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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Although CREB seems to be important for memory formation, it is not known which of the isoforms of CREB, CREM, or ATF1 are expressed in the neurons that undergo long-term synaptic changes and what roles they have in memory formation. We have found a single
Aplysia
CREB1 gene homologous to both mammalian CREB and CREM and have characterized in the sensory neurons that mediate gill-withdrawal reflex the expression and function of the three proteins that it encodes: CREB1a, CREB1b, and CREB1c. CREB1a is a
transcriptional activator
that is both necessary and, upon phosphorylation, sufficient for long-term facilitation. CREB1b is a repressor of long-term facilitation. Cytoplasmic CREB1c modulates both the short- and long-term facilitation. Thus, in the sensory neurons, CREB1 encodes a critical regulatory unit converting short- to long-term synaptic changes.
...
PMID:CREB1 encodes a nuclear activator, a repressor, and a cytoplasmic modulator that form a regulatory unit critical for long-term facilitation. 979 May 28
In
Aplysia
, long-term synaptic plasticity is induced by serotonin (5-HT) or neural activity and requires gene expression. Here, we demonstrate that ApLLP, a novel nucleolus protein, is critically involved in both long-term facilitation (LTF) and behavioral sensitization. Membrane depolarization induced ApLLP expression, which activated ApC/EBP expression through a direct binding to CRE. LTF was produced by a single pulse of 5-HT 30 min after the membrane depolarization. This LTF was blocked when either ApLLP or ApC/EBP were blocked by specific antibodies. In contrast, ApLLP overexpression induced LTF in response to a single 5-HT treatment. Simultaneously, a siphon noxious stimulus (SNS) to intact
Aplysia
induced ApLLP and ApC/EBP expression, and single tail shock 30 min after SNS transformed short-term sensitization to long-term sensitization of siphon withdrawal reflex. These results suggest that ApLLP is an activity-dependent
transcriptional activator
that switches short-term facilitation to long-term facilitation.
...
PMID:A nucleolar protein ApLLP induces ApC/EBP expression required for long-term synaptic facilitation in aplysia neurons. 1650 38
Transforming growth factor beta-1 (TGF-beta1) plays important roles in the early development of the nervous system and has been implicated in neuronal plasticity in adult organisms. It induces long-term increases in sensory neuron excitability in
Aplysia
as well as a long-term enhancement of synaptic efficacy at sensorimotor synapses. In addition, TGF-beta1 acutely regulates synapsin phosphorylation and reduces synaptic depression induced by low-frequency stimuli. Because of the critical role of MAPK in other forms of long-term plasticity in
Aplysia
, we examined the role of MAPK in TGF-beta1-induced long-term changes in neuronal excitability. Prolonged (6 h) exposure to TGF-beta1 induced long-term increases in excitability. We confirmed this finding and now report that exposure to TGF-beta1 was sufficient to activate MAPK and increase nuclear levels of active MAPK. Moreover, TGF-beta1 enhanced phosphorylation of the
Aplysia
transcriptional activator
cAMP response element binding protein (CREB)1, a homologue to vertebrate CREB. Both the TGF-beta1-induced long-term changes in neuronal excitability and the phosphorylation of CREB1 were blocked in the presence of an inhibitor of the MAPK cascade, confirming a role for MAPK in long-term modulation of sensory neuron function.
...
PMID:TGF-beta1-induced long-term changes in neuronal excitability in aplysia sensory neurons depend on MAPK. 1661 79
Steroid hormones such as estrogens and androgens are important regulators of reproduction, physiology, and development in a variety of animal taxa, including vertebrates and mollusks. Steroid hormone receptors, which mediate the classic cellular responses to these hormones, were thought to be vertebrate specific, which left the molecular mechanisms of steroid action in invertebrates unresolved. Recently an estrogen receptor (ER) ortholog was isolated from the sea hare
Aplysia
californica, but the functional significance of the receptor was unclear because estrogens and other steroids are not known to be important in that species. Furthermore, the
Aplysia
ER was found to be a constitutive
transcriptional activator
, but it was unclear whether the estrogen independence of the ER was an
Aplysia
-specific novelty or a more ancient character general to the mollusks. Here we report on the isolation and functional characterization of the first ER ortholog from an invertebrate in which estrogens are produced and play an apparent role, the cephalopod Octopus vulgaris. We show that the Octopus ER is a strong constitutive
transcriptional activator
from canonical estrogen response elements. The receptor does not bind estradiol and is unresponsive to estrogens and other vertebrate steroid hormones. These characteristics are similar to those observed with the
Aplysia
ER and support the hypothesis that the evolving ER gained constitutive activity deep in the mollusk lineage. The apparent reproductive role of estrogens in Octopus and other mollusks is unlikely to be mediated by the ER and may take place through an ancient, non-ER-mediated pathway.
...
PMID:The Octopus vulgaris estrogen receptor is a constitutive transcriptional activator: evolutionary and functional implications. 1669 Jul 96
A novel
Aplysia
nucleolar protein ApLLP has been recently characterized to be a
transcriptional activator
that binds to the cAMP-response element (CRE) and thus induces ApC/EBP expression required for establishing long-term memory. So far, no structural information is available for both ApLLP and its homologs. Here, we expressed the entire ApLLP and its two dissected fragments, followed by structural and binding studies using CD and NMR spectroscopy. The study leads to two interesting findings: (1) all three ApLLP proteins are highly disordered, owning no predominant secondary and tertiary structures; (2) ApLLP is capable of binding the CRE DNA element but this induces no significant change in its secondary and tertiary structures. Intriguingly, it appears that the DNA-binding residues are mainly located on the C-half of the ApLLP molecule. Taken together, our results define ApLLP as an intrinsically unstructured protein and may bear important implications in understanding the molecular mechanism underlying ApLLP functions.
...
PMID:A novel nucleolar transcriptional activator ApLLP for long-term memory formation is intrinsically unstructured but functionally active. 1807 11
Accumulating evidence suggests that the
transcriptional activator
cAMP response element-binding protein 1 (CREB1) is important for serotonin (5-HT)-induced long-term facilitation (LTF) of the sensorimotor synapse in
Aplysia
. Moreover, creb1 is among the genes activated by CREB1, suggesting a role for this protein beyond the induction phase of LTF. The time course of the requirement for CREB1 synthesis in the consolidation of long-term facilitation was examined using RNA interference techniques in sensorimotor cocultures. Injection of CREB1 small-interfering RNA (siRNA) immediately or 10 h after 5-HT treatment blocked LTF when measured at 24 and 48 h after treatment. In contrast, CREB1 siRNA did not block LTF when injected 16 h after 5-HT treatment. These results demonstrate that creb1 expression must be sustained for a relatively long time to support the consolidation of LTF. In addition, LTF is also accompanied by a long-term increase in the excitability (LTE) of sensory neurons (SNs). Because LTE was observed in the isolated SN after 5-HT treatment, this long-term change was intrinsic to that element of the circuit. LTE was blocked when CREB1 siRNA was injected into isolated SNs immediately after 5-HT treatment. These data suggest that 5-HT-induced CREB1 synthesis is required for consolidation of both LTF and LTE.
...
PMID:The requirement for enhanced CREB1 expression in consolidation of long-term synaptic facilitation and long-term excitability in sensory neurons of Aplysia. 2154 17
Serotonin (5-HT)-induced long-term facilitation (LTF) of the
Aplysia
sensorimotor synapse depends on enhanced gene expression and protein synthesis, but identification of the genes whose expression and regulation are necessary for LTF remains incomplete. In this study, we found that one such gene is synapsin, which encodes a synaptic vesicle-associated protein known to regulate short-term synaptic plasticity. Both synapsin mRNA and protein levels were increased by 5-HT. Upregulation of synapsin protein occurred in presynaptic sensory neurons at neurotransmitter release sites. To investigate the molecular mechanisms underlying synapsin regulation, we cloned the promoter region of
Aplysia
synapsin, and found that the synapsin promoter contained a cAMP response element (CRE), raising the possibility that the
transcriptional activator
CRE-binding protein 1 (CREB1) mediates 5-HT-induced regulation of synapsin. Indeed, binding of CREB1 to the synapsin promoter was increased following treatment with 5-HT. Furthermore, increased acetylation of histones H3 and H4 and decreased association of histone deacetylase 5 near the CRE site are consistent with transcriptional activation by CREB1. RNA interference (RNAi) targeting synapsin mRNA blocked the 5-HT-induced increase in synapsin protein levels and LTF; in the absence of 5-HT treatment, basal synapsin levels were unaffected. These results indicate that the 5-HT-induced regulation of synapsin levels is necessary for LTF and that this regulation is part of the cascade of synaptic events involved in the consolidation of memory.
...
PMID:Serotonin-mediated synapsin expression is necessary for long-term facilitation of the Aplysia sensorimotor synapse. 2217 Oct 42
