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Query: UMLS:C0033377 (
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11,717
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In the rat, systemic administration of murine monoclonal antibodies against acetylcholinesterase caused rapid piloerection and
ptosis
(within 30-60 min after the injection). Using indirect immunohistochemistry the effect of these antibodies on peptides and enzyme expression was studied in the rat adrenal gland. Four days after antibody administration a total disappearance of acetylcholinesterase-immunoreactive fibers was observed. However, groups of acetylcholinesterase-immunoreactive chromaffin cells and intramedullary ganglion cells, both cell types showing acetylcholinesterase immunoreactivity also in the control adrenal medulla, expressed increased immunoreactivity. Analysis revealed that the acetylcholinesterase-immunoreactive chromaffin cell groups lacked phenylethanolamine-N-methyltransferase staining both in controls and treated rats. Antibody administration also affected levels of several peptides present in nerve fibers and chromaffin cells. Thus, the number of cells expressing enkephalin, calcitonin gene-related peptide and galanin was dramatically increased compared to the very few cells observed containing these three peptides in the normal gland. The majority of cells expressing enkephalin after antibody treatment also showed phenylethanolamine-N-methyltransferase immunoreactivity. In contrast, the few chromaffin cells expressing strong enkephalin-like immunoreactivity in controls were phenylethanolamine-N-methyltransferase negative. The sparse networks of calcitonin gene-related peptide- and galanin-positive fibers found in control adrenals were unchanged after the antibody treatment. However, the dense network of enkephalin varicose fibers totally disappeared after the antibody injection. A few substance P- and somatostatin-immunoreactive cells, not present in the normal gland, appeared after administration of the antibodies, whereas no changes were encountered with regard to immunoreactive nerve fibers. No clear differences between normal and treated animals could be observed in chromaffin cells with regard to immunoreactivity for neuropeptide Y or any of the four catecholamine-synthesizing enzymes, tyrosine hydroxylase, aromatic 1-amino acid decarboxylase,
dopamine beta-hydroxylase
or phenylethanolamine-N-methyltransferase. The present findings demonstrating a disappearance of acetylcholinesterase- and enkephalin-immunoreactive nerve fibers in the adrenal gland after intravenous injection of acetylcholinesterase antibodies support earlier reports showing that these antibodies cause degeneration of preganglionic fibers, and that neuronal decentralization of the adrenal gland induces marked increases in the levels of several peptides in chromaffin cells.
...
PMID:Effects of antibodies against acetylcholinesterase on the expression of peptides and catecholamine synthesizing enzymes in the rat adrenal gland. 810 82
Mice with a targeted disruption of the
dopamine beta-hydroxylase
(
DBH
) gene are unable to synthesize norepinephrine (NE) and epinephrine. These mice have elevated levels of dopamine in most tissues, although the levels are only a fraction of those normally found for NE. It is noteworthy that NE can be restored to normal levels in many tissues after a single injection of the synthetic amino acid precursor of NE, L-threo-3,4-dihydroxyphenylserine (DOPS). In other tissues, NE can be restored to normal levels after multiple injections of DOPS, whereas in the midbrain and cerebellum, restoration of NE is limited to 25-30% of normal. NE levels typically peak approximately 5 h after DOPS administration and are undetectable by 48 h. Epinephrine levels are more difficult to restore. The elevated levels of dopamine fall modestly after injection of DOPS. S(-)-Carbidopa, which does not cross the blood-brain barrier, inhibits aromatic L-amino acid decarboxylase and effectively prevents restoration of NE by DOPS in the periphery, while allowing restoration in the CNS.
Ptosis
and reductions in male fertility, hind-limb extension, postdecapitation convulsions, and uncoupling protein expression in
dopamine beta-hydroxylase
-deficient mice are all reversed by DOPS injection.
...
PMID:Restoration of norepinephrine and reversal of phenotypes in mice lacking dopamine beta-hydroxylase. 960 11
Norepinephrine (NE), a vital neurotransmitter in both the central and peripheral nervous systems, is synthesized by
dopamine beta-hydroxylase
(
DBH
) through the oxidation of dopamine (DA) to NE.
DBH
deficiency is a congenital disorder characterized by severe orthostatic hypotension,
ptosis
, and retrograde ejaculation. Biochemical features of the syndrome include elevated levels of dopamine, undetectable levels of
DBH
, undetectable tissue and circulating levels of NE and epinephrine. Molecular genetic analysis studies suggested that
DBH
deficiency is a Mendelian recessive disorder attributable to heterogenous mutations at the
DBH
locus.
DBH
deficiency has been treated effectively with L-threo-3,4-dihydroxyphenylserine (DOPS). DOPS is converted directly to NE through decarboxylation by L-aromatic amino acid decarboxylase (AADC), thereby bypassing
DBH
. Orthostatic intolerance is a syndrome characterized by lightheadedness, fatigue, altered mentation, syncope, and postural tachycardia. Biochemical features may include plasma NE concentration that is disproportionately high in relation to sympathetic outflow, decreased NE clearance with standing, resistance to the NE-releasing effect of tyramine, and increased sensitivity to adrenergic agonists. A subset of OI patients has pathophysiologic features that have been associated with a genetic polymorphism. The coding mutation, A457P, occurs in one of the alleles of norepinephrine transporter gene of a proband with OI and her family. Alpha-methyl dopa, beta blockers and clonidine, a partial agonist of alpha2-adrenoceptor that acts centrally to reduce sympathetic outflow and lower blood pressure, have been effective in the treatment of this condition. The identification of the genetic polymorphisms involved in the synthesis, transport, storage, and metabolism of the catecholamines may provide new insights into the diagnosis and management of autonomic, cardiovascular, endocrine and psychiatric disorders.
...
PMID:The broader view: catecholamine abnormalities. 1210 62
