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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the chick embryo, luteinizing hormone-releasing hormone (LHRH) neurons originate in the olfactory placode and migrate along the olfactory nerve to the forebrain. In previous studies, we demonstrated that LHRH neurons followed the trigeminal nerve when the olfactory nerve was physically interrupted. To examine whether LHRH neurons possess the capacity to migrate along the different type of axons, the olfactory placode was transplanted into the base of the forelimb. Three to five days after the transplantation, LHRH neurons were detectable in the spinal nerve, the dorsal root ganglion, the sympathetic ganglion and the spinal cord. Double or triple labelling studies for LHRH,
somatostatin
and/or
axonin-1
showed that LHRH neurons entered the spinal nerve in contact with the olfactory axons, which are specifically immunoreactive to
somatostatin
. Migrating LHRH neurons continued to associate closely with the olfactory axons in the spinal nerve. However, some LHRH neurons often migrated along with the
axonin-1
positive spinal sensory axons, maintaining a distance from the olfactory axons. Furthermore, a few LHRH neurons were observed in the ventral root and the ventral funiculus independent of olfactory axons. As LHRH neurons were observed in the motor component of the spinal nerve, it is probable that LHRH neurons also invaded the spinal cord using the motor axons as a guiding substrate for their migration. These results suggest that the migration mode of LHRH neurons is axon dependent in the peripheral region, however, chemical identity with regard to axonal substrate choice for migration was not specified in the present study.
...
PMID:Migration of LHRH neurons into the spinal cord: evidence for axon-dependent migration from the transplanted chick olfactory placode. 1227 44
Activity-dependent Ca2+ influx into neurones and the subsequent changes in gene expression are thought to be important in shaping neuronal development. In this study, we investigated whether an important mediator of neuronal migration,
somatostatin
(Srif), alongside its receptors, is controlled in this manner in cerebellar granule cells. We show that Ca2+ influx increases the expression of
somatostatin
mRNA (srif), while somatostatin receptor 2 (sst2) mRNA expression is decreased. Both genes appear to be regulated independently of each other and in a calcineurin-dependent manner that does not depend on either the ERK1/2 MAP kinase or the cAMP/CREB pathway. Nonetheless, a second pathway is required to induce changes in srif and sst2 expression, since constitutively active calcineurin alone is not sufficient to induce these changes. Furthermore, calcineurin activation reciprocally regulates the expression of brain-derived neurotrophic factor, bdnf, and its receptor trkb, which have also been shown to play a role in neuronal migration. Finally, calcineurin appears to control the expression of the neuronal marker
transient axonal glycoprotein 1
, tag-1, thereby strongly suggesting that calcineurin activation in vivo occurs during the late stages of neuronal migration, possibly during synaptogenesis with mossy fibres. We therefore propose that calcineurin might play an important role as a switch between transcriptional programs during neuronal development.
...
PMID:Somatostatin and the somatostatin receptor 2 are reciprocally controlled by calcineurin during cerebellar granule cell maturation. 1600 Jan 55
