Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P01350 (
gastrin
)
9,683
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Biochemical assays on microdissected samples, denervation studies, subcellular fractionation, and light and electron microscopic autoradiography of high affinity uptake have been performed to study the cellular localization of transmitter candidates in the rat hippocampal formation. High affinity uptake of glutamate and aspartate is localized in the terminals of several excitatory systems, such as the entorhino-dentate fibres (perforant path), mossy fibres (from granular cells) and pyramidal cell axons. Thus, in stratum radiatum and oriens of CA1, 85% of glutamate and asparate uptake and 40% of glutamate and aspartate content are lost after lesions of ipsilateral plus commissural fibres from CA3/CA4. Hippocampal efferents also take up aspartate and glutamate, since these activities are heavily reduced in the lateral septum and mamillary bodies after transection of fimbria and the dorsal fornix. The synthesis (by
glutamic acid decarboxylase
), content and high affinity uptake of gamma-aminobutyrate (GABA) are not reduced after lesions of these or other projection fibre systems. A localization in intrinsic neurons is confirmed by a selective loss of
glutamic acid decarboxylase
after local injections of kainic acid. Peak concentrations of the enzyme occur near the pyramidal and granular cell bodies, corresponding to the site of the inhibitory basket cell terminals, and in the outer parts of the molecular layers. Some 85% of
glutamic acid decarboxylase
is situated in 'nerve ending particles'. Acetylcholine synthesis (by choline acetyltransferase) disappears after lesions of septo-hippocampal fibres. Since 80% of the hippocampal choline acetyltransferase is in 'nerve ending particles', the characteristic topographical distribution of this enzyme should reflect the distribution of cholinergic septo-hippocampal afferents. Serotonin, noradrenaline, dopamine and histamine are located/synthesized in afferent fibre systems. Some monoamine-containing afferents to the hippocampal formation pass via the septal area, others via the amygdala. The hippocampal formation also contains nerve elements reacting with antibodies against neuroactive peptides, such as enkephalin, substance P, somatostatin and
gastrin
/cholecystokinin.
...
PMID:Localization of putative transmitters in the hippocampal formation: with a note on the connections to septum and hypothalamus. 3 19
gamma-Aminobutyric acid (GABA) is regarded as the major inhibitory neurotransmitter in the central nervous system of vertebrates. GABA exerts its inhibitory actions by interacting with specific receptors on pre- and postsynaptic membranes and has been shown to inhibit somatostatin release from hypothalamic neurones in vitro. Concepts of innervation of the gastrointestinal tract have been expanded by recent studies which suggest that GABAergic neurones are not confined solely to the central nervous system but may also exist in the vertebrate peripheral autonomic nervous system. Jessen and coworkers have demonstrated the presence, synthesis and uptake of GABA by the myenteric plexus of the guinea pig taenia coli, and have documented the presence of
glutamic acid decarboxylase
(
GAD
) in isolated myenteric plexus. This enzyme is responsible for the conversion of glutamic acid to GABA in GABAergic neurones. The possibility that GABA may have a role in neurotransmission or neuromodulation in the enteric nervous system of the vertebrate gut has been suggested by several investigators. Furthermore, GABA receptors have been demonstrated on elements of the enteric nervous system. The effects of GABA on gastrointestinal endocrine cell function have not been examined. We report here the effects of GABA on
gastrin
and somatostatin release from isolated rat antral mucosa in short-term in vitro incubations.
...
PMID:GABA affects the release of gastrin and somatostatin from rat antral mucosa. 613 39
Autoimmune polyglandular syndrome by definition consists of two or more endocrinological insufficiencies or two organ specific autoimmune diseases. There are no stringent criteria for endocrinological evaluation of patients with one endocrine insufficiency. However, detailed endocrinological evaluation should be undertaken in patients with two autoimmune diseases. Additionally, follow up thereafter should be a must in these patients in order to avoid the possibility of not diagnosing subsequent autoimmune diseases that can occur. The aim of this case report is to point to the necessity of endocrinological screening to be made in patients presenting with gastric carcinoid type 1. We report on a 62-year-old woman who was diagnosed with primary hypothyroidism in 1993. In 2011, she was re-admitted to the hospital due to increasing fatigue. Macrocytic anemia, low vitamin B12 levels and positive parietal antibodies confirmed pernicious anemia. Furthermore, she underwent gastroscopy, which revealed two polyps in the corpus of the stomach and one in the fornix. Endoscopic mucosal resection was performed and histopathologic analysis confirmed three G1 gastric carcinoids (Ki67 2%). Additional endocrinological evaluation disclosed positive
glutamic acid decarboxylase
antibodies, but normal fasting and postprandial glucose and HbA1c. In 2013, she was diagnosed with glucose intolerance and subsequently with latent autoimmune diabetes of adulthood. Plasma glucose and HbA1c normalized after dietary intervention. Due to the increase of serum chromogranin A, prophylactic antrectomy was performed in 2014. The patient is still followed-up and has normal chromogranin A,
gastrin
and HbA1c levels.
...
PMID:GASTRIC CARCINOID TYPE 1 IN A PATIENT WITH AUTOIMMUNE POLYGLANDULAR SYNDROME: ADDITIONAL ENDOCRINOLOGICAL EVALUATION REQUIRED. 2701 30
