Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
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Query: UMLS:C0030567 (
Parkinson's disease
)
63,064
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nursing interventions for each of the symptoms of
Parkinson's disease
, muscle rigidity, bradykinesia, tremors at rest and postural reflex abnormalities, are designed to increase the patient's quality of life by minimizing symptoms. Nurses are responsible for planning patient medication schedules to maximize drug effectiveness. Dietary implications include a low-protein regimen for the patient during the day, eliminating foods high in
Vitamin B6
, high caloric foods, and soft-solid foods offered at frequent feedings. Constipation is addressed by increasing the patient's fiber and fluid intake and by increasing the patient's mobility. Patient mobility is increased when the patient is taught purposeful activities and to concentrate on the way he walks. Communication is facilitated if the patient takes deep breaths before speaking and uses diaphragmatic speech. A telephone receiver which amplifies the patient's voice is also available. Interventions are good only if the patient chooses to implement them; he is the head of the health team planning his care.
...
PMID:Nursing care of patients with Parkinson's disease. 322 57
1. The majority of neurons in the striatum (caudate-putamen, dorsal striatum; nucleus accumbens, ventral striatum) and in striatal projection regions (the pallidum, the entopeduncular nucleus and substantia nigra reticulata) use gamma-aminobutyric acid (GABA) as transmitter and express glutamic acid decarboxylase (GAD; rate limiting enzyme) in the synthesis of GABA. GABA is the major inhibitory transmitter in the mammalian brain. 2. GAD in brain is present as two isoenzymes, GAD65 and GAD67. GAD65 is largely present as an inactive apoenzyme, which can be induced by nerve activity, while most GAD67 is present as a
pyridoxal phosphate
-bound permanently active holoenzyme. Thus GAD65 and GAD67 seem to provide a dual system for the control of neuronal GABA synthesis. 3. GAD mRNA expression can be visualised and quantified using in situ hybridisation, and GABA release can be quantified using in vivo microdialysis. 4. Different populations of GABA neurons can be distinguished in both dorsal and ventral striatum as well as in other parts of the basal ganglia. 5. Inhibition of dopaminergic transmission in the striatum by lesion of dopamine neurons or by neuroleptic treatment is followed by an increased release of GABA and increased expression of GAD67 mRNA in a subpopulation of striatal medium-sized neurons which project to the globus pallidus, and increased striatal GAD enzyme activity. 6. Increased dopaminergic transmission by repeated but not single doses of amphetamine is followed by decreased striatal GABA release and decreased GAD67 mRNA expression in a subpopulation of medium-sized neurons in the striatum. 7. Two populations of medium-sized GABA neurons in the striatum seem to be under tonic dopaminergic influence. The majority of these GABA neurons are under inhibitory influence, whereas a small number seem to be stimulated by dopamine. 8. Specific changes in activity in subpopulations of striatal GABA neurons probably mediate the dopamine-dependent hypokinetic syndrome seen in
Parkinson's disease
and following neuroleptic treatment.
...
PMID:Dopaminergic regulation of glutamic acid decarboxylase mRNA expression and GABA release in the striatum: a review. 827
Elevated plasma homocysteine is a risk factor for cardiovascular disease and Alzheimer's disease. To understand the factors that determine the plasma homocysteine level it is necessary to appreciate the processes that produce homocysteine and those that remove it. Homocysteine is produced as a result of methylation reactions. Of the many methyltransferases, two are, normally, of the greatest quantitative importance. These are guanidinoacetate methyltransferase (that produces creatine) and phosphatidylethanolamine N-methyltransferase (that produces phosphatidylcholine). In addition, methylation of DOPA in patients with
Parkinson's disease
leads to increased homocysteine production. Homocysteine is removed either by its irreversible conversion to cysteine (transsulfuration) or by remethylation to methionine. There are two separate remethylation reactions, catalyzed by betaine:homocysteine methyltransferase and methionine synthase, respectively. The reactions that remove homocysteine are very sensitive to B vitamin status as both the transsulfuration enzymes contain
pyridoxal phosphate
, while methionine synthase contains cobalamin and receives its methyl group from the folic acid one-carbon pool. There are also important genetic influences on homocysteine metabolism.
...
PMID:Methylation demand: a key determinant of homocysteine metabolism. 1521 38
Recent advances clarifying the pharmacology and interactions of irreversible nonselective monoamine oxidase inhibitors that have not been considered in depth lately are discussed. These new data elucidate aspects of enzyme inhibition and pharmacokinetic interactions involving amine oxidases, cytochrome P450 enzymes, aminotransferases (transaminases), and decarboxylases (carboxy-lyases) and the effects of tyramine. Phenelzine and tranylcypromine remain widely available, and many publications have data relevant to this review. Their effect on CYP 450 enzymes is less than many newer drugs. Tranylcypromine only inhibits CYP 450 2A6 (selectively and potently). Phenelzine has no reported interactions, but, like isoniazid, weakly and irreversibly inhibits CYP 450 2C19 and 3A4 in vitro. It might possibly be implicated in interactions (as isoniazid is). Phenelzine has some clinically relevant inhibitory effects on amine oxidases, aminotransferases, and decarboxylases, and it lowers
pyridoxal phosphate
levels. It commonly causes pyridoxal deficiency, weight gain, sedation, and sexual dysfunction, but only rarely causes hepatic damage and failure, or neurotoxicity. The adverse effects and difficulties with monoamine oxidase inhibitors are less than previously believed or estimated, including a lower risk of hypertension, because the tyramine content in foods is now lower. Potent norepinephrine reuptake inhibitors have a strong protective effect against tyramine-induced hypertension. The newly discovered trace amine-associated receptors probably mediate the pressor response. The therapeutic potential of tranylcypromine and L-dopa in depression and
Parkinson disease
is worthy of reassessment. Monoamine oxidase inhibitors are not used to an extent proportionate with their benefits; medical texts and doctors' knowledge require a major update to reflect the evidence of recent advances.
...
PMID:Advances pertaining to the pharmacology and interactions of irreversible nonselective monoamine oxidase inhibitors. 2119 46
Depression is characterized by sadness, purposelessness, irritability, and impaired body functions. Depression causes severe symptoms for several weeks, and dysthymia, which may cause chronic, low-grade symptoms. Treatment of depression involves psychotherapy, medications, or phototherapy. Clinical and experimental evidence indicates that an appropriate diet can reduce symptoms of depression. The neurotransmitter, serotonin (5-HT), synthesized in the brain, plays an important role in mood alleviation, satiety, and sleep regulation. Although certain fruits and vegetables are rich in 5-HT, it is not easily accessible to the CNS due to blood brain barrier. However the serotonin precursor, tryptophan, can readily pass through the blood brain barrier. Tryptophan is converted to 5-HT by tryptophan hydroxylase and 5-HTP decarboxylase, respectively, in the presence of
pyridoxal phosphate
, derived from vitamin B(6). Hence diets poor in tryptophan may induce depression as this essential amino acid is not naturally abundant even in protein-rich foods. Tryptophan-rich diet is important in patients susceptible to depression such as certain females during pre and postmenstrual phase, post-traumatic stress disorder, chronic pain, cancer, epilepsy,
Parkinson's disease
, Alzheimer's disease, schizophrenia, and drug addiction. Carbohydrate-rich diet triggers insulin response to enhance the bioavailability of tryptophan in the CNS which is responsible for increased craving of carbohydrate diets. Although serotonin reuptake inhibitors (SSRIs) are prescribed to obese patients with depressive symptoms, these agents are incapable of precisely regulating the CNS serotonin and may cause life-threatening adverse effects in the presence of monoamine oxidase inhibitors. However, CNS serotonin synthesis can be controlled by proper intake of tryptophan-rich diet. This report highlights the clinical significance of tryptophan-rich diet and vitamin B(6) to boost serotonergic neurotransmission in depression observed in various neurodegenerative diseases. However pharmacological interventions to modulate serotonergic neurotransmission in depression, remains clinically significant. Depression may involve several other molecular mechanisms as discussed briefly in this report.
...
PMID:Effect of diet on serotonergic neurotransmission in depression. 2330 10
With the huge negative impact of neurological disorders on patient's life and society resources, the discovery of neuroprotective agents is critical and cost-effective. Neuroprotective agents can prevent and/or modify the course of neurological disorders. Despite being underestimated, riboflavin offers neuroprotective mechanisms. Significant pathogenesis-related mechanisms are shared by, but not restricted to,
Parkinson's disease
(PD) and migraine headache. Those pathogenesis-related mechanisms can be tackled through riboflavin proposed neuroprotective mechanisms. In fact, it has been found that riboflavin ameliorates oxidative stress, mitochondrial dysfunction, neuroinflammation, and glutamate excitotoxicity; all of which take part in the pathogenesis of PD, migraine headache, and other neurological disorders. In addition, riboflavin-dependent enzymes have essential roles in pyridoxine activation, tryptophan-kynurenine pathway, and homocysteine metabolism. Indeed,
pyridoxal phosphate
, the active form of pyridoxine, has been found to have independent neuroprotective potential. Also, the produced kynurenines influence glutamate receptors and its consequent excitotoxicity. In addition, methylenetetrahydrofolate reductase requires riboflavin to ensure normal folate cycle influencing the methylation cycle and consequently homocysteine levels which have its own negative neurovascular consequences if accumulated. In conclusion, riboflavin is a potential neuroprotective agent affecting a wide range of neurological disorders exemplified by PD, a disorder of neurodegeneration, and migraine headache, a disorder of pain. In this article, we will emphasize the role of riboflavin in neuroprotection elaborating on its proposed neuroprotective mechanisms in opposite to the pathogenesis-related mechanisms involved in two common neurological disorders, PD and migraine headache, as well as, we encourage the clinical evaluation of riboflavin in PD and migraine headache patients in the future.
...
PMID:Riboflavin Has Neuroprotective Potential: Focus on Parkinson's Disease and Migraine. 2877 6
The human gut microbiota metabolizes the
Parkinson's disease
medication Levodopa (l-dopa), potentially reducing drug availability and causing side effects. However, the organisms, genes, and enzymes responsible for this activity in patients and their susceptibility to inhibition by host-targeted drugs are unknown. Here, we describe an interspecies pathway for gut bacterial l-dopa metabolism. Conversion of l-dopa to dopamine by a
pyridoxal phosphate
-dependent tyrosine decarboxylase from
Enterococcus faecalis
is followed by transformation of dopamine to
m
-tyramine by a molybdenum-dependent dehydroxylase from
Eggerthella lenta
These enzymes predict drug metabolism in complex human gut microbiotas. Although a drug that targets host aromatic amino acid decarboxylase does not prevent gut microbial l-dopa decarboxylation, we identified a compound that inhibits this activity in Parkinson's patient microbiotas and increases l-dopa bioavailability in mice.
...
PMID:Discovery and inhibition of an interspecies gut bacterial pathway for Levodopa metabolism. 3144 4
