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Gene/Protein
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Target Concepts:
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Query: UMLS:C0016632 (
Fox
)
1,461
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Inflammatory or allergic conditions, as well as situations where healing and repair processes occur, are characterized by the presence of increased numbers of mast cells. Previous work on the effect of neuropeptides on mast cell mediator release showed that only substance P caused such release from intestinal mucosal mast cells [Shanahan, F., Denburg, J. A.,
Fox
, J., Bienenstock, J. & Befus, A. D. (1985) J. Immunol. 135, 1331-1337]. Accordingly, we investigated the microanatomical relationship between mast cells and enteric nerves in normal rat intestine and parasite-infected rat intestine, in which mucosal mast cell hyperplasia occurs. Combined immunohistochemistry for neuron-specific enolase and staining with alcian blue at pH 0.5 was employed on paraffin-embedded sections of normal and Nippostrongylus brasiliensis-infected rat jejunum. Sixty-seven percent of intestinal mucosal mast cells were touching subepithelial nerves, and an additional 20% were within 2 micron of nerves. Assessment of the proportion of the lamina propria occupied by mast cells (12.5%), the average mast cell area (121 +/- 28 microns 2), and the density of enteric nerves (one per 788 +/- 151 microns 2) suggested that the association was 5 times greater than would be expected by chance alone (P less than 0.0001). In consecutive sections, the nerves in contact with mast cells were also shown to contain substance P and/or
calcitonin
-gene-related peptide. Electron microscopy confirmed this association: 8% of the mast cells in infected rats exhibited membrane-membrane contact with unmyelinated axons containing 70- to 170-nm dense-core vesicles, and an additional 31% were situated less than 250 nm from nerves. Other mast cells appeared to embrace nerve bundles through the projection of lamellopodia. These data provide systematic quantitative evidence that a structural foundation for communication between the immune and nervous systems exists in the rat gastrointestinal tract.
...
PMID:Intestinal mucosal mast cells in normal and nematode-infected rat intestines are in intimate contact with peptidergic nerves. 243 89
Although multiple regulatory elements and protein factors are known to regulate the non-neuronal pathway of alternative processing of the
calcitonin
/
calcitonin
gene-related peptide (CGRP) pre-mRNA, the mechanisms controlling the neuron-specific pathway have remained elusive. Here we report the identification of
Fox
-1 and Fox-2 proteins as novel regulators that mediate the neuron-specific splicing pattern.
Fox
-1 and Fox-2 proteins function to repress exon 4 inclusion, and this effect depends on two UGCAUG elements surrounding the 3' splice site of the
calcitonin
-specific exon 4. In neuron-like cells, mutation of a subset of UGCAUG elements promotes the non-neuronal pattern in which exon 4 is included. In HeLa cells, overexpression of
Fox
-1 or Fox-2 protein decreases exon 4 inclusion.
Fox
-1 and Fox-2 proteins interact with the UGCAUG elements specifically and regulate splicing by blocking U2AF(65) binding to the 3' splice site upstream of exon 4. We further investigated the inter-relationship between the UGCAUG silencer elements and the previously identified intronic and exonic splicing regulatory elements and found that exon 4 is regulated by an intricate balance of positive and negative regulation. These results define a critical role for
Fox
-1 and Fox-2 proteins in exon 4 inclusion of
calcitonin
/CGRP pre-mRNA and establish a regulatory network that controls the fate of exon 4.
...
PMID:Role for Fox-1/Fox-2 in mediating the neuronal pathway of calcitonin/calcitonin gene-related peptide alternative RNA processing. 1710 96
Precise and robust regulation of alternative splicing provides cells with an essential means of gene expression control. However, the mechanisms that ensure the tight control of tissue-specific alternative splicing are not well understood. It has been demonstrated that robust regulation often results from the contributions of multiple factors to one particular splicing pathway. We report here a novel strategy used by a single splicing regulator that blocks the formation of two distinct prespliceosome complexes to achieve efficient regulation.
Fox
-1/Fox-2 proteins, potent regulators of alternative splicing in the heart, skeletal muscle, and brain, repress
calcitonin
-specific splicing of the
calcitonin
/CGRP pre-mRNA. Using biochemical analysis, we found that
Fox
-1/Fox-2 proteins block prespliceosome complex formation at two distinct steps through binding to two functionally important UGCAUG elements. First,
Fox
-1/Fox-2 proteins bind to the intronic site to inhibit SF1-dependent E' complex formation. Second, these proteins bind to the exonic site to block the transition of E' complex that escaped the control of the intronic site to E complex. These studies provide evidence for the first example of regulated E' complex formation. The two-step repression of presplicing complexes by a single regulator provides a powerful and accurate regulatory strategy.
...
PMID:Repression of prespliceosome complex formation at two distinct steps by Fox-1/Fox-2 proteins. 1857 72
