release from dense granules, triggering proliferative signaling in hepatocytes.
110  convergence point of anti-proliferative and proliferative signaling in mammary tumor cells.
111            To determine how dasatinib blocks proliferative signaling in osteoblasts, we analyzed the
112 e cyclin D1 and its promoter were targets of proliferative signaling in prostate cancer cell lines, a
113 N-gamma-JAK2-STAT1/3-dependent migratory and proliferative signaling in VSMCs.
114 investigated the role of AP-1 in controlling proliferative signals in breast cells, and have previous
115 preferentially induced by growth factors and proliferative signals in cultured cells.
116 ium as a central integrator of metabolic and proliferative signals in Drosophila intestinal stem cell
117             Thus, RelA antagonizes TNFR1-JNK proliferative signals in epidermis and plays a nonredund
118 ith suboptimal anti-CD3 stimulation augments proliferative signals in FasL+ but not FasL- CTLs.
119                  A20 enhances IL-6/STAT3 pro-proliferative signals in hepatocytes by down-regulating
120 of tumor suppressor genes provide continuous proliferative signals in part by adjusting the state of
121 player in transduction of anti-apoptotic and proliferative signals in T cells.
122  player in transduction of antiapoptotic and proliferative signals in T cells.
123 The interleukin 2 receptor (IL-2R) generates proliferative signals in T lymphocytes by ligand-induced
124  player in transduction of antiapoptotic and proliferative signals in T-cells, we investigated whethe
125 rated excessively, suggesting that increased proliferative signals in the LN3alphabeta thymus compens
126 ate adhesive events with neighbors into anti-proliferative signals in the nucleus.
127 ce on surface receptors and matrix for their proliferative signals in vivo and provide a therapeutic
128 clin kinase inhibitor p21/WAF-1 and positive proliferative signals including c-myc and cyclin DI were
129                     Although both damage and proliferative signals increase XRCC1 levels, the mechani
130 ne, which means that the proinflammatory and proliferative signals independently regulate the express
131 investigated the role of AP-1 in transducing proliferative signals induced by peptide and steroid gro
132 ts to test the possibility that the positive proliferative signal initiated by oncogenes might change
133                                         This proliferative signal is critically dependent upon cytopl
134  quickly returns to its normal size when the proliferative signal is removed.
135 y known mitogenic pathways, we show that Shh proliferative signaling is mitogen-activated protein kin
136 coprotein integral to cell-cell adhesion and proliferative signaling, is increased in several maligna
137 r by downregulating CXCR3-B and by promoting proliferative signals, likely through CXCR3-A.
138 egulated, presumably as a consequence of the proliferative signal mediated by the increased level of
139 all cytoplasmic tyrosines, revealed a robust proliferative signal mediated through Shc.
140 ignal transduction is abrogated, whereas pro-proliferative signaling mediated through NH(2)-terminal
141 pamycin plays a critical role in transducing proliferative signals mediated through the phosphatidyli
142 tivation may provide both anti-apoptotic and proliferative signals mediated via its transcriptional t
143 e at least certain of these factors modulate proliferative signaling, mutated Epo receptor forms lack
144  able to bind erythropoietin and transduce a proliferative signal normally.
145 al tail of the class I G-CSFR down-modulates proliferative signaling, not only in myeloid cell lines,
146               We show here that EGF-induced, proliferative signaling occurs from EEA1 endosomes and i
147                         We reasoned that the proliferative signal of cE alpha was transduced either t
148  and interfering with anti-adhesive and anti-proliferative signaling of HKa.
149 hether the IL-7 receptor actually delivers a proliferative signal or whether, by promoting survival,
150 arrest provoked in somatic cells by aberrant proliferative signals or by cumulative population doubli
151  V(H)14 IgH chains did not provide increased proliferative signals or exhibit enhanced poly- or autor
152  is reactivated in these adult cell types by proliferative signals or oxidative stress.
153 O A and R1 are involved in the c-Myc-induced proliferative signaling pathway in the presence of serum
154 denomatous polyposis coli (APC)/beta-catenin proliferative signaling pathway in vivo.
155  through a pathway that is distinct from the proliferative signaling pathway utilized by tyrosine kin
156 ssion without interfering with the cytosolic proliferative signaling pathway.
157  awareness that some GPCRs can also regulate proliferative signaling pathways and that chronic stimul
158 iffer from those of oncogenes which activate proliferative signaling pathways in NIH3T3 cells.
159 tory factor in the activation of mTOR in the proliferative signaling pathways of animal cells.
160 and with Src and other partners to influence proliferative signaling pathways often activated in ADPK
161 d, we observed activation of prosurvival and proliferative signaling pathways, including phosphorylat
162 ed FLT3 signaling leads to antiapoptotic and proliferative signaling pathways.
163 ra and important epithelial inflammatory and proliferative signaling pathways.
164 69-83 of the Mpl cytoplasmic domain enhances proliferative signaling, perhaps mediated by a decrease
165 inhibition of Hh pathway mainly by enhancing proliferative signals, possibly mediated through TCF4 ac
166 ; this outcome is clearly separable from the proliferative signal produced by most receptor tyrosine
167       Together, our results suggest that Shh proliferative signaling promotes synthesis of regulatory
168 and Bcl-x(L), can be elevated only after the proliferative signal provided by Egr3 has subsided.
169 sponsive to both early activation events and proliferative signals provided via the TCR and 4-1BB.
170 JAK2V617F transgenic mice exhibited enhanced proliferative signals, relative resistance to cell death
171 y, TBX5c antagonizes TBX5a activation of pro-proliferative signals such as IGF-1, FGF-10, and BMP4.
172              By having shown previously that proliferative signals, such as epidermal growth factor (
173 king this sequence do not transmit effective proliferative signals, suggesting that this receptor fun
174 he cascade by IGF-IR may constitute a potent proliferative signaling system and is possibly a mechani
175  as well as providing granulosa cells with a proliferative signal that requires oocyte-somatic cell b
176 pon the LAM cell-metabolic reprogramming and proliferative signals that drive uncontrolled growth and
177 es (e.g. resisting cell death and sustaining proliferative signaling) that explain the biological cap
178 nic factor for activated T cells, delivers a proliferative signal through ligation of the heterotrime
179 itogenesis, mp110*ER enhanced Stat5-mediated proliferative signaling through a mechanism independent
180 o elucidate the molecular events involved in proliferative signaling through heterotrimeric G protein
181 ure T cells exhibit a diminished response to proliferative signals through CD3.
182  of mesenchyme FGF-10 requires an associated proliferative signal to induce bud migration.
183               GATA2 additionally conferred a proliferative signal to primitive erythroid progenitors.
184 e of the wound, suggesting that VEGF sends a proliferative signal to these cells.
185 that IL-7 provides potent anti-apoptotic and proliferative signals to early thymocyte progenitors.
186             PAEC-activated human DC provided proliferative signals to the naive autologous CD4+ T cel
187          Endothelial lesions trigger intense proliferative signals to the SMCs of the subintima, stim
188  newly described POX-mediated suppression of proliferative signaling together with the previously rep
189  ubiquitin ligase involved in attenuation of proliferative signals transduced by activated receptor t
190 ates a link between IR-induced activation of proliferative signal transduction pathways and enhanced
191 cal dose levels activates both pro- and anti-proliferative signal transduction pathways, the balance
192 have shown that these targeted inhibitors of proliferative signal transduction provide well-tolerated
193 odimer of h-erb-B-3-erb-B-2 was required for proliferative signal transduction to the nucleus.
194 mmatory signaling and PI3K-Akt-mTor survival/proliferative signaling underlies the transforming poten
195 way functions as a negative regulator of Ras proliferative signaling via a feedback mechanism.
196                                              Proliferative signaling via nicotinic acetylcholine rece
197                                   Studies of proliferative signaling via type 1 cytokine receptors ha
198 s, constitutes a conduit for transmission of proliferative signals via post-translational modificatio
199 ating factor-1 (CSF-1)-mediated survival and proliferative signaling, we compared the CSF-1 responses
200 s to the cytoplasm in response to stress and proliferative signals, where it stabilizes or modulates
201 elayed proliferation and lower activation of proliferative signals, which correlated with overactivat
202 HLA Abs and cytokines in the transduction of proliferative signals, which stimulate the development o
203 tween the insulin receptor, PI3'-kinase, and proliferative signaling while enhancing other signaling
204 ls (such as MCF7), require AP-1 to transduce proliferative signals, while other breast cancer cells (
205 roups is overactive RAS/ERK signaling, a pro-proliferative signal whose contributions to cell differe

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